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首圖公告(開)號KindCode公告(開)日名稱專利類型申請號申請日摘要申請範圍1申請範圍申請人申請人國家/地區申請人地址專利權人專利權人國家/地區專利權人地址現專利權人現專利權人國家/地區現專利權人地址主IPCIPCIPC 3 階數IPC 4 階數LOC主CPCCPC現CPC主UPCUPCFI優先權優先權日優先權國家/地區發明人發明人數發明人國家/地區發明人地址專利代理人專利代理人地址公告卷號公告期數主審查人審查人員國內引證資料國內引證資料數國外引證資料國外引證資料數其他參考文獻專利年齡被引證數專利家族專利家族數專利家族國家數證書號公開號公開日申請人英文姓名專利生命值標準化專利權人法律狀態讓與註記撤銷日期授權註記專利權始日專利權止日異議註記舉發註記質權註記繼承註記信託註記年費有效年年費有效日消滅日期
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WO2024249099A12024-12-05RIVET NUTinventionUS20240297312024-05-16An apparatus providing mating alignment between internal threading of a rivet nut and the external threading of the mandrel of an unclaimed installation tool before anchoring the rivet nut in a hole in a substrate, or the external threading of an unclaimed threaded fastener after anchoring in the substrate hole. The improvements include a bushing sleeve seated in a counterbore in the rivet nut, for guiding the external threading of the mandrel or fastener to the internal threading of the rivet nut. The sleeve also enables play during upset of the rivet nut, and provides visual confirmation whether the rivet nut has been properly anchored in the hole of substrate.Claims 1. An apparatus providing mating alignment between internal threading of a rivet nut and the external threading of the mandrel of an unclaimed rivet nut installation tool before anchoring the rivet nut in a hole in a substrate having a thickness, or the external threading of an unclaimed threaded fastener after anchoring in the substrate hole (collectively the “mating member”), the apparatus comprising: (a) a rivet nut comprising an insertion portion having an external diameter sized for close insertion into the substrate hole and having an internal diameter having internal threading defining an essentially cylindrical mating chamber, and a trailing portion comprising a trailing end having an essentially circular opening having a circumference defined by an internal wall defining an essentially cylindrical cavity spanning at least the substrate thickness and leading to said mating chamber, the mating chamber having an internal diameter smaller than that of said opening and cavity; and (b) a bushing sleeve having a maximum outer diameter sized for snug insertion and retention within said cavity and having an inner diameter sized to guide the external threading of the mating member into optimally aligned rotational mating with said internal threading of the mating chamber. 2. An apparatus described in claim 1 hereinabove, wherein the inner diameter of the sleeve is larger than the diameter of the internal threading defining the mating chamber of the insertion portion. 3. An apparatus described in claim 1 hereinabove, the sleeve having an inner diameter in the range of between about 0.0015 inch to about 0.0025 inch larger than the outer diameter of the mating member. 4. An apparatus described in claim 1 hereinabove, the sleeve further comprising a first end having annular beveling reducing the outer diameter of that end to smaller than the maximum outer diameter of the sleeve and facilitating snug insertion into the cavity. 5. An apparatus described in claim 4 hereinabove, the sleeve further comprising a first annular band section adjacent the first end beveling and having an outer diameter larger than that of the first end beveling but smaller than the maximum outer diameter of the sleeve, and facilitating

snug insertion of the sleeve into the cavity. 6. An apparatus described in claim 5 hereinabove, the sleeve further comprising a second end having annular beveling reducing the outer diameter of that end to smaller than the maximum outer diameter of the sleeve and enabling either the first end or the second end to facilitate snug insertion into the cavity. 7. An apparatus described in claim 6 hereinabove, the sleeve further comprising a second annular band section adjacent the second end beveling and having an outer diameter larger than that of the second end beveling but smaller than the maximum outer diameter of the sleeve, and enabling either the first end or the second end to facilitate snug insertion into the cavity. 8. An apparatus ...		-->Claims 1. An apparatus providing mating alignment between internal threading of a rivet nut and the external threading of the mandrel of an unclaimed rivet nut installation tool before anchoring the rivet nut in a hole in a substrate having a thickness, or the external threading of an unclaimed threaded fastener after anchoring in the substrate hole (collectively the “mating member”), the apparatus comprising: (a) a rivet nut comprising an insertion portion having an external diameter sized for close insertion into the substrate hole and having an internal diameter having internal threading defining an essentially cylindrical mating chamber, and a trailing portion comprising a trailing end having an essentially circular opening having a circumference defined by an internal wall defining an essentially cylindrical cavity spanning at least the substrate thickness and leading to said mating chamber, the mating chamber having an internal diameter smaller than that of said opening and cavity; and (b) a bushing sleeve having a maximum outer diameter sized for snug insertion and retention within said cavity and having an inner diameter sized to guide the external threading of the mating member into optimally aligned rotational mating with said internal threading of the mating chamber. 2. An apparatus described in claim 1 hereinabove, wherein the inner diameter of the sleeve is larger than the diameter of the internal threading defining the mating chamber of the insertion portion. 3. An apparatus described in claim 1 hereinabove, the sleeve having an inner diameter in the range of between about 0.0015 inch to about 0.0025 inch larger than the outer diameter of the mating member. 4. An apparatus described in claim 1 hereinabove, the sleeve further comprising a first end having annular beveling reducing the outer diameter of that end to smaller than the maximum outer diameter of the sleeve and facilitating snug insertion into the cavity. 5. An apparatus described in claim 4 hereinabove, the sleeve further comprising a first annular band section adjacent the first end beveling and having an outer diameter larger than that of the first end beveling but smaller than the maximum outer diameter of the sleeve, and facilitating
-->
snug insertion of the sleeve into the cavity. 6. An apparatus described in claim 5 hereinabove, the sleeve further comprising a second end having annular beveling reducing the outer diameter of that end to smaller than the maximum outer diameter of the sleeve and enabling either the first end or the second end to facilitate snug insertion into the cavity. 7. An apparatus described in claim 6 hereinabove, the sleeve further comprising a second annular band section adjacent the second end beveling and having an outer diameter larger than that of the second end beveling but smaller than the maximum outer diameter of the sleeve, and enabling either the first end or the second end to facilitate snug insertion into the cavity. 8. An appa...		ARKANSAS BOLT CO., INC.US2701 W. Roosevelt Road,Little Rock, AR 72203,72203,USARKANSAS BOLT CO., INC.US----F16B037/06F16B037/0611--------18/202,744
18/522,841		2023-05-26
2023-11-29		USROOSE, Jeffrey, T.
HASTINGS, Harry, Lee		2US1607 East Big Beaver 105,Troy, MI 48083,48083,US
2701 W. Roosevelt Road,Little Rock, AR 72203,72203,US		CALHOUN, Joe, D.Calhoun Law Firm,P.O. Box 251504,Little Rock, AR 72224-1504,72224-1504,US-----0-0-00-00-WO20242490992024-12-0520ARKANSAS BOLT CO., INC.-------------
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TW202447094A2024-12-01改良的鉚合螺帽invention1131033522024-01-29本發明揭示一種裝置,其在將一鉚合螺帽錨定於一基板中之一孔中之前提供該鉚合螺帽之內部螺紋與一未主張安裝工具之心軸之外部螺紋之間的配合對準,或在錨定於該基板孔中之後提供該鉚合螺帽之內部螺紋與一未主張螺紋緊固件之外部螺紋之間的配合對準。本發明之改良包含座落於該鉚合螺帽之一埋頭孔中之一襯套套筒,用於將該心軸或緊固件之該外部螺紋導引至該鉚合螺帽之該內部螺紋。該套筒亦在該鉚合螺帽之鐓粗(upset)期間實現活動間隙,且提供該鉚合螺帽是否已適當地錨定於基板之該孔中之視覺確認。一種裝置,其在將一鉚合螺帽錨定於具有一厚度之一基板中之一孔中之前提供該鉚合螺帽之內部螺紋與一未主張鉚合螺帽安裝工具之心軸之外部螺紋之間的配合對準,或在錨定於該基板孔中之後提供該鉚合螺帽之該內部螺紋與一未主張螺紋緊固件之外部螺紋之間的配合對準(統稱為「配合部件」),該裝置包括(a)一鉚合螺帽,其包括一插入部分,該插入部分具有經定大小以用於緊密插人至該基板孔中之一外徑且具有帶有界定一基本上圓柱形配合室之內部螺紋之一內徑,及一後部分,該後部分包括具有一基本上圓形開囗之一後端,該基本上圓形開囗具有由一內壁界定之一圓周,該內壁界定至少跨越該基板厚度且通向該配合室之一基本上圓柱形腔,該配合室具有小於該開囗及腔之內徑之一內徑;(b)一套套筒,其具有經定大小以用於緊貼插入及保持於該腔內之一最大外徑,且具有經定大小以導引該配合部件之該外部螺紋與該配合室之該內部螺紋最佳地對準旋轉配合之一內徑。一種裝置,其在將一鉚合螺帽錨定於具有一厚度之一基板中之一孔中之前提供該鉚合螺帽之內部螺紋與一未主張鉚合螺帽安裝工具之心軸之外部螺紋之間的配合對準,或在錨定於該基板孔中之後提供該鉚合螺帽之該內部螺紋與一未主張螺紋緊固件之外部螺紋之間的配合對準(統稱為「配合部件」),該裝置包括(a)一鉚合螺帽,其包括一插入部分,該插入部分具有經定大小以用於緊密插人至該基板孔中之一外徑且具有帶有界定一基本上圓柱形配合室之內部螺紋之一內徑,及一後部分,該後部分包括具有一基本上圓形開囗之一後端,該基本上圓形開囗具有由一內壁界定之一圓周,該內壁界定至少跨越該基板厚度且通向該配合室之一基本上圓柱形腔,該配合室具有小於該開囗及腔之內徑之一內徑;(b)一套套筒,其具有經定大小以用於緊貼插入及保持於該腔內之一最大外徑,且具有經定大小以導引該配合部件之該外部螺紋與該配合室之該內部螺紋最佳地對準旋轉配合之一內徑。美商阿肯薩斯博特公司US美國美商阿肯薩斯博特公司US---F16B019/04F16B019/04
F16B037/06
F16B005/04		13-----18/202,744
18/522,841		2023-05-26
2023-11-29		US魯斯 傑弗瑞 T
哈斯亭斯 哈利 李 三世		2US
陳長文
簡秀如
紀畊宇		臺北市信義區忠孝東路4段555號8樓
臺北市信義區忠孝東路4段555號8樓
臺北市信義區忠孝東路4段555號8樓		2223-0000-00-TW2024470942024-12-01ARKANSAS BOLT CO. INC.20美商阿肯薩斯博特公司Pub.-------------
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CN119062652A2024-12-03一種螺栓防鬆元件及防鬆螺母inventionCN202411421595.82024-10-12本發明公開了一種螺栓防鬆元件及防鬆螺母,涉及防鬆螺紋緊固件領域,其技術方案要點是在連接件或螺母上開設了截面為多邊形或多角花形或橢圓形的沉孔,螺栓穿過連接件和彈性膠圈後與設置有內螺紋的結構螺紋連接,隨著螺栓螺紋連接長度的增加,彈性膠圈受軸向力被壓縮至沉孔內,彈性膠圈產生的形變為設置有內螺紋的結構和螺栓提供了軸向壓力和徑向壓力,軸向壓力增加了設置有內螺紋的結構和螺栓之間的摩擦力,實現了防鬆,徑向壓力增加了彈性膠圈與螺栓之間的摩擦力,使彈性膠圈與螺栓之間相對固定,保證了彈性膠圈長時間穩定提供軸向壓力,最終實現了設置有內螺紋的結構和螺栓之間的長效防鬆。;1.一種螺栓防鬆元件,其特徵在於:包括螺栓(5)、彈性膠圈(3)、墊片(4)、第一連接件(1)和第二連接件(2);第一連接件(1)上設置有通孔和沉孔,沉孔的截面為多邊形或多角花形或橢圓形;所述彈性膠圈(3)設置在沉孔內,所述彈性膠圈(3)的厚度大於沉孔的深度;所述螺栓(5)依次穿過墊片(4)、彈性膠圈(3)和第一連接件(1)後與第二連接件(2)螺紋連接;所述墊片(4)與所述第一連接件(1)相貼時,所述彈性膠圈(3)被完全壓縮至沉孔內,所述彈性膠圈(3)箍緊所述螺栓(5)並與沉孔的每個面緊密相抵。1.一種螺栓防鬆元件,其特徵在於:包括螺栓(5)、彈性膠圈(3)、墊片(4)、第一連接件(1)和第二連接件(2);第一連接件(1)上設置有通孔和沉孔,沉孔的截面為多邊形或多角花形或橢圓形;所述彈性膠圈(3)設置在沉孔內,所述彈性膠圈(3)的厚度大於沉孔的深度;所述螺栓(5)依次穿過墊片(4)、彈性膠圈(3)和第一連接件(1)後與第二連接件(2)螺紋連接;所述墊片(4)與所述第一連接件(1)相貼時,所述彈性膠圈(3)被完全壓縮至沉孔內,所述彈性膠圈(3)箍緊所述螺栓(5)並與沉孔的每個面緊密相抵。
2.所述彈性膠圈(3)的內徑大於或等於所述螺栓(5)的螺紋大徑,所述彈性膠圈(3)的內徑與所述螺栓(5)的螺紋大徑之差小於或等於1mm。
3.所述沉孔的截面為正多邊形或多角花形或橢圓形,沉孔的中心軸與通孔的軸線共線;沉孔深度為10-15mm,設螺栓(5)螺紋大徑為Amm,則多邊形的內接圓直徑為2A±3mm,橢圓形的小直徑為2A±3mm;彈性膠圈(3)未壓縮時的厚度比沉孔深度大2mm-10mm。
4.所述彈性膠圈(3)內設置有磁性材料,所述磁性材料為磁粉或磁塊。
5.所述彈性膠圈(3)由聚氨酯橡膠、氟橡膠、矽橡膠和丁腈橡膠中的任意一種製成。
6.一種防鬆螺母,其特徵在於:包括主體(6)和彈性膠圈(3),所述主體(6)上設置有螺紋孔和沉孔;沉孔的截面為多邊形或多角花形或橢圓形;所述彈性膠圈(3)設置在沉孔內,所述彈性膠圈(3)的厚度大於沉孔的深度;所述彈性膠圈(3)上設置有通孔,所述通孔的直徑大於或等於螺紋孔的大徑,所述通孔與所述螺紋孔軸線共線;所述主體(6)用於與穿過所述彈性膠圈(3)的螺栓螺紋連接;所述彈性膠圈(3)受軸向壓力被完全壓縮至沉孔內時,所述彈性膠圈(3)形變,此時彈性膠圈(3)的內側用於箍緊螺栓,且此時彈性膠圈(3)與沉孔的每個面緊密相抵;所述主體(6)的外側面設置有正多邊形棱柱面。
7.所述彈性膠圈(3)的內徑大於或等於所述螺紋孔的螺紋大徑,所述彈性膠圈(3)的內徑與所述螺紋孔的螺紋大徑之差小於或等於1mm。
8.所述沉孔的截面為正多邊形或多角花形或橢圓形,沉孔的中心軸與螺紋孔的軸線共線;沉孔深度為10-15mm,設螺紋孔的螺紋大徑為Amm,則多邊形的內接圓直徑為2A±3mm,橢圓形的小直徑為2A±3mm;彈性膠圈(3)未壓縮時的厚度比沉孔深度大2mm-10mm。
9.所述彈性膠圈(3)內設置有磁性材料,所述磁性材料為磁粉或磁塊。
10.所述彈性膠圈(3)由聚氨酯橡膠、氟橡膠、矽橡膠和丁腈橡膠中的任意一種製成。		廣州市華英防腐設備有限公司
廣州華基緊固件有限公司		CN510880 廣東省廣州市花都區花山鎮和鬱同心路6號之一102
廣州市華英防腐設備有限公司
廣州華基緊固件有限公司		CN----F16B039/24F16B039/24
F16B013/10		12-----------史延明
崔萬和
王磊
何英平
楊芳有		5-



劉豔華
北京精金石智慧財產權代理有限公司 11470		20241203----0-0-00-00-CN1190626522024-12-0320廣州市華英防腐設備有限公司,廣州華基緊固件有限公司Pub.-------------
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CN119062646A2024-12-03一種雙螺母約束式螺栓結構inventionCN202411209046.42024-08-30本發明公開了一種雙螺母約束式螺栓結構,轉柱的滑杆段轉動設置於螺套中心孔內的限位圈與螺套形成的容置空間內,螺杆段穿插過對應側的限位圈並延伸至螺套外。防轉件分別旋設於對應側轉柱的螺杆段上且兩側的滑動部嵌入螺套的滑槽內;柔性防鬆套套設於對應側轉柱的螺紋杆段外。第一螺母旋設於對應側螺套的端部。轉動轉柱以帶動防轉件、柔性防鬆套沿滑槽朝向第一螺母的通孔直線移動,使滑動部的外端插入第一螺母的嵌槽中,繼而能防止第一螺母與螺套間發生相對轉動;第二螺母螺紋旋入對應側第一螺母的通孔內並對柔性防鬆套進行擠壓使柔性防鬆套與對應的螺杆段緊密貼合,提高了防鬆效果。;1.一種雙螺母約束式螺栓結構,其特徵在於,包括:螺套,具有一中心孔,且設置於兩被緊固件上對應的安裝孔內並兩端延伸至被緊固件外側;在中心孔內設置有兩限位圈,並在位於兩限位圈外側的螺套內壁上均開設有對應的滑槽;兩轉柱,分別轉動設置於螺套的中心孔內,且均具有螺杆段和滑杆段;兩個轉柱的滑杆段均位於限位圈與螺套形成的容置空間內且尾端相互抵接,螺杆段穿插過對應側的限位圈並延伸至螺套外;兩防轉件,分別旋設於對應側轉柱的螺杆段上且兩側形成有嵌入滑槽內並向螺套端部延伸的滑動部;兩柔性防鬆套,呈凸字形結構且分別套設於對應側轉柱的螺紋杆段外,柔性防鬆套的大直徑段嵌入防轉件內;兩第一螺母,呈開口朝向被緊固件的凹字形結構且分別旋設於對應側螺套的端部用於鎖緊兩被緊固件;外頂部具有供轉柱的螺杆段以及柔性防鬆套的小直徑段穿插過的通孔,且通孔的直徑小於柔性防鬆套的大直徑段的直徑;並在外頂部內側開設有多個與通孔貫通並與滑槽對應的嵌槽;兩第二螺母,轉動轉柱以帶動防轉件、柔性防鬆套沿滑槽朝向通孔直線移動,滑動部的外端插入第一螺母的外頂部內側的嵌槽中,柔性防鬆套與第一螺母的外頂部內側面相抵接;第二螺母分別套設於對應側螺杆段與柔性防鬆套外,且螺紋旋入對應側第一螺母的通孔內並對柔性防鬆套進行擠壓使柔性防鬆套與對應的螺杆段緊密貼合。1.一種雙螺母約束式螺栓結構,其特徵在於,包括:螺套,具有一中心孔,且設置於兩被緊固件上對應的安裝孔內並兩端延伸至被緊固件外側;在中心孔內設置有兩限位圈,並在位於兩限位圈外側的螺套內壁上均開設有對應的滑槽;兩轉柱,分別轉動設置於螺套的中心孔內,且均具有螺杆段和滑杆段;兩個轉柱的滑杆段均位於限位圈與螺套形成的容置空間內且尾端相互抵接,螺杆段穿插過對應側的限位圈並延伸至螺套外;兩防轉件,分別旋設於對應側轉柱的螺杆段上且兩側形成有嵌入滑槽內並向螺套端部延伸的滑動部;兩柔性防鬆套,呈凸字形結構且分別套設於對應側轉柱的螺紋杆段外,柔性防鬆套的大直徑段嵌入防轉件內;兩第一螺母,呈開口朝向被緊固件的凹字形結構且分別旋設於對應側螺套的端部用於鎖緊兩被緊固件;外頂部具有供轉柱的螺杆段以及柔性防鬆套的小直徑段穿插過的通孔,且通孔的直徑小於柔性防鬆套的大直徑段的直徑;並在外頂部內側開設有多個與通孔貫通並與滑槽對應的嵌槽;兩第二螺母,轉動轉柱以帶動防轉件、柔性防鬆套沿滑槽朝向通孔直線移動,滑動部的外端插入第一螺母的外頂部內側的嵌槽中,柔性防鬆套與第一螺母的外頂部內側面相抵接;第二螺母分別套設於對應側螺杆段與柔性防鬆套外,且螺紋旋入對應側第一螺母的通孔內並對柔性防鬆套進行擠壓使柔性防鬆套與對應的螺杆段緊密貼合。
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3.第二螺母旋至第一螺母上後,第二螺母的末端嵌入沉槽內並對柔性防鬆套進行擠壓使柔性防鬆套與對應側螺套內壁緊密貼合。
4.
5.在中心螺紋孔和端部螺紋孔內旋設有連接螺杆;且兩個轉柱帶動對應的防轉件沿滑槽朝向對應側通孔直線移動的旋動方向相反。
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10.		江蘇永昊高強度螺栓有限公司CN214518 江蘇省泰州市靖江市敦義大橋東首江蘇永昊高強度螺栓有限公司CN----F16B035/00F16B035/00
F16B039/28
F16B039/34
F16B041/00		13-----------朱漢華
洪建權
朱進		3-

周飛虎
南京新慧恒誠智慧財產權代理有限公司 32424		20241203----0-0-00-00-CN1190626462024-12-0320江蘇永昊高強度螺栓有限公司Pub.-------------
6
CN119062649A2024-12-03一種壓鉚螺母inventionCN202411491091.32024-10-24本發明公開了一種壓鉚螺母,包括柱體和壓鉚環,所述柱體設置有沿柱體的軸線延伸的螺紋孔,其特徵在於,所述壓鉚環同軸設置於柱體外壁,所述壓鉚環的第一端面設置有花齒結構,所述花齒結構包括繞柱體的軸線排布的多個花齒單元,所述花齒單元的內端延伸至柱體外壁,至少一個花齒單元頂面的內端具有第一傾斜面;靠近每個第一傾斜面的所述柱體側壁均設置有第一槽,所述第一傾斜面與相應的第一槽相銜接;或者,所述柱體連接壓鉚環第一端面的底部設置為第一截頭錐體,所述第一截頭錐體的大端高於花齒單元的頂端,所述第一傾斜面延伸至第一截頭錐體側壁。本發明的優點是可以增加鈑金材料的流入容積,提高防推出性能。;1.一種壓鉚螺母,包括柱體和壓鉚環,所述柱體設置有沿柱體的軸線延伸的螺紋孔,其特徵在於,所述壓鉚環同軸設置於柱體外壁,所述壓鉚環的第一端面設置有花齒結構,所述花齒結構包括繞柱體的軸線排布的多個花齒單元,所述花齒單元的內端延伸至柱體外壁,至少一個花齒單元頂面的內端具有第一傾斜面;靠近每個第一傾斜面的所述柱體側壁均設置有第一槽,所述第一傾斜面與相應的第一槽相銜接;或者,所述柱體連接壓鉚環第一端面的底部設置為第一截頭錐體,所述第一截頭錐體的大端高於花齒單元的頂端,所述第一傾斜面延伸至第一截頭錐體側壁。1.一種壓鉚螺母,包括柱體和壓鉚環,所述柱體設置有沿柱體的軸線延伸的螺紋孔,其特徵在於,所述壓鉚環同軸設置於柱體外壁,所述壓鉚環的第一端面設置有花齒結構,所述花齒結構包括繞柱體的軸線排布的多個花齒單元,所述花齒單元的內端延伸至柱體外壁,至少一個花齒單元頂面的內端具有第一傾斜面;靠近每個第一傾斜面的所述柱體側壁均設置有第一槽,所述第一傾斜面與相應的第一槽相銜接;或者,所述柱體連接壓鉚環第一端面的底部設置為第一截頭錐體,所述第一截頭錐體的大端高於花齒單元的頂端,所述第一傾斜面延伸至第一截頭錐體側壁。
2.所述第一側壁由花齒單元的頂面向底面方向傾斜延伸,所述第一側壁的頂端位於第一傾斜面底端的上方;所述第二側壁的頂端連接於第一傾斜面的底端;優選地,所述第二側壁與第一傾斜面的斜率相一致。
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4.或者,所述第一傾斜面頂端延伸至第一平面;優選地,所述第一傾斜面與第一平面所在平面的夾角設置為25-35°。
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6.優選地,所述花齒單元的外端設置為半圓形。
7.所述花齒單元的徑向長度設置為螺紋孔直徑的0.5-1倍;所述第一槽的徑向深度設置為螺紋孔直徑的0.05-0.2倍;優選地,所述花齒結構包括10-14個花齒單元。
8.
9.或者壓鉚環的第一端面一側、位於第一槽或者第一截頭錐體上方的所述柱體包括多個依次連接的圓柱和/或截頭錐體,靠近壓鉚環的第一端面的圓柱的外徑小於其相鄰的遠離第一端面的圓柱的外徑或截頭錐體的大端外徑。
10.所述壓鉚環的第一端面設置有環繞於花齒結構的第二槽,所述第二槽中設置有密封部件;優選地,所述第二槽設置為矩形槽,所述密封部件設置為與第二槽相適配的密封圈;或者,所述第二槽設置為圓弧槽,所述密封部件設置為密封膠。		震坤行工業超市(上海)有限公司CN201107 上海市閔行區申濱路36號虹橋麗寶廣場4號樓7樓震坤行工業超市(上海)有限公司CN----F16B037/06F16B037/06
F16J015/10		22-----------陳偉
鎮新星
石景龍
張志剛
袁一鐵
陳鴻俊		6-




曾憲芳
曾海豔
中國商標專利事務所有限公司 11234		20241203----0-0-00-00-CN1190626492024-12-0320震坤行工業超市(上海)有限公司Pub.-------------
7
CN119062644A2024-12-03一種五角自攻鎖緊螺釘inventionCN202411240328.02024-09-04本申請涉及機械零件領域,公開了一種五角自攻鎖緊螺釘,包括螺帽,所述螺帽的底部固定連接有柱體;所述柱體的外壁設置有螺紋機構,所述螺紋機構設置不同間距的螺紋,使裝置在連接固定的過程中受到螺紋間距的影響產生不同的效果;所述柱體上設置有內筒體機構,所述內筒體機構沿柱體的內壁豎向移動,使鉸接杆機構對裝置整體進行固定;所述內筒體機構上設置有鉸接杆機構,所述鉸接杆機構從內向外張開,增加柱體的外壁摩擦力。本發明通過內筒體機構和鉸接杆機構的配合,工作人員旋轉螺紋杆B使固定塊向外翻轉,再旋轉螺紋杆A帶動固定塊上移與被固定物體底部貼合,這種一體化設計提高了裝置的便捷性,避免了因忘帶螺母而無法固定的問題。;1.一種五角自攻鎖緊螺釘,包括螺帽(1),其特徵在於,所述螺帽(1)的底部固定連接有柱體(2);所述柱體(2)的外壁設置有螺紋機構(3),所述螺紋機構(3)設置不同間距的螺紋,使裝置在連接固定的過程中,因螺紋間距的差異而經歷不同的運動階段;所述柱體(2)上設置有內筒體機構(4),所述內筒體機構(4)沿柱體(2)的內壁豎向移動,使鉸接杆機構(5)對裝置整體進行固定操作;所述內筒體機構(4)上設置有鉸接杆機構(5),所述鉸接杆機構(5)由工作人員手動進行操作和控制,使鉸接杆機構(5)從內向外張開固定或者從外向內收縮收納。1.一種五角自攻鎖緊螺釘,包括螺帽(1),其特徵在於,所述螺帽(1)的底部固定連接有柱體(2);所述柱體(2)的外壁設置有螺紋機構(3),所述螺紋機構(3)設置不同間距的螺紋,使裝置在連接固定的過程中,因螺紋間距的差異而經歷不同的運動階段;所述柱體(2)上設置有內筒體機構(4),所述內筒體機構(4)沿柱體(2)的內壁豎向移動,使鉸接杆機構(5)對裝置整體進行固定操作;所述內筒體機構(4)上設置有鉸接杆機構(5),所述鉸接杆機構(5)由工作人員手動進行操作和控制,使鉸接杆機構(5)從內向外張開固定或者從外向內收縮收納。
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10.		常州宜軒五金有限公司CN213000 江蘇省常州市武進區橫山橋鎮省莊村(東方大道加油站對面)常州宜軒五金有限公司CN----F16B025/02F16B025/02
F16B025/10
F16B039/04		12-----------楊宜軒
馬克臻
毛仁
張培秋		4-


梁淮玉
深圳創智果專利代理事務所(普通合夥) 33278		20241203----0-0-00-00-CN1190626442024-12-0320常州宜軒五金有限公司Pub.-------------
8
TW202447093A2024-12-01螺絲invention1131149952024-04-22一種螺絲(1)具有螺絲頭(2)、螺桿(3)及實質圓錐狀的螺絲尖端(4),螺絲(1)具有沿著螺桿(3)且從螺絲尖端(4)朝螺絲頭(2)方向延伸的螺紋(5),其中螺絲(1)具有至少一上升部(6),自位於螺絲(1)的旋入方向(E)的最前端朝螺桿(3)延伸,最前端為至少一上升部(6)的至少一端,至少一上升部(6)具有對應橢圓形的至少一區段的輪廓(course),橢圓形設置於與螺桿(3)以介於15度至75度之一角度相交的平面,且至少一上升部(6)的高度小於螺紋(5)的高度。一種螺絲0),包含一螺絲頭(2)、一螺桿(3)及實質圓錐狀的一螺絲尖端(4),該螺絲(1)具有沿著該螺桿(3)且從該螺絲尖端(4)朝該螺絲頭(2)方向延伸的一螺紋(5),其中,該螺絲(1)具有至少一上升部(6),自位於該螺絲(1)的一旋入方向(E)的一最前端朝該螺桿(3)延亻中,該最前端為該至少一上升部(6)的至少一端,該至少一上升部(6)具有對應一橢圓形的至少一區段的一輪廓,該橢圓形設置於與該螺桿(3)以介於15度至75度之一角度相交的一平面,且該至少一上升部(6)的一高度小於該螺紋(5)的一高度。一種螺絲0),包含一螺絲頭(2)、一螺桿(3)及實質圓錐狀的一螺絲尖端(4),該螺絲(1)具有沿著該螺桿(3)且從該螺絲尖端(4)朝該螺絲頭(2)方向延伸的一螺紋(5),其中,該螺絲(1)具有至少一上升部(6),自位於該螺絲(1)的一旋入方向(E)的一最前端朝該螺桿(3)延亻中,該最前端為該至少一上升部(6)的至少一端,該至少一上升部(6)具有對應一橢圓形的至少一區段的一輪廓,該橢圓形設置於與該螺桿(3)以介於15度至75度之一角度相交的一平面,且該至少一上升部(6)的一高度小於該螺紋(5)的一高度。奧地利商阿維奧公司AT奧地利奧地利商阿維奧公司AT---F16B025/00F16B025/00
B23G005/00
B21H003/06		33-----A 50306/20232023-04-24AT胡柏曼 葛哈德1AT李文賢
盧建川		新北市板橋區民生路1段33號17樓之3
新北市板橋區民生路1段33號17樓之3		2223-0000-00-TW2024470932024-12-01AVVIO GMBH & CO KG20奧地利商阿維奧公司Pub.-------------
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CN119062654A2024-12-03一種航空航太用緊固件inventionCN202310624358.02023-05-30本發明涉及航空航太技術領域,且公開了一種航空航太用緊固件,包括內螺紋柱,所述內螺紋柱的頂部固定安裝有內卡緊機構,所述內卡緊機構的頂部固定安裝有連接機構,所述內卡緊機構的外側固定安裝有鎖定機構。該航空航太用緊固件,通過設置的內卡緊機構,在使用過程中,按壓捏動扣一與捏動扣二使卡柱收回,轉動空心帶帽螺絲,使空心帶帽螺絲卡入內螺紋柱的內部,當空心帶帽螺絲接觸到內螺紋柱的底部內側時,轉動大臂會向上抬動,並推動轉動小臂使彈簧盒抬升,並使插頭杆卡入內螺紋柱與轉動大臂的內部,鬆開捏動扣一與捏動扣二,卡柱卡入內螺紋柱與空心帶帽螺絲的內部,避免了鬆動,提高了航空航太用緊固件內部固定的緊實程度。;1.一種航空航太用緊固件,包括內螺紋柱(1),其特徵在於:所述內螺紋柱(1)的頂部固定安裝有內卡緊機構(2),所述內卡緊機構(2)的頂部固定安裝有連接機構(3),所述內卡緊機構(2)的外側固定安裝有鎖定機構(4);所述內卡緊機構(2)包括上卡元件(21)與下卡組件(22),所述下卡組件(22)設置在上卡組件(21)的底部。1.一種航空航太用緊固件,包括內螺紋柱(1),其特徵在於:所述內螺紋柱(1)的頂部固定安裝有內卡緊機構(2),所述內卡緊機構(2)的頂部固定安裝有連接機構(3),所述內卡緊機構(2)的外側固定安裝有鎖定機構(4);所述內卡緊機構(2)包括上卡元件(21)與下卡組件(22),所述下卡組件(22)設置在上卡組件(21)的底部。
2.所述上卡組件(21)包括空心帶帽螺絲(211),所述空心帶帽螺絲(211)螺紋安裝在內螺紋柱(1)的內部,所述空心帶帽螺絲(211)的內部滑動安裝有捏動扣一(212)與捏動扣二(213),所述捏動扣一(212)的正面與捏動扣二(213)的背面均固定安裝有卡柱(214),所述捏動扣一(212)的背面固定安裝有伸縮杆一(215)與彈簧一(216)。
3.所述彈簧一(216)設置在伸縮杆一(215)的外側,所述彈簧一(216)遠離捏動扣一(212)的一端與捏動扣二(213)的背面固定安裝,所述伸縮杆一(215)的背面與捏動扣二(213)的正面固定安裝。
4.所述下卡組件(22)包括轉動大臂(221),所述轉動大臂(221)轉動安裝在空心帶帽螺絲(211)的內部,所述轉動大臂(221)的頂部轉動安裝有轉動小臂(222),所述轉動小臂(222)的頂部轉動安裝有連接柱(223),所述連接柱(223)的外部滑動安裝有外套空心柱(224),所述連接柱(223)的頂部固定安裝有外套空心柱(224),所述連接柱(223)的頂部固定安裝有彈簧盒(225),所述彈簧盒(225)的內部設置有豎板,且所述彈簧盒(225)的內部設置的豎板的左右兩側均固定安裝有小型圓柱(226),所述小型圓柱(226)的外部滑動安裝有插頭杆(227),所述插頭杆(227)的內側固定安裝有彈簧二(228)。
5.所述外套空心柱(224)與空心帶帽螺絲(211)的內部固定安裝,所述插頭杆(227)滑動安裝在彈簧盒(225)的內部,所述彈簧二(228)遠離插頭杆(227)的一端與彈簧盒(225)內部設置的豎板的外側固定安裝。
6.所述內螺紋柱(1)和空心帶帽螺絲(211)與插頭杆(227)的對應位置處開設有插孔,且所述插頭杆(227)滑動安裝在內螺紋柱(1)與空心帶帽螺絲(211)的內部開設的插孔內部。
7.所述連接機構(3)包括連結圓板(31),所述連結圓板(31)固定安裝在空心帶帽螺絲(211)的頂部,所述連結圓板(31)的內部固定安裝有小型螺紋杆(32),所述小型螺紋杆(32)的外部螺紋安裝有內外雙螺紋螺柱(33),所述內外雙螺紋螺柱(33)的外部固定安裝有連接環(34),所述連接環(34)的外部滑動安裝有限位轉動板(35)。
8.所述連結圓板(31)與內外雙螺紋螺柱(33)的對應位置處開設有螺紋槽,且所述小型螺紋杆(32)固定安裝在連結圓板(31)內部開設的螺紋槽內部,且所述內外雙螺紋螺柱(33)螺紋安裝在連結圓板(31)內部開設的螺紋槽內部。
9.所述鎖定機構(4)包括連接塊(41),所述連接塊(41)固定安裝在空心帶帽螺絲(211)的左右兩側,所述連接塊(41)的內部固定安裝有伸縮杆二(42),所述伸縮杆二(42)的外側固定安裝有傾斜鎖舌(43),所述傾斜鎖舌(43)的內側固定安裝有彈簧三(44),所述連接塊(41)的內部螺紋安裝有單面螺紋柱(45),所述限位轉動板(35)的外側轉動安裝有轉動插臂(46)。
10.所述彈簧三(44)設置在伸縮杆二(42)的外部,所述伸縮杆二(42)的內側設置有固定板,且所述彈簧三(44)遠離傾斜鎖舌(43)的一端與伸縮杆二(42)內側設置的固定板的外側固定安裝,所述單面螺紋柱(45)螺紋安裝在傾斜鎖舌(43)與轉動插臂(46)的內部,所述轉動插臂(46)滑動安裝在連接塊(41)的內部。		江蘇永昊高強度螺栓有限公司CN214518 江蘇省泰州市靖江市敦義大橋東首江蘇永昊高強度螺栓有限公司CN----F16B039/38F16B039/38
F16B039/28
F16B039/02		11-----------趙靈傑
朱漢華
朱進		3-

胡玲玲
南京新慧恒誠智慧財產權代理有限公司 32424		20241203----0-0-10-00-CN1190626542024-12-0319江蘇永昊高強度螺栓有限公司Pub.-------------
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TWI864758B2024-12-01用於螺絲搓牙行程之間距感測裝置invention1121180322023-05-16本發明用於螺絲搓牙行程之間距感測裝置,主要在於由本體與調整塊組成之固定座上設有一間距感測裝置,該間距感測裝置具有一設於該本體上的感測件,以及一與該感測件連接之顯示件;其中,該感測件恰以非接觸方式感測該調整塊與該本體間之間距變化,且該間距變化之數據會於該顯示件中顯示,以判斷分設於機台上之第一、第二牙板間之搓牙通道間距是否正確,藉以做為適時校正之依據,不但在搓牙進行之過程中能有效避免該搓牙通道設定之尺寸產生變化,即使產生變化亦能提前知悉且進行調校該搓牙通道之間距,大幅提高螺絲搓牙品質之良率。一種用於螺絲搓牙行程之間距感測裝置,其設於一搓牙機上,該搓牙機包含有一機台,以及分設於該機臺上之輸料單元及搓牙板組;其中,該機台具有一移動座,以及一與該移動座相對應且間隔設置之固定座,而前述該固定座具有一本體,一設於該本體側邊且鄰近該移動座之調整塊,以及一可調控該調整塊與該本體間之間距的調整件,另,該搓牙板組具有一設於該移動座上之第一牙板,以及一設於該調整塊上之第二牙板,而前述該第一牙板與第二牙板呈平行設置,且於該第一、第二牙板間形成一與該輸料單元相接之搓牙通道;其特徵在於:該間距感測裝置具有一設於該本體上之感測件,以及一與該感測件連接之顯示件,其中,該移動座係於該螺絲搓牙行程中呈移動,該第一牙板隨該移動座之移動以於該螺絲搓牙行程中呈移動,且於該螺絲搓牙行程中,設於該本體上之感測件向該調整塊發射出感測訊號,該感測訊號接觸該調整塊後再反射至該感測件,該感測件針對反射後之感測訊號的長短轉換為數值,以便該感測件恰以非接觸方式感測該調整塊與該本體間之間距變化,且該間距變化之數據會於該顯示件中顯示,以判斷該第一、第二牙板間之該搓牙通道間距是否正確,藉以做為校正之依據。一種用於螺絲搓牙行程之間距感測裝置,其設於一搓牙機上,該搓牙機包含有一機台,以及分設於該機臺上之輸料單元及搓牙板組;其中,該機台具有一移動座,以及一與該移動座相對應且間隔設置之固定座,而前述該固定座具有一本體,一設於該本體側邊且鄰近該移動座之調整塊,以及一可調控該調整塊與該本體間之間距的調整件,另,該搓牙板組具有一設於該移動座上之第一牙板,以及一設於該調整塊上之第二牙板,而前述該第一牙板與第二牙板呈平行設置,且於該第一、第二牙板間形成一與該輸料單元相接之搓牙通道;其特徵在於:該間距感測裝置具有一設於該本體上之感測件,以及一與該感測件連接之顯示件,其中,該移動座係於該螺絲搓牙行程中呈移動,該第一牙板隨該移動座之移動以於該螺絲搓牙行程中呈移動,且於該螺絲搓牙行程中,設於該本體上之感測件向該調整塊發射出感測訊號,該感測訊號接觸該調整塊後再反射至該感測件,該感測件針對反射後之感測訊號的長短轉換為數值,以便該感測件恰以非接觸方式感測該調整塊與該本體間之間距變化,且該間距變化之數據會於該顯示件中顯示,以判斷該第一、第二牙板間之該搓牙通道間距是否正確,藉以做為校正之依據。
根據請求項1所述用於螺絲搓牙行程之間距感測裝置,其中,該感測件具有一光發射器,以及一接收該光發射器訊號之接收器。
根據請求項1所述用於螺絲搓牙行程之間距感測裝置,其中,該感測件具有一波發射器,以及一接收該波發射器訊號之接收器。		銓益盛機械有限公司TW高雄市路竹區民權路96巷113號銓益盛機械有限公司TW---B23G001/28B23G001/2811-----蕭銘益1TW劉冠廷5134熊正一熊正一TW200920529
TW202000330		2CN112846010
JP3239761		210-00I864758TW2024465212024-12-01CHUAN YI SHENG MACHINERY CO.,LTD19銓益盛機械有限公司ValidNONO2024/12/012043/05/15NONONONONO12025/11/30
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US12163548B22024-12-10Self-clinching fastenerinvention17/8225282022-08-26A self-clinching fastener for attachment to a plastically deformable metal substrate includes a body portion with a central axis, the body portion has an annular-shaped surface extending in a direction perpendicular to the central axis The annular-shaped surface includes a first annular face, a second annular face, and a third annular face. The third annular face lies on an imaginary horizontal plane. A punch portion extends from the body portion. A plurality of spaced apart lugs encircle the punch portion. The first annular face extends from an outer peripheral surface of the punch portion in a radially outwards direction, and the second annular face is radially disposed between the first annular face and the third annular face. One of the lugs declines to the second annular face.1. A self-clinching fastener for attachment to a plastically deformable metal substrate, the self-clinching fastener comprising:
a body portion with a central axis, the body portion including an outer peripheral surface extending in a direction of the central axis, and an annular-shaped surface extending in a direction perpendicular to the central axis, wherein the annular-shaped surface includes a first annular face, a second annular face, and a third annular face, the third annular face lying on an imaginary horizontal plane, and the first and second annular faces defining a rim that projects away from the imaginary horizontal plane in the direction of the central axis;a punch portion being coaxial with the central axis and extending from the body portion such that the annular-shaped surface encircles the punch portion, the punch portion including an outer peripheral surface extending in the direction of the central axis; anda plurality of spaced apart lugs encircling the punch portion and axially projecting outwards from the annular-shaped surface, one of the lugs declining, relative to the imaginary horizontal plane, in a radially outwards direction of the self-clinching fastener,wherein the first annular face extends from the outer peripheral surface of the punch portion in the radially outwards direction, wherein the second annular face is radially disposed between the first annular face and the third annular face, and wherein said one of the lugs declines to the second annular face such that a radially outer end of said one of the lugs is coterminous with the second annular face.		1. A self-clinching fastener for attachment to a plastically deformable metal substrate, the self-clinching fastener comprising:
a body portion with a central axis, the body portion including an outer peripheral surface extending in a direction of the central axis, and an annular-shaped surface extending in a direction perpendicular to the central axis, wherein the annular-shaped surface includes a first annular face, a second annular face, and a third annular face, the third annular face lying on an imaginary horizontal plane, and the first and second annular faces defining a rim that projects away from the imaginary horizontal plane in the direction of the central axis;a punch portion being coaxial with the central axis and extending from the body portion such that the annular-shaped surface encircles the punch portion, the punch portion including an outer peripheral surface extending in the direction of the central axis; anda plurality of spaced apart lugs encircling the punch portion and axially projecting outwards from the annular-shaped surface, one of the lugs declining, relative to the imaginary horizontal plane, in a radially outwards direction of the self-clinching fastener,wherein the first annular face extends from the outer peripheral surface of the punch portion in the radially outwards direction, wherein the second annular face is radially disposed between the first annular face and the third annular face, and wherein said one of the lugs declines to the second annular face such that a radially outer end of said one of the lugs is coterminous with the second annular face.
2. The self-clinching fastener of claim 1, wherein an inner radius of the first annular face intersects with the outer peripheral surface of the punch portion, wherein an outer radius of the first annular face intersects with an inner radius of the second annular face, and wherein an outer radius of the second annular face intersects with an inner radius of the third annular face.
3. The self-clinching fastener of claim 2, wherein the first annular face is planar in cross-section and is angled with respect to the imaginary horizontal plane, and wherein the second annular face is curved in cross-section such that the second annular face continuously curves towards the imaginary horizontal plane in the radially outwards direction.
4. The self-clinching fastener of claim 1, wherein the second annular face has a concave shape, in cross-section.
5. The self-clinching fastener of claim 1, said one of the lugs including a contact face having a first end portion and a second end portion, the first end portion being positioned adjacent the outer peripheral surface of the punch portion and the second end portion being positioned radially outwards therefrom.
6. A self-clinching fastener for attachment to a plastically deformable metal substrate, the self-clinching fastener comprising:
a body portion with a central axis, the body portion including an outer peripheral sur...		RB&W MANUFACTURING LLCUSRB&W Manufacturing LLCUS OH StreetsboroRB&W Manufacturing LLCUS-F16B037/06F16B037/0611-F16B0037/068F16B0037/068
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TW202409440		22-US202400685002024-02-2918RB&W Manufacturing LLCValid-------------
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TWI844366B2024-06-01螺絲的改良invention1121185692023-05-18本發明為一種螺絲的改良,包含有一螺絲桿體、一螺紋部以及至少一凸紋,該螺紋部由若干個螺紋單元串接而成,該凸紋係凸設於兩個螺紋單元之間的桿體外周面上,該凸紋的前端為一尖錐部,凸紋的後端往兩側螺紋單元方向分別延伸有一個尾翼, 凸紋前端尖錐部讓螺絲在旋入工件的過程中易於破開工件內部,使桿體與工件間具有間隙,降低了螺絲與工件間的摩擦力,本發明讓螺絲的旋入更加省力,凸紋後端的尾翼則可以防止螺絲鬆脫。一種螺絲的改良,包含有一螺絲桿體、一螺紋部以及至少一凸紋,該螺紋部由若干螺紋單元串接而成,該螺紋部以螺旋狀凸起方式環繞在該螺絲桿體的外周面,該凸紋凸設於該螺紋部的相臨兩個螺紋單元間的該螺絲桿體外周面上,該凸紋的前端為一尖錐部,該尖錐部朝凸紋的後端往兩側螺紋單元方向分別延設有尾翼,該每一尾翼的橫斷面為三角形,該每一尾翼前側到後側高度相同。一種螺絲的改良,包含有一螺絲桿體、一螺紋部以及至少一凸紋,該螺紋部由若干螺紋單元串接而成,該螺紋部以螺旋狀凸起方式環繞在該螺絲桿體的外周面,該凸紋凸設於該螺紋部的相臨兩個螺紋單元間的該螺絲桿體外周面上,該凸紋的前端為一尖錐部,該尖錐部朝凸紋的後端往兩側螺紋單元方向分別延設有尾翼,該每一尾翼的橫斷面為三角形,該每一尾翼前側到後側高度相同。
如申請專利範圍第1項所述之螺絲的改良,其中,該螺紋部由若干個連續螺紋單元串接而成,該每一螺紋單元螺繞在該螺絲桿體外周面大於一個螺距的長度,該每一個螺紋單元在螺紋方向具有一螺峰脊線,該螺峰脊線包含二個漸高曲線,及二個漸低曲線,該螺峰脊線由該漸高曲線及由該漸低曲線前後地交錯連接在一起,在該漸高曲線連接該漸低曲線的位置具有一螺峰高點,在該漸低曲線連接該漸高曲線的位置具有一螺峰低點,該每一螺紋單元具有二個螺峰高點及二個螺峰低點,且該螺峰高點與該螺峰低點前後交錯地排列,在該螺峰高點的該螺紋單元的橫斷面寬度最寬,在該螺峰低點的該螺紋單元的橫斷面寬度最窄,該螺紋單元的寬度由該螺峰高點往該螺峰低點漸縮。
如申請專利範圍第2項所述之螺絲的改良,其中,該些螺峰高點由上到下連接起來形成一螺旋狀,該些螺峰低點由上到下連接起來形成一螺旋狀。
如申請專利範圍第2項所述之螺絲的改良,其中,該每一螺紋單元螺繞在螺絲桿體外周面372度。
如申請專利範圍第2項所述之螺絲的改良,其中,該螺絲的橫斷面看每一螺紋單元的俯視或底視為橢圓形。
如申請專利範圍第2項-第5項中任一項所述之螺絲的改良,其中,該每一尾翼的末端接觸相臨的該螺紋單元。
如申請專利範圍第2項-第5項中任一項所述之螺絲的改良,其中,該兩個尾翼前端相連接,在連接處內側具有一轉角,該轉角為一直線,該直線具有一頂點及一底端點,該直線由該頂點往後側傾斜到該底端點。
如申請專利範圍第2項-第5項中任一項所述之螺絲的改良,其中,該尾翼的高度小於該螺紋單元的高度。
如申請專利範圍第1項所述之螺絲的改良,其中,該每一尾翼的末端接觸相臨的該螺紋單元。
如申請專利範圍第1項所述之螺絲的改良,其中,該兩個尾翼前端相連接,在連接處內側具有一轉角,該轉角為一直線,該直線具有一頂點及一底端點,該直線由該頂點往後側傾斜到該底端點。		何人東TW臺中市西屯區大安西街6號2樓之3何人東TW---F16B025/00F16B025/00
F16B039/28		12-----何人東1TW吳修閘臺北市中山區鬆江路51號5樓之15116賴耿賢賴耿賢TWI381107
TWM303980
TWM640656		3CN105473877
DE19860085
JPS59-4811
US2263137
US3258797		510I84436611I844366TW2024470922024-12-01HO, JEN-TONG19何人東ValidNONO2024/06/012043/05/17NONONONONO32027/05/31
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CN119062653A2024-12-03一種防鬆動墊圈及防鬆動緊固件inventionCN202411426668.22024-10-14一種防鬆動墊圈及防鬆動緊固件,涉及緊固件技術領域,其包括墊圈本體,墊圈本體的兩個端面均設有多條楔形齒且兩個端面的楔形齒位置相互對應,多條楔形齒之間相互平行,每條楔形齒通過墊圈本體的中心孔隔開以分佈于該中心孔的兩側。本發明通過楔形齒的設計使得在螺栓緊固時,墊圈與螺栓頭部和工件之間產生更大的摩擦力,從而有效防止因振動或衝擊導致的鬆動,提高了連接的穩定性。而且本發明設計單片結構的防鬆動墊圈,減少了材料使用和製造成本,相比于傳統的雙片結構防鬆動墊圈,在批量採購時能顯著降低成本。此外,單片結構的防鬆動墊圈簡化了裝配過程,僅需安裝一個墊圈,這減少了裝配時間和複雜性,提高了生產效率。;1.一種防鬆動墊圈,其特徵在於:包括墊圈本體(1),所述墊圈本體(1)的兩個端面均設有多條楔形齒(2)且兩個端面的楔形齒(2)位置相互對應,所述多條楔形齒(2)之間相互平行,每條楔形齒(2)通過墊圈本體(1)的中心孔隔開以分佈于該中心孔的兩側。1.一種防鬆動墊圈,其特徵在於:包括墊圈本體(1),所述墊圈本體(1)的兩個端面均設有多條楔形齒(2)且兩個端面的楔形齒(2)位置相互對應,所述多條楔形齒(2)之間相互平行,每條楔形齒(2)通過墊圈本體(1)的中心孔隔開以分佈于該中心孔的兩側。
2.所述墊圈本體(1)每個端面的楔形齒(2)數量為三條。
3.所述楔形齒(2)的兩端分別延伸至墊圈本體(1)的邊沿並設置有凸起(3)。
4.所述凸起(3)沿著楔形齒(2)頂面的傾斜方向設置。
5.所述墊圈本體(1)的其中一個端面為斜面。
6.採用抗拉強度大於1500Mpa的吉帕鋼材料製成。
7.一種防鬆動緊固件,其特徵在於:包括螺栓(4)和權利要求1-5中任意一項所述的防鬆動墊圈,所述防鬆動墊圈安裝於螺栓(4)的頭部與待固定工件之間,以提供防鬆動效果。
8.還包括螺母,所述螺栓(4)的杆部穿過待固定工件並與螺母連接。
9.所述螺母與待固定工件之間還安裝有一片防鬆動墊圈。
10.權利要求8或9所述的防鬆動緊固件應用於汽車、船舶、航空航太設備。		蔣建偉CN421000 湖南省衡陽市石鼓區雙元路14號蔣建偉CN----F16B039/24F16B039/2411-----------蔣建偉1CN421000 湖南省衡陽市石鼓區雙元路14號陳紀文
衡陽雁城專利代理事務所(普通合夥) 43231		20241203----0-0-00-00-CN1190626532024-12-0320蔣建偉Pub.-------------
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CN119062647A2024-12-03一種高可靠性防鬆動型汽車緊固件及其安裝方法inventionCN202411406061.82024-10-10本發明涉及緊固件技術領域,具體為一種高可靠性防鬆動型汽車緊固件,包括外螺杆,所述外螺杆的頂端固定連接有固定螺帽,所述外螺杆的側面套接有墊片,所述外螺杆的側面螺紋連接有緊固螺帽,該高可靠性防鬆動型汽車緊固件,內螺紋套筒向上移動時可以帶動定位塊進行移動,當定位塊移動到緊固螺帽底部時可以進行固定,方便緊固螺帽在受到震動時可以避免鬆動,定位塊的底部受到擠壓時可以通過旋轉環與扭簧的配合轉動到收藏槽的內部進行收藏,方便汽車零部件在維修時緊固螺帽可以快速拆卸,從而能夠很好的對插槽進行隱蔽,並且插槽為特殊形狀,需要通過相匹配的異形扳手進行操作,方便緊固件有很好的防盜性能。;1.一種高可靠性防鬆動型汽車復甦,包括:外螺桿(1)、其特徵所在;
所述外螺桿(1)的下部固定連接有固定螺帽(2),所述外螺桿(D的側面套接有所述墊片(3),所述外螺桿(D的側向螺紋連接有一)螺帽(4),所述外螺桿(I)與固定螺帽(2)上安裝有防鬆動結構(5),所述防鬆動結構(5)上安裝有防盜組件(6);所述防鬆脫結構(5),包括安裝組件(5D,安裝組件(5D安褺在外螺桿(D與固定螺帽(2)),所述安裝組件(51)上有安裝組件(52);所提及安組件(51),包括:安裝腔(5101),所述安裝腔(5101)丌設置在所述固定螺帽(2)與外螺桿(1)的頂部,所述安褺腔(5) 1) 的軸心藍牙無線充電有限位(52八安裝腔(51)所述的軸心無線充電有移動插槽安裝(53);所述的軸心無線藍牙傳輸有內部設定(5101)螺桿(5104),所述內螺桿(5104)的側面轉動連接有眉(5105),所述眉(5105)的側面定連接有限位條(5106),所述限額條( 56) )活動連接在所述限位槽(5102)的內部;所述定位組件(52),包括:插槽(520D,所述插槽(520D廾設定在轉動區塊(57)的頂部,所以所述旋轉塊(57)的底部固定連接冇旋轉環(5202)所述,支架(55)的下方丿裝有旋轉槽(5203);旋轉所述(5203)的內部旋轉連接有所述旋轉環(5202),所述內螺桿(5104)的側面螺紋連接有內螺紋螺紋(5204),所述內螺紋螺紋(5204)的亻則面有收藏(5205)		1.一種高可靠性防鬆動型汽車復甦,包括:外螺桿(1)、其特徵所在;
所述外螺桿(1)的下部固定連接有固定螺帽(2),所述外螺桿(D的側面套接有所述墊片(3),所述外螺桿(D的側向螺紋連接有一)螺帽(4),所述外螺桿(I)與固定螺帽(2)上安裝有防鬆動結構(5),所述防鬆動結構(5)上安裝有防盜組件(6);所述防鬆脫結構(5),包括安裝組件(5D,安裝組件(5D安褺在外螺桿(D與固定螺帽(2)),所述安裝組件(51)上有安裝組件(52);所提及安組件(51),包括:安裝腔(5101),所述安裝腔(5101)丌設置在所述固定螺帽(2)與外螺桿(1)的頂部,所述安褺腔(5) 1) 的軸心藍牙無線充電有限位(52八安裝腔(51)所述的軸心無線充電有移動插槽安裝(53);所述的軸心無線藍牙傳輸有內部設定(5101)螺桿(5104),所述內螺桿(5104)的側面轉動連接有眉(5105),所述眉(5105)的側面定連接有限位條(5106),所述限額條( 56) )活動連接在所述限位槽(5102)的內部;所述定位組件(52),包括:插槽(520D,所述插槽(520D廾設定在轉動區塊(57)的頂部,所以所述旋轉塊(57)的底部固定連接冇旋轉環(5202)所述,支架(55)的下方丿裝有旋轉槽(5203);旋轉所述(5203)的內部旋轉連接有所述旋轉環(5202),所述內螺桿(5104)的側面螺紋連接有內螺紋螺紋(5204),所述內螺紋螺紋(5204)的亻則面有收藏(5205)		浙江瑞強汽車部件有限公司CN325000 浙江省溫州市溫州經濟技術開發區星海街道海工大道857號浙江瑞強汽車部件有限公司CN----F16B035/04F16B035/04
F16B035/06
F16B039/28		12-----------姜裕堤
薑博澤		2-
肖正偉
北京華際智慧財產權代理有限公司 11676		20241203----0-0-00-00-CN1190626472024-12-0320浙江瑞強汽車部件有限公司Pub.-------------
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TWI863275B2024-11-21支撐螺栓、懸臂支撐結構及傳導裝置invention1121179872023-05-15一種支撐螺栓、懸臂支撐結構及傳導裝置。支撐螺栓包括鎖定螺桿、支撐螺套以及彈性支撐件,鎖定螺桿固定連接受壓結構,同時支撐螺套固定連接於施壓結構。支撐螺套沿鎖定螺桿之中心軸線之方向於滑動範圍內滑移地設置於鎖定螺桿之外周面,且彈性支撐件能夠設置於受壓結構與支撐螺套之間,彈性支撐件能夠針對施壓結構由於重心偏移所產生之力矩進行配置,以使得彈性支撐件能夠平衡施壓結構由於重心偏移所產生之力矩,以改善非對稱樣式之施壓結構與受壓結構之間出現壓力不均勻,從而導致之受壓結構單邊受力過大問題。一種支撐螺栓,用於固定至受壓結構以支撐施壓結構,其中,包括:鎖定螺桿,所述鎖定螺桿用於固定連接所述受壓結構,所述鎖定螺桿具有中心軸線;支撐螺套,所述支撐螺套用於固定連接所述施壓結構,所述支撐螺套沿所述中心軸線之方向於滑動範圍內滑移地設置於所述鎖定螺桿之外周面;彈性支撐件,包括第一彈性件,所述第一彈性件用於設置於所述受壓結構與所述支撐螺套之間,所述第一彈性件之一端壓緊於所述支撐螺套,所述第一彈性件之另一端用於壓緊於所述受壓結構,所述第一彈性件具有沿所述受壓結構朝向所述施壓結構之彈性力,以用於支撐所述施壓結構;所述鎖定螺桿包括螺帽部、螺桿部以及螺柱部,所述螺柱部用於螺紋連接所述受壓結構,所述螺桿部之直徑大於所述螺柱部之最大外徑,所述支撐螺套沿所述中心軸線之方向滑動地設置於所述螺桿部,所述螺帽部用於止擋所述支撐螺套遠離所述受壓結構,以限制所述支撐螺套之所述滑動範圍;所述支撐螺套具有容置腔,所述彈性支撐件還包括限位套筒,所述第一彈性件設置於所述容置腔內並套設於所述鎖定螺桿外,所述限位套筒滑動地設置於所述容置腔;所述第一彈性件之一端壓緊於所述支撐螺套,所述第一彈性件之另一端壓緊於所述限位套筒,所述限位套筒用於壓緊於所述受壓結構。一種支撐螺栓,用於固定至受壓結構以支撐施壓結構,其中,包括:鎖定螺桿,所述鎖定螺桿用於固定連接所述受壓結構,所述鎖定螺桿具有中心軸線;支撐螺套,所述支撐螺套用於固定連接所述施壓結構,所述支撐螺套沿所述中心軸線之方向於滑動範圍內滑移地設置於所述鎖定螺桿之外周面;彈性支撐件,包括第一彈性件,所述第一彈性件用於設置於所述受壓結構與所述支撐螺套之間,所述第一彈性件之一端壓緊於所述支撐螺套,所述第一彈性件之另一端用於壓緊於所述受壓結構,所述第一彈性件具有沿所述受壓結構朝向所述施壓結構之彈性力,以用於支撐所述施壓結構;所述鎖定螺桿包括螺帽部、螺桿部以及螺柱部,所述螺柱部用於螺紋連接所述受壓結構,所述螺桿部之直徑大於所述螺柱部之最大外徑,所述支撐螺套沿所述中心軸線之方向滑動地設置於所述螺桿部,所述螺帽部用於止擋所述支撐螺套遠離所述受壓結構,以限制所述支撐螺套之所述滑動範圍;所述支撐螺套具有容置腔,所述彈性支撐件還包括限位套筒,所述第一彈性件設置於所述容置腔內並套設於所述鎖定螺桿外,所述限位套筒滑動地設置於所述容置腔;所述第一彈性件之一端壓緊於所述支撐螺套,所述第一彈性件之另一端壓緊於所述限位套筒,所述限位套筒用於壓緊於所述受壓結構。
如請求項1所述之支撐螺栓,其中,所述容置腔之內壁設置有第一內環台與第二內環台,所述第一內環台設置於所述支撐螺套用於靠近所述受壓結構之端面,所述限位套筒包括接觸部與限位部,所述接觸部用於壓緊於所述受壓結構,所述第一彈性件藉由所述第二內環台壓緊於所述支撐螺套,所述限位部用於傳遞所述第一彈性件之彈性力至所述受壓結構,所述限位部與所述第一內環台形成抵擋,以限制所述限位套筒脫離所述容置腔。
如請求項2所述之支撐螺栓,其中,所述螺桿部之外周壁設置有螺桿外環台,所述螺桿外環台能夠與所述第二內環台螺紋配合。
如請求項3所述之支撐螺栓,其中,所述支撐螺套包括第一螺套與第二螺套,所述第一螺套與所述第二螺套可拆卸地連接,所述容置腔形成於所述第一螺套與所述第二螺套之間,所述第一內環台設置於所述第一螺套,所述第二內環台設置於所述第二螺套。
如請求項3所述之支撐螺栓,其中,所述彈性支撐件還包括第二彈性件,所述第二彈性件設置於所述螺桿部之外周面,所述第二彈性件之一端壓緊於所述螺帽部,所述第二彈性件之另一端壓緊於所述第二內環台,所述第二彈性件具有驅動所述螺帽部遠離所述限位套筒之彈性力。
一種懸臂支撐結構,其中,包括受壓結構、施壓結構以及如請求項1至5中任意一項所述之支撐螺栓,所述受壓結構包括受壓板以及安裝台,所述受壓板固定於所述安裝台,所述鎖定螺桿固定連接所述安裝台;所述施壓結構包括施壓板以及懸臂,所述懸臂固定設置於所述施壓板之側邊;所述施壓板壓緊於所述受壓板,所述懸臂與所述安裝台間隔設置,所述支撐螺套固定連接所述懸臂。
一種傳導裝置,其中,包括底板、傳導源、接觸板、傳導板以及如請求項1至5中任意一項所述之支撐螺栓,所述傳導源固定於所述底板,以共同形成受壓結構;所述傳導板固定設置於所述接觸板之側邊,以共同形成施壓結構;所述接觸板壓緊於所述傳導源,所述傳導板與所述底板間隔設置,所述鎖定螺桿固定連接所述底板,所述支撐螺套固定連接所述傳導板。
如請求項7所述之傳導裝置,其中,所述底板固定設置有定位銷,所述接觸板朝向所述底板之側面設置有定位孔,所述定位孔與所述定位銷孔軸配合,以用於對齊所述接觸板與所述傳導源。		新加坡商鴻運科股份有限公司SG新加坡新加坡商鴻運科股份有限公司SG---F16B005/02F16B005/02
H01L023/40
H01R004/30		33-----陳宏偉
翁子堯		2TW
張淑貞臺北市內湖區瑞光路605號3樓5133賴耿賢賴耿賢0CN103930722
CN108105236
CN114135549
CN212584076
DE102005007754
US10695877		610-00I863275TW2024470902024-12-01CLOUD NETWORK TECHNOLOGY SINGAPORE PTE. LTD.19新加坡商鴻運科股份有限公司Valid-------------
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CN119062655A2024-12-03一種中速柴油機缸蓋螺柱保護套inventionCN202310629649.92023-05-31本發明涉及螺柱保護技術領域,且公開了一種中速柴油機缸蓋螺柱保護套,包括缸蓋螺柱,所述缸蓋螺柱右端的外壁螺紋套接有保護套內層,所述保護套內層的右端活動連接有墊片,所述墊片的內壁螺紋套接有用於連接保護套內層和缸蓋螺柱的連接螺栓,所述保護套內層的外壁固定套接有緩衝層。本發明通過缸蓋螺柱、保護套內層、保護套外層和緩衝層之間的配合,利用保護套內層和保護套外層的設置,實現了對缸蓋螺柱外壁螺紋的保護作用,有效地解決了缸蓋螺柱損壞的問題,採用保護套內層對缸蓋螺柱外壁螺紋的保護方式,同時結合緩衝層對外力與缸蓋螺柱碰撞時的緩衝方式,減少了缸蓋螺柱的損壞,從而延長了缸蓋螺柱的使用壽命。;1.一種中速柴油機缸蓋螺柱保護套,包括缸蓋螺柱(1),其特徵在於:所述缸蓋螺柱(1)右端的外壁螺紋套接有保護套內層(2),所述保護套內層(2)的右端活動連接有墊片(3),所述墊片(3)的內壁螺紋套接有用於連接保護套內層(2)和缸蓋螺柱(1)的連接螺栓(4),所述保護套內層(2)的外壁固定套接有緩衝層(5),所述緩衝層(5)的內壁貫穿連接有橫向管(6),所述緩衝層(5)的外壁固定套接有保護套外層(7),所述保護套外層(7)的外壁均勻分佈有防滑組件(8)。1.一種中速柴油機缸蓋螺柱保護套,包括缸蓋螺柱(1),其特徵在於:所述缸蓋螺柱(1)右端的外壁螺紋套接有保護套內層(2),所述保護套內層(2)的右端活動連接有墊片(3),所述墊片(3)的內壁螺紋套接有用於連接保護套內層(2)和缸蓋螺柱(1)的連接螺栓(4),所述保護套內層(2)的外壁固定套接有緩衝層(5),所述緩衝層(5)的內壁貫穿連接有橫向管(6),所述緩衝層(5)的外壁固定套接有保護套外層(7),所述保護套外層(7)的外壁均勻分佈有防滑組件(8)。
2.所述缸蓋螺柱(1)右側開設有螺紋孔(9),且螺紋孔(9)的內壁與連接螺栓(4)的外壁螺紋套接。
3.所述保護套內層(2)包括圓柱罩殼(201),所述圓柱罩殼(201)的內壁與缸蓋螺柱(1)右端的外壁螺紋套接,所述圓柱罩殼(201)的外壁與緩衝層(5)的內壁固定套接,所述圓柱罩殼(201)的右端固定安裝有尖端(202)。
4.所述尖端(202)的右側開設有通孔(10),所述通孔(10)、螺紋孔(9)、墊片(3)之間均設置為同心圓。
5.所述緩衝層(5)包括氣囊(501)、連通管(502),相鄰兩個豎向的所述氣囊(501)之間通過連通管(502)連接,相鄰兩個橫向的所述連通管(502)之間通過橫向管(6)連接。
6.所述防滑元件(8)包括有位於保護套外層(7)外壁開設的凹槽(801),所述凹槽(801)的外側固定連接有橡膠凸點(802)。		滬東重機有限公司CN200129 上海市浦東新區浦東大道2851號346幢滬東重機有限公司CN----F16B041/00F16B041/0011-----------胡尊俠
狄芬芬
陸靖		3-

張甯展
上海恒慧智慧財產權代理事務所(特殊普通合夥) 31317		20241203----0-0-10-00-CN1190626552024-12-0319滬東重機有限公司Pub.-------------
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US20240401629A12024-12-05SCREW ANCHORS AND MANUFACTURING METHODSinvention18/8042632024-08-14A screw anchor and method of forming such a screw anchor, the method comprising: forming a first male screw thread section on a metallic body and which is integral to the metallic body; and using a metal deposition technique to deposit a second male screw thread section on the metallic body; wherein the second male screw thread section is formed of metallic material having a greater hardness than the metallic body and is able to tap out a female thread in a hole in a support for receiving the first male screw thread section when the screw anchor is twisted into the hole.1. A method of forming a screw anchor comprising: forming a first male screw thread section on a metallic body and which is integral to the metallic body; and using a metal deposition technique to deposit a second male screw thread section on the metallic body; wherein the second male screw thread section is formed of metallic material having a greater hardness than the metallic body and is able to tap out a female thread in a hole in a support for receiving the first male screw thread section when the screw anchor is twisted into the hole.1. A method of forming a screw anchor comprising: forming a first male screw thread section on a metallic body and which is integral to the metallic body; and using a metal deposition technique to deposit a second male screw thread section on the metallic body; wherein the second male screw thread section is formed of metallic material having a greater hardness than the metallic body and is able to tap out a female thread in a hole in a support for receiving the first male screw thread section when the screw anchor is twisted into the hole.
2. The method of claim 1, wherein the second male screw thread section is deposited on the metallic body using a laser metal deposition technique, a plasma transferred arc welding technique, a metal inert gas welding technique or a metal active gas welding technique.
3. The method of claim 1, wherein area sections of the metallic body where the second male screw thread section is to be deposited are moved past a welding point for depositing the second male screw thread section thereon.
4. The method of claim 1, wherein the second male screw thread section is formed of carbon steel.
5. The method of claim 1, wherein the second male screw thread section is formed of a metal alloy.
6. The method of claim 5, wherein the metal alloy is based on iron, chrome and/or cobalt.
7. The method of claim 1, wherein the metallic body and thus the first male screw thread section that is integral thereto are formed of stainless steel.
8. The method of claim 1, wherein the second male screw thread section comprises at least part of a screw thread turn.
9. A screw anchor comprising a metallic body portion with a first male screw thread section integral to the body portion and a second male screw thread section that has been deposited on the body portion by a metal deposition technique, wherein the second male screw thread section is formed of metallic material having a greater hardness than the metallic body portion and is able to tap out a female thread in a hole in a support for receiving the first male screw thread section when the screw anchor is twisted into the hole.
10. The screw anchor of claim 9, wherein the second male screw thread section is formed of carbon steel.
11. The screw anchor of claim 9, wherein the second male screw thread section is formed of a metal alloy.
12. The screw anchor of claim 11, wherein the metal alloy is based on iron, chrome and/or cobalt.
13. The screw anchor of claim 9, wherein the metallic body portion and thus the first male screw thread section integral thereto are formed of stainless steel.
14. The screw anchor of claim 9, wherein the second male screw thread section comprises at least part of a screw thread turn.
15. The screw anchor of claim 9, wherein a metal deposition technique, such as a laser metal deposition process, a plasma transferred arc welding process, a metal inert gas welding process, or a metal active gas welding process is used to form a screw thread secti...		BLACK & DECKER INC.USBLACK & DECKER INC.US----F16B025/00F16B025/00
B21H003/02
B23K009/04
B23K010/02
B23K026/342		35-F16B0025/0026F16B0025/0026
B21H0003/027
F16B0025/0057
B23K0009/04
B23K0010/027
B23K0026/342		--------Philipp MAHRENHOLTZ1DE Frankfurt-------0-0-00-00-US202404016292024-12-0520BLACK & DECKER INC.Pub.-------------
18
WO2024245720A12024-12-05SCREW COMPRISING ROOT AND CREST SERRATIONSinventionEP20240630202024-05-13Concrete screw comprising a shaft, at least one screw thread, which is arranged on the shaft, winds around the shaft and protrudes from the shaft, and a separate helix element, which is arranged non-monolithically on the shaft, wherein the separate helix element winds around the shaft, protrudes from the shaft, and constitutes at least a section of the at least one screw thread, wherein the separate helix element comprises a crest and a root, and wherein the root is provided with a first root serration that is engaged, at least partly, by the shaft, characterized in that the crest is provided with a crest serration.CLAIMS 1. Concrete screw comprising - a shaft (10), - at least one screw thread (30), which is arranged on the shaft (10), winds around the shaft (10) and protrudes from the shaft (10), and - a separate helix element (37), which is arranged non-monolithically on the shaft (10), wherein the separate helix element (37) winds around the shaft (10), protrudes from the shaft (10), and constitutes at least a section of the at least one screw thread (30),- wherein the separate helix element (37) comprises a crest (39) and a root (34), and- wherein the root (34) is provided with a first root serration (51) that is engaged, at least partly, by the shaft (10), c h a ra cte ri z e d in that - the crest (39) is provided with a crest serration (53). 2. Screw according to claim 1, c h a ra cte ri z e d in that the separate helix element (37) has, at least regionally, generally triangular cross section, wherein the first root serration (51) is arranged at a first edge of the separate helix element (37), and wherein the crest serration (53) is arranged at a third edge of the separate helix element (37). 3. Screw according to claim 2, c h a ra cte ri z e d in that the separate helix element (37) has, at least regionally, generally isosceles triangular cross section. 4. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the root (34) is provided with a second root serration (52) that is engaged, at least partly, by the shaft (10). 5. Screw according to claim 4 in connection with any of the claims 2 or 3, c h a ra cte ri z e d in that the second root serration (52) is arranged at a second edge of the separate helix element (37).
6. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the first root serration (51) comprises at least one first root serration recess (41) having length I41, and the crest serration (53) comprises at least one crest serration recess (43) having length I43, wherein the following holds: o 0.15 < — < 0.55 3 7. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the shaft (10) comprises a first embossment (81) that engages the first root serration (51). 8. Screw according to any of the proceeding claims, c h a ra cte ri z e d in that the shaft (10) consists of a first material and the separate helix element (37) consists of a second material, wherein the first material and the second material are different materials. 9. Screw according to claim 8, c h a ra cte ri z e d in that both the first material and the second material are metals, in particular stainless steels. 10. Screw according to any of the proceeding claims, c h a ra cte ri z e d in that a ratio of the maximum outer thread diameter of the screw thread (30) to the pitch of the screw thread (30) is between 1 and 2, in particular between 1,2 and 1,6, at least in some regions of the screw thread (30). 11. Method for manufacturing a screw according to any of the preceding claims, c h a ra cte ri z e d in tha...		-->CLAIMS 1. Concrete screw comprising - a shaft (10), - at least one screw thread (30), which is arranged on the shaft (10), winds around the shaft (10) and protrudes from the shaft (10), and - a separate helix element (37), which is arranged non-monolithically on the shaft (10), wherein the separate helix element (37) winds around the shaft (10), protrudes from the shaft (10), and constitutes at least a section of the at least one screw thread (30),- wherein the separate helix element (37) comprises a crest (39) and a root (34), and- wherein the root (34) is provided with a first root serration (51) that is engaged, at least partly, by the shaft (10), c h a ra cte ri z e d in that - the crest (39) is provided with a crest serration (53). 2. Screw according to claim 1, c h a ra cte ri z e d in that the separate helix element (37) has, at least regionally, generally triangular cross section, wherein the first root serration (51) is arranged at a first edge of the separate helix element (37), and wherein the crest serration (53) is arranged at a third edge of the separate helix element (37). 3. Screw according to claim 2, c h a ra cte ri z e d in that the separate helix element (37) has, at least regionally, generally isosceles triangular cross section. 4. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the root (34) is provided with a second root serration (52) that is engaged, at least partly, by the shaft (10). 5. Screw according to claim 4 in connection with any of the claims 2 or 3, c h a ra cte ri z e d in that the second root serration (52) is arranged at a second edge of the separate helix element (37).
-->6. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the first root serration (51) comprises at least one first root serration recess (41) having length I41, and the crest serration (53) comprises at least one crest serration recess (43) having length I43, wherein the following holds: o 0.15 &lt; — &lt; 0.55 3 7. Screw according to any of the preceding claims, c h a ra cte ri z e d in that the shaft (10) comprises a first embossment (81) that engages the first root serration (51). 8. Screw according to any of the proceeding claims, c h a ra cte ri z e d in that the shaft (10) consists of a first material and the separate helix element (37) consists of a second material, wherein the first material and the second material are different materials. 9. Screw according to claim 8, c h a ra cte ri z e d in that both the first material and the second material are metals, in particular stainless steels. 10. Screw according to any of the proceeding claims, c h a ra cte ri z e d in that a ratio of the maximum outer thread diameter of the screw thread (30) to the pitch of the screw thread (30) is between 1 and 2, in particular between 1,2 and 1,6, at least in some regions of the screw thread (30). 11. Method for manufacturing a screw according to any of the preceding claims, c h a ra cte ri ...		HILTI AKTIENGESELLSCHAFTLIFeldkircherstrasse 100,9494 Schaan,9494,LIHILTI AKTIENGESELLSCHAFTLI----F16B025/00F16B025/00
B23G009/00
B23K026/38		33--------23175608.12023-05-26EPGOODWIN, Zachary
GSTACH, Peter
SPAMPATTI, Matteo
STROUF, Mathias
GEBAUER, Christian
DOMANI, Guenter
POL, Frederic		7CH
AT
DE		Grofstrasse 1a,9470 Buchs,9470,CH
Oberfeldweg 31,6719 Bludesch,6719,AT
Churerstrasse 114,9470 Buchs,9470,CH
Bitzistrasse 15,9464 Rüthi,9464,CH
Schulstrasse 2,9450 Altstätten,9450,CH
Kirchstr. 28E,88138 Weissensberg,88138,DE
Liechtensteinerstrasse 14,6800 Feldkirch,6800,AT		HILTI AKTIENGESELLSCHAFTCorporate Intellectual Property,Feldkircherstrasse 100,9494 Schaan,9494,LI-----0-0-00-00-WO20242457202024-12-0520HILTI AKTIENGESELLSCHAFT-------------
19
US12163543B22024-12-10Rivet with improved structure for forming flat-bottom riveting of platesinvention18/1652512023-02-06A rivet with improved structure for forming flat-bottom riveting of plates, which comprises a rivet cover, a rivet shoulder and a rivet body; specifically, the rivet cover is provided with a torque transmission structure and a positioning structure for driving the rivet to rotate; the rivet body comprises an inner cavity of the rivet body, an outer wall of the rivet body and an end of the rivet body; with the present invention, the bottom surface of the joint can be flush with the surface of the connected plates, which facilitates the subsequent processing of the coverage on the bottom surface, reduces the wind resistance coefficient of the joint, and broadens the application range of the process.1. A rivet with improved structure for forming flat-bottom riveting of plates used for spot joining process, comprises a rivet cover, a rivet shoulder and a rivet body, wherein the rivet cover is provided with a torque transmission structure and a positioning structure for driving the rivet to rotate; the rivet body comprises an inner cavity of the rivet body, an outer wall of the rivet body and an end of the rivet body;
the said inner cavity depth of the rivet body h meets the following requirements: h−L≤H, wherein H is the thickness of the rivet cover, D is the outer wall diameter of the rivet body, and d is the inner cavity diameter of the rivet body;the length L of the said rivet body and the thickness and layers of the workpiece to be connected meet the formula Σi=1n-1ti<L<Σt=1nti′, wherein ti is the thickness of the i-th layer of the workpiece to be connected, n is the number of layers of the workpiece to be connected, and n≥1; andthe said inner and outer walls of rivet body are provided with a rivet body penetration structure, which can form a plurality of through holes on the rivet body and is used to discharge the to-be-connected materials trapped in the inner cavity of the rivet body to the outside of the body during the riveting process, so as to prevent forming gaps between the workpieces or deformation of the bottom of the joint as a result of trapped materials squeezing the workpieces to be connected once the cavity of the rivet body is filled with such materials.		1. A rivet with improved structure for forming flat-bottom riveting of plates used for spot joining process, comprises a rivet cover, a rivet shoulder and a rivet body, wherein the rivet cover is provided with a torque transmission structure and a positioning structure for driving the rivet to rotate; the rivet body comprises an inner cavity of the rivet body, an outer wall of the rivet body and an end of the rivet body;
the said inner cavity depth of the rivet body h meets the following requirements: h−L≤H, wherein H is the thickness of the rivet cover, D is the outer wall diameter of the rivet body, and d is the inner cavity diameter of the rivet body;the length L of the said rivet body and the thickness and layers of the workpiece to be connected meet the formula Σi=1n-1ti&lt;L&lt;Σt=1nti′, wherein ti is the thickness of the i-th layer of the workpiece to be connected, n is the number of layers of the workpiece to be connected, and n≥1; andthe said inner and outer walls of rivet body are provided with a rivet body penetration structure, which can form a plurality of through holes on the rivet body and is used to discharge the to-be-connected materials trapped in the inner cavity of the rivet body to the outside of the body during the riveting process, so as to prevent forming gaps between the workpieces or deformation of the bottom of the joint as a result of trapped materials squeezing the workpieces to be connected once the cavity of the rivet body is filled with such materials.
2. The rivet with improved structure according to claim 1, in which there are 3-6 of the said through holes uniformly distributed along the circumference of the rivet body, with a diameter of 0.8 to 1.2 times of the wall thickness of the rivet body, and the said through holes are to be filled with the material of the workpieces to be connected in the final joint, forming mechanical interlocking to increase the locking force of the joint and prevent it from loosening.
3. The rivet with improved structure according to claim 1, in which said rivet shoulder is provided with a groove for holding the materials from the workpieces to be connected which are extruded during the rivet pressing process, and the volume of the groove isVgroove=k1⁢π⁡(D2⁢L-d2⁢h)4,wherein D is the outer wall diameter of the rivet body, d is the inner cavity diameter of the rivet body, L is the length of the rivet body, h is the cavity depth of the rivet body, and k1 is the correction factorand 1.0&lt;k1≤1.2.
4. The rivet with improved structure according to claim 1, in which the said rivet shoulder is further provided with some stiffeners which will be embedded into the workpieces to be connected in the final joint, in order to fasten the joint in the circumferential direction.
5. The rivet with improved structure according to claim 1, in which the said outer wall and the inner cavity of rivet body are provided with an interlocking structure, in order to form interlocking with the connected mat...		SHANGHAI JIAO TONG UNIVERSITYCNSHANGHAI JIAO TONG UNIVERSITYCN ShanghaiSHANGHAI JIAO TONG UNIVERSITYCN-F16B019/10F16B019/1011-F16B0019/1027F16B0019/1027
F16B0019/10		--------Yongbing Li
Yunwu Ma
Ming Lou
He Shan
Bingxin Yang		5CN Shanghai
Shanghai
Shanghai
Shanghai
Shanghai		CBM PATENT CONSULTING, LLC--Roberta S DelisleRoberta S DelisleUS7628573
US11440083
US11833576
US20090269165
US20130094924
US20140242373
US20150056042
US20150082607
US20170343027
US20180094660
US20190277320
US20200332818		12-0-11US12163543
CN114233733B
EP4202238A1
WO2023083124		44-US202301842812023-06-1519SHANGHAI JIAO TONG UNIVERSITYValid-------------
20
WO2024247976A12024-12-05FASTENER, MALE-SCREW-SIDE MEMBER, AND FEMALE-SCREW-SIDE MEMBERinventionJP20240194622024-05-28The present invention provides a fastener that makes it possible to shorten the time required for fastening. The fastener comprises: a male-screw-side member having a screw part 11 in which male screw surfaces 12A, 12B that have a male-screw-side screw thread 12 formed thereon and outer circumferential parts 13A, 13B that do not have a male-screw-side screw thread 12 formed thereon are disposed in an alternating manner; and a female-screw-side member 20 having a screw hole 21 in which female screw surfaces 22A, 22B that have a female-screw-side screw thread 22 formed thereon and inner circumferential parts 23A, 23B that do not have a female-screw-side screw thread 22 formed thereon are disposed in an alternating matter, and which allows the male screw surfaces 12A, 12B and the female screw surfaces 22A, 22B to screw together. The male-screw-side screw thread 12 is formed such that the width thereof in the radial direction of the screw part 11 increases from the front to the rear in the direction of relative rotation when the male screw surfaces 12A, 12B and the female screw surfaces 22A, 22B are screwed together. The female-screw-side screw thread 22 is formed such that the width thereof in the radial direction of the screw hole 21 decreases from the front to the rear in the direction of relative rotation.
 外周方向において、雄ねじ側のねじ山が形成される雄ねじ面と當該雄ねじ側のねじ山が形成されていない外周片とが交互に配置されるねじ部を有する雄ねじ側部材と、
 內周方向において、雌ねじ側のねじ山が形成される雌ねじ面と當該雌ねじ側のねじ山が形成されていない內周片とが交互に配置され、前記雄ねじ面と當該雌ねじ面とが螺合可能なねじ孔を有する雌ねじ側部材と、
 を備え、
 前記雄ねじ側のねじ山は、前記雄ねじ面と前記雌ねじ面とが螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ部の徑方向における幅が広がるように形成され、
 前記雌ねじ側のねじ山は、前記相対回転方向前方から當該相対回転方向後方に向かうにしたがって、當該ねじ孔の徑方向における幅が狹まるように形成される、
 締結具。

 外周方向において、雄ねじ側のねじ山が形成される雄ねじ面と當該雄ねじ側のねじ山が形成されていない外周片とが交互に配置されるねじ部を有する雄ねじ側部材と、
 內周方向において、雌ねじ側のねじ山が形成される雌ねじ面と當該雌ねじ側のねじ山が形成されていない內周片とが交互に配置され、前記雄ねじ面と當該雌ねじ面とが螺合可能なねじ孔を有する雌ねじ側部材と、
 を備え、
 前記雄ねじ側のねじ山は、前記雄ねじ面と前記雌ねじ面とが螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ部の徑方向における幅が広がるように形成され、
 前記雌ねじ側のねじ山は、前記相対回転方向前方から當該相対回転方向後方に向かうにしたがって、當該ねじ孔の徑方向における幅が狹まるように形成される、
 締結具。


 前記雄ねじ面と前記雌ねじ面との螺合狀態における前記ねじ部と前記ねじ孔との相対回転を係止するようにして、前記ねじ部及び前記ねじ孔に形成される係止部を更に備える、
 請求項1に記載の締結具。


 前記係止部は、
 前記雄ねじ側のねじ山に形成される凸部と、
 前記雌ねじ側のねじ山に形成され、前記螺合狀態において前記凸部が嵌合される凹部と、
 を備える、
 請求項2に記載の締結具。


 前記凸部は、前記雄ねじ側のねじ山の前記相対回転方向後方側の端部に形成され、
 前記凹部は、前記雌ねじ側のねじ山の前記相対回転方向前方側の端部に形成される、
 請求項3に記載の締結具。


 前記係止部は、
 前記雌ねじ側のねじ山に形成される凸部と、
 前記雄ねじ側のねじ山に形成され、前記螺合狀態において前記凸部が嵌合される凹部と、
 を備える、
 請求項2に記載の締結具。


 前記凸部は、前記相対回転方向前方側が凸曲面狀、當該相対回転方向後方側が階段狀であり、
 前記凹部は、前記相対回転方向後方側が前記凸部の當該相対回転方向前方側に対応した凹曲面狀、當該相対回転方向前方側が當該凸部の當該相対回転方向後方側に対応した階段狀である、
 請求項3から5のいずれか1項に記載の締結具。


 前記ねじ部は、前記雄ねじ面と前記雌ねじ面との螺合狀態において前記ねじ孔と連通する貫通孔を內側に有する筒狀である、
 請求項1に記載の締結具。


 前記貫通孔における軸心よりも徑方向外側において、一端部が、前記相対回転方向を向くように設けられた雄ねじ側配管と、
 前記ねじ孔における軸心よりも徑方向外側において、一端部が、前記相対回転方向を向き、前記螺合狀態において、當該一端部が前記雄ねじ側配管の前記一端部と嵌合するように設けられた雌ねじ側配管と、
 を更に備える、
 請求項7に記載の締結具。


 ねじ部の外周方向における一部に配置され、雄ねじ側のねじ山が形成される雄ねじ面と、
 前記外周方向において前記雄ねじ面と交互に配置されることで前記ねじ部の外周を形成し、前記雄ねじ側のねじ山が形成されていない外周片と、
 を備え、
 前記雄ねじ側のねじ山は、ねじ孔と螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって前記ねじ部の徑方向における幅が広がる、
 雄ねじ側部材。


 ねじ孔の內周方向における一部に配置され、雌ねじ側のねじ山が形成される雌ねじ面と、
 前記內周方向において前記雌ねじ面と交互に配置されることで前記ねじ孔の內周を形成し、前記雌ねじ側のねじ山が形成されていない內周片と、
 を備え、
 前記雌ねじ側のねじ山は、ねじ部と螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって前記ねじ孔の徑方向における幅が狹まる、
 雌ねじ側部材。
 
PATE.TO CO.,LTDJP4863-152, Ubumi, Yuto-cho, Chuo-ku, Hamamatsu-shi, Shizuoka,4310102,〒4310102,JPPATE.TO CO.,LTDJP----F16B035/00F16B035/00
F16B033/02
F16B037/08
F16L015/06		24--------2023-0891032023-05-30JPUCHIDA Yonefusa1JPc/o pate.to Co.,Ltd, 4863-152, Ubumi, Yuto-cho, Chuo-ku, Hamamatsu-shi, Shizuoka,4310102,〒4310102,JPKOBAYASHI TakumiBIRD INTERNATIONAL PATENT FIRM, 3-24, Ikeda 3-chome, Kofu-shi, Yamanashi,4000062,〒4000062,JP-----0-0-00-00-WO20242479762024-12-0520PATE.TO CO.,LTD-------------
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CN113153887B2024-12-03永久防鬆螺母組件inventionCN202011511782.72020-12-18本發明涉及緊固件技術領域,尤其涉及一種永久防鬆螺母元件。本發明永久防鬆螺母組件,包括螺栓、鎖緊螺母壓緊螺母和彈性卡片止動墊圈;彈性卡片止動墊圈位於壓緊螺母和鎖緊螺母之間;彈性卡片止動墊圈包括墊圈本體,墊圈本體的下表面與鎖緊螺母的頂面貼合,其上表面與壓緊螺母的底面相抵接;墊圈本體的中部開有供螺栓穿入的圓孔,圓孔的邊沿朝壓緊螺母一側並向圓孔內縮口延伸形成弧形卡片,位於所述圓孔左側的弧形卡片為第一弧形卡片,位於所述圓孔右側的弧形卡片為第二弧形卡片,第一弧形卡片卡接在螺栓的螺紋溝槽內,第二弧形卡片卡接在螺栓的螺紋牙的頂部;彈性卡片止動墊圈通過第一弧形卡片和第二弧形卡片卡固在螺栓上,實現鎖緊螺母的永久防鬆。;1.一種永久防鬆螺栓組件,包括螺栓(10)和螺接在嫘螺栓(10)上的鎖緊螺栓(30),所述螺栓(川)上具有向外凸出的螺紋牙(( l)和向內螺絲的螺紋連接器(12);其特徵在於,還包括壓緊螺栓(20)和彈性調節止動墊(40),所述彈性調節止動墊(40)和壓緊止動墊螺栓(20)依序安裝在螺栓上,所述彈性調整止動墊(40)位於所述壓緊螺栓(20)和所述鎖緊螺栓(30)之間;所述彈性調節止動墊(4) ())包括墊本休(41),所述緩衝本體(4D的下表面與鎖緊螺栓(30)的頂面貼合,所述緩衝本伓(41)的上表面與所述壓緊螺栓(2())的底面相扺接:所述腰帶本體(41)的中部丌有供螺栓(10)穿入的圓孔(42),所述圓孔(42)的邊緣朝壓緊螺栓( 20)另一弧形圓孔(12)內縮Ⅱ形成延伸弧形調整(43),所述弧形調整(43)具有位於頂部的上邊沿(43a)和位於底部的下邊緣( 43b)以及位於圓圈的側邊沿(43c);位於圓孔(42)右側的所述弧形配合43)為第一弧形配合(44),位於所述圓孔(42)右側的弧形配合(43)為第二弧形調節(45),所述第一弧形調節(14)與所述第二弧形調節(45)的中心軸承重合,所述第一弧形調節(44 )和第二弧形配合(45)的上邊沿(43a)第二圓弧形,第二弧形配合(45)的上邊沿(4)的圓弧半徑最大第一弧形配合(44)的上邊沿(43a)的圓弧半徑,且所述第二弧形平衡(45)的上邊沿(43a)位於所述第一弧形平衡(44)的上邊沿(43a)的上方,所述第一弧形平衡形配合(44)的上邊沿(43a)卡接在螺栓(1())的螺紋控制器(12)內,所述第二弧形配合(45)的上邊沿(43a)卡接在螺栓( 10)的螺紋牙(11)的頂部;彈性調節止動墊(40)所述,透過第一弧形調整(44)和第二弧形調節(45)卡固在螺栓(10 )上,實現鎖緊螺栓的防鬆;所述壓緊螺栓(20)的底部旨在內形成用於容置彈性止動墊(40)弧形配合(43)的車輪((1)1.一種永久防鬆螺栓組件,包括螺栓(10)和螺接在嫘螺栓(10)上的鎖緊螺栓(30),所述螺栓(川)上具有向外凸出的螺紋牙(( l)和向內螺絲的螺紋連接器(12);其特徵在於,還包括壓緊螺栓(20)和彈性調節止動墊(40),所述彈性調節止動墊(40)和壓緊止動墊螺栓(20)依序安裝在螺栓上,所述彈性調整止動墊(40)位於所述壓緊螺栓(20)和所述鎖緊螺栓(30)之間;所述彈性調節止動墊(4) ())包括墊本休(41),所述緩衝本體(4D的下表面與鎖緊螺栓(30)的頂面貼合,所述緩衝本伓(41)的上表面與所述壓緊螺栓(2())的底面相扺接:所述腰帶本體(41)的中部丌有供螺栓(10)穿入的圓孔(42),所述圓孔(42)的邊緣朝壓緊螺栓( 20)另一弧形圓孔(12)內縮Ⅱ形成延伸弧形調整(43),所述弧形調整(43)具有位於頂部的上邊沿(43a)和位於底部的下邊緣( 43b)以及位於圓圈的側邊沿(43c);位於圓孔(42)右側的所述弧形配合43)為第一弧形配合(44),位於所述圓孔(42)右側的弧形配合(43)為第二弧形調節(45),所述第一弧形調節(14)與所述第二弧形調節(45)的中心軸承重合,所述第一弧形調節(44 )和第二弧形配合(45)的上邊沿(43a)第二圓弧形,第二弧形配合(45)的上邊沿(4)的圓弧半徑最大第一弧形配合(44)的上邊沿(43a)的圓弧半徑,且所述第二弧形平衡(45)的上邊沿(43a)位於所述第一弧形平衡(44)的上邊沿(43a)的上方,所述第一弧形平衡形配合(44)的上邊沿(43a)卡接在螺栓(1())的螺紋控制器(12)內,所述第二弧形配合(45)的上邊沿(43a)卡接在螺栓( 10)的螺紋牙(11)的頂部;彈性調節止動墊(40)所述,透過第一弧形調整(44)和第二弧形調節(45)卡固在螺栓(10 )上,實現鎖緊螺栓的防鬆;所述壓緊螺栓(20)的底部旨在內形成用於容置彈性止動墊(40)弧形配合(43)的車輪((1)武鋼資源集團程潮礦業有限公司CN436050 湖北省鄂州市澤林鎮程潮街特1號程潮鐵礦武鋼資源集團程潮礦業有限公司CN ---F16B039/26F16B039/26
F16B039/38
F16B039/02		11-----------鄧承仁1- 趙龍驤
武漢開元智慧財產權代理有限公司 42104		20241203-黃佳黃佳CN2158056781-0-40CN113153887B11-CN1131538872021-07-2316武鋼資源集團程潮礦業有限公司Valid-------------
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TWI845310B2024-06-11扣件模具座之位移量的調整方法invention1121187172023-05-19一種扣件模具座之位移量的調整方法,其包括:提供具有扣件模座之扣件成形機,該扣件模座包括模穴、調整單元及樞轉單元;測量扣件對應模座之模穴偏移量,並依此計算調整位移量,其為扣件模座由第一位置移動至第二位置之過程中,調整單元所產生之位移量;依據該調整位移量計算建議補償量;以及依據該建議補償量並通過該調整單元控制該扣件模座移動至第三位置;本發明具體提供了現階段扣件產業的成形設備輔助機制,以實現模具調校方法的系統化,據以協助機台操作人員更為準確地調整模具位置,以減少樣料的損失及儀器操作的誤差,增進扣件生產品質。一種扣件模具之位移量的調整方法,其包括:提供一具有扣件模座之扣件成形機,其中,該扣件模座包含:一模穴;一調整單元,設置於該模穴之一側,並與該模穴連接以調整該扣件模座移動,其包括一水準調整件,與該模穴相互對應地穿設該調整單元;及一樞轉單元,與該調整單元相對應地設置於該模穴之另一側,其包括一樞轉軸,設置以將該扣件模座樞設於該扣件成形機上;通過該調整單元控制該扣件模座由一第一位置以該樞轉軸為中心軸於一第一水平面上旋轉至一第二位置;測量一調整位移量,其為一第一調整中心Z1於該扣件模座由該第一位置移動至該第二位置之過程中,由該第一調整中心Z1移至一第二調整中心Z1’所產生之位移量,其中,該第一調整中心Z1為該水準調整件與通過一第一模穴中心Dc1之扣件模座長軸之交會點於該第一水平面之投影點,該第一模穴中心DC1為該模穴之幾何中心於該第一水平面上之投影點;依據該調整位移量計算一建議補償量y1a;以及依據該建議補償量y1a並通過該調整單元控制該扣件模座於該第一水平面上沿一第一延伸線移動至一第三位置,該第一延伸線係該扣件模座處於該第一位置時,由該第一調整中心Z1朝向該第一模穴中心Dc1延伸之延伸線。
一種扣件模具之位移量的調整方法,其包括:提供一具有扣件模座之扣件成形機,其中,該扣件模座包含:一模穴;一調整單元,設置於該模穴之一側,並與該模穴連接以調整該扣件模座移動,其包括一水準調整件,與該模穴相互對應地穿設該調整單元;及一樞轉單元,與該調整單元相對應地設置於該模穴之另一側,其包括一樞轉軸,設置以將該扣件模座樞設於該扣件成形機上;通過該調整單元控制該扣件模座由一第一位置以該樞轉軸為中心軸於一第一水平面上旋轉至一第二位置;測量一調整位移量,其為一第一調整中心Z1於該扣件模座由該第一位置移動至該第二位置之過程中,由該第一調整中心Z1移至一第二調整中心Z1’所產生之位移量,其中,該第一調整中心Z1為該水準調整件與通過一第一模穴中心Dc1之扣件模座長軸之交會點於該第一水平面之投影點,該第一模穴中心DC1為該模穴之幾何中心於該第一水平面上之投影點;依據該調整位移量計算一建議補償量y1a;以及依據該建議補償量y1a並通過該調整單元控制該扣件模座於該第一水平面上沿一第一延伸線移動至一第三位置,該第一延伸線係該扣件模座處於該第一位置時,由該第一調整中心Z1朝向該第一模穴中心Dc1延伸之延伸線。

如請求項1所述之方法,其中,該建議補償量y1a之計算更包括:依據該調整位移量計算一第二分量xi,其為該調整位移量於該第一水平面上垂直於一第一延伸線的水準分量;及
依據該第二分量xi計算該建議補償量y1a。

如請求項2所述之方法,其中,該建議補償量y1a之計算更包括:依據該第二分量xi計算一第一分量x1;及依據該第一分量x1計算該建議補償量y1a,其係依據下述計算式(II)而獲得:

其中,β為一第一模穴中心Dc1至一第二樞轉中心Z2之直線距離,該第一分量x1為該第一模穴中心DC1於該扣件模座由該第一位置移動至該第二位置之過程中,由該第一模穴中心DC1移至一第二模穴中心D’C1所產生之位移量之水準分量,其中,該第一模穴中心DC1為該模穴之幾何中心於該第一水平面上之投影點,該第二樞轉中心Z2位於該第一延伸線上,該第一分量x1於該第一水平面上垂直於一第一延伸線。

如請求項3所述之方法,其中,該第一分量x1係依據下述計算式(I)而獲得:

其中,α1為該第一調整中心Z1至一第一樞轉中心Dc2之直線距離,其中,該第一樞轉中心DC2為該樞轉軸之中心軸延伸線於該第一水平面之交會點,且該第一樞轉中心DC2與該第二樞轉中心Z2位於同一位置。

如請求項2所述之方法,其更包括:依據該第二分量x計算一第一分量x1;及依據該第一分量x1計算該建議補償量y1a,其係依據下述計算式(VI)而獲得:

其中,θa為該第一延伸線及一第三延伸線於該第一水平面上所共同界定之夾角,該第三延伸線為該第一調整中心Z1與一第一樞轉中心DC2所共同界定,且該夾角θa介於0至90度之間,其中,該第一樞轉中心DC2為該樞轉軸之中心軸延伸線於該第一水平面之交會點。

如請求項5所述之方法,其中,該第一分量x1係依據下述計算式(IIIa)或計算式(IIIb)而獲得:

其中,α2為該第一調整中心Z1至一第二樞轉中心Z2之直線距離,β為一模穴中心Dc1至該第二樞轉中心Z2之直線距離,d為該第二樞轉中心Z2與一第一樞轉中心DC2之間隔距離,其中,該第一模穴中心DC1為該模穴之幾何中心於該第一水平面上之投影點,該第二樞轉中心Z2位於該第一延伸線上,且並該第一樞轉中心Z2朝向該第二樞轉中心DC2延伸之第二延伸線與該第一延伸線垂直。

如請求項1至6任一項所述之方法,其中,該調整單元包括:一第一偏心調整件,其設置於該調整單元相鄰於該模穴之一側,並具有一第一偏心導程量spi,其中,該扣件模座之控制步驟更包括:旋轉該第一偏心調整件達一第一旋轉量Si以控制該扣件模座由該第一位置旋轉至該第二位置,其中,該第二分量xi係依據下述計算式(Ia)而獲得:

如請求項7所述之方法,其中,該調整單元更包括:
一第二偏心調整件,其與該第一偏心調整件相對應地設置於該調整單元之另一側,並具有一第二偏心導程量spi’,其中,該扣件模座之控制步驟更包括:旋轉該第二偏心調整件達一第二旋轉量Si’以控制該扣件模座由該第一位置旋轉至另一該第二位置,其中,該另一第二位置相對於該第二位置設置於該第一位置的一側,則該第二分量xi係依據下述計算式(Ib)而獲得:

如請求項1至6任一項所述之方法,於控制該扣件模座沿該第一延伸線之方向移動前,更包括將一預定軸向位移量yj扣除或加上該建議補償量y1a以獲得一補償軸向位移量y,並依據該補償軸向位移量y控制該扣件模座移動至該第三位置,其中,該補償軸向位移量y係依據下述計算式(V)而獲得:y=yj±y1a......(V)。

如請求項9所述之方法,其中,該調整單元更包括一軸向調整件,其相對於該模穴設置於該水準調整件的另一側,並具有一軸向導程量spj,其中,該預定軸向位移量yj的計算方法包括:依據一預定旋轉量Sj計算該扣件模座沿該第一延伸線之方向移動所對應產生之該預定軸向位移量yj,其係依據下述計算式(VI)而獲得:
國立高雄科技大學TW高雄市三民區建工路415號國立高雄科技大學TW---B21D037/04B21D037/04
B21C051/00		22-----溫志群
陳汀順		2TW
許智為
李威聰		高雄市三民區鼎華路165號
高雄市三民區鼎華路165號		5117林桂忠林桂忠0CN111069423
US5216622
US2020/0406344
WO2020/174927		410I84531011I845310TW2024465102024-12-01NATIONAL KAOHSIUNG UNIVERSITY OF SCIENCE AND TECHNOLOGY19國立高雄科技大學ValidNONO2024/06/112043/05/18NONONONONO32027/06/10
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CN119062645A2024-12-03設計螺栓接頭的方法inventionCN202410687609.42024-05-30本發明涉及一種建立螺栓接頭的方法,所述方法包括以下步驟:選擇螺栓接頭的類型;確定所選擇的螺栓接頭的目標預張力水準,其中,目標預張力水準比所述螺栓接頭的最大預張力水準低不到10%,所述最大預張力水準與在不影響螺栓接頭的情況下不能超過的預張力水準有關;安裝螺栓接頭,其中,在擰緊過程中測量螺栓接頭的實際預張力水準。;1.一種建立螺栓接頭的方法,所述方法包括以下步驟:-選擇螺栓接頭的類型;-確定所選擇的螺栓接頭的目標預張力水準,其中,所述目標預張力水準比所述螺栓接頭的最大預張力水準低不到10%,所述最大預張力水準與在不影響所述螺栓接頭的情況下不能超過的預張力水準有關;-安裝所述螺栓接頭,其中,在擰緊過程中測量所述螺栓接頭的實際預張力水準。1.一種建立螺栓接頭的方法,所述方法包括以下步驟:-選擇螺栓接頭的類型;-確定所選擇的螺栓接頭的目標預張力水準,其中,所述目標預張力水準比所述螺栓接頭的最大預張力水準低不到10%,所述最大預張力水準與在不影響所述螺栓接頭的情況下不能超過的預張力水準有關;-安裝所述螺栓接頭,其中,在擰緊過程中測量所述螺栓接頭的實際預張力水準。
2.如權利要求1所述的方法,其中,所述目標預張力水準比所述螺栓接頭的最大預張力水準低約5%。
3.如權利要求1或2所述的方法,其中,所述目標預張力水準比所述螺栓接頭的最小預張力水準高出不到10%,所述最小預張力水準與建立所述螺栓接頭所需的保持力必須滿足的預張力水準有關。
4.如權利要求1至3中任一項所述的方法,其中,測量所述螺栓接頭的實際預張力水準包括:-在所述擰緊過程之前測量所述螺栓接頭中的螺栓的未載入長度;-在所述擰緊過程之後測量所述螺栓的載入長度;-基於所述螺栓的所述未載入長度與所述載入長度之間的差異確定所述實際預張力水準。
5.如權利要求4所述的方法,包括在所述實際預張力水準小於所述目標張力水準時再擰緊所述螺栓接頭。
6.如權利要求1至5中任一項所述的方法,包括:-存儲所述目標預張力水準和/或在所述擰緊過程之後實現的所述實際預張力水準。
7.一種維修現有螺栓接頭的方法,所述方法包括:-測量所述螺栓接頭的預張力水準;-將所測量的預張力水準與在所述螺栓接頭的初始擰緊過程中獲得的存儲的預張力水準作比較;以及-再擰緊所述螺栓接頭,使得所述所測量的預張力水準與所述存儲的預張力水準相匹配。
8.螺栓伸長測量裝置在螺栓接頭的擰緊過程中用於驗證所述螺栓接頭的實際預張力水準的用途,其中,所述螺栓伸長測量裝置被配置為應用所述螺栓接頭的至少兩個不同的長度測量值。
9.如權利要求8所述的用途,其中,所述伸長測量裝置被配置成:-在所述擰緊過程之前測量所述螺栓接頭中的螺栓的未載入長度;-在所述擰緊過程之後測量所述螺栓的載入長度;-基於所述螺栓的所述未載入長度與所述載入長度之間的差異確定所述實際預張力水準。		R&amp;D 工程有限公司DK丹麥辛內魯普市R&amp;D 工程有限公司DK----F16B035/00F16B035/00
F16B031/02		12--------23177051.2
EP23177051.2
002023000177051
EP002023000177051		2023-06-02EP弗萊明·塞爾默·尼爾森
傑斯珀·斯托克布克
延斯·維斯特加德·尼博		3-

饒玉芳
上海脫穎律師事務所 31259		20241203----0-0-00-00-CN1190626452024-12-0320R&amp;D 工程有限公司Pub.-------------
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TWI865134B2024-12-01兼具多段式創新結構的拉芯鉚釘之製作及其施工方法invention1121413542023-10-27本發明拉芯鉚釘,係包含了釘芯、及鉚體所組成;主要目的提供一種拉芯鉚釘,透過該拉芯鉚釘之釘芯拉拔段設計,有效的縮短釘芯之拉拔段長度,進而縮短整體釘芯長度,如此一來將能夠減少材料成本;本發明將在該鉚體之桿身之0.5L0.6L0.7L處分別鑽設0.5L直徑為Ø導形孔、0.6L直徑為Ø2/3導形孔、0.7L直徑為Ø/3導形孔,如此一來本鉚體搭配使用之拉芯鉚釘,係可由單一形式之鉚體應用於不同板厚之待鎖固物時,將可透過上述三種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變,藉由該導形孔之輔助下做最適當的挫屈應變至將其待鎖固物固定。一種拉芯鉚釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有直線開槽部、第一螺旋開槽部、及第二螺旋開槽部,以上開槽部皆為四線間隔90°之導氣槽,並且該開槽段開槽深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有四線螺旋槽之結構,並且因該四線螺旋槽結構可增加拉拔時之握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可達0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及鉚身所組成。一種拉芯鉚釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有直線開槽部、第一螺旋開槽部、及第二螺旋開槽部,以上開槽部皆為四線間隔90°之導氣槽,並且該開槽段開槽深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有四線螺旋槽之結構,並且因該四線螺旋槽結構可增加拉拔時之握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可達0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及鉚身所組成。
一種利用請求項1所述之拉芯鉚釘的施工方法,係透過下列步驟而成: A. 鑽孔步驟:在待鎖固物上鑽設孔徑d'+d'/16略大於釘芯釘頭、及鉚體鉚身直徑的孔洞; B. 預組步驟:將釘芯由釘桿端插入鉚體之鉚身端,使其形成本發明之拉芯鉚釘; C. 裝設步驟:再將上述預組完成之拉芯鉚釘,插入鑽設步驟預先鑽設的孔洞; D. 固定步驟:將上述已插入鑽設步驟預先鑽設的孔洞的,拉芯鉚釘,將其鉚體之鉚頭施以軸嚮往待鎖固物之力,同時將鉚芯之拉拔段施予相對於鉚體相反方向之力,使其鉚體之鉚身產生應變至將其待鎖固物固定。
一種拉芯鉚釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0,釘頭直徑為d'-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有直線開槽部、第一螺旋開槽部、及第二螺旋開槽部,以上開槽部皆為四線間隔90°之導氣槽,並且該開槽段開槽深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有四線螺旋槽之結構,並且因該四線螺旋槽可增加握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可達0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及一鉚身所組成,並且透過該鉚體之鉚身預先於0.5L、0.6L、0.7L處分別鑽設0.5L處直徑為Ø導形孔、0.6L處直徑為Ø2/3導形孔、0.7L處直徑為Ø/3導形孔,並透過上述分別設置之0.5L處導形孔、0.6L處導形孔、0.7L處導形孔,此時該鉚身之挫屈點將落在長桿受軸向應力時會由鉚身長度L的0.5L~0.7L開始產生應變,由此本發明將透過該鉚體之桿身0.5L、0.6L、0.7L處分別鑽設之導形孔於固定時做自適應的挫屈應變,如此一來本鉚體搭配使用之拉芯鉚釘,係可由單一形式之鉚體應用於不同板厚之待鎖固物時,將可透過上述三種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變,藉由該導形孔之輔助下做最適當的挫屈應變至將其待鎖固物固定。
一種利用請求項3所述之拉芯鉚釘的施工方法,係透過下列步驟而成: A. 鑽孔步驟:在待鎖固物上鑽設孔徑d'+d'/16略大於釘芯釘頭、及鉚體鉚身直徑的孔洞; B. 預組步驟:將釘芯由釘桿端插入鉚體之鉚身端,使其形成本發明之拉芯鉚釘; C. 裝設步驟:再將上述預組完成之拉芯鉚釘,插入鑽設步驟預先鑽設的孔洞; D. 固定步驟:將上述已插入鑽設步驟預先鑽設的孔洞的,拉芯鉚釘,將其鉚體之鉚頭施以軸嚮往待鎖固物之力,同時將鉚芯之拉拔段施予相對於鉚體相反方向之力,,並且透過該鉚體之鉚身預先於0.5L、0.6L、0.7L處分別鑽設0.5L處直徑為Ø導形孔、0.6L處直徑為Ø2/3導形孔、0.7L處直徑為Ø/3導形孔,並透過上述分別設置之0.5L處導形孔、0.6L處導形孔、0.7L處導形孔,此時該鉚身之挫屈點將落在長桿受軸向應力時會由鉚身長度L的0.5L~0.7L開始產生應變,並且透過該鉚體之鉚身預先於0.5L、0.6L、0.7L處分別鑽設0.5L直徑為Ø導形孔、0.6L直徑為Ø2/3導形孔、0.7L直徑為Ø/3導形孔,在固定不同板厚之待鎖固物時,將可透過上述三種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變,藉由該導形孔之輔助下做最適當的挫屈應變至將其待鎖固物固定。		鋐昇實業股份有限公司TW高雄市苓雅區三多四路110號15樓之6鋐昇實業股份有限公司TW---F16B019/04F16B019/0411-----黃文彬1TW塗家彰高雄市左營區大順一路93號7樓之15134蔡宗澤蔡宗澤0US2020/0215765
US2021/0231144
US2021/0372456		310-00I86513419鋐昇實業股份有限公司ValidNONO2024/12/012043/10/26NONONONONO32027/11/30
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TW202446511A2024-12-01串聯式扣件模具座之位移量的調整方法invention1121187162023-05-19本發明揭示一種串聯式扣件模具座之位移量的調整方法,其包括:提供一具有扣件模座之扣件成形機,其中,該扣件模座包含一第一沖模、一第二沖模及一調整單元;控制該扣件模座由第一位置偏心旋轉至第二位置或另一第二位置;測量該扣件模座之水準位移量;依據該水準位移量計算軸向建議補償量及水準建議補償量;依據該軸向建議補償量及水準建議補償量調整該扣件模座至扣件沖模程式所需之相對位置;該方法可以有效地解決當前產業中常用的一模二沖成形機之模具座調校,提供了系統性的解決方案,透過輔助機制解決習知扣件鍛造過程中,仰賴人員經驗與重複打樣試錯所導致的模具座調校問題。一種串聯式扣件模具座之位移量的調整方法,其包括:提供一具有扣件模座之扣件成形機,其中,該扣件模座包含:一第一冲模;一第二冲模,設置於該第一冲模之一側;及一調整單元,設置於該第一冲模相對於該第二冲模之一側,設置以調整該扣件模座移動,其包括一頂軸水平調整件。一種串聯式扣件模具座之位移量的調整方法,其包括:提供一具有扣件模座之扣件成形機,其中,該扣件模座包含:一第一冲模;一第二冲模,設置於該第一冲模之一側;及一調整單元,設置於該第一冲模相對於該第二冲模之一側,設置以調整該扣件模座移動,其包括一頂軸水平調整件。國立高雄科技大學TW高雄市三民區建工路415號國立高雄科技大學TW---B21J005/02B21J005/02
B21K001/44		22-----溫志群
宋祥亦
劉冠志
楊駿明		4TW


許智為
李威聰		高雄市三民區鼎華路165號
高雄市三民區鼎華路165號		2223-0010-00-TW2024465112024-12-01NATIONAL KAOHSIUNG UNIVERSITY OF SCIENCE AND TECHNOLOGY19國立高雄科技大學Pub.-------------
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US20240401626A12024-12-05BLIND RIVET WITH CONNECTING HEADinvention18/7327942024-06-04Disclosed is a blind rivet including the following features: a sleeve section which at a fastening end of the sleeve section is expandable with a pulling mandrel, a functional flange which is integrally configured with the sleeve section at a functional end of the sleeve section opposite to the fastening end and which extends radially beyond the sleeve section, and a connecting head which is molded to the functional flange so that a connection between the blind rivet and an add-on part can be established.1. A blind rivet comprising:
a sleeve section which at a fastening end of the sleeve section is expandable with a pulling mandrel,a functional flange which is integrally configured with the sleeve section at a functional end of the sleeve section opposite to the fastening end and which extends radially beyond the sleeve section, anda connecting head which is molded to the functional flange so that a connection between the blind rivet and an add-on part can be established.		1. A blind rivet comprising:
a sleeve section which at a fastening end of the sleeve section is expandable with a pulling mandrel,a functional flange which is integrally configured with the sleeve section at a functional end of the sleeve section opposite to the fastening end and which extends radially beyond the sleeve section, anda connecting head which is molded to the functional flange so that a connection between the blind rivet and an add-on part can be established.
2. The blind rivet according to claim 1, the functional flange of which is formed disc-like and thereby forms an axial undercut in a longitudinal direction of the sleeve section.
3. The blind rivet according to claim 1, the functional flange of which is mushroom-shaped in an axial direction of the sleeve section and tapers in the direction of the fastening end of the sleeve section.
4. The blind rivet according to claim 2, the disc-like functional flange of which is completely surrounded circumferentially by the connecting head, which comprises a plastic material.
5. The blind rivet according to claim 4, the connecting head of which has a fastening side which faces towards the fastening end of the sleeve section and from which at least one embossing or sealing rip projects, which is configured circumferentially around the sleeve section and axially projects beyond the functional flange.
6. The blind rivet according to claim 1, the connecting head of which is configured similar to a double cone with a fastening cone and a connecting cone connected via a tapered neck portion.
7. The blind rivet according to claim 6, the fastening cone of which extends radially beyond the functional flange and the connecting cone having a ball-like coupling head.
8. The blind rivet according to claim 1, the functional flange of which includes at least one step in an axial direction, which provides a retention surface in the direction of the fastening end of the sleeve section.
9. A component with a component aperture in which the blind rivet according to claim 1 is arranged.
10. The component according to claim 9, wherein an add-on part is arranged at the connecting head of the blind rivet.		Böllhoff Verbindungstechnik GmbHDEBöllhoff Verbindungstechnik GmbHDE----F16B019/10F16B019/1011-F16B0019/1054F16B0019/1054-----202023103075.02023-06-05DEThorsten RABE1DE Kalletal-------0-0-00-00-US202404016262024-12-0520Böllhoff Verbindungstechnik GmbHPub.-------------
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TWI864546B2024-12-01使用於塑膠材料的螺絲invention1121002862023-01-04本發明提供一種使用於塑膠材料的螺絲,包含有一頭部、一尖部、一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,該螺紋的脊線斷面為圓弧形狀,該螺紋與該桿體的交接處為凹弧形狀, 該螺紋順向面的凹弧形狀曲率小於螺紋逆向面的凹弧形狀曲率,該螺紋逆向面的凹弧形狀與螺紋脊線的圓弧形狀連結,且該螺紋逆向面與桿體間呈約莫垂直的凹弧曲面,該螺紋脊線的圓弧形狀另一邊再延伸與該螺紋順向面的凹弧形狀連結,螺紋順向面往桿體方向延伸與該螺紋逆向面的凹弧型狀連結,而與螺紋牙底形成一大凹弧形狀,整個形狀以曲面呈現,本發明的螺絲在旋入塑膠工件的時候較不易破壞塑膠工件且可以避免產生較大的內應力,以及增加螺絲的拔脫力。一種使用於塑膠材料的螺絲,包含有一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,其中,該螺紋的脊線斷面為圓弧形狀,該螺紋順向面與該桿體的交接處為凹弧形狀,該螺紋逆向面與該桿體的交接處為凹弧形狀,該螺紋順向面的凹弧形狀半徑大於螺紋逆向面的凹弧形狀半徑。一種使用於塑膠材料的螺絲,包含有一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,其中,該螺紋的脊線斷面為圓弧形狀,該螺紋順向面與該桿體的交接處為凹弧形狀,該螺紋逆向面與該桿體的交接處為凹弧形狀,該螺紋順向面的凹弧形狀半徑大於螺紋逆向面的凹弧形狀半徑。
如申請專利範圍第1項所述之使用於塑膠材料的螺絲,在兩個螺紋間的該螺紋順向面的凹弧形狀與逆向面的凹弧形狀連結在一起,使得兩個螺紋間與其牙底成為大凹弧形狀。
如申請專利範圍第1項所述之使用於塑膠材料的螺絲,其中,該螺紋順向面的凹弧形狀與螺紋脊線的圓弧形狀連結。
一種使用於塑膠材料的螺絲,包含有一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,其中,該螺紋的脊線斷面為圓弧形狀,該螺紋順向面與該桿體的交接處為凹弧形狀,該螺紋逆向面與該桿體的交接處為凹弧形狀,該螺紋逆向面的凹弧形狀與螺紋脊線的圓弧形狀間具有一呈約垂直的凹弧曲面。
如申請專利範圍第4項所述之使用於塑膠材料的螺絲,其中,在兩個螺紋間的該螺紋順向面的凹弧形狀與逆向面的凹弧形狀連結在一起,使得兩個螺紋間與其牙底成為大凹弧形狀。
如申請專利範圍第4項所述之使用於塑膠材料的螺絲,其中,該螺紋順向面的凹弧形狀與螺紋脊線的圓弧形狀連結。
一種使用於塑膠材料的螺絲,包含有一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,其中,該螺紋的脊線斷面為圓弧形狀,該螺紋順向面與該桿體的交接處為凹弧形狀,該螺紋逆向面與該桿體的交接處為凹弧形狀,該螺紋順向面的凹弧形狀曲率小於螺紋逆向面的凹弧形狀曲率。
如申請專利範圍第7項所述之使用於塑膠材料的螺絲,其中,該螺紋順向面的凹弧形狀與螺紋脊線的圓弧形狀間為一斜面,該斜面為凹弧曲面。
一種使用於塑膠材料的螺絲,包含有一桿體及一螺紋,該螺紋以螺旋狀凸起方式環繞在該桿體的外表面,其中,該螺紋的脊線斷面為圓弧形狀,該螺紋順向面與該桿體的交接處為凹弧形狀,該螺紋逆向面與該桿體的交接處為凹弧形狀,在兩個螺紋間的該螺紋順向面的凹弧形狀與逆向面的凹弧形狀連結在一起,使得兩個螺紋間與其牙底成為大凹弧形狀,該螺紋逆向面的凹弧形狀與螺紋脊線的圓弧形狀間具有一呈約垂直的凹弧曲面,該螺紋順向面的凹弧形狀與螺紋脊線的圓弧形狀間為一斜面,該斜面為凹弧曲面。
如申請專利範圍第9項所述之使用於塑膠材料的螺絲,其中,該螺紋順向面的凹弧形狀曲率小於螺紋逆向面的凹弧形狀曲率。		何人東TW臺中市西屯區大安西街6號2樓之3何人東TW---F16B025/00F16B025/0011-----何人東1TW吳修閘臺北市中山區鬆江路51號5樓之15134賴耿賢賴耿賢TW297759
TWI541445
TWI710712		3EP0501519
JP2009-191930
US4527932
US5061135		410I86454611I864546TW2024289932024-07-1619何人東ValidNONO2024/12/012043/01/03NONONONONO32027/11/30
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CN119062648A2024-12-03一種密封型組合螺母inventionCN202411365006.92024-09-28本申請公開了一種密封型組合螺母,涉及密封結構技術領域,包括:金屬螺母,所述金屬螺母內設置有貫穿狀態的內螺紋;塑膠殼通過限位元機構固定在所述金屬螺母的外壁外側;膠墊部件固定組合在所述塑膠殼以及金屬螺母的下方,所述膠墊部件的外端凸出於所述塑膠殼以及所述金屬螺母,所述膠墊部件用於提供的密封功能;其中所述塑膠殼的外壁上還設置有塑膠脖子,所述塑膠脖子上設置有溝槽結構。該密封型組合螺母,實現既能簡化製造工藝,又能提高密封性能的螺母結構方案。;1.一種密封型組合螺栓,其特徵包括:金屬螺栓(川0),所述金屬螺栓(100)內設置有貴穿狀態的內螺紋(101),塑膠外殼(2,透過限位)機構固定在所述螺栓(0)的外壁固定;膠墊部件,固定組合在所述塑料殼(200)以及金屬螺栓(100)的下部,所述膠墊部件的外端凸為所所述塑料殼(200)以及所述金屬螺栓(100),所述膠墊部件用於提供的密封功能,其中所述塑料殼(20())的外壁上還設置有塑料頸(220),所以述塑料頸部(220)上設置控制器結構。1.一種密封型組合螺栓,其特徵包括:金屬螺栓(川0),所述金屬螺栓(100)內設置有貴穿狀態的內螺紋(101),塑膠外殼(2,透過限位)機構固定在所述螺栓(0)的外壁固定;膠墊部件,固定組合在所述塑料殼(200)以及金屬螺栓(100)的下部,所述膠墊部件的外端凸為所所述塑料殼(200)以及所述金屬螺栓(100),所述膠墊部件用於提供的密封功能,其中所述塑料殼(20())的外壁上還設置有塑料頸(220),所以述塑料頸部(220)上設置控制器結構。蘇州優固汽車零部件有限公司CN215300 江蘇省蘇州市昆山市張浦鎮紫荊路15號蘇州優固汽車零部件有限公司CN----F16B037/04F16B037/04
F16B033/00
F16B043/00		13-----------餘波1- 劉瑞芳
深圳知幫辦專利代理有限公司 44682		20241203----0-0-00-00-CN1190626482024-12-0320蘇州優固汽車零部件有限公司Pub.-------------
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CN119062650A2024-12-03自鎖式內齒梅花螺絲防鬆墊圈inventionCN202310637625.82023-05-30本發明公開了一種自鎖式內齒梅花螺絲防鬆墊圈,單一材質,環狀結構,根據材質可以沖模或注塑生產,環形墊圈體的內環孔是螺絲杆穿孔,圈體對側截面形狀中間為向上凸起的彈性凸弧,彈性凸弧環繞螺絲孔在圈體反面形成一個環形凹槽,若干個開口分齒縫從螺絲孔向外放射,均勻分佈在圈體上,分齒縫開口連接螺絲孔,分齒縫分割圈體內邊形成內鎖齒,內鎖齒向內變薄並呈斜度上翹,使用過程中,在受到螺絲帽或螺絲釘頭壓力時,環形凹槽會形成反向力,內鎖齒變形向內延伸嵌住螺絲杆螺絲,實現對螺絲帽或螺絲釘緊固作用,本發明材質具有結構簡單,體小輕薄等特點,可以在工業生產中廣泛應用,對螺絲釘或螺絲帽具有較好的防鬆效果。;1.一種自鎖式內齒梅花螺絲防鬆墊圈,包括圈體(1),螺絲孔(2),分齒縫(3),彈性凸弧(4),環形凹槽(5),內鎖齒(6),其特徵在於:環形墊圈體(1)的內環孔是螺絲杆穿孔(2),圈體(1)對側截面形狀中間為向上凸起的彈性凸弧(4),彈性凸弧(4)環繞螺絲孔(2)在圈體(1)反面形成一個環形凹槽(5),若干個開口分齒縫(3)從螺絲孔向外放射,均勻分佈在(2)圈體(1)上,分齒縫(3)開口連接螺絲孔(2),長度達環形凹槽(5)中間位置,分齒縫(3)分割圈體(1)內邊形成內鎖齒(6)。1.一種自鎖式內齒梅花螺絲防鬆墊圈,包括圈體(1),螺絲孔(2),分齒縫(3),彈性凸弧(4),環形凹槽(5),內鎖齒(6),其特徵在於:環形墊圈體(1)的內環孔是螺絲杆穿孔(2),圈體(1)對側截面形狀中間為向上凸起的彈性凸弧(4),彈性凸弧(4)環繞螺絲孔(2)在圈體(1)反面形成一個環形凹槽(5),若干個開口分齒縫(3)從螺絲孔向外放射,均勻分佈在(2)圈體(1)上,分齒縫(3)開口連接螺絲孔(2),長度達環形凹槽(5)中間位置,分齒縫(3)分割圈體(1)內邊形成內鎖齒(6)。
2.		廣州禾美動漫設計有限公司CN510665 廣東省廣州市天河區車陂泰安南路96號自編A26-102房廣州禾美動漫設計有限公司CN----F16B039/24F16B039/24
F16B043/00		12-----------姜曉鬆
姜曉梅		2-
--20241203----0-0-10-00-CN1190626502024-12-0319廣州禾美動漫設計有限公司Pub.-------------
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TWI865113B2024-12-01具二段式挫曲鉚體及縱向束縛釘芯之拉釘及其施工方法invention1121400382023-10-19本發明拉釘,係包含了釘芯、及鉚體所組成;主要目的提供一種拉釘,透過該拉釘之釘芯拉拔段設計,有效的縮短釘芯之拉拔段長度,進而縮短整體釘芯長度,如此一來將能夠減少材料成本;並透過該拉釘之釘芯開槽段設計,增加本拉釘拉拔後之握裹力,有效提升應用上之安全性;本發明將在該鉚體之鉚身0.6L處鑽設直徑為Ø導形孔、及0.7L處鑽設直徑為Ø/2導形孔,如此一來本鉚體搭配使用之拉釘,係可由單一形式之鉚體應用於不同板厚之待鎖固物,將可透過上述兩種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變將其待鎖固物固定。一種拉釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0,釘頭直徑為d'-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有錯位式徑向環形開槽部、及軸向直線開槽結構; 上述錯位式徑向環形開槽部為間隔90°之徑向環形槽,並且該環形槽深度可為d/48~d/32; 上述軸向直線開槽結構為四線間隔90°之直線開槽結構,並且該直線開槽結構深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有徑向凸形環狀結構,並於該徑向凸形環狀結構上設置有錯位式軸向直線開槽部,並且透過該錯位式軸向直線開槽部可增加拉拔時之握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可為0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及鉚身所組成。一種拉釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0,釘頭直徑為d'-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有錯位式徑向環形開槽部、及軸向直線開槽結構; 上述錯位式徑向環形開槽部為間隔90°之徑向環形槽,並且該環形槽深度可為d/48~d/32; 上述軸向直線開槽結構為四線間隔90°之直線開槽結構,並且該直線開槽結構深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有徑向凸形環狀結構,並於該徑向凸形環狀結構上設置有錯位式軸向直線開槽部,並且透過該錯位式軸向直線開槽部可增加拉拔時之握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可為0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及鉚身所組成。
一種利用請求項1所述之拉釘的施工方法,係透過下列步驟而成: A. 鑽孔步驟:在待鎖固物上鑽設孔徑d'+d'/16略大於釘芯釘頭、及鉚體鉚身直徑的孔洞; B. 預組步驟:將釘芯由釘桿端插入鉚體之鉚身端,使其形成本發明之拉釘; C. 裝設步驟:再將上述預組完成之拉釘,插入鑽設步驟預先鑽設的孔洞; D. 固定步驟:將上述已插入鑽設步驟預先鑽設的孔洞的,拉釘,將其鉚體之鉚頭施以軸嚮往待鎖固物之力,同時將鉚芯之拉拔段施予相對於鉚體相反方向之力,使其鉚體之鉚身產生應變至將其待鎖固物固定。
一種拉釘,係包含了釘芯、及鉚體; 所述釘芯係由釘頭、及釘桿所組成,該釘桿可分為束固段、開槽段、及拉拔段; 上述束固段為接近釘頭部分之釘桿,且該束固段之直徑為d-0,釘頭直徑為d'-0; 上述開槽段設置於連接束固段之釘桿上,且該開槽段直徑可為d-d/8~d-d/16,該開槽段分別設置有錯位式徑向環形開槽部、及軸向直線開槽結構; 上述錯位式徑向環形開槽部為間隔90°之徑向環形槽,並且該環形槽深度可為d/48~d/32; 以上述軸向直線開槽結構為四線間隔90°之直線開槽結構,並且該直線開槽結構深度可為d/48~d/32; 上述拉拔段設置於連接開槽段之釘桿上,且該拉拔段為具有徑向凸形環狀結構,並於該徑向凸形環狀結構上設置有錯位式軸向直線開槽部,並且透過該錯位式軸向直線開槽部可增加握裹力,使該釘芯之拉拔段可在握裹力不變的前提之下縮短拉拔段之長度,使整體釘芯長度縮短在製造成本有效的降低,如習知釘芯拉拔段長度為L',本發明相較習知釘芯拉拔段縮短長度可為0.01L'~0.10L'; 所述鉚體上係設有一將其貫穿並能與釘芯嵌合之孔、及一鉚頭、以及一鉚身所組成,並且透過該鉚體之鉚身預先於0.6L、0.7L處分別鑽設0.6L處直徑為Ø導形孔、0.7L處直徑為Ø/2導形孔,並透過上述分別設置之0.6L處導形孔、0.7L處導形孔,此時該鉚身之挫屈點將落在長桿受軸向應力時會由鉚身長度L的0.6L~0.7L開始產生應變,由此本發明將透過該鉚體之桿身0.6L、0.7L處分別鑽設之導形孔於固定時做自適應的挫屈應變,如此一來本鉚體搭配使用之拉釘,係可由單一形式之鉚體應用於不同板厚之待鎖固物時,將可透過上述三種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變,藉由該導形孔之輔助下做最適當的挫屈應變至將其待鎖固物固定。
一種利用請求項3所述之拉釘的施工方法,係透過下列步驟而成: A. 鑽孔步驟:在待鎖固物上鑽設孔徑d'+d'/16略大於釘芯釘頭、及鉚體鉚身直徑的孔洞; B. 預組步驟:將釘芯由釘桿端插入鉚體之鉚身端,使其形成本發明之拉釘; C. 裝設步驟:再將上述預組完成之拉釘,插入鑽設步驟預先鑽設的孔洞; D. 固定步驟:將上述已插入鑽設步驟預先鑽設的孔洞的,拉釘,將其鉚體之鉚頭施以軸嚮往待鎖固物之力,同時將鉚芯之拉拔段施予相對於鉚體相反方向之力,,並且透過該鉚體之鉚身預先於0.6L、0.7L處分別鑽設0.6L處直徑為Ø導形孔、0.7L處直徑為Ø/2導形孔,並透過上述分別設置之0.6L處導形孔、0.7L處導形孔,此時該鉚身之挫屈點將落在長桿受軸向應力時會由鉚身長度L的0.6 L~0.7L開始產生應變,並且透過該鉚體之鉚身預先於0.6L、0.7L處分別鑽設0.6L直徑為Ø導形孔、0.7L直徑為Ø/2導形孔,在固定不同板厚之待鎖固物時,將可透過上述三種導形孔降低該鉚身的破壞韌性讓其容易產生挫屈應變,藉由該導形孔之輔助下做最適當的挫屈應變至將其待鎖固物固定。		鋐昇實業股份有限公司TW高雄市苓雅區三多四路110號15樓之6鋐昇實業股份有限公司TW---F16B019/04F16B019/0411-----黃文彬1TW塗家彰高雄市左營區大順一路93號7樓之15134蔡宗澤蔡宗澤0US2017/0114815
US2018/0279800
US2019/0203877		310-00I86511319鋐昇實業股份有限公司ValidNONO2024/12/012043/10/18NONONONONO32027/11/30
31
TWI865940B2024-12-11焊接螺母、其製造方法及其應用之高架地板之腳架invention1111383292022-10-07一種焊接螺母、其製造方法及其應用之高架地板之腳架,該焊接螺母包括:一螺母本體,具有一螺孔,該螺母本體的軸向的兩側分別為頂部及底部;及四個定位體,圍繞設置在該螺母本體的四周上,並凸出該螺母本體的底部;藉此結構,可方便焊接固定在一圓管的側邊,節省在圓管上設置螺孔的成本。一種焊接螺母,設於一圓管的側邊,其中包括:一螺母本體,具有一螺孔,該螺母本體的軸向的兩側分別為頂部及底部;及至少二定位體,圍繞設置在該螺母本體的四周上,該至少二定位體之底部凸出該螺母本體的底部;該螺母本體的底部不靠在該圓管上,該至少二定位體的底部在一次電阻焊接中同時定位在該支撐管體的外側邊上,且該至少二定位體同時熔化固接在該圓管的外側邊上。一種焊接螺母,設於一圓管的側邊,其中包括:一螺母本體,具有一螺孔,該螺母本體的軸向的兩側分別為頂部及底部;及至少二定位體,圍繞設置在該螺母本體的四周上,該至少二定位體之底部凸出該螺母本體的底部;該螺母本體的底部不靠在該圓管上,該至少二定位體的底部在一次電阻焊接中同時定位在該支撐管體的外側邊上,且該至少二定位體同時熔化固接在該圓管的外側邊上。
如請求項1之焊接螺母,其中該定位體為四個,且該螺母本體與該定位體使用低碳材料一體成型。
如請求項1之焊接螺母,其中該定位體為多角形體,採用厚度從頂部到底部逐漸增加的結構,且底部的外緣具有圓弧部。
如請求項1之焊接螺母,其設於一支撐管體的側邊,該支撐管體的管壁具有至少一側邊開孔;在將該螺母本體的螺孔的中心對準該支撐管體的側邊開孔的中心的情況下,將該四個定位體之定位體熔化固接在該支撐管體的管壁外側上。
如請求項4之焊接螺母,其中以電阻焊接的方式將該焊接螺母定位在該支撐管體上。
一種高架地板之腳架,其中包括一支撐管體、一抗舉連接件、至少一固定結構以及一支撐座,其中:該支撐管體,可直立地立於地面上,該支撐管體的頂端具有一頂端開口;該抗舉連接件還包括:一板體,中央部位具有一螺孔;及一定位管體,固設於該板體底部,該定位管體的外側具有一環狀凹槽;該定位管體插置於該支撐管體的頂端開口之內,該板體設置於該支撐管體的頂端之管壁上;在該支撐管體的管壁對應該定位管體的環狀凹槽處具有至少一側邊開孔;該固定結構還包括:一焊接螺母,該焊接螺母包括一螺母本體以及四個定位體,該螺母本體具有一螺孔,該螺母本體的軸向的兩側分別為頂部及底部;該四個定位體圍繞設置在該螺母本體的四周上,該定位體之底部凸出該螺母本體的底部;該四個定位體的底部在一次電阻焊接中同時定位在該支撐管體的外側邊上,該螺母本體的底部不靠在該支撐管體上,且該四個定位體同時熔化固接在該支撐管體的外側邊之側邊開孔之外的位置上;及一螺栓,具有一頭端及一末端,螺設於該焊接螺母上,且該螺栓的末端穿過該焊接螺母及該支撐管體的側邊開孔而插置於該定位管體的環狀凹槽內;該支撐座由一支撐板及一設於該支撐板底部的螺桿所組成,該螺桿螺設於該板體的螺孔上。
如請求項6之高架地板之腳架,其中該螺母本體為八邊形柱狀體與該四個定位體使用低碳材料一體成型。
如請求項6之高架地板之腳架,其中該定位體為多角形體,採用厚度從頂部到底部逐漸增加的結構,且底部的外緣具有圓弧部。
如請求項6之高架地板之腳架,其中該焊接螺母以一電焊機焊接在該支撐管體上;該電焊機具有一支撐座及一能夠上下伸縮移動的焊接頭,該支撐座上有一下電極,該焊接頭上有一上電極,該下電極及該上電極分別接有負極及正極;焊接時將該支撐管體具有側邊開孔的一端靠在該電焊機的該支撐座上,再將該焊接螺母放置在該支撐管體上,並將該焊接螺母的螺孔的對準該支撐管體的該側邊開孔。
如請求項9之高架地板之腳架,其中驅動該電焊機的焊接頭的上電極向下與該下電極接觸,並對該焊接螺母施加預定壓力,並藉由該電焊機的上電極、下電極通電使該定位體熔化而固接在該支撐管體的管壁外側上。		惠亞工程股份有限公司TW新北市三重區三和路4段105號惠亞工程股份有限公司TW---F16B037/06F16B037/06
E04C003/32
B23K011/02
B21K001/70		44-----黃建德1TW黃長發臺北市大安區忠孝東路4段250號11樓之65135賴耿賢賴耿賢TWI3818921CN211341591
EP0896852
US2612647		320I86594011I865940TW2024158682024-04-16VERO VERIA CORPORATION18惠亞工程股份有限公司Valid-------------
32
WO2024247463A12024-12-05FASTENER, MALE SCREW-SIDE MEMBER, AND FEMALE SCREW-SIDE MEMBERinventionJP20240121452024-03-27Provided is a fastener capable of shortening the time required for fastening. The present invention is provided with: a male screw-side member that comprises a screw section 11 in which the following are disposed in alternation, male screw surfaces 12A, 12B in which are formed male screw-side screw threads 12, and outer peripheral pieces 13A, 13B in which no male screw-side screw threads 12 are formed; and a female screw-side member 20 that comprises a screw hole 21 in which the following are disposed in alternation, female screw surfaces 22A, 22B in which are formed female screw-side screw threads 22, and inner peripheral pieces 23A, 23B in which no female screw-side screw threads 22 are formed, the male screw surfaces 12A, 12B and the female screw surfaces 22A, 22B being capable of screwing together. The male screw-side screw threads 12 are formed so as to increase in width, in an axial direction of the screw section 11, as the screw threads proceed from ahead to behind in a direction of relative rotation when the male screw surfaces 12A, 12B and the female screw surfaces 22A, 22B screw together. The female screw-side screw threads 22 are formed so as to decrease in width, in an axial direction of the screw hole 21, as the threads proceed from ahead to behind in the direction of relative rotation.
 外周方向において、雄ねじ側のねじ山が形成される雄ねじ面と當該雄ねじ側のねじ山が形成されていない外周片とが交互に配置されるねじ部を有する雄ねじ側部材と、
 內周方向において、雌ねじ側のねじ山が形成される雌ねじ面と當該雌ねじ側のねじ山が形成されていない內周片とが交互に配置され、前記雄ねじ面と當該雌ねじ面とが螺合可能なねじ孔を有する雌ねじ側部材と、
 を備え、
 前記雄ねじ側のねじ山は、前記雄ねじ面と前記雌ねじ面とが螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ部の軸方向における幅が広がるように形成され、
 前記雌ねじ側のねじ山は、前記相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ孔の軸方向における幅が狹まるように形成される、
 締結具。

 外周方向において、雄ねじ側のねじ山が形成される雄ねじ面と當該雄ねじ側のねじ山が形成されていない外周片とが交互に配置されるねじ部を有する雄ねじ側部材と、
 內周方向において、雌ねじ側のねじ山が形成される雌ねじ面と當該雌ねじ側のねじ山が形成されていない內周片とが交互に配置され、前記雄ねじ面と當該雌ねじ面とが螺合可能なねじ孔を有する雌ねじ側部材と、
 を備え、
 前記雄ねじ側のねじ山は、前記雄ねじ面と前記雌ねじ面とが螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ部の軸方向における幅が広がるように形成され、
 前記雌ねじ側のねじ山は、前記相対回転方向前方から當該相対回転方向後方に向かうにしたがって、前記ねじ孔の軸方向における幅が狹まるように形成される、
 締結具。


 前記雄ねじ面と前記雌ねじ面との螺合狀態における前記ねじ部と前記ねじ孔との相対回転を係止するようにして、前記ねじ部及び前記ねじ孔に形成される係止部を更に備える、
 請求項1に記載の締結具。


 前記係止部は、
 前記雄ねじ側のねじ山に形成される凸部と、
 前記雌ねじ側のねじ山に形成され、前記螺合狀態において前記凸部が嵌合される凹部と、
 を備える、
 請求項2に記載の締結具。


 前記凸部は、前記雄ねじ側のねじ山の前記相対回転方向後方側の端部に形成され、
 前記凹部は、前記雌ねじ側のねじ山の前記相対回転方向前方側の端部に形成される、
 請求項3に記載の締結具。


 前記係止部は、
 前記雌ねじ側のねじ山に形成される凸部と、
 前記雄ねじ側のねじ山に形成され、前記螺合狀態において前記凸部が嵌合される凹部と、
 を備える、
 請求項2に記載の締結具。


 前記凸部は、前記相対回転方向前方側が凸曲面狀、當該相対回転方向後方側が階段狀であり、
 前記凹部は、前記相対回転方向後方側が前記凸部の當該相対回転方向前方側に対応した凹曲面狀、當該相対回転方向前方側が當該凸部の當該相対回転方向後方側に対応した階段狀である、
 請求項3から5のいずれか1項に記載の締結具。


 前記ねじ部は、前記雄ねじ面と前記雌ねじ面との螺合狀態において前記ねじ孔と連通する貫通孔を內側に有する筒狀である、
 請求項1に記載の締結具。


 前記貫通孔における軸心よりも徑方向外側において、一端部が、前記相対回転方向を向くように設けられた雄ねじ側配管と、
 前記ねじ孔における軸心よりも徑方向外側において、一端部が、前記相対回転方向を向き、前記螺合狀態において、當該一端部が前記雄ねじ側配管の前記一端部と嵌合するように設けられた雌ねじ側配管と、
 を更に備える、
 請求項7に記載の締結具。


 ねじ孔の內周方向における一部に配置され、雌ねじ側のねじ山が形成される雌ねじ面と、
 前記內周方向において前記雌ねじ面と交互に配置されることで前記ねじ孔の內周を形成し、前記雌ねじ側のねじ山が形成されていない內周片と、
 を備え、
 前記雌ねじ側のねじ山は、ねじ部と螺合する際の相対回転方向前方から當該相対回転方向後方に向かうにしたがって前記ねじ孔の軸方向における幅が狹まる、
 雌ねじ側部材。
 
PATE.TO CO.,LTDJP4863-152, Ubumi, Yuto-cho, Chuo-ku, Hamamatsu-shi, Shizuoka,4310102,〒4310102,JPPATE.TO CO.,LTDJP----F16B035/00F16B035/00
F16B033/02
F16B037/08
F16L015/06		24--------2023-0891102023-05-30JPUCHIDA Yonefusa1JPc/o pate.to Co.,Ltd, 4863-152, Ubumi, Yuto-cho, Chuo-ku, Hamamatsu-shi, Shizuoka,4310102,〒4310102,JPKOBAYASHI TakumiBIRD INTERNATIONAL PATENT FIRM, 3-24, Ikeda 3-chome, Kofu-shi, Yamanashi,4000062,〒4000062,JP-----0-0-00-00-WO20242474632024-12-0520PATE.TO CO.,LTD-------------
33
CN119061304A2024-12-03一種耐高溫超高強航空緊固件及其生產工藝inventionCN202411114163.22024-08-14本發明公開了一種耐高溫超高強航空緊固件及其生產工藝,所述緊固件的化學成分及其重量百分比為:碳0.01%~0.04%,鉻18%~20%,鎳24%~27%,鉬6%~8%,鈦2.5%~3.2%,鋁0.1%~0.3%,鈮0.3%~0.7%,硼0.01%~0.03%,鋯0.003%~0.008%,其餘為鈷和不可避免的雜質;其生產工藝包括合金盤條熱處理、冷拔、圓料熱處理、熱鐓。本工藝提供的緊固件不僅擁有普通緊固件不具備的強度和硬度,同時具備良好的加工塑性及使用壽命。1.一種耐高溫超高強航空緊固件,其特徵在於,所述緊固件的化學成分及其重量百分比為:碳0.01%~0.04%,鉻18%~20%,鎳24%~27%,鉬6%~8%,鈦2.5%~3.2%,鋁0.1%~0.3%,鈮0.3%~0.7%,硼0.01%~0.03%,鋯0.003%~0.008%,其餘為鈷和不可避免的雜質。1.一種耐高溫超高強航空緊固件,其特徵在於,所述緊固件的化學成分及其重量百分比為:碳0.01%~0.04%,鉻18%~20%,鎳24%~27%,鉬6%~8%,鈦2.5%~3.2%,鋁0.1%~0.3%,鈮0.3%~0.7%,硼0.01%~0.03%,鋯0.003%~0.008%,其餘為鈷和不可避免的雜質。
2.
3.
4.一種耐高溫超高強航空緊固件的生產工藝,其特徵在於,包括合金盤條熱處理、冷拔、圓料熱處理、熱鐓;具體如下:(1)將合金盤條加熱至1040~1060℃、保溫4~8h,然後空冷至室溫;所述合金盤條的化學成分及其重量百分比為:碳0.01%~0.04%,鉻18%~20%,鎳24%~27%,鉬6%~8%,鈦2.5%~3.2%,鋁0.1%~0.3%,鈮0.3%~0.7%,硼0.01%~0.03%,鋯0.003%~0.008%,其餘為鈷和不可避免的雜質;(2)將熱處理後的合金盤條冷拔成冷拔圓料;將常溫的圓料置於540~600℃保溫1~2h,然後隨爐以1~5℃/min的速度升至650~670℃、保溫4~5h後出爐空冷至室溫;(3)將熱處理後的圓料熱鐓為半成品,然後依次進行磨削、搓絲,即得。
5.步驟(2)中所述冷拔的面縮率為45~53%。
6.步驟(3)中所述圓料熱鐓的加熱方式為局部感應加熱,加熱溫度為1130~1180℃,保溫0.5~1.5h。		河北河鋼材料技術研究院有限公司
河鋼集團有限公司
河鋼股份有限公司		CN052165 河北省石家莊市槁城區石家莊經濟技術開發區揚子路15號

河北河鋼材料技術研究院有限公司
河鋼集團有限公司
河鋼股份有限公司		CN----C22C030/00C22C030/00
C22C019/07
C22F001/10
B21J005/00		34-----------郭福在
張雲飛
趙英利
陳文
解磊鵬
張震
李瑞傑
郭瑞華		8-






趙紅強
石家莊冀科專利商標事務所有限公司 13108		20241203----0-0-00-00-CN1190613042024-12-0320河北河鋼材料技術研究院有限公司,河鋼集團有限公司,河鋼股份有限公司Pub.-------------
34
EP4234959B12024-12-04SCREW WITH MILLING SECTION EMBEDDED IN THREADinvention22158228.12022-02-23Eine Schraube (100, 200) weist im Grundsatz diese, aufeinanderfolgende Funktionsabschnitte auf:
Eine als Konus (A) geformte Gewindespitze (150) mit Doppelgewinde;
einen Fräsabschnitt (B) mit einer Vielzahl von Fräsrippen (160) mit Aussendurchmesser DF;
einen zylindrischen Schaftabschnitt mit dem Hauptgewinde mit Durchmesser DN;
einen gewindefreien Schaftabschnitt (D);
optional einen Haltegewindeabschnitt (E);
optional einen kurzen gewindefreien Unterkopfabschnitt (F);
einen Kopfabschnitt (G) mit einem Kraftangriff.;Das Hauptgewinde (110) wird ununterbrochen und mit gleichbleibender Steigung vom Spitzenabschnitt (190) des Konus (A) über den Fräsabschnitt (B) bis zum kopfseitigen Ende des gewindetragenden Schaftabschnitts (C) geführt und die Rippen des Fräsabschnitts (B) werden so im Gewindegrund (140) des durchlaufenden Hauptgewindes (110) versenkt angeordnet, dass die Gewindespitzen des durchlaufenden Hauptgewindes (110) mit nominellem Aussendurchmesser DB die Fräsrippen (160) überragen, so dass gilt DF B.
Screw (100), comprising the following functional sections which merge into one another or adjoin one another:
- a threaded tip (150) formed as a cone (A) and carrying a double thread, wherein the double thread comprises a main thread (110) and a secondary thread (120);- a substantially cylindrical milling section (B) having a plurality of milling ribs (160) designed as a steep thread, the outside diameter of which, measured over the ribs, is DF;- a substantially cylindrical shank section (C) carrying only the main thread (110), in which the external thread diameter is DN;- a substantially cylindrical, smooth, thread-free shank section (D);- a head section (G) with a force application (130), wherein- the main thread (110) extends uninterruptedly and with a constant pitch from the tip section (190) of the cone (A) via the milling section (B) to the head end of the thread-bearing shank section (C); and- the ribs of the milling section (B) are arranged countersunk in the thread base (140) of the main thread (110) passing through in such a way that the thread tips of the main thread (110) passing through with nominal external diameter DB project beyond the milling ribs (160) so that DF < DB applies.		Screw (100), comprising the following functional sections which merge into one another or adjoin one another:
- a threaded tip (150) formed as a cone (A) and carrying a double thread, wherein the double thread comprises a main thread (110) and a secondary thread (120);- a substantially cylindrical milling section (B) having a plurality of milling ribs (160) designed as a steep thread, the outside diameter of which, measured over the ribs, is DF;- a substantially cylindrical shank section (C) carrying only the main thread (110), in which the external thread diameter is DN;- a substantially cylindrical, smooth, thread-free shank section (D);- a head section (G) with a force application (130), wherein- the main thread (110) extends uninterruptedly and with a constant pitch from the tip section (190) of the cone (A) via the milling section (B) to the head end of the thread-bearing shank section (C); and- the ribs of the milling section (B) are arranged countersunk in the thread base (140) of the main thread (110) passing through in such a way that the thread tips of the main thread (110) passing through with nominal external diameter DB project beyond the milling ribs (160) so that DF &lt; DB applies.
Screw (200) according to claim 1, characterized in that a retaining thread section (E) is arranged between the thread-free shank section (D) and the head section (G), designed as a short retaining thread with 1 to 3 turns followed by a short thread-free underhead section (F).
Screw (200) according to claim 2, characterized in that the retaining thread is designed as a double thread and the pitch of the retaining thread corresponds to 1.6 to 1.9 times the main thread (110).
Screw (200) according to claims 1 and 2, characterized in that the length of the thread-free lower head section (F) and of the retaining thread section (E) is between 2 and 5 mm in each case. -->
Screw (100, 200) according to one or more of the preceding claims,characterized in that the main thread (110) is designed symmetrically with a flank angle of 60° ±3°.
Screw (100, 200) according to one or more of the preceding claims,characterized in that the secondary thread (120) begins in the tip section (190) of the cone (A), the thread height increases continuously and decreases again after half the length of the cone (A) and ends in the transition region of the cone (A) and the milling section (B).
Screw (100, 200) according to one or more of the preceding claims,characterized in that the outside diameter DN of the main thread (110) in the shank section (C) is greater than the outside diameter DB of the main thread in the milling section (B).
Screw (100, 200) according to one or more of the preceding claims,characterized in that the flank height of the main thread (110) at the transition from the milling section (B) to the cone (A), starting from the outside diameter DB, decreases continuously over the tapering cone (A) and ends in the tip section (190) of the cone (A).
Screw (10...		SFS Group International AGSFS Group International AGCHRosenbergsaustrasse 8 9435 Heerbrugg---F16B025/00F16B025/0011F16B0025/0031F16B0025/0031
F16B0025/0068
F16B0025/0057
F16B0025/0084
F16B0025/0063		----Keller, René1CH 9444 Diepoldsau---0EP3 617 533
JP2000 002 218
EP3617533
DE102012215645
DE2732695		520EP4234959B1
US20230265877
CA3189643A1		33-EP42349592023-08-3018SFS Group International AG-------------
35
CN119056962A2024-12-03一種五金製造用緊固件成型設備及方法inventionCN202411468053.62024-10-21本發明涉及五金製造技術領域,且公開了一種五金製造用緊固件成型設備及方法,包括工作臺,所述工作臺的頂部固定連接有放料框,所述放料框上設置有進料機構,所述進料機構包括放置座、導軌、直線電機、第一電動推杆、推板、第一轉軸、遮擋布,所述放置座固定連接在放料框的內壁上,且放置座的頂部開設有直線槽。本發明通過設置放置座、導軌和直線電機能帶動推板移動,將工件推送到下模具上進行成型,減少人工上料,降低人工放置不准導致的工件成型缺陷,同時能提高工作效率節省人力,通過設置第一轉軸和遮擋布,能在推送下方的工件時,對上方的工件進行支撐,從而上方的工件發生晃動,便於後續上料。;1.一種五金製造用緊固件成型設備,包括工作臺(1),其特徵在於:所述工作臺(1)的頂部固定連接有放料框(2),所述放料框(2)上設置有進料機構(3),所述進料機構(3)包括放置座(301)、導軌(302)、直線電機(303)、第一電動推杆(304)、推板(305)、第一轉軸(306)、遮擋布(307);所述放置座(301)固定連接在放料框(2)的內壁上,且放置座(301)的頂部開設有直線槽,所述導軌(302)固定安裝在放置座(301)的內壁上,所述直線電機(303)設置在導軌(302)上,所述第一電動推杆(304)固定安裝在直線電機(303)的頂部,且第一電動推杆(304)貫穿直線槽,所述推板(305)固定連接在第一電動推杆(304)的活動端頂部;所述第一轉軸(306)通過扭簧轉動連接在放料框(2)的內壁上,所述遮擋布(307)繞設在第一轉軸(306)上,所述遮擋布(307)的一端與第一轉軸(306)的外壁固定連接,且遮擋布(307)的另一端與推板(305)的一側固定連接。1.一種五金製造用緊固件成型設備,包括工作臺(1),其特徵在於:所述工作臺(1)的頂部固定連接有放料框(2),所述放料框(2)上設置有進料機構(3),所述進料機構(3)包括放置座(301)、導軌(302)、直線電機(303)、第一電動推杆(304)、推板(305)、第一轉軸(306)、遮擋布(307);所述放置座(301)固定連接在放料框(2)的內壁上,且放置座(301)的頂部開設有直線槽,所述導軌(302)固定安裝在放置座(301)的內壁上,所述直線電機(303)設置在導軌(302)上,所述第一電動推杆(304)固定安裝在直線電機(303)的頂部,且第一電動推杆(304)貫穿直線槽,所述推板(305)固定連接在第一電動推杆(304)的活動端頂部;所述第一轉軸(306)通過扭簧轉動連接在放料框(2)的內壁上,所述遮擋布(307)繞設在第一轉軸(306)上,所述遮擋布(307)的一端與第一轉軸(306)的外壁固定連接,且遮擋布(307)的另一端與推板(305)的一側固定連接。
2.所述進料機構(3)還包括第二轉軸(308)、連接繩(309)、敲擊杆(310),所述放置座(301)的頂部開設有網孔,所述第二轉軸(308)通過扭簧轉動連接在放料框(2)的內壁上,所述連接繩(309)繞設在第二轉軸(308)上,所述連接繩(309)的一端與第二轉軸(308)的外壁固定連接,且連接繩(309)的另一端與第一轉軸(306)的外壁固定連接,所述敲擊杆(310)固定連接在第二轉軸(308)的外壁上,且敲擊杆(310)遠離第二轉軸(308)的一端設置有橡膠塊,所述放料框(2)的內壁固定連接有擋板(311),所述擋板(311)設置在放置座(301)的兩側頂部。
3.所述放料框(2)上設置有打磨機構(4),所述打磨機構(4)包括第一電機(401)、固定轉杆(402)、活動轉杆(403)、打磨輥(404)、活動槽(405),所述第一電機(401)固定安裝在放料框(2)的正面,所述固定轉杆(402)的一端與第一電機(401)的輸出端固定連接,且固定轉杆(402)的另一端通過軸承貫穿放料框(2)並與放料框(2)轉動連接,所述活動槽(405)開設在放料框(2)的背面,所述活動轉杆(403)活動貫穿活動槽(405),所述打磨輥(404)的數量為兩個,兩個所述打磨輥(404)分別固定套設在固定轉杆(402)和活動轉杆(403)的外壁上。
4.所述固定轉杆(402)和活動轉杆(403)的外壁固定套設有傳動齒輪(406),所述活動轉杆(403)的一端鉸接有第一鉸接杆(407),所述固定轉杆(402)的一端鉸接有第二鉸接杆(408),所述第一鉸接杆(407)的另一端與第二鉸接杆(408)的另一端鉸接,所述第一鉸接杆(407)上轉動連接有齒輪組(409),且齒輪組(409)分別與固定轉杆(402)和活動轉杆(403)的傳動齒輪(406)嚙合連接,所述放料框(2)的背面固定安裝有第二電動推杆(410),所述第二電動推杆(410)的輸出端頂部固定連接有連接塊,且連接塊通過軸承與活動轉杆(403)的外壁轉動連接。
5.所述放料框(2)的內壁底部傾斜設置,所述放料框(2)的內壁底部開設有排雜口,所述工作臺(1)的頂部設置有收集框,且收集框處於排雜口的下方。
6.所述工作臺(1)的頂部固定連接有下模具(5),所述下模具(5)的頂部固定連接有支撐杆,且支撐杆的頂部固定連接有頂板,所述頂板的底部固定安裝有液壓缸,且液壓缸的輸出端底部固定連接有上模具(6),所述下模具(5)的頂部和上模具(6)的底部傾斜設置,所述下模具(5)的頂部一側固定連接有擋塊(8)。
7.所述上模具(6)上設置有固定機構(7),所述固定機構(7)包括凹槽(701)、伸縮杆(702)、壓塊(703)、第一彈簧(704),所述凹槽(701)開設在上模具(6)的底部,所述伸縮杆(702)固定安裝在凹槽(701)的內壁上,所述壓塊(703)固定連接在伸縮杆(702)的活動端底部,所述第一彈簧(704)套設在伸縮杆(702)上,所述第一彈簧(704)的一端與凹槽(701)的內壁固定連接,且第一彈簧(704)的另一端與壓塊(703)固定連接。
8.所述下模具(5)的頂部開有移動槽(705),所述下模具(5)的正面固定安裝有第二電機(706),所述第二電機(706)的輸出端固定連接有雙向螺紋杆(707),且雙向螺紋杆(707)的另一端通過軸承貫穿下模具(5)的外壁並與移動槽(705)的內壁轉動連接,所述雙向螺紋杆(707)上螺紋套設有移動框(708),且移動框(708)與移動槽(705)的內壁底部滑動連接,所述移動框(708)的內壁固定連接有第二彈簧(709)的一端,且第二彈簧(709)的另一端固定連接有側板(710),且側板(710)與移動框(708)的內壁滑動連接。
9.所述工作臺(1)的頂部設置有推動組件(9),所述推動組件(9)包括安裝座、第三電動推杆、推塊,所述安裝座固定連接在工作臺(1)的頂部,所述第三電動推杆固定連接在安裝座的頂部,所述推塊固定連接在第三電動推杆的輸出端一端。
10.一種五金製造用緊固件成型設備的使用方法,其特徵在於,根據權利要求9所述的一種五金製造用緊固件成型設備,包括以下步驟:步驟一、將工件堆疊放置在兩個擋板(311)之間,使最下方的工件與放置座(301)的頂部接觸;步驟二、根據工件的厚度,啟動第一電動推杆(304)和第二電動推杆(410),第一電動推杆(304)帶動推板(305)升降,使推板(305)處於最下方的工件一側,第二電動推杆(410)帶動連接塊進行升降,從而帶動活動轉杆(403)進行升降,從而根據工件的厚度調節兩個打磨輥(404)的間距;步驟三、通過啟動直線電機(303)帶動第一電動推杆(304)移動,從而通過推板(305)帶動最下方的工件向右側移動進行自動上料,推板(305)向右側移動時會拉伸遮擋布(307),通過遮擋布(307)對上方的工件進行支撐,避免上方工件發生晃動,影響後續上料;步驟四、在推板(305)拉伸遮擋布(307)時會帶動第一轉軸(306)轉動,從而在第一轉軸(306)轉動時會拉伸連接繩(309),從而帶動第二轉軸(308)轉動,第二轉軸(308)轉動會帶動敲擊杆(310)轉動,從而通過敲擊杆(310)對放置座(301)的底部進行敲擊,將工件上的雜質震落,雜質通過放置座(301)上的網孔落到放料框(2)的底部;步驟五、通過啟動第一電機(401),第一電機(401)帶動固定轉杆(402)轉動,固定轉杆(402)轉動會通過傳...		南通統祥新材料有限公司CN226500 江蘇省南通市如皋市下原鎮業興路29號南通統祥新材料有限公司CN----B21D043/20B21D043/20
B21D043/02
B21D045/02
B21D022/02
B24B009/04
B08B007/02
B08B013/00		36-----------吳春章
安思琪		2-
黃映婷
北京瑞盛銘傑智慧財產權代理事務所(普通合夥) 11617		20241203----0-0-00-00-CN1190569622024-12-0320南通統祥新材料有限公司Pub.-------------
36
TWM664470U2024-12-11吊環螺帽model1132103662024-09-24本創作提出了一種吊環螺帽,其具有一吊掛部、一鎖合部、以及一螺孔。鎖合部為柱體,且連接吊掛部。螺孔貫穿鎖合部。鎖合部具有一第一端、一第一倒角、一第二端、以及一斜面。第一端為鎖合部連接於吊掛部的一端。第一倒角位於第一端,且設置於鎖合部的內表面。第二端位於鎖合部相對於第一端的另一端,且第二端的寬度大於第一端的寬度。斜面為鎖合部的外表面,且連接於第一端及第二端。透過鎖合部的外表面改為單一斜面,藉此能維持鎖合部第一端的厚度,同時透過增設有第一倒角作為緩衝,以保護螺孔的螺紋。一種吊環螺帽,其具有: 一吊掛部,其為環狀; 一鎖合部,其為柱體,且連接於該吊掛部,並具有: 一第一端,其為連接於該吊掛部的一端,其具有: 一第一平面,其為該鎖合部靠近該吊掛部的平面; 一第二端,其為該鎖合部相對於該第一端的另一端,該第二端的寬度大於該第一端的寬度,該第二端更具有: 一第二平面,其為該鎖合部遠離該吊掛部的平面; 一斜面,其為該鎖合部的外表面,並連接該第一平面及該第二平面; 一螺孔,其貫穿該鎖合部。一種吊環螺帽,其具有: 一吊掛部,其為環狀; 一鎖合部,其為柱體,且連接於該吊掛部,並具有: 一第一端,其為連接於該吊掛部的一端,其具有: 一第一平面,其為該鎖合部靠近該吊掛部的平面; 一第二端,其為該鎖合部相對於該第一端的另一端,該第二端的寬度大於該第一端的寬度,該第二端更具有: 一第二平面,其為該鎖合部遠離該吊掛部的平面; 一斜面,其為該鎖合部的外表面,並連接該第一平面及該第二平面; 一螺孔,其貫穿該鎖合部。
如請求項1所述之吊環螺帽,其中,該鎖合部更具有: 一第一倒角,其位於該第一端,且設置於該鎖合部的內表面。
如請求項1或2所述之吊環螺帽,其中,該鎖合部更具有: 一第二倒角,其位於該第二端,且設置於該鎖合部的內表面。
如請求項3所述之吊環螺帽,其中,該鎖合部位於該第一端的厚度與該鎖合部位於該第二端的厚度的比例為0.5到0.7之間。
如請求項1或2所述之吊環螺帽,其中,該鎖合部位於該第一端的厚度與該鎖合部位於該第二端的厚度的比例為0.5到0.7之間。
如請求項1或2所述之吊環螺帽,其中,該斜面與該鎖合部的該第二平面的夾角大於75度。		宏崑股份有限公司TW新北市五股區成泰路二段195巷17號宏崑股份有限公司TW---F16B035/00F16B035/0011-----黃信融
黃柏輔
黃敬庭		3TW

閻啓泰
林景鬱		臺北市中山區長安東路2段112號9樓
臺北市中山區長安東路2段112號9樓		5135-0000-00M66447020宏崑股份有限公司Valid-------------
37
US12163547B22024-12-10Ceramic matrix composite fastenerinvention17/2050472021-03-18A method of forming a ceramic matrix composite (CMC) fastener, the method comprising: shaping a preform to form a green fastener; applying one or more layers to an outer surface of the green fastener to form a layered green fastener; and finishing the layered green fastener to form the CMC fastener.1. A method of forming a ceramic matrix composite (CMC) fastener, the method comprising:
rolling a base material to form a preform;shaping the preform to form a green fastener;applying one or more layers to an outer surface of the green fastener to form a layered green fastener, wherein the layered green fastener includes a body including a rolled inner section and an outer section, the rolled inner section including a central opening extending along a longitudinal direction and the outer section including the one or more layers; andfinishing the layered green fastener to form the CMC fastener.		1. A method of forming a ceramic matrix composite (CMC) fastener, the method comprising:
rolling a base material to form a preform;shaping the preform to form a green fastener;applying one or more layers to an outer surface of the green fastener to form a layered green fastener, wherein the layered green fastener includes a body including a rolled inner section and an outer section, the rolled inner section including a central opening extending along a longitudinal direction and the outer section including the one or more layers; andfinishing the layered green fastener to form the CMC fastener.
2. The method of claim 1, wherein the one or more layers and the base material comprise a same material.
3. The method of claim 1, wherein the base material comprises a prepreg CMC tape, and the method further comprises rolling the prepreg CMC tape to form the preform.
4. The method of claim 1, wherein the preform comprises SiC/SiC, C/SiC, or oxide/oxide.
5. The method of claim 1, wherein shaping the preform is performed by compressing the preform with a shaped tool.
6. The method of claim 1, wherein applying the one or more layers to the outer surface of the green fastener comprises wrapping one or more plies to the outer surface of the green fastener.
7. The method of claim 6, wherein wrapping is performed by reorienting adjacent layers of the one or more plies by an interlayer angular offset in a range of 45° and 90°.
8. The method of claim 1, wherein finishing the layered green fastener comprises compacting the layered green fastener.
9. The method of claim 1, further comprising:
forming a first engagement portion at a first end of the green fastener; andforming a second engagement portion at a second end of the green fastener, each of the first and second engagement portions being selected from a tapered portion and a threaded portion.		General Electric CompanyUSGeneral Electric CompanyUS OH EvendaleGeneral Electric CompanyUS-B28B023/02B28B023/02
F16B033/00		22-F16B0033/006F16B0033/006--------Michael James Verrilli1USOH LovelandDority & Manning, P.A.--Jeffrey M WollschlagerJeffrey M Wollschlager
Xue H Liu		US5127783
US5405227
US6042315
US6045310
US7377469
US7799405
US7874059
US7967562
US10316695
US10851672
US2003/0131982
US2007/0280822
US2009/0226279
US2010/0189529
US2010/0263194
US2011/0203255
US2015/0275680
US2018/0346096
US2020/0392045		19CN106565261
CN111333428
EP3034891
EP3244029
JPH04331811
JPH10231182
JPH11255567
JP2001072475
WOWO2014/004017		9-30US12163547
CN115108813A		22-US202202990532022-09-2217General Electric CompanyValid-------------
38
US12162669B22024-12-10Collating system for conveyor belt rivets and methodinvention17/5370082021-11-29A collating system for rivets is provided that includes a rivet holder for supporting rivets in a predetermined pattern. In one form, the rivet holder includes a body having cavities for supporting the rivets therein. The rivet holder body includes a top plate member and a bottom plate member. The rivet holder has drive heads connected to the top plate member via frangible portions and the bottom plate member has retaining webs disposed below the drive heads. The top and bottom plates are secured together to capture heads of the rivets between the drive heads and retaining webs. The drive heads may be driven downward to drive the rivet heads from the rivet holder and into bores of a guide block with the retaining webs flexing to release the rivet head from the lower bottom plate member. A method of using the rivet collating system is also disclosed.1. A method of positioning rivets in bores of a guide block, the method comprising:
positioning a lower surface of a holder on a guide block, the holder having an upper surface and a predetermined thickness between the upper surface and the lower surface;impacting upper portions of the holder with a tool to drive heads of rivets out from the holder and into the bores; anddeflecting flap portions about hinge portions of the holder into grooves of the holder as the rivet heads are driven out from the holder, the hinge portions having a thickness that is reduced relative to the predetermined thickness of the holder.		1. A method of positioning rivets in bores of a guide block, the method comprising:
positioning a lower surface of a holder on a guide block, the holder having an upper surface and a predetermined thickness between the upper surface and the lower surface;impacting upper portions of the holder with a tool to drive heads of rivets out from the holder and into the bores; anddeflecting flap portions about hinge portions of the holder into grooves of the holder as the rivet heads are driven out from the holder, the hinge portions having a thickness that is reduced relative to the predetermined thickness of the holder.
2. The method of claim 1 wherein impacting the upper portions of the holder with the tool includes impacting upper portions of an upper plate of the holder; and
deflecting flap portions of the holder into grooves of the holder includes deflecting flap portions of a lower plate portion of the holder into grooves of the lower plate portion.
3. The method of claim 1 wherein deflecting flap portions of the holder includes camming radially outer portions of the rivet heads against lands of the flap portions.
4. The method of claim 1 wherein deflecting flap portions of the holder includes pivoting the flap portions about the hinge portions of the holder above the grooves.
5. The method of claim 1 wherein impacting upper portions of the holder with the tool include impacting drive heads of the holder with the tool; and
abutting enlarged portions of the drive heads against portions of the holder above the grooves to restrict the drive heads from falling out of the holder.
6. A method of positioning rivets in bores of a guide block, the method comprising:
positioning a lower portion of a holder on a guide block;impacting upper portions of the holder with a tool to drive heads of rivets out from the holder and into the bores; anddeflecting flap portions of the holder into grooves of the holder as the rivet heads are driven out from the holder,wherein positioning the lower portion of the holder on the guide block includes positioning a lower surface of the holder on the guide block while the flap portions of the holder are outside of the bores of the guide block.
7. The method of claim 1 wherein impacting upper portions of the holder with the tool includes impacting drive heads of the holder to drive the rivet heads out from the holder.		Flexible Steel Lacing CompanyUSFlexible Steel Lacing CompanyUS IL Downers GroveFlexible Steel Lacing CompanyUS-F16G003/08F16G003/08
B21J005/06
B21J015/32
B25C001/00
B65D085/24		45-B65D0085/24B65D0085/24
B21J0005/06
B21J0015/323
B25C0001/00
F16G0003/08		--------Joseph Vogrig1USIL NapervilleFitch, Even, Tabin & Flannery LLP--Bayan SaloneBayan SaloneUS1263218
US1485950
US1747390
US3141346
US3176358
US3432985
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US3679266
US3774755
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US3812961
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US3892313
US3904032
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US3971421
US3990343
US4007834
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US4047611
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US4344213
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US4403694
US4684022
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US4955476
US5046396
US5115911
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US5487217
US5622257
US5733308
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US6823990
US7493682
US7654389
US8082646
US8403139
US8413740
US9228635
US10093476
US11186425
US2004/0045136
US2005/0230278
US2009/0106972
US2009/0106973
US2009/0223023
US2011/0100848
US2012/0227231
US2012/0228170
US2016/0159559
US2019/0039818		65CN1543383
DE3332927
EP0565302
GB2146730		4Cross sectional view of a two part collated rivet strip with annotations identifying parts of the collated rivet strip, the collated rivet strip publicly available before Dec. 2, 2013, 1 page.;Notification of Transmittal of the International Search Report and the Written Opinion of the International Searching Authority, or the Declaration from the International Bureau of WIPO for International Application No. PCT/US15/63203 dated Feb. 16, 2016, 11 pages.;SIPO; Chinese App. No. 201580074667.9; First Office Action mailed Jul. 10, 2018; pp. 1-8.30US12162669
US11186425
CN107206467B
US10093476
WO2016089881		53-US202200811942022-03-1717Flexible Steel Lacing CompanyValid-------------
39
TWM663883U2024-12-01螺絲釘帶model1132093622024-08-29本創作係關於一種螺絲釘帶,包含一帶體,係將一塑料沖壓為一體成型之該帶體,該帶體上設有至少一第一透孔,該帶體沿著該第一透孔的軸向延伸設有呈圓錐漸縮狀的一夾持部,該夾持部的端部形成有一第二透孔,該第一透孔與該夾持部的相鄰處相對開設有弧形的二第一伸縮縫,該二第一伸縮縫沿著該夾持部的圓周相對設置,該二第一伸縮縫沿著該軸向於該夾持部的周緣相對接設有二第二伸縮縫,該夾持部利用該二第一伸縮縫與該二第二伸縮縫的彈性可撐開作用,以供彈性夾持不同直徑大小的螺絲,以使其不會偏移。一種螺絲釘帶,包含有: 一帶體,係將一塑膠利用沖壓方式,將其沖壓為一體成型之該帶體,該帶體上設有至少一第一透孔,該帶體沿著該第一透孔的軸向延伸設有呈圓錐漸縮狀的一夾持部,該夾持部的端部形成有一第二透孔,該第一透孔與該夾持部的相鄰處相對開設有二第一伸縮縫,該二第一伸縮縫沿著該夾持部的圓周相對設置,該二第一伸縮縫沿著該軸向於該夾持部的周緣相對接設有二第二伸縮縫,該夾持部利用該二第一伸縮縫與該二第二伸縮縫的彈性可撐開作用,以供彈性夾持不同直徑大小的一螺絲。一種螺絲釘帶,包含有: 一帶體,係將一塑膠利用沖壓方式,將其沖壓為一體成型之該帶體,該帶體上設有至少一第一透孔,該帶體沿著該第一透孔的軸向延伸設有呈圓錐漸縮狀的一夾持部,該夾持部的端部形成有一第二透孔,該第一透孔與該夾持部的相鄰處相對開設有二第一伸縮縫,該二第一伸縮縫沿著該夾持部的圓周相對設置,該二第一伸縮縫沿著該軸向於該夾持部的周緣相對接設有二第二伸縮縫,該夾持部利用該二第一伸縮縫與該二第二伸縮縫的彈性可撐開作用,以供彈性夾持不同直徑大小的一螺絲。
如請求項1之螺絲釘帶,其中,該帶體設呈為長條狀。
如請求項1之螺絲釘帶,其中,該帶體於相對的二邊緣形成有鋸齒狀的二側邊。
如請求項1之螺絲釘帶,其中,該第二透孔的直徑係小於該第一透孔。
如請求項1之螺絲釘帶,其中,該第二伸縮縫與該第一伸縮縫相連接構成T形的一剖槽構造。
如請求項1之螺絲釘帶,其中,該螺絲的一螺絲頭通過該第二透孔時,可以撐開該二第一伸縮縫與該二第二伸縮縫,並撕斷該夾持部與該二第一伸縮縫、該二第二伸縮縫的相連部位。
如請求項1之螺絲釘帶,其中,該第一伸縮縫係設呈為弧形。		吳錠樺TW臺南市安平區平通裡慶平路567號10樓吳錠樺TW---F16B015/08F16B015/08
F16B027/00
B25B023/04
B25C003/00		34-----吳錠樺1TW邱銘峯
王傳勝		臺南市安平區慶平路191號4樓之2
臺南市安平區慶平路191號4樓之2		5134-0001-00M663883WU, DIN HWA20吳錠樺ValidNONO2024/12/012034/08/28NONONONONO32027/11/30
40
US20240399489A12024-12-05THERMAL ASSISTED SELF-PIERCING RIVETING FOR HIGH STRENGTH 7XXX ALUMINUMinvention18/6982392022-10-13A self-piercing riveting system includes a localized melting system that locally melts a target location on a metal substrate and a driver that drives a rivet into to the metal substrate after the target location is locally melted. A method of forming a joint with a self-piercing riveting system includes locally melting a target location on the at least two metal substrates. The method also includes driving a rivet into the target location, optionally with a driver, after locally melting the target location such that the rivet pierces the at least two metal substrates at the target location.1. A self-piercing riveting system comprising:
a localized melting system configured to locally melt a target location on a metal substrate; anda driver configured to drive a rivet into the metal substrate at the target location, after the target location is locally melted, to form a joint.		1. A self-piercing riveting system comprising:
a localized melting system configured to locally melt a target location on a metal substrate; anda driver configured to drive a rivet into the metal substrate at the target location, after the target location is locally melted, to form a joint.
2. The self-piercing riveting system of claim 1, wherein the localized melting system comprises a resistance spot welding system.
3. The self-piercing riveting system of claim 1, wherein the localized melting system is configured to heat the target location for a duration of less than 1 second and to a temperature of at least 500° C.
4. The self-piercing riveting system of claim 1, further comprising a controller communicatively coupled to the localized melting system and the driver, wherein the controller is configured to control the localized melting system to apply heat for a melting duration to a melting temperature.
5. The self-piercing riveting system of claim 4, wherein the melting duration is greater than 0 seconds and less than or equal to 1000 milliseconds, and wherein the melting temperature is at least 500° C.
6. The self-piercing riveting system of claim 1, wherein the self-piercing riveting system is configured to form the joint in the metal substrate, wherein the metal substrate comprises a 7xxx aluminum alloy with a thickness of less than 5 mm.
7. A method of joining at least two metal substrates, the method comprising:
locally melting a target location on the at least two metal substrates; anddriving a rivet into the target location with a driver after locally melting the target location such that the rivet pierces the at least two metal substrates at the target location.
8. The method of claim 7, wherein at least one of the two metal substrates comprises a 7xxx aluminum alloy.
9. The method of claim 7, wherein each of the at least two metal substrates comprises a thickness of less than or equal to 5 mm.
10. The method of claim 7, wherein locally melting the target location comprises welding the target location with a resistance spot welding system for a melting duration and to a melting temperature.
11. The method of claim 10, wherein the melting duration is from greater than 0 seconds to less than 1 second.
12. The method of claim 10, wherein the melting duration is from greater than 0 seconds to less than or equal to 1000 milliseconds.
13. The method of claim 10, wherein the melting temperature is at least 500° C.
14. The method of claim 7, wherein driving the rivet into the target location with the driver after locally melting the target location comprises driving the rivet into the target location before solidification of the target location.
15. (canceled)
16. A method of joining at least two metal substrates, the method comprising:
welding the at least two metal substrates at a target location for a welding time of greater than 0 seconds and less than 1 second and such that a temperature of the target location is at least...		Novelis Inc.USNovelis Inc.US GA AtlantaNovelis Inc.US-B23K011/18B23K011/18
B21J015/02
B23K011/11
B23K103/10
F16B005/04		34-B23K0011/185B23K0011/185
B21J0015/025
B23K0011/11
F16B0005/04
B23K2103/10		--------Feng Wu
Kevin Duan
Ming Gan
Yan Lin
Yu Guo		5CN Shanghai
Shanghai
Shanghai
Shanghai
Shanghai		-------0-0-20-00-US202403994892024-12-0518Novelis Inc.Pub.-------------
41
EP4471281A12024-12-04COATED FASTENER AND COATING METHOD AND APPARATUS THEREFORinvention24175245.02024-05-10A coated fastener includes a core body comprising conductive material and including a first portion and a second portion. The coated fastener also includes a first coating comprising dielectric material and disposed on the first portion of the core body. The coated fastener further includes a second coating comprising a conductive friction modifier material and disposed on the second portion of the core body to provide the fastener with a desired transition hold fit, improved lubricity, and improved electromagnetic effects protection.
A coated fastener (100) comprising:
a core body (130) comprising conductive material and including a first portion (110) and a second portion (120);a first coating (140) comprising dielectric material and disposed on the first portion (110) of the core body (130); anda second coating (150) comprising a conductive friction modifier material (151) and disposed on the second portion (120) of the core body (130).		A coated fastener (100) comprising:
a core body (130) comprising conductive material and including a first portion (110) and a second portion (120);a first coating (140) comprising dielectric material and disposed on the first portion (110) of the core body (130); anda second coating (150) comprising a conductive friction modifier material (151) and disposed on the second portion (120) of the core body (130).
The coated fastener (100) of claim 1 wherein (i) the first portion (110) of the core body (130) comprises a threaded portion (111), and (ii) the second portion (120) of the core body (130) comprises a non-threaded portion (121).
The coated fastener (100) of claim 2 wherein the non-threaded portion (121) of the core body (130) comprises a shank of the fastener (100).
The coated fastener (100) of any preceding claim wherein at least one of:
the conductive material of the core body (130) comprises a select one of stainless steel, nickel-based superalloy, and titanium alloy;the conductive friction modifier material (151) of the second coating (150) comprises at least one of graphite, a graphic alloy, and a graphic-based material; andthe dielectric material of the first coating (140) comprises graphite.
The coated fastener (100) of any preceding claim, wherein (i) some of the first coating (140) is also disposed on at least part (122) of the second portion (120) of the core body (130), and (ii) the second coating (150) is disposed on top of the some of the first coating (140) that is disposed on the at least part (122) of the second portion (120) of the core body (130).
The coated fastener (100) of any preceding claim, wherein the second coating (150) has a coating layer thickness between about 0.1 mil and about 1 mil. -->
A coating method (300) for a fastener (100) having a longitudinal central axis (102) and a non-threaded portion (121), the coating method (300) comprising:
rotating (310) the fastener (100) about its longitudinal central axis (102); andapplying (320) a conductive friction modifier material (151) onto the non-threaded portion (121) of the fastener (100) as the fastener (100) is rotating about its longitudinal central axis (102).
The coating method (300) of claim 7 wherein applying the conductive friction modifier material (151) on the non-threaded portion (121) of the fastener (100) as the fastener (100) is rotating about its longitudinal central axis (102) comprises one of:
applying a graphite-based material onto the non-threaded portion (121) of the fastener (100) as the fastener (100) is rotating about its longitudinal central axis (102);mechanically rubbing a graphite-based material onto the non-threaded portion (121) of the fastener (100) as the fastener (100) is rotating about its longitudinal central axis (102); andmechanically spraying a graphite-based material onto the non-threaded portion (121) of the fastener (100) as the fastener (100) is rotating about its longitudinal central axis (102).
The coating method ...		The Boeing CompanyUS929 Long Bridge DriveThe Boeing CompanyUS---F16B033/00F16B033/00
B64D045/02
F16B033/06
B05D001/00		33B05D0001/002B05D0001/002
B05D2202/00
B05D2258/02
B64D0045/02
F16B0033/06
F16B0033/008
F16B2200/93		---2023183261792023-05-31USYakel, Seth
Chan, Kwok Tung		2US Arlington, 22202
Arlington, 22202		Collins, Emily Jane--0000EP4471281A111-EP44712812024-12-0420The Boeing Company-------------
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TWI866823B2024-12-11螺絲割尾機invention1131110722024-03-25一種螺絲割尾機,適用於在一螺絲之尾部割出一溝槽,並包含一機台單元、一割刀單元,及一進刀單元。該割刀單元包括一安裝座、一搖擺座、一刀軸,及一刀片。該安裝座具有一樞接於該機台單元的樞接部、一位在該樞接部上方的樞座部,及一位在該樞接部前方的受推部。該搖擺座具有一樞接於該樞座部的轉軸部、一位在該轉軸部後方且供該刀軸設置的刀軸部,及一位在該刀軸部上方的頂推部。該進刀單元包括一連接該頂推部的頂推桿,該頂推桿可被驅動而推動該頂推部,使該搖擺座以該轉軸部為中心轉動,帶動該刀軸上的該刀片在該螺絲之尾部割出該溝槽。該螺絲割尾機藉由該轉軸部、該刀軸部與該頂推部的設計,能擴大該刀片的割劃範圍。一種螺絲割尾機,適用於在一螺絲之尾部割出一溝槽,並包含: 一機台單元; 一割刀單元,包括一可轉動地樞設在該機台單元上的安裝座、一可擺動地設置在該安裝座上的搖擺座、一安裝在該搖擺座上的刀軸,及一安裝在該刀軸上且鄰近該螺絲之尾部的刀片,該安裝座具有一樞接於該機台單元的樞接部、一位在該樞接部上方且供該搖擺座樞接的樞座部,及一位在該樞接部前方的受推部,該搖擺座具有一樞接於該樞座部的轉軸部、一位在該轉軸部後方且供該刀軸設置的刀軸部,及一位在該刀軸部上方的頂推部;及 一進刀單元,安裝在該機台單元上,並包括一連接該頂推部的頂推桿,該頂推桿可被驅動而推動該頂推部,使該搖擺座以該轉軸部為中心轉動,帶動該刀軸上的該刀片在該螺絲之尾部割出該溝槽。一種螺絲割尾機,適用於在一螺絲之尾部割出一溝槽,並包含: 一機台單元; 一割刀單元,包括一可轉動地樞設在該機台單元上的安裝座、一可擺動地設置在該安裝座上的搖擺座、一安裝在該搖擺座上的刀軸,及一安裝在該刀軸上且鄰近該螺絲之尾部的刀片,該安裝座具有一樞接於該機台單元的樞接部、一位在該樞接部上方且供該搖擺座樞接的樞座部,及一位在該樞接部前方的受推部,該搖擺座具有一樞接於該樞座部的轉軸部、一位在該轉軸部後方且供該刀軸設置的刀軸部,及一位在該刀軸部上方的頂推部;及 一進刀單元,安裝在該機台單元上,並包括一連接該頂推部的頂推桿,該頂推桿可被驅動而推動該頂推部,使該搖擺座以該轉軸部為中心轉動,帶動該刀軸上的該刀片在該螺絲之尾部割出該溝槽。
如請求項1所述的螺絲割尾機,其中,該搖擺座概呈V型,該轉軸部與該頂推部分別位元於兩端,且該刀軸部位在該轉軸部與該頂推部之間。
如請求項2所述的螺絲割尾機,還包含一退刀單元,該退刀單元包括一連接該安裝座之該受推部的推動桿,該推動桿可被驅動而推拉該受推部,使該安裝座以該樞接部為中心轉動,帶動該搖擺座轉動,而讓該刀片向前離開該螺絲之尾部。
如請求項3所述的螺絲割尾機,其中,該進刀單元帶動該刀片沿著以該轉軸部為中心的一弧線上下移動,在該螺絲之尾部上割出該溝槽之後,該退刀單元再接著帶動該搖擺座以該樞接部為中心轉動,使該刀片離開該螺絲之尾部。
如請求項4所述的螺絲割尾機,還包含一旋刀單元,該旋刀單元包括一安裝於該機台單元且可被驅動轉動的轉動軸、一安裝在該樞接部上的傳動軸、一安裝在該轉動軸與該傳動軸之間的第一傳動組、一安裝在該傳動軸與該轉軸部之間的第二傳動組,及一安裝在該轉軸部與該刀軸之間並驅動該刀軸轉動的第三傳動組。
如請求項5所述的螺絲割尾機,其中,該第一傳動組具有兩個分別設置在該轉動軸與該傳動軸上的第一鏈輪,及一圈套於該等第一鏈輪外圍的第一鏈條,該第二傳動組具有兩個分別設置在該傳動軸與該轉軸部上的第二鏈輪,及一圈套於該等第二鏈輪外圍的第二鏈條,該第三傳動組具有兩個分別設置在該轉軸部與該刀軸上且彼此嚙接的齒輪。
如請求項4所述的螺絲割尾機,其中,該進刀單元還包括一安裝於該機台單元且可被驅動轉動的驅動軸、一設置於該驅動軸上的進刀凸輪、一樞設於該機台單元且可被該進刀凸輪間歇驅動的下擺臂、一可活動地連接該下擺臂的連接臂、一樞設於該機台單元且可活動地連接該連接臂的上擺臂、一與該上擺臂連接且可被該上擺臂驅動而上下移動的銜接桿,及一可擺動地樞設於該機台單元且兩端分別連接該銜接桿與該頂推桿的擺動臂,該擺動臂可驅動該頂推桿上下移動。
如請求項7所述的螺絲割尾機,其中,該退刀單元還包括一安裝於該機台單元的退刀軸、一將該驅動軸的動力傳遞至該退刀軸的第四傳動組、一設置於該退刀軸上的退刀凸輪,及一樞設於該機台單元且可被該退刀凸輪間歇驅動的支擺臂,該支擺臂連接該推動桿並可驅動該推動桿上下移動。
如請求項8所述的螺絲割尾機,其中,該第四傳動組具有兩個分別設置在該驅動軸與該退刀軸上的時規齒輪,及一圈套於該等時規齒輪外圍的時規皮帶。		趙明來TW高雄市楠梓區德民路786號12樓之5趙明來TW---B23G009/00B23G009/0011-----趙明來1TW高玉駿
楊祺雄		臺北市鬆山區南京東路3段248號7樓
臺北市鬆山區南京東路3段248號7樓		5135李蕢至李蕢至TW208856
TWM422445		2CN101733489
CN216325661		200-00I866823CHAO, MING-LAI20趙明來Valid-------------
43
TWI866122B2024-12-11連結環invention1121106142023-03-22一種連結環,包括相連的第一環組件與第二環組件,第一環組件於一第一桿體的相反兩端各具有一第一公連接部以及一第一母連接部,第二環組件於一第二桿體的相反兩端各具有一第二公連接部以及一第二母連接部,其中第一公連接部與第二母連接部樞接,第一母連接部與第二公連接部以可拆卸的方式螺接;該連結環藉由一側樞接的構造,當解除另一側的螺接狀態時,能開啟該側形成較大的開口供安全裝備的繩索套入,並於再度螺接第一母連接部與第二公連接部後封閉該連結環,方便使用者使用於連結安全裝備不同的繩索、安全吊帶。一種連結環,包括相連為環體的一第一環組件以及一第二環組件,其中:該第一環組件包括一第一桿體,該第一桿體的相反兩端分別具有一第一公連接部以及一第一母連接部;該第二環組件包括一第二桿體,該第二桿體的相反兩端分別具有一第二公連接部以及一第二母連接部;該第一環組件的該第一公連接部與該第二環組件的該第二母連接部樞接,該第一環組件的該第一母連接部與該第二環組件的該第二公連接部以可拆卸的方式螺接;其中,該第一母連接部具有一第一螺接孔,且該第二公連接部具有一第二螺接孔;該第一螺接孔的孔壁具有一環狀凸緣;該連結環更包含一螺接元件及一擋止扣;該螺接元件係可拆卸地穿置於該第一螺接孔與該第二螺接孔,藉以螺接該第一母連接部與該第二公連接部;該螺接元件具有一桿部,該桿部具有一環槽;該擋止扣套設於該環槽且可於該桿部上滑動,該擋止扣的外徑大於該環狀凸緣之內徑。一種連結環,包括相連為環體的一第一環組件以及一第二環組件,其中:該第一環組件包括一第一桿體,該第一桿體的相反兩端分別具有一第一公連接部以及一第一母連接部;該第二環組件包括一第二桿體,該第二桿體的相反兩端分別具有一第二公連接部以及一第二母連接部;該第一環組件的該第一公連接部與該第二環組件的該第二母連接部樞接,該第一環組件的該第一母連接部與該第二環組件的該第二公連接部以可拆卸的方式螺接;其中,該第一母連接部具有一第一螺接孔,且該第二公連接部具有一第二螺接孔;該第一螺接孔的孔壁具有一環狀凸緣;該連結環更包含一螺接元件及一擋止扣;該螺接元件係可拆卸地穿置於該第一螺接孔與該第二螺接孔,藉以螺接該第一母連接部與該第二公連接部;該螺接元件具有一桿部,該桿部具有一環槽;該擋止扣套設於該環槽且可於該桿部上滑動,該擋止扣的外徑大於該環狀凸緣之內徑。
如請求項1所述之連結環,其中該第一環組件的該第一桿體是C型的桿體,該第一公連接部具有一第一樞接孔;該第二環組件的該第二桿體是C型的桿體,該第二母連接部具有一第二樞接孔,該第二樞接孔與該第一樞接孔重疊,於該第一樞接孔與該第二樞接孔穿置一樞接元件。
如請求項2所述之連結環,其中該第一公連接部具有一第一樞接臂,該第一樞接孔設置於該第一樞接臂;第二母連接部具有二間隔相對的第二樞接臂,該第二樞接孔貫穿該二第二樞接臂;該第一樞接臂插入該二第二樞接臂之間。
如請求項3所述之連結環,其中該第二樞接孔於該二第二樞接臂分別形成一第二沉頭部,該樞接元件是鉚釘並且於其相反二端具有二鉚釘頭部,該二鉚釘頭部分別嵌設於各該第二沉頭部固定。
如請求項1至4中任一項所述之連結環,其中該第二螺接孔與該第一螺接孔重疊。
如請求項5所述之連結環,其中該第一母連接部具有二間隔相對的第一螺接臂,該第一螺接孔貫穿該二第一螺接臂;第二公連接部具有一第二螺接臂,該第二螺接孔設置於該第二螺接臂;該第二螺接臂插入該二第一螺接臂之間。
如請求項6所述之連結環,其中該第一螺接孔對應其中一第一螺接臂的部分具有一沉頭孔部,對應另一螺接臂的部分具有一螺孔部;該螺接元件具有一頭部以及該桿部,該桿部與該頭部同軸相連,該頭部嵌設於該沉頭孔部並具有一插槽,該桿部末端的外周面具有一螺紋段,該桿部穿過該第二螺接孔並且以該螺紋段螺合於該螺孔部。
如請求項7所述之連結環,其中該沉頭孔部具有一大徑部、一小徑部,以及該環狀凸緣,該環狀凸緣由該大徑部與該小徑部之間向內凸出;該環槽形成於該桿部外周面的中間,該環槽於靠近與遠離該頭部的二側各具有一第一側壁以及一第二側壁,該擋止扣位於該小徑部內,該擋止扣的外徑大於該第二螺接孔;該桿部位於該第二側壁與該桿部的末端之間的部分定義為一末端部,該螺紋段形成於該末端部的外周面,且該末端部的體積可容納於該小徑部內。
如請求項7所述之連結環,其中該頭部的該插槽為內六角槽、十字形槽,或者一字形槽。		振鋒企業股份有限公司TW臺中市西屯區協和裡工業區33路39號振鋒企業股份有限公司TW---F16B045/02F16B045/0211-----王嘉賢1TW廖鉦達臺中市西區臺灣大道2段218號27樓5135賴耿賢賴耿賢0CN112145539
DE212020000732		210-00I866122TW2024387832024-10-01YOKE INDUSTRIAL CORP.19振鋒企業股份有限公司Valid-------------
44
US20240401630A12024-12-05COATED FASTENER AND COATING METHOD AND APPARATUS THEREFORinvention18/3261792023-05-31A coated fastener includes a core body comprising conductive material and including a first portion and a second portion. The coated fastener also includes a first coating comprising dielectric material and disposed on the first portion of the core body. The coated fastener further includes a second coating comprising a conductive friction modifier material and disposed on the second portion of the core body to provide the fastener with a desired transition hold fit, improved lubricity, and improved electromagnetic effects protection.1. A coated fastener comprising:
a core body comprising conductive material and including a first portion and a second portion;a first coating comprising dielectric material and disposed on the first portion of the core body; anda second coating comprising a conductive friction modifier material and disposed on the second portion of the core body to provide the fastener with a desired transition hold fit, improved lubricity, and improved electromagnetic effects protection.		1. A coated fastener comprising:
a core body comprising conductive material and including a first portion and a second portion;a first coating comprising dielectric material and disposed on the first portion of the core body; anda second coating comprising a conductive friction modifier material and disposed on the second portion of the core body to provide the fastener with a desired transition hold fit, improved lubricity, and improved electromagnetic effects protection.
2. The coated fastener of claim 1 wherein (i) the first portion of the core body comprises a threaded portion, and (ii) the second portion of the core body comprises a non-threaded portion.
3. The coated fastener of claim 2 wherein the non-threaded portion of the core body comprises a shank of the fastener.
4. The coated fastener of claim 1 wherein the conductive material of the core body comprises a select one of stainless steel, nickel-based superalloy, and titanium alloy.
5. The coated fastener of claim 4 wherein the conductive friction modifier material of the second coating comprises at least one of graphite, a graphic alloy, and a graphic-based material.
6. The coated fastener of claim 4 wherein the dielectric material of the first coating comprises graphite.
7. The coated fastener of claim 1 wherein (i) some of the first coating is also disposed on at least part of the second portion of the core body, and (ii) the second coating is disposed on top of the some of the first coating that is disposed on the at least part of the second portion of the core body.
8. The coated fastener of claim 1 wherein the second coating has a coating layer thickness between about 0.1 mil and about 1 mil.
9. A coating method for a fastener having a longitudinal central axis and a non-threaded portion, the coating method comprising:
rotating the fastener about its longitudinal central axis; andapplying a conductive friction modifier material onto the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis.
10. The coating method of claim 9 wherein applying the conductive friction modifier material on the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis comprises:
applying a graphite-based material onto the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis.
11. The coating method of claim 9 wherein applying a conductive friction modifier material on the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis comprises:
mechanically rubbing a graphite-based material onto the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis.
12. The coating method of claim 9 wherein applying a conductive friction modifier material on the non-threaded portion of the fastener as the fastener is rotating about its longitudinal central axis comprises:
mechanically s...		The Boeing CompanyUSThe Boeing CompanyUS VA ArlingtonThe Boeing CompanyUS-F16B033/06F16B033/0611-F16B0033/06F16B0033/06--------Seth Yakel
Kwok Tung Chan		2USWA Seattle
WA Mercer Island		-------0-0-10-00-US202404016302024-12-0519The Boeing CompanyPub.-------------
45
US12158174B22024-12-03Cover fastener and system for fastening a coverinvention17/5554342021-12-18A cover fastener includes a resilient fastener body. The fastener body has a base with a front leg and a back leg. A fastener arm is connected to the base. The fastener arm has a front end with a finger, a back lever end and a fulcrum element having a pivot between the front end and the back lever end. The fulcrum element connects the fastener arm to the base at the pivot so that the fastener arm pivots on the fulcrum element relative to the base at the pivot. A plurality of fasteners is secured to a cover by sewing to provide a cover and system for fastening a cover.1. A cover fastener, comprising:
a resilient fastener body, the resilient fastener body has a base with a front leg and a back leg, the front leg is adapted to be capable of securing to a cover;the fastener body includes a fulcrum element having a pivot formed between the front leg and the back leg;the fulcrum element connects a fastener arm to the base, the fastener arm has a front end with a finger and a back lever end, and the pivot resides between the front end and the back lever end of the fastener arm; andwherein, when the back leg of the base and the back lever end of the fastener arm are compressed together by hand, the fastener arm pivots on the fulcrum element relative to the base at the pivot so that the finger can be made to move in or out of engagement with an article to thus fasten or unfasten a cover to the article.		1. A cover fastener, comprising:
a resilient fastener body, the resilient fastener body has a base with a front leg and a back leg, the front leg is adapted to be capable of securing to a cover;the fastener body includes a fulcrum element having a pivot formed between the front leg and the back leg;the fulcrum element connects a fastener arm to the base, the fastener arm has a front end with a finger and a back lever end, and the pivot resides between the front end and the back lever end of the fastener arm; andwherein, when the back leg of the base and the back lever end of the fastener arm are compressed together by hand, the fastener arm pivots on the fulcrum element relative to the base at the pivot so that the finger can be made to move in or out of engagement with an article to thus fasten or unfasten a cover to the article.
2. The cover fastener according to claim 1, wherein the front leg of the base has a forward extending planer portion that is secured directly to the cover, and a remaining portion of the front leg and the back leg of the base are not secured to the cover and are free to move relative to the cover.
3. The cover fastener according to claim 2, wherein a receiving channel is connected to an article to be covered by the cover, wherein the receiving channel receives the finger of the front end of the fastener arm to releasably fasten the cover to the article.
4. A system for fastening a cover to an article, comprising:
a plurality of resilient cover fasteners, each of the cover fasteners comprises a resilient fastener body, each of the fastener bodies has a base with a front leg and a back leg, the front leg of the base of each fastener body has a forward extending planer portion secured directly to a cover to form a plurality of aligned cover fasteners on the cover, and a remaining portion of the front leg and the back leg of the base of each fastener body are not secured to the cover and are free to move relative to the cover;each fastener body includes a fulcrum element having a pivot formed between the front leg and the back leg;the fulcrum element of each fastener body connects a fastener arm to the base, each of the fastener arms has a front end with a finger and a back lever end, and the pivot of each of the fulcrum elements resides between the front end and the back lever end of each fastener arm, wherein, when the back leg of the base and back lever end of each fastener arm are compressed together by hand, the fastener arm pivots on the fulcrum element relative to the base at the pivot so that the finger of each fastener arm can move in or out of engagement with a receiving channel connected to an article to thus fasten or unfasten the cover to the article.
5. A cover for fastening to an article, the cover comprising:
a cover; andat least one resilient cover fastener secured directly to the cover, wherein the at least one cover fastener comprises: a resilient fastener body, the fastener body has a base with a fro...		PP4, LLCUSPP4, LLCUS----F16B002/22F16B002/2211-F16B0002/22F16B0002/22--------Doug Steury1USIN New Paris----Sue A WeaverSue A WeaverUS3805873
US4467504
US2005/0150101
US2020/0391651		4-0-30US1215817411-US202201960482022-06-2317PP4, LLCValid-------------
46
US20240401628A12024-12-05FASTENERinvention18/6962012022-10-28A fastener includes a fitted portion having an elastic piece that is disposed on a side of a base portion configured to allow insertion of the fitted portion into a through hole by elastic deformation in a direction of approaching a base portion and to engage the through hole at an insertion point of the insertion by elastic return in an end position of the insertion, and that is configured to, if force in a direction of pulling out the fitted portion from the through hole is applied, cause the elastic deformation in the approaching direction. The base portion includes an abutting portion abutting on the elastic piece if the force in the pulling-out direction is applied, and, if the force in the pulling-out direction is equal to or greater than a predetermined magnitude, the elastic piece bends in a direction toward a central axis of the fitted portion.1. A fastener comprising:
a fitted portion fitted into a through hole disposed in an object to be fastened,the fitted portion comprising:
a base portion; andan elastic piece disposed on a side of the base portion, the elastic piece being configured to allow insertion of the fitted portion into the through hole by elastic deformation in a direction of approaching the base portion and to engage with the through hole at an insertion point of the insertion by elastic return in an end position of the insertion, the elastic piece being configured to, upon application of force in a direction of pulling out the fitted portion from the through hole, cause the elastic deformation in the approaching direction,the base portion being provided with an abutting portion abutting on the elastic piece upon application of the force in the pulling-out direction, andwith the force in the pulling-out direction being equal to or greater than a predetermined magnitude, the elastic piece bending in a direction toward a central axis of the fitted portion, the central axis being on an inner side relative to the abutting portion.		1. A fastener comprising:
a fitted portion fitted into a through hole disposed in an object to be fastened,the fitted portion comprising:
a base portion; andan elastic piece disposed on a side of the base portion, the elastic piece being configured to allow insertion of the fitted portion into the through hole by elastic deformation in a direction of approaching the base portion and to engage with the through hole at an insertion point of the insertion by elastic return in an end position of the insertion, the elastic piece being configured to, upon application of force in a direction of pulling out the fitted portion from the through hole, cause the elastic deformation in the approaching direction,the base portion being provided with an abutting portion abutting on the elastic piece upon application of the force in the pulling-out direction, andwith the force in the pulling-out direction being equal to or greater than a predetermined magnitude, the elastic piece bending in a direction toward a central axis of the fitted portion, the central axis being on an inner side relative to the abutting portion.
2. The fastener according to claim 1, wherein
the fitted portion includes a guide portion formed to align with one imaginary plane containing the central axis, andan end of the fitted portion on a side of the insertion point is formed of an end of the guide portion.
3. The fastener according to claim 2, wherein the guide portion includes a second portion crossing a first portion at the central axis, the first portion being aligned with the one imaginary plane.
4. The fastener according to claim 1, wherein the elastic piece has a bending piece shape including an inner arm portion extending in a direction along the central axis with an interval to the base portion, and an outer arm portion extending from an end of the inner arm portion on an insertion point side toward a foundation portion side of the fitted portion.
5. The fastener according to claim 4, wherein the end of the inner arm portion of the elastic piece on the insertion point side is configured to, upon application of the force in the pulling-out direction, abut on the abutting portion of the base portion.
6. The fastener according to claim 5, wherein a support protruding portion is formed on the outer arm portion of the elastic piece, the support protruding portion protruding toward a guide portion side.
7. The fastener according to claim 1, wherein both or either one of the abutting portion and a portion, abutting on the abutting portion, of the elastic piece is a protruding portion.
8. The fastener according to claim 1, wherein the elastic piece is disposed on each side of the base portion.
9. The fastener according to claim 2, wherein
the base portion is disposed on each side of the guide portion,the elastic piece is disposed on each side of the base portion located on a first side of the guide portion, andthe elastic piece is disposed on each side of the base portion located ...		NIFCO INC.JPNIFCO INC.JP----F16B021/08F16B021/08
F16B005/06		12-F16B0021/084F16B0021/084
F16B0005/0657		-----2021-1845722021-11-12JPAkihiro YAGUCHI
Takehiro SATO		2JP Yokosuka-shi, Kanagawa
Yokosuka-shi, Kanagawa		-------0-0-20-00-US202404016282024-12-0518NIFCO INC.Pub.-------------
47
US20240401631A12024-12-05PROTECTIVE CAP AND FASTENING SCREW HAVING PROTECTIVE CAP MOUNTED THEREONinvention18/6752722024-05-28An assembly includes a fastening screw having an end surface and a substantially cylindrical side surface extending axially away from the end surface and a protective cap covering the free end. The cap has a first end opening from which the fastening screw extends, a second end overlying the end surface of the fastening screw, a side wall surrounding a portion of the cylindrical side surface, an inner surface defining a cap interior, and an outer surface. A cap screw extends through an opening in the second end of the cap and into a threaded opening in the end surface of the fastening screw to secure the protective cap to the fastening screw.1. An assembly comprising:
a fastening screw having an end surface and a substantially cylindrical side surface extending axially away from the end surface,a protective cap covering the free end and having a first end opening from which the fastening screw extends, a second end overlying the end surface of the fastening screw, a side wall surrounding a portion of the cylindrical side surface, an inner surface defining a cap interior, and an outer surface,a cap screw extending through an opening in the second end of thecap and into a threaded opening in the end surface of the fastening screw to secure the protective cap to the fastening screw.		1. An assembly comprising:
a fastening screw having an end surface and a substantially cylindrical side surface extending axially away from the end surface,a protective cap covering the free end and having a first end opening from which the fastening screw extends, a second end overlying the end surface of the fastening screw, a side wall surrounding a portion of the cylindrical side surface, an inner surface defining a cap interior, and an outer surface,a cap screw extending through an opening in the second end of thecap and into a threaded opening in the end surface of the fastening screw to secure the protective cap to the fastening screw.
2. The assembly according to claim 1,
wherein the cap interior is filled with a lubricant and/or a corrosion protection agent.
3. The assembly according to claim 2,
including a first seal member between a head of the cap screw and the outer surface of the second end of the protective cap.
4. The assembly according to claim 3,
wherein at least one second seal member is mounted in the cap interior between the fastening screw and the inner surface of the cap at the first end opening to seal the cap interior.
5. The assembly according to claim 4,
wherein a portion of the at least one second seal member is located axially outside the cap interior.
6. The assembly according to claim 5,
wherein the portion of the at least one second seal member extends radially outward from the outer surface of the protective cap.
7. The assembly according to claim 3,
wherein the at least one second seal member includes at least one sealing lip extending radially inward toward the side surface of the fastening screw.
8. The assembly according to claim 7,
wherein the at least one sealing lip comprises a plurality of sealing lips.
9. The assembly according to claim 4,
wherein the at least one second seal member comprises a plurality of sealing rings arranged axially one above the other.
10. The assembly according to claim 4,
wherein the at least one second seal member covers an axial end of the protective cap.
11. The assembly according to claim 4,
wherein the at least one second seal member includes a flange extending radially outwardly from the outer surface of the protective cap.
12. The assembly according to claim 1,
including:a first seal member between a head of the cap screw and an outer surface of the second end of the protective, andat least one second seal member mounted in the cap interior between the fastening screw and the inner surface of the cap at the first end opening to seal the cap interior,wherein the cap interior is filled with a lubricant and/or a corrosion protection agent,wherein a portion of the at least one second seal member is located axially outside the cap interior and extends radially outward from an outer surface of the protective cap, andwherein the at least one second seal member includes at least one sealing lip extending radially inward toward the side surface of the fastening screw.
1...		AKTIEBOLAGET SKFSEAKTIEBOLAGET SKFSE----F16B037/14F16B037/14
F16B043/00		12-F16B0037/14F16B0037/14
F16B0043/001		-----102023205215.62023-06-05DEJuergen WEIGLEIN
Marcel Alfred MEMMEL		2DE Oerlenbach
Ebenhausen		-------0-0-00-00-US202404016312024-12-0520AKTIEBOLAGET SKFPub.-------------
48
US12158175B12024-12-03Lockable connecting ringinvention18/1998762023-05-19A lockable connecting ring includes a first assembly and a second assembly connected to the first assembly. Two opposite ends of a rod body of the first assembly have a male linking portion and a female lockable portion, respectively. Two opposite ends of a rod body of the second assembly have a male lockable portion and a female linking portion, respectively. The male linking portion is pivotally connected to the female linking portion, and the female lockable portion is detachably connected to the male lockable portion by screwing. When the threaded connection of the lockable connecting ring is unlocked, the lockable connecting ring could be rotated along the pivotal connection to form an opening for allowing the rope to fit around the lockable connecting ring. Then, the female lockable portion is connected to the male lockable portion by screwing again to close the lockable connecting ring, which is convenient for use.1. A lockable connecting ring, comprising:
a first assembly and a second assembly, and the first assembly is connected to the second assembly to form a ring body,wherein the first assembly comprises a first rod body, wherein two opposite ends of the first rod body have a male linking portion and a female lockable portion, respectively;wherein the second assembly comprises a second rod body, wherein two opposite ends of the second rod body have a male lockable portion and a female linking portion, respectively;wherein the male linking portion of the first assembly is pivotally connected to the female linking portion of the second assembly; and the female lockable portion of the first assembly is detachably connected to the male lockable portion of the second assembly by screwing;wherein the female lockable portion has a first hole, the male lockable portion has a second hole; the second hole is overlapped with the first hole, and a fastener detachably passes through the first hole and the second hole, the fastener has a rod;wherein the first hole has an annular flange protruding inwardly, an outer circumference of the rod of the fastener has an annular groove; a stopper slidably fits around the annular groove; the stopper is located in the first hole; an outer diameter of the stopper is greater than an inner diameter of the annular flange, and the outer diameter of the stopper is greater than a diameter of the second hole.		1. A lockable connecting ring, comprising:
a first assembly and a second assembly, and the first assembly is connected to the second assembly to form a ring body,wherein the first assembly comprises a first rod body, wherein two opposite ends of the first rod body have a male linking portion and a female lockable portion, respectively;wherein the second assembly comprises a second rod body, wherein two opposite ends of the second rod body have a male lockable portion and a female linking portion, respectively;wherein the male linking portion of the first assembly is pivotally connected to the female linking portion of the second assembly; and the female lockable portion of the first assembly is detachably connected to the male lockable portion of the second assembly by screwing;wherein the female lockable portion has a first hole, the male lockable portion has a second hole; the second hole is overlapped with the first hole, and a fastener detachably passes through the first hole and the second hole, the fastener has a rod;wherein the first hole has an annular flange protruding inwardly, an outer circumference of the rod of the fastener has an annular groove; a stopper slidably fits around the annular groove; the stopper is located in the first hole; an outer diameter of the stopper is greater than an inner diameter of the annular flange, and the outer diameter of the stopper is greater than a diameter of the second hole.
2. The lockable connecting ring as claimed in claim 1, wherein the first rod body of the first assembly is a C-shaped rod, and the male linking portion has a first perforation; the second rod body of the second assembly is a C-shaped rod, and the female linking portion has a second perforation; the second perforation is aligned with the first perforation, and a connecting member passes through the first perforation and the second perforation.
3. The lockable connecting ring as claimed in claim 2, wherein the male linking portion has a first protrusion, and the first protrusion has a first perforation; the female linking portion comprises two extending arms that are spaced from each other; the second perforation passes through each of the two extending arms of the female linking portion; the first protrusion is inserted between the two extending arms of the female linking portion.
4. The lockable connecting ring as claimed in claim 3, wherein the second perforation forms an enlarged section on each of the two extending arms of the female linking portion; the connecting member is a rivet, and each of two ends of the rivet has a rivet head; each of the two rivet heads is embedded into one of the two enlarged sections.
5. The lockable connecting ring as claimed in claim 1, wherein the female lockable portion has two extending arms that are spaced from each other; the first hole passes through each of the two extending arms of the female lockable portion; the male lockable portion has a second protrusion, and the second protrusio...		YOKE INDUSTRIAL CORP.TWYOKE INDUSTRIAL CORP.TW TaichungYOKE INDUSTRIAL CORP.TW-F16B045/02F16B045/02
A62B035/00		22-F16B0045/035F16B0045/035
F16B0045/027
A62B0035/0037		--------Chia-Hsien Wang1TW TaichungApex Juris, pllc
Hilde Coecky		--Robert SandyRobert Sandy
Michael S Lee		US1209083
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DE212020000732
TWM644139		3Search Report for TW112110614, Issued on Nov. 29, 2023, Total of 2 pages.;English Abstract for CN112145539A, Total of 1 page.;English Abstract for DE212020000732U, Total of 1 page.;English Abstract for TWM644139U, Total of 1 page.10US1215817511-US202403847492024-11-2119YOKE INDUSTRIAL CORP.Valid-------------
49
TWI865728B2024-12-11微調整螺絲組合件及加工裝置invention1101063482021-02-23一種微調整螺絲組合件,設置成可將第1零件與第2零件隔著間隔來連結,而設成可調整第1零件與第2零件之間的距離,並且可偵測施加於第2零件之荷重。微調整螺絲組合件包含:第1公螺絲,可螺入形成於第1零件的第1母螺絲;第2公螺絲,在第1公螺絲的軸方向的延長線上與第1公螺絲隔有距離而配置,且可螺入形成於第2零件之第2母螺絲,前述第2母螺絲具有與第1母螺絲的螺距不同之螺距;連結部,一體地連結互相隔有距離的第1公螺絲與第2公螺絲;及荷重感測器,被施加壓縮荷重而容置於連結部的內部。一種微調整螺絲組合件,是設置成將第1零件與第2零件隔著間隔來連結,而設成可調整該第1零件與該第2零件之間的距離,並且可偵測施加於該第2零件之荷重,前述微調整螺絲組合件具備有:第1公螺絲,可螺入形成於該第1零件之第1母螺絲;第2公螺絲,在該第1公螺絲的軸方向的延長線上與該第1公螺絲隔有距離而配置,且可螺入形成於該第2零件之第2母螺絲,前述第2母螺絲具有與該第1母螺絲的螺距不同之螺距;連結部,一體地連結互相隔有距離的該第1公螺絲與該第2公螺絲;及荷重感測器,被施加壓縮荷重而容置於該連結部的內部。一種微調整螺絲組合件,是設置成將第1零件與第2零件隔著間隔來連結,而設成可調整該第1零件與該第2零件之間的距離,並且可偵測施加於該第2零件之荷重,前述微調整螺絲組合件具備有:第1公螺絲,可螺入形成於該第1零件之第1母螺絲;第2公螺絲,在該第1公螺絲的軸方向的延長線上與該第1公螺絲隔有距離而配置,且可螺入形成於該第2零件之第2母螺絲,前述第2母螺絲具有與該第1母螺絲的螺距不同之螺距;連結部,一體地連結互相隔有距離的該第1公螺絲與該第2公螺絲;及荷重感測器,被施加壓縮荷重而容置於該連結部的內部。
一種加工裝置,具備:保持單元,藉由保持面保持被加工物;加工單元,包含主軸與裝設於該主軸的加工工具;上下移動機構,使支撐該加工單元的支撐罩殼在垂直於該保持面的上下方向上移動;及加工單元傾斜度調整機構,調整該加工單元相對於該保持單元的傾斜度,該加工單元傾斜度調整機構是由微調整螺絲組合件所構成,前述微調整螺絲組合件設置成將第1零件與第2零件隔著間隔來連結,而設成可調整該第1零件與該第2零件之間的距離,並且可偵測施加於該第2零件之荷重,該微調整螺絲組合件包含:第1公螺絲,可螺入形成於該第1零件之第1母螺絲;第2公螺絲,在該第1公螺絲的軸方向的延長線上與該第1公螺絲隔有距離而配置,且可螺入形成於該第2零件之第2母螺絲,前述第2母螺絲具有與該第1母螺絲的螺距不同之螺距;連結部,一體地連結互相隔有距離的該第1公螺絲與該第2公螺絲;及荷重感測器,被施加壓縮荷重而容置於該連結部的內部,該第1零件由該支撐罩殼所構成,且該第2零件由該加工單元所構成。
一種加工裝置,具備:保持單元,藉由保持面保持被加工物;基台,支撐該保持單元;加工單元,包含主軸與裝設於該主軸的加工工具;上下移動機構,使支撐該加工工具的支撐罩殼在垂直於該保持面的上下方向上移動;及保持單元傾斜度調整機構,調整該保持單元相對於該加工單元的傾斜度,該保持單元傾斜度調整機構是由微調整螺絲組合件所構成,前述微調整螺絲組合件設置成將第1零件與第2零件隔著間隔來保持,而設成可調整該第1零件與該第2零件之間的距離,並且可偵測施加於該第2零件之荷重,該微調整螺絲組合件包含:第1公螺絲,可螺入形成於該第1零件之第1母螺絲;第2公螺絲,在該第1公螺絲的軸方向的延長線上與該第1公螺絲隔有距離而配置,且可螺入形成於該第2零件之第2母螺絲,前述第2母螺絲具有與該第1母螺絲的螺距不同之螺距;連結部,一體地連結互相隔有距離的該第1公螺絲與該第2公螺絲;及荷重感測器,被施加壓縮荷重而容置於該連結部的內部,該第1零件由該基台所構成,且該第2零件由該保持單元所構成。		日商迪思科股份有限公司JP日本日商迪思科股份有限公司JP---B24B037/04B24B037/04
B24B049/16
F16B035/00		23-----2020-0347802020-03-02JP力石利康
和田健太郎		2JP
劉法正
尹重君		臺北市鬆山區南京東路3段248號7樓
臺北市鬆山區南京東路3段248號7樓		5135阮顯程阮顯程TWI6130301CN208629182
JP2016-203290		230I865728
US11992916
JP7393977
KR1020210111172
CN113334196A
DE102021201916A1		66I865728TW2021339992021-09-16DISCO CORPORATION17日商迪思科股份有限公司Valid-------------
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EP4148287B12024-12-04BLIND FASTENERS AND ASSOCIATED METHODS FOR INSTALLING BLIND FASTENERSinvention22193076.12022-08-31A blind fastener (100) includes a sleeve (110) having a distal end portion (110a) and a proximal end portion (110b) and defining a bore (160). The blind fastener also includes a core bolt (120) at least partially received in the bore of the sleeve, the core bolt defining a core bolt axis and including a body (122) having a distal end portion (122a) and proximal end portion (122b) axially opposed from the distal end portion, wherein the body is tapered from the distal end portion of the body to the proximal end portion of the body such that the core bolt causes radial expansion of the sleeve when the body is urged relative to the sleeve through the bore along the core bolt axis.
A blind fastener (100) comprising:
a sleeve (110) comprising a distal end portion (110a), a proximal end portion (110b), and a flanged portion (115) at the distal end portion (1 10a), wherein the sleeve defines a bore (160); anda core bolt (120) at least partially received in the bore (160) of the sleeve (110), the core bolt (120) defining a core bolt axis (AC) and comprising a body (122) and a cap (140), wherein the body has a distal end portion (122a) and a proximal end portion (122b) axially opposed from the distal end portion (122a), wherein the body (122) is tapered from the distal end portion (122a) of the body (122) to the proximal end portion (122b) of the body (122) such that the core bolt (120) causes radial expansion of the sleeve (110) when the body (122) is urged relative to the sleeve (110) through the bore (160) along the core bolt axis (Ac);wherein the cap (140) and flanged portion (115) are arranged such that the sleeve (110) buckles along the flanged portion (115) to form a lip which abuts the cap when the body (122) is urged relative to the sleeve (110) through the bore (160) along the core bolt axis (Ac).		A blind fastener (100) comprising:
a sleeve (110) comprising a distal end portion (110a), a proximal end portion (110b), and a flanged portion (115) at the distal end portion (1 10a), wherein the sleeve defines a bore (160); anda core bolt (120) at least partially received in the bore (160) of the sleeve (110), the core bolt (120) defining a core bolt axis (AC) and comprising a body (122) and a cap (140), wherein the body has a distal end portion (122a) and a proximal end portion (122b) axially opposed from the distal end portion (122a), wherein the body (122) is tapered from the distal end portion (122a) of the body (122) to the proximal end portion (122b) of the body (122) such that the core bolt (120) causes radial expansion of the sleeve (110) when the body (122) is urged relative to the sleeve (110) through the bore (160) along the core bolt axis (Ac);wherein the cap (140) and flanged portion (115) are arranged such that the sleeve (110) buckles along the flanged portion (115) to form a lip which abuts the cap when the body (122) is urged relative to the sleeve (110) through the bore (160) along the core bolt axis (Ac).
The blind fastener (100) of Claim 1, wherein the taper from the distal end portion (122a) of the body (122) to the proximal end portion (122b) of the body (122) is a continuous taper.
The blind fastener (100) of Claim 2, wherein the continuous taper has a taper angle (Oc) ranging from about 1 degree to about 20 degrees, for example ranging from about 2 degrees to about 10 degrees.
The blind fastener (100) of any preceding Claim , wherein the body (122) is a truncated conical body, and -->wherein a diameter of the truncated conical body proximate the distal end portion (122a) of the body (122) is optionally greater than the diameter of the truncated conical body proximate the proximal end portion (122b).
The blind fastener (100) of any preceding Claim, wherein the body (122) of the core bolt (120) comprises a flanged portion (124) at the proximal end portion (122b).
The blind fastener (100) of any preceding Claim, further comprising a stem (130) connected to the proximal end portion (122b) of the body (122).
The blind fastener (100) of any preceding Claim, wherein the stem (130) comprises at least one groove (131).
The blind fastener (100) of any preceding Claim, wherein the stem (130) comprises a collared portion (133).
The blind fastener (100) of any preceding Claim, further comprising a neck (150) abutting the proximal end portion (122b) positioned between the body (122) and the stem (130).
The blind fastener (100) of any preceding Claim, wherein the core bolt (120) comprises a second metallic material and the sleeve (110) comprises a first metallic material, and wherein the first metallic material is substantially different from the second metallic material; wherein the first metallic material is optionally at least 5% softer than the second metallic material.
The blind fastener (100) of any preceding Claim, wher...		The Boeing CompanyThe Boeing CompanyUS929 Long Bridge Drive Arlington, VA 22202---F16B013/06F16B013/06
F16B013/08
F16B019/10		12F16B0013/065F16B0013/065
F16B0013/0858
F16B0019/1045		----2021174713722021-09-10USMUNTZ, Nathan A.
SISCO, Tanni		2US Chicago, 60606-1596
Chicago, 60606-1596		Howson, Richard Giles Bentham---0WO2020/077396
DE3 409 373
DE202016 103 068
FR2 210 464
GB1 333 893
GB642 770
FR2210464
WO2020077396
DE202016103068
DE3409373
GB1333893
GB642770		1220EP4148287B1
US20230083921
CA3158671A1
AU2022203730A1		44-EP41482872023-03-1518The Boeing Company-------------
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US20240401681A12024-12-05ASSEMBLY WITH RIVETED COMPONENTSinvention18/2045422023-06-01A torque converter assembly including a hub and a housing at least partially surrounding the hub. The hub includes a hub body having a radially-inwardly extending circumferential slot defining a connection portion of the hub body, and a plurality of axially extending bores extending through the connection portion of the hub body to the circumferential slot. At least a portion of the housing is coupled to the hub with at least one rivet installed in a corresponding bore of the connection portion of the hub body.1. A torque converter assembly comprising:
a hub; anda housing at least partially surrounding the hub;wherein the hub includes a hub body having a radially-inwardly extending circumferential slot defining a connection portion of the hub body, and a plurality of axially extending bores extending through the connection portion of the hub body to the circumferential slot; andwherein at least a portion of the housing is coupled to the hub with at least one rivet installed in a corresponding bore of the connection portion of the hub body.		1. A torque converter assembly comprising:
a hub; anda housing at least partially surrounding the hub;wherein the hub includes a hub body having a radially-inwardly extending circumferential slot defining a connection portion of the hub body, and a plurality of axially extending bores extending through the connection portion of the hub body to the circumferential slot; andwherein at least a portion of the housing is coupled to the hub with at least one rivet installed in a corresponding bore of the connection portion of the hub body.
2. The torque converter assembly according to claim 1, wherein the housing includes a pump housing and a cover, and wherein the cover is coupled to the hub.
3. The torque converter assembly according to claim 1, wherein an upset tail of the at least one rivet engages a surface of the circumferential slot.
4. The torque converter assembly according to claim 1, wherein the hub body has a uniform outer circumference and the bores are spaced radially inwardly from the uniform outer circumference.
5. The torque converter assembly according to claim 1, wherein a diameter of the hub body is the same on each axial side of the circumferential groove.
6. The torque converter assembly according to claim 1, wherein the circumferential slot has a radial depth greater than a radial extent of at least one of the plurality of axially extending bores.
7. The torque converter assembly according to claim 1, wherein the rivets are formed integrally with the portion of the housing coupled to the hub.
8. A hub for a torque converter comprising:
a hub body having a radially-inwardly extending circumferential slot defining a connection portion of the hub body; anda plurality of axially extending bores extending through the connection portion of the hub body to the circumferential slot;wherein an axial end face of the hub body within the circumferential slot defines an upset surface against which a tail of a rivet can be compressed to deform the rivet tail within the circumferential slot.
9. The hub according to claim 8, wherein the hub body has a uniform outer circumference and the bores are spaced radially inwardly from the uniform outer circumference.
10. The hub according to claim 8, wherein a diameter of the hub body is the same on each axial side of the circumferential groove.
11. The hub according to claim 8, wherein the circumferential slot has a radial depth greater than a diameter of one of the plurality of axially extending bores.
12. A method of assembling a torque converter assembly comprising:
positioning at least a portion of a housing of the torque converter assembly adjacent a hub of the torque converter assembly, the hub including a hub body having a radially-inwardly extending circumferential slot defining a connection portion of the hub body, and a plurality of axially extending bores extending through the connection portion of the hub body to the circumferential slot;installing at least one rivet in a correspo...		Schaeffler Technologies AG & Co. KGDESchaeffler Technologies AG & Co. KGDE HerzogenaurachSchaeffler Technologies AG & Co. KGDE-F16H041/24F16H041/24
F16B019/06		22-F16H0041/24F16H0041/24
F16B0019/06
F16H0045/02		--------Noah Kee1USOH Wooster-------0-0-10-00-US202404016812024-12-0519Schaeffler Technologies AG & Co. KGPub.-------------
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CN119062651A2024-12-03一種航空用快鎖式緊固件inventionCN202310648950.42023-06-02本發明涉及快鎖式緊固件技術領域,且公開了一種航空用快鎖式緊固件,包括固定套,固定套外側設置有卡接機構,固定套底部內側設置有套接機構,固定套頂部內側設置有固定軸,固定軸內部設置有調整機構。帶動連杆一進行轉動,當連杆一轉動時通過與滑動菱形塊之間轉動安裝,通過滑動菱形塊在滑動槽內部滑動,通過與連杆二之間轉動轉動安裝,從帶動連杆二進行移動,這樣能夠代用轉動角塊進行伸展與收縮,這樣在安裝時只需要通過轉動一百二十度即可完成固定,使得安裝更加快捷,通過設置有緩衝簧與阻尼,能夠防止在安裝時發生碰撞,通過設置有限位元簧防止裝置在工作過程中出現碰撞,這樣能夠防止緊固件受到損壞。;1.一種航空用快鎖式底部,包括固定套(D,其特徵為:所述固定套(1)可能設置有卡接機構(2),所述固定套(I)內部設置有套接機構(3),所述固定套(I)頂部內部設置有固定軸(4),所述固定軸(4)內部設置有調整機構(5);上述調整機構(5)包括轉動組件((1)與組件(52),所述轉動組件((1)設定在固定軸(4)頂部,所述轉動組件(52)設定在固定軸( 4)底部內部。1.一種航空用快鎖式底部,包括固定套(D,其特徵為:所述固定套(1)可能設置有卡接機構(2),所述固定套(I)內部設置有套接機構(3),所述固定套(I)頂部內部設置有固定軸(4),所述固定軸(4)內部設置有調整機構(5);上述調整機構(5)包括轉動組件((1)與組件(52),所述轉動組件((1)設定在固定軸(4)頂部,所述轉動組件(52)設定在固定軸( 4)底部內部。江蘇永昊高強度螺栓有限公司CN214518 江蘇省泰州市靖江市敦義大橋東首江蘇永昊高強度螺栓有限公司CN----F16B039/24F16B039/24
F16B041/00		12-----------洪建權
朱漢華
朱銀奎		3-

胡玲玲
南京新慧恒誠智慧財產權代理有限公司 32424		20241203----0-0-10-00-CN1190626512024-12-0319江蘇永昊高強度螺栓有限公司Pub.-------------
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US20240401632A12024-12-05SCREW FIXING STRUCTURE FOR HEAT DISSIPATION UNIT AND HEAT DISSIPATION UNIT USING SAMEinvention18/2029552023-05-29A heat dissipation unit includes a heat sink having a heat receiving zone and a screw fixing structure extended through each of four holes on the heat sink outside the heat receiving zone. The screw fixing structure includes a locating screw having a shank and a spring fitted around the shank; a hollow sleeve located outside the shank and the spring; and a spring stopper including two parallel elastic arms connected at one end and elastically disposed in the hollow sleeve to hold the spring in a compressed state. The spring stopper may be pushed downward to laterally push the two elastic arms open to move away from the spring, allowing the spring to release its elastic force upwardly. The four locating screws can synchronously and evenly apply their elastic force to the through holes outside the heat receiving zone, preventing the heat sink from damaging a contacted heat source.1. A screw fixing structure for heat dissipation unit, comprising:
a locating screw including a shank having a head and an externally threaded section formed on an upper and a lower end thereof, respectively; the shank further including an annular retaining groove provided near the threaded section for receiving a retaining ring therein; and a spring being fitted on around the shank and having a top end and a bottom end, and the bottom end of the spring being elastically pressed against the retaining ring;a hollow sleeve having an open upper end, an open lower end, and a receiving space defined in the hollow sleeve between the upper and the lower end; the hollow sleeve further having a radially inward narrowed neck portion formed near the upper end; the neck portion having a pair of cuts correspondingly formed thereat, and the cuts being radially communicable with the receiving space; and the shank of the locating spring having the spring fitted on around it being axially extended through the hollow sleeve; anda spring stopper being elastically tightly set in the pair of cuts on the hollow sleeve and including a first and a second elastic arm, which are correspondingly shaped; the first elastic arm and the second elastic arm respectively having an end connected to one of two ends of a link section located between them and being pressed into the receiving space of the hollow sleeve via the pair of cuts to thereby stop the top end of the spring from elastically pushing upward, keeping the spring in a compressed state.		1. A screw fixing structure for heat dissipation unit, comprising:
a locating screw including a shank having a head and an externally threaded section formed on an upper and a lower end thereof, respectively; the shank further including an annular retaining groove provided near the threaded section for receiving a retaining ring therein; and a spring being fitted on around the shank and having a top end and a bottom end, and the bottom end of the spring being elastically pressed against the retaining ring;a hollow sleeve having an open upper end, an open lower end, and a receiving space defined in the hollow sleeve between the upper and the lower end; the hollow sleeve further having a radially inward narrowed neck portion formed near the upper end; the neck portion having a pair of cuts correspondingly formed thereat, and the cuts being radially communicable with the receiving space; and the shank of the locating spring having the spring fitted on around it being axially extended through the hollow sleeve; anda spring stopper being elastically tightly set in the pair of cuts on the hollow sleeve and including a first and a second elastic arm, which are correspondingly shaped; the first elastic arm and the second elastic arm respectively having an end connected to one of two ends of a link section located between them and being pressed into the receiving space of the hollow sleeve via the pair of cuts to thereby stop the top end of the spring from elastically pushing upward, keeping the spring in a compressed state.
2. The screw fixing structure for heat dissipation unit as claimed in claim 1, wherein the first and the second elastic arm respectively have another end, which are located far away from the link section and defined as a first and a second end; and the first and the second end being located closely adjacent to but not physically connected to each other.
3. The screw fixing structure for heat dissipation unit as claimed in claim 2, wherein the first elastic arm, the second elastic arm, the link section, the first end, and the second end of the spring stopper together enclose an area, and the enclosed area being divided by a virtual line into a first zone and a second zone.
4. The screw fixing structure for heat dissipation unit as claimed in claim 3, wherein the spring stopper can be manipulated with a pressing tool, an end of which is provided with a holding section and an expanding section; and the expanding section having a transverse width larger than that of the holding section.
5. The screw fixing structure for heat dissipation unit as claimed in claim 4, wherein the holding section and the expanding section respectively have a fixed end connected to the pressing tool and a free end located far away from the fixed end; and the holding section and the expanding section respectively having the largest transverse width at their fixed end and being tapered from the fixed end toward the free end, such that the free ends being form...		ASIA VITAL COMPONENTS CO., LTD.TWASIA VITAL COMPONENTS CO., LTD.TW----F16B039/10F16B039/10
H05K007/20		22-F16B0039/10F16B0039/10
H05K0007/2039		--------Wen-Ji Lan1TW New Taipei City-------0-0-10-00-US202404016322024-12-0519ASIA VITAL COMPONENTS CO., LTD.Pub.-------------
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US12163546B22024-12-10Sealing fastenersinvention17/5924532022-02-03A fastening device includes a fastener and a sealant. The sealant may be disposed about the fastener. Engagement of the fastener with a substrate forces the sealant into at least a borehole defined within the substrate as the fastener engages with the substrate.1. A coupling system for attaching an object to a substrate, the coupling system comprising:
a fastening device including:
a fastener, anda sealant, the sealant being disposed about the fastener;a reservoir in which the sealant is contained; anda coupling device including:
at least one aperture defined in the coupling device, andat least one recess defined in a first side of the coupling device and located opposite a second side of the coupling device including the reservoir, the at least one recess being in fluid communication with the reservoir and the at least one aperture,wherein engagement of the fastener with the substrate via the coupling device forces the sealant from the reservoir, through the at least one aperture, and into the recess.		1. A coupling system for attaching an object to a substrate, the coupling system comprising:
a fastening device including:
a fastener, anda sealant, the sealant being disposed about the fastener;a reservoir in which the sealant is contained; anda coupling device including:
at least one aperture defined in the coupling device, andat least one recess defined in a first side of the coupling device and located opposite a second side of the coupling device including the reservoir, the at least one recess being in fluid communication with the reservoir and the at least one aperture,wherein engagement of the fastener with the substrate via the coupling device forces the sealant from the reservoir, through the at least one aperture, and into the recess.
2. The coupling system of claim 1, wherein the engagement of the fastener with the coupling device further forces the sealant into a borehole defined within the substrate by the fastener as the fastener engages with the substrate.
3. The coupling system of claim 1, further comprising a flashing, wherein the fastener engages with the substrate via the flashing.
4. The coupling system of claim 3, wherein the engagement of the fastener with the coupling device further forces the sealant into a borehole defined within the flashing as the fastener engages with the flashing.
5. The coupling system of claim 1, further comprising:
a deformable substrate enclosing the sealant, the deformable substrate forming at least a portion of the reservoir,wherein deformation of the deformable substrate by the fastener engaging with the substrate forces the sealant from the reservoir, through the at least one aperture, and into the recess.
6. The coupling system of claim 1, further comprising:
a plunger coupled to the fastener, andat least one buttress wall opposing the plunger, forming at least a portion of the reservoir with the plunger,wherein the plunger forces the sealant into the at least one aperture and the recess when the fastener is engaged with the substrate.
7. The coupling system of claim 6, wherein the at least one buttress wall is formed on the coupling device.
8. The coupling system of claim 6, wherein the plunger is a permanent device or disposable.
9. The coupling system of claim 1, wherein:
the coupling device includes a plurality of apertures defined therethrough, andthe engagement of the fastener with the substrate via the coupling device forces the sealant from the reservoir, through the plurality of apertures, and into the recess.
10. The coupling system of claim 1, wherein the coupling device couples the object to the substrate by the object coupling to the coupling device.
11. The coupling system of claim 1, further comprising a cap removably disposed over the fastener.
12. A fastening device, comprising:
a fastener, anda sealant, the sealant being disposed about the fastener,wherein engagement of the fastener with a substrate forces the sealant into at least a borehole defined within the s...		Unirac Inc.USUnirac, Inc.US NM AlbuquerqueUnirac, Inc.US-F16B033/00F16B033/0011-F16B0033/004F16B0033/004
F16B0033/00		--------Ernest Gallegos
Todd Ganshaw		2USNM Albuquerque
NM Albuquerque		Lee & Hayes, P.C.--Roberta S DelisleRoberta S DelisleUS3469490
USRE27085
US3606357
US3670618
US4749321
US6035595
US8931989
US2010/0047033
US2011/0152133
US2016/0134230
US2016/0248369
US2017/0279403
US2018/0062560
US2018/0152133
US2019/0131917
US2020/0309184
US2020/0378110
US2022/0010832		18-0The International Search Report and Written Opinion for PCT Application No. PCT/US22/15136, mailed Apr. 26, 2022.;The International Preliminary Report on Patentability mailed Aug. 17, 2023 for PCT Application No. PCT/US22/13995, 9 pages.20US1216354611-US202202437542022-08-0418Unirac, Inc.Valid-------------
55
CN119062642A2024-12-03一種隧道施工監控量測收斂測點輔助裝置inventionCN202411563327.X2024-11-05本發明涉及隧道施工領域,提供一種隧道施工監控量測收斂測點輔助裝置,包括螺栓杆,所述螺栓杆的兩端分別固定有膨脹塊和固定座,所述螺栓杆的外側設置有膨脹套,所述螺栓杆的外側設置有與所述膨脹套底部貼合的緊固螺母。本發明具有如下的有益效果,通過卡接機構的設計,從可以通過卡接機構將帶有反光片和掛鉤的連接座與固定座之間實現卡接與拆卸,防止連接座受到外力破壞,方便了使用者對隧道施工中監控量測收斂測點輔助裝置進行拆裝,解決了以往佈設的掛鉤大多固定在邊牆外,由於掛鉤很大一部分裸露在邊牆外容易因掌子麵的爆破,碎石有可能會砸到佈設的測點,或者除渣車和鏟車會碰到測點,從而導致測點鉤變形而影響量測的問題。;1.一種隧道施工監控量測收斂測點輔助裝置,其特徵包括螺栓桿(1)、所述螺栓桿(D的兩端分別固定有膨脹塊(2)和固定座(3),所述螺栓桿(D的設置有膨脹套(4),螺栓桿(I)的設置有與所述膨脹套(4)底部貼合的支撐螺栓(5),固定座(3)內部設有卡接機構,所述卡接機構與連接座(6)連接固定,所述連接座(6)的外壁中部定有連接塊(7),所述連接塊(7)遠離所述連接塊(6)的外部外觀向中部固定座冇掛鉤(8),所述連接塊(7)的外表面丌收納槽(9),所述收納槽(9)內裝有反光片(10),所述收納槽丌囗處卡接有蓋板(11)1.一種隧道施工監控量測收斂測點輔助裝置,其特徵包括螺栓桿(1)、所述螺栓桿(D的兩端分別固定有膨脹塊(2)和固定座(3),所述螺栓桿(D的設置有膨脹套(4),螺栓桿(I)的設置有與所述膨脹套(4)底部貼合的支撐螺栓(5),固定座(3)內部設有卡接機構,所述卡接機構與連接座(6)連接固定,所述連接座(6)的外壁中部定有連接塊(7),所述連接塊(7)遠離所述連接塊(6)的外部外觀向中部固定座冇掛鉤(8),所述連接塊(7)的外表面丌收納槽(9),所述收納槽(9)內裝有反光片(10),所述收納槽丌囗處卡接有蓋板(11)山東省路橋集團有限公司CN250014 山東省濟南市曆下區經十路14677號山東省路橋集團有限公司CN----F16B013/06F16B013/06
F16B045/00
F16B021/10
G02B007/182
E21F017/18		35-----------林存友
王作豐
陳美超
範翔宇
荊玉才
王興闊
劉巍
王慶偉
楊文傑		9-







李真
濟南方維專利代理事務所(普通合夥) 37385		20241203----0-0-00-00-CN1190626422024-12-0320山東省路橋集團有限公司Pub.-------------
56
EP3388694B12024-12-04THREE-POINT FASTENERinvention18165826.12018-04-05Fasteners (100) are disclosed for reducing mass of the fastener, while being configured for use with standard torque delivery tools. The fasteners include non-torque bearing surfaces (120,122,124) disposed between torque bearing surfaces (108,110,112).
A fastener comprising
a threaded portion; anda bearing portion, wherein the bearing portion comprises:
exactly three bearing surfaces designed to receive torque from a tool and transmit torque to the threaded portion, wherein each bearing surface includes two adjacent sides with an edge disposed therebetween, the two adjacent sides being substantially planar and intersecting at the edge at an angle to form a point at each of the three bearing surfaces; andthree non-bearing surfaces (320, 322, 324), wherein each of the three non-bearing surfaces (320, 322, 324) has a convex curve extending continuously between two of the three bearing surfaces		A fastener comprising
a threaded portion; anda bearing portion, wherein the bearing portion comprises:
exactly three bearing surfaces designed to receive torque from a tool and transmit torque to the threaded portion, wherein each bearing surface includes two adjacent sides with an edge disposed therebetween, the two adjacent sides being substantially planar and intersecting at the edge at an angle to form a point at each of the three bearing surfaces; andthree non-bearing surfaces (320, 322, 324), wherein each of the three non-bearing surfaces (320, 322, 324) has a convex curve extending continuously between two of the three bearing surfaces
The fastener of claim 1, wherein the bearing surfaces are configured to receive torque from a standard socket tool and transfer torque to the threaded portion.
The fastener of claim 1, wherein each edge of the bearing surface is disposed opposite one of the non-bearing surfaces
The fastener of claim 1, wherein the adjacent sides of each bearing surface are symmetrically disposed about the edge of the bearing surface
The fastener of claim 1, wherein one of the sides of each bearing surface is parallel to only one other side of one other bearing surface.
The fastener of claim 1, wherein each bearing surface smoothly contours to an adjacent non-bearing surface
The fastener of claim 1, wherein the edges of the bearing surfaces are equally spaced around a longitudinal axis of the fastener. -->
The fastener of claim 1, wherein each edge of the bearing surfaces are spaced approximately 120 degrees from each other edge.
The fastener of claim 1, wherein the threaded portion comprises internal threads.
The fastener of claim 1, wherein the threaded portion comprises external threads.
The fastener of claim 1, wherein each of the sides of each bearing surface includes a recessed bearing surface disposed adjacent to the edge of the bearing surface.
The fastener of claim 1, further comprising a cap disposed about the bearing portion, wherein the cap comprises:
three cap bearing surfaces designed to receive torque from a tool and transmit torque to the threaded portion, wherein each cap bearing surface includes two adjacent cap sides with a cap edge disposed therebetween; andthree cap non-bearing surfaces;wherein a cap non-bearing surface is disposed between each of the cap bearing surfaces,wherein each of the cap bearing surfaces overlies one of the bearing surfaces, andwherein each of the cap non-bearing surfaces overlies one of the non-bearing surfaces.
The fastener of claim 12, wherein the fastener comprises a flange portion, the cap being pressed around the flange portion to retain the cap onto the bearing portion without welding the cap -->
The fastener of claim 1, wherein the fastener comprises approximately 11 percent less mass than a standard fastener sized for the same application.		Maclean-Fogg CompanyMaclean-Fogg CompanyUS1000 Allanson Road Mundelein, IL 60060-3890---F16B023/00F16B023/00
B60B003/16
F16B037/14		23F16B0023/0007F16B0023/0007
F16B0037/14
F16B0023/0038		----2017154878052017-04-14USWILSON, Larry J.
TANNER, James T.		2US Commerce Township, MI 48382
White Lake, MI 48386		Zacco Denmark A/S---0WO2010/014881
DE102011 012 994
DE102013 021 238
DE29 709 124
FR1 309 208
US5 772 377
US8 491 247
WO2010014881
US8491247
US976190		1060EP3388694B1
CN108730298B
US10690168
US20210010504
JP2018185043
KR1020180116158		65-EP33886942018-10-1714Maclean-Fogg Company-------------
57
WO2024248167A12024-12-05LOCKING WEDGE WASHER DEVICEinventionJP20240800572024-04-23Provided is a locking wedge washer device capable of firmly preventing looseness caused by secular changes such as wood shrinkage for a long period of time, in a joint part of a wooden building using a bolt and a nut. According to the present invention, in a device for compensating for and preventing the loosening of a screw, which is due to the contraction of a member to be joined, by increasing the thickness of a washer, a general shape of the washer is designed as a frustum-shaped cover-like washer, a frustum-shaped collar is protrusively provided coaxially with a recessed-surface-side bolt insertion hole, and in an annular tapered space formed inside the washer, an annular wood wedge exceeding the volume thereof is press-fitted by a screw fastening action at the time of fastening, so that the contraction portion of the member to be joined can be compensated for by the swelling restoring force of the annular wood wedge stored in the washer. As a result, a gap generated by wood shrinkage or the like is replaced by the increased thickness of the washer device, and the looseness in the joint part can be prevented for a long period of time.
 被接合部材の収縮によるネジの緩みを座金の増厚で補い防止させる裝置において、座金の概形を錐台狀蓋形座金とし、凹面側ボルト挿通孔の同軸上に錐台狀カラーを突設させ、座金內部に形成された環狀の先細り空間に、その容積を上回る環狀木楔を締結時のネジ締め作用で圧入しておくことにより、被接合部材の収縮分を、座金に蓄えた環狀木楔の膨出復元力で補うことができるようにしたことを特徴とする緩み止め楔座金裝置。

 被接合部材の収縮によるネジの緩みを座金の増厚で補い防止させる裝置において、座金の概形を錐台狀蓋形座金とし、凹面側ボルト挿通孔の同軸上に錐台狀カラーを突設させ、座金內部に形成された環狀の先細り空間に、その容積を上回る環狀木楔を締結時のネジ締め作用で圧入しておくことにより、被接合部材の収縮分を、座金に蓄えた環狀木楔の膨出復元力で補うことができるようにしたことを特徴とする緩み止め楔座金裝置。


 前記錐台狀蓋形座金のボルト挿通孔の外側にナットを軸著させて一體としたことを特徴とする請求項1記載の緩み止め楔座金裝置。
GEO SEKKEI CORPORATIONJPRoom 602, 13-1, Fuda 4-chome, Chofu-shi, Tokyo,1820024,〒1820024,JPGEO SEKKEI CORPORATIONJP----F16B039/24F16B039/24
E04B001/38
F16B043/00		23--------2023-0988092023-05-31JPTSUKUI Takao1JPRoom 602, Myrtle Court Chofu Gran, 13-1, Fuda 4-chome, Chofu-shi, Tokyo,1820024,〒1820024,JP-------0-0-00-00-WO20242481672024-12-0520GEO SEKKEI CORPORATION-------------
58
US12158178B22024-12-03Systems and methods for universal clamping of information handling resourceinvention17/0266632020-09-21A clamp may include two substantially planar plates opposite from and generally parallel to one another, each plate having a mounting hole formed therein for receiving a fastener, two teeth, each tooth extending from a respective one of the two plates, such that each tooth is generally perpendicular to the plates, and such that each tooth extends towards the other from its respective plate, and a tongue opposite from and mechanically interfaced between the two plates, such that the tongue has a concave curved profile between the plates, and such that when a force is applied in a first direction by a fastener engaging with the clamp through the mounting holes, compression of the plates towards one another causes deflection of the tongue in a second direction substantially perpendicular to the first direction.1. A clamp comprising:
two substantially planar plates opposite from and generally parallel to one another, each plate having a mounting hole formed therein for receiving a fastener;two teeth, each tooth extending from a respective one of the two plates, such that each tooth is generally perpendicular to the plates, and such that each tooth extends towards the other from its respective plate; anda tongue opposite from and mechanically interfaced between the two plates, such that the tongue has a concave curved profile between the plates, and such that when a force is applied in a first direction by a fastener engaging with the clamp through the mounting holes, compression of the plates towards one another causes deflection of the tongue in a second direction substantially perpendicular to the first direction.		1. A clamp comprising:
two substantially planar plates opposite from and generally parallel to one another, each plate having a mounting hole formed therein for receiving a fastener;two teeth, each tooth extending from a respective one of the two plates, such that each tooth is generally perpendicular to the plates, and such that each tooth extends towards the other from its respective plate; anda tongue opposite from and mechanically interfaced between the two plates, such that the tongue has a concave curved profile between the plates, and such that when a force is applied in a first direction by a fastener engaging with the clamp through the mounting holes, compression of the plates towards one another causes deflection of the tongue in a second direction substantially perpendicular to the first direction.
2. The clamp of claim 1, wherein the tongue has formed therein a guide hole and a flange on either side of the guide hole.
3. The clamp of claim 2, wherein the guide hole is configured to guide a path of the fastener through the clamp.
4. The clamp of claim 2, wherein the flanges are configured to mechanically engage with the fastener during deflection of the tongue in the second direction.
5. The clamp of claim 1, wherein the clamp is formed of metal.
6. The clamp of claim 1, wherein the clamp is formed from a single piece of material.
7. A method for coupling a mechanical member to a structural base, comprising:
mechanically coupling a clamp to a mounting rail of the mechanical member with a fastener, wherein:
the clamp comprises:
two substantially planar plates opposite from and generally parallel to one another, each plate having a mounting hole formed therein for receiving the fastener;two teeth, each tooth extending from a respective one of the two plates, such that each tooth is generally perpendicular to the plates, and such that each tooth extends towards the other from its respective plate; anda tongue opposite from and mechanically interfaced between the two plates, such that the tongue has a concave curved profile between the plates, and such that when a force is applied in a first direction by the fastener engaging with the clamp through the mounting holes, compression of the plates towards one another causes deflection of the tongue in a second direction substantially perpendicular to the first direction; andthe mechanical member comprises:
a body; andthe mounting rail extending from the body such that two grooves are formed between the body and the mounting rail, each groove configured to engage with a respective tooth of the clamp, wherein the mounting rail comprises at least one semi-cylindrical positioning notch sized and shaped to receive the fastener; andfastening the fastener to an insert formed in the structural base.
8. The method of claim 7, wherein the mounting rail comprises a plurality of positioning notches and coupling the clamp to the mounting bracket comprises selecting one of such positioning notches fo...		Dell Products L.P.USDell Products L.P.US TX Round RockDell Products L.P.US-F16B005/06F16B005/06
F16B002/06
H05K007/14		23-F16B0005/0621F16B0005/0621
F16B0002/065
H05K0007/1405		--------Chun-Kai Tzeng
Chin-Chung Wu
Chien-Cheng Chiu
Te-Sen Chin		4TW KeeLung
New Taipei
New Taipei
Taipei		Jackson Walker L.L.P.--Josh SkroupaJosh SkroupaUS1830702
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US20060062651		34AT229642
DE3246550
DE102010037741
DE202018106120
DE202019004796
EP2048286
EP3348722
FR2870578		8-40US1215817811-US202200954712022-03-2416Dell Products L.P.Valid-------------
59
CN119056898A2024-12-03一種銅線拉絲機及工作方法inventionCN202411402376.52024-10-09本發明涉及拉絲機技術領域,具體為一種銅線拉絲機及工作方法,包括底座以及安裝在底座上端的拉絲機主體,所述底座的上端前部邊緣處固定連接有支撐座,所述支撐座的上端設有清線機構。銅線進入拉絲機內進行拉絲作業時,可沿銅線的外表面進行連續式的轉動摩擦,有效去除銅線外的氧化層,還會對銅線外粘附的雜質去除,使進入到拉絲機內的銅線其表面更加的光滑,且適用於不同粗細的銅線,銅線與拉絲模具之間的摩擦力會減小,提高拉絲過程的順暢度,減輕設備的負擔。減少了拉絲後的銅線其表面存在印跡或者瑕疵,從而提高最終產品的品質。面對不同銅線其表面不同程度的氧化層,可改變施加在銅線外表面的摩擦程度,避免造成不必要的過大摩擦。;1.一種銅線拉絲機,包括底座(4)以及安裝在底座(4)上端的拉絲機主體(5),其特徵在於:所述底座(4)的上端前部邊緣處固定連接有支撐座(3),所述支撐座(3)的上端設有清線機構;所述清線機構包括框架(1),所述框架(1)固定連接在支撐座(3)的上端,所述框架(1)內側頂端的兩處拐角部均固定連接有支撐架(13),兩個所述支撐架(13)相互靠近的一端共同固定連接有管體一(11),所述管體一(11)的後端轉動連接有管體二(14),所述管體一(11)與管體二(14)的內側中心處共同設置有線體(2),所述框架(1)、管體一(11)與線體(2)之間設有導向機構,所述管體二(14)與框架(1)之間設有驅動機構,所述管體二(14)與線體(2)之間設有摩擦機構。1.一種銅線拉絲機,包括底座(4)以及安裝在底座(4)上端的拉絲機主體(5),其特徵在於:所述底座(4)的上端前部邊緣處固定連接有支撐座(3),所述支撐座(3)的上端設有清線機構;所述清線機構包括框架(1),所述框架(1)固定連接在支撐座(3)的上端,所述框架(1)內側頂端的兩處拐角部均固定連接有支撐架(13),兩個所述支撐架(13)相互靠近的一端共同固定連接有管體一(11),所述管體一(11)的後端轉動連接有管體二(14),所述管體一(11)與管體二(14)的內側中心處共同設置有線體(2),所述框架(1)、管體一(11)與線體(2)之間設有導向機構,所述管體二(14)與框架(1)之間設有驅動機構,所述管體二(14)與線體(2)之間設有摩擦機構。
2.所述導向機構包括四個電推杆一(12),四個所述電推杆一(12)分別固定貫穿安裝在框架(1)的四處板壁內,四個所述電推杆一(12)均與管體一(11)相對應,四個所述電推杆一(12)的伸縮軸均活動貫穿于管體一(11)的內壁,四個所述電推杆一(12)的伸縮軸端均固定連接有凹形板(8),四塊所述凹形板(8)的內凹面均轉動連接有一組導輪(9),四組所述導輪(9)均貼合線上體(2)的外壁上。
3.所述驅動機構包括方架(10)與齒環(6),所述方架(10)固定連接在框架(1)的內側底端,所述方架(10)的上端固定安裝有電機(15),所述電機(15)的輸出軸端固定連接有齒輪一(17),所述齒環(6)固定套設在管體二(14)的外壁對應齒輪一(17)處,所述齒環(6)與齒輪一(17)之間相互嚙合。
4.所述摩擦機構包括圓環(19)與四組導柱(18),四組所述導柱(18)圍繞管體二(14)的中心環形陣列滑動穿插管體二(14)的內壁中,四組所述導柱(18)位於管體二(14)內側的一端均固定連接有凹形塊(20),四塊所述凹形塊(20)的內壁均轉動連接有圓柱(22),四組所述導柱(18)位於管體二(14)外側的一端均固定連接有連接板(16),四根所述圓柱(22)的外壁上均設有打磨件,所述圓環(19)轉動連接在管體二(14)的後端,四根所述圓柱(22)與圓環(19)之間均設有調節元件,所述圓環(19)與管體二(14)之間設有鎖緊機構,四塊所述連接板(16)的外側均設有拉動組件,每組所述導柱(18)的數量均為兩根,所述導柱(18)的外壁上滑動套設有彈簧一(32),所述彈簧一(32)固定連接在圓環(19)的內壁與凹形塊(20)的水準壁之間。
5.所述打磨件包括三塊弧形塊(23),三塊所述弧形塊(23)均勻分佈固定鑲嵌在圓柱(22)的外壁上,其中一塊所述弧形塊(23)的外弧面與線體(2)的外壁相貼合,三塊所述弧形塊(23)均由碳化矽材料製成。
6.所述調節組件包括套筒(27)與轉軸(24),所述套筒(27)固定連接在圓環(19)的內壁上,所述套筒(27)的內部滑動插入有連接柱(21),所述連接柱(21)位於套筒(27)外側的一端固定連接有弧形齒板(26),所述連接柱(21)位於套筒(27)內側的一端固定連接與圓環(19)的內壁之間固定連接有彈簧二(33),所述彈簧二(33)位於套筒(27)的內部,所述轉軸(24)的一端固定連接在圓柱(22)的後端,所述轉軸(24)的另一端活動貫穿於凹形塊(20),所述轉軸(24)的另一端固定連接有齒輪二(25),所述齒輪二(25)位於弧形齒板(26)的正下方,所述齒輪二(25)與弧形齒板(26)之間相互嚙合。
7.所述鎖緊機構包括L形塊(30)與多個螺孔(29),所述L形塊(30)固定連接在圓環(19)的外壁頂部,所述L形塊(30)的水準壁貫穿旋緊有螺栓(28),多個所述螺孔(29)沿管體二(14)的外表面陣列開設在管體二(14)的外壁上,所述螺栓(28)與其中一個螺孔(29)之間螺紋配合。
8.所述拉動組件包括電推杆二(7),所述電推杆二(7)固定貫穿安裝在框架(1)的內壁對應管體二(14)處,所述電推杆二(7)的伸縮軸端固定連接有凹狀板(31),所述凹狀板(31)靠近於連接板(16),所述凹狀板(31)位於連接板(16)的外側。
9.一種銅線拉絲機的工作方法,包括權利要求1-8任意一項所述的一種銅線拉絲機,其特徵在於,包括以下步驟:S1:首先,線體(2)由車間內現有的放線裝置起始輸送,並將線體(2)沿管體一(11)與管體二(14)內穿過,隨後將線體(2)送入到拉絲機主體(5)內,拉絲機主體(5)即可對線體(2)進行牽引與改變直徑,即進行拉絲作業;S2:線體(2)穿入管體一(11)內時,通過導向機構可對線體(2)進行引導,使得線體(2)準確穩定的被輸送到拉絲機主體(5)進線口;S3:線體(2)穿入管體一(11)內時,通過驅動機構與摩擦機構的相互配合,可對線體(2)外壁上的雜質以及氧化物進行清理,使得線體(2)外表面更加光滑整潔,從而減小線體(2)拉絲過程中,對線體(2)造成的摩擦力,且提高拉絲後線體(2)的品質;S4:最後對拉絲好的線體(2)進行收卷。		江蘇鑫立強機械科技有限公司CN224249 江蘇省鹽城市東台市灶豐北路99號江蘇鑫立強機械科技有限公司CN----B21C001/04B21C001/04
B21C003/02
B21C019/00		13-----------馬志強
祁洋
黃華
朱晨曦		4-


陳民
鹽城高創智慧財產權代理事務所(普通合夥) 32429		20241203----0-0-00-00-CN1190568982024-12-0320江蘇鑫立強機械科技有限公司Pub.-------------
60
CN119057157A2024-12-03絲錐加工方法及絲錐加工裝置inventionCN202410678607.92024-05-29本發明的目的在於提供一種絲錐加工方法及絲錐加工裝置,具有高通用性,並且能夠防止絲錐的折損並以高精度加工內螺紋。該絲錐加工方法,使通過安裝於前端部的工具保持件保持絲錐並進行旋轉動作的主軸的旋轉相位與由絲錐加工的被切削件和主軸在主軸的旋轉軸方向上的位置同步,通過切削形成內螺紋,其中,在同步時,對主軸的旋轉相位加上或減去根據切削速度產生的絲錐的扭轉變形的角度量θ。進而,絲錐的扭轉變形的角度量θ根據預先通過基於材料力學的計算、有限元法或實測中的至少任一個求出的絲錐的扭轉變形的角度量與切削速度之間的關係來計算。;1.一種絲錐加工方法,其是如下方法:使通過安裝於前端部的工具保持件保持絲錐並進行旋轉動作的主軸的旋轉相位與由所述絲錐加工的被切削件和所述主軸在所述主軸的旋轉軸方向上的位置同步,通過切削形成內螺紋,其特徵在於,在所述同步時,對所述主軸的旋轉相位加上或減去根據切削速度產生的所述絲錐的扭轉變形的角度量。1.一種絲錐加工方法,其是如下方法:使通過安裝於前端部的工具保持件保持絲錐並進行旋轉動作的主軸的旋轉相位與由所述絲錐加工的被切削件和所述主軸在所述主軸的旋轉軸方向上的位置同步,通過切削形成內螺紋,其特徵在於,在所述同步時,對所述主軸的旋轉相位加上或減去根據切削速度產生的所述絲錐的扭轉變形的角度量。
2.
3.一種絲錐加工裝置,其使通過安裝於前端部的工具保持件保持絲錐並進行旋轉動作的主軸的旋轉相位與由所述絲錐加工的被切削件和所述主軸在所述主軸的旋轉軸方向上的位置同步,通過切削形成內螺紋,其特徵在於,該絲錐加工裝置包括加減法部,在所述同步時,該加減法部對所述主軸的旋轉相位加上或減去根據切削速度產生的所述絲錐的扭轉變形的角度量。
4.		大隈株式會社JP日本愛知縣大隈株式會社JP----B23G001/16B23G001/16
B23G001/44
B23G001/46		11--------2023-090387
JP2023-090387
2023-128720
JP2023-128720
002023000090387
JP002023000090387
002023000128720
JP002023000128720		2023-05-31
2023-08-07		JP吉野清1- 黃志堅
北京三友智慧財產權代理有限公司 11127		20241203----0-0-00-00-CN1190571572024-12-0320大隈株式會社Pub.-------------
61
EP4166800B12024-12-04ANCHORING ELEMENT FOR ANCHORING IN A BOREHOLE IN A MATERIALinvention22197063.52022-09-22Ein Verankerungselement zum Verankern in einem Bohrloch in einem Material umfasst einen zylindrischen Kern (2) mit einem Einführende (3), mit einem diesem gegenüberliegenden Außenende (4), mit einer Einschraubrichtung (5), die vom Außenende (4) zum Einführende (3) orientiert ist, und mit einer zur Einschraubrichtung (5) parallel orientierten Mittellängsachse (6), ein einstückig mit dem Kern (2) ausgebildetes, sich vom Einführende (3) entlang eines Schneidgewinde-Abschnitts (AG) erstreckendes Schneidgewinde (7) zum Eindrehen desselben in das Bohrloch, ein im Kern (2) angeordnetes, entgegen der Einschraubrichtung (5) nach außen offenes Befestigungsgewinde (19) zum Befestigen eines Befestigungselements, ein am Kern (2) angeordnetes Drehmomentübertragungsmittel (21) zum Übertragen eines Eindrehdrehmoments von einem Werkzeug auf den Kern (2), einen am Außenende (4) angeordneten Senkkopf (11), dessen Außenfläche (12) sich entlang der Einschraubrichtung (5) konisch verjüngt, sowie mindestens einen an der Außenfläche (12) angeordneten Vorsprung (13).
Anchoring element for anchoring in a borehole in a material, the anchoring element (1; 1a) comprising
a. a cylindrical core (2) having
i. an insertion end (3),ii. an opposite outer end (4),iii. a screw-in direction (5) orientated from the outer end (4) to the insertion end (3),iv. a central longitudinal axis (6) orientated parallel to the screw-in direction (5),b. a cutting thread (7), formed integrally with the core (2) and extending from the insertion end (3) along a cutting thread portion (AG), for screwing this into the borehole,c. a fixing thread (19), arranged in the core (2) and open outwards counter to the screw-in direction (5), for fixing a fixing element,d. a torque transmission means (21), arranged on the core (2), for transmitting a screw-in torque from a tool to the core (2),e. a countersunk head (11), which is arranged on the outer end (4) and of which the outer face (12) tapers conically along the screw-in direction (5),characterised byf. at least one projection (13; 13a) arranged on the outer face (12), the at least one projection (13; 13a) having a projection depth (t), orientated perpendicular to the outer face (12), which is variable along the screw-in direction (5).		Anchoring element for anchoring in a borehole in a material, the anchoring element (1; 1a) comprising
a. a cylindrical core (2) having
i. an insertion end (3),ii. an opposite outer end (4),iii. a screw-in direction (5) orientated from the outer end (4) to the insertion end (3),iv. a central longitudinal axis (6) orientated parallel to the screw-in direction (5),b. a cutting thread (7), formed integrally with the core (2) and extending from the insertion end (3) along a cutting thread portion (AG), for screwing this into the borehole,c. a fixing thread (19), arranged in the core (2) and open outwards counter to the screw-in direction (5), for fixing a fixing element,d. a torque transmission means (21), arranged on the core (2), for transmitting a screw-in torque from a tool to the core (2),e. a countersunk head (11), which is arranged on the outer end (4) and of which the outer face (12) tapers conically along the screw-in direction (5),characterised byf. at least one projection (13; 13a) arranged on the outer face (12), the at least one projection (13; 13a) having a projection depth (t), orientated perpendicular to the outer face (12), which is variable along the screw-in direction (5).
Anchoring element according to claim 1, characterised by a plurality of, in particular identically configured, projections (13; 13a), arranged --> mutually spaced apart, in particular uniformly spaced apart, in particular in the circumferential direction of the central longitudinal axis (6).
Anchoring element according to any of the preceding claims, characterised in that the at least one projection (13; 13a) has a leading edge (16; 16a) and a trailing edge (17; 17a) in terms of the screw-in rotation direction (18).
Anchoring element according to claim 3, characterised in that the leading edge (16; 16a) is orientated at a leading edge angle (v) of -15° to 15° or of 20° to 45° to a radial direction (R) of the central longitudinal axis (6).
Anchoring element according to either claim 3 or claim 4, characterised in that the trailing edge (17; 17a) is orientated at a trailing edge angle (n) of 20° to 45° to a radial direction (R) of the central longitudinal axis (6).
Anchoring element according to any of the preceding claims, characterised in that the torque transmission means (21) is arranged concentric with the central longitudinal axis (6) and has an internal contour which is non-round in a plane perpendicular to the central longitudinal axis (6).
Anchoring element according to any of the preceding claims, characterised in that the torque transmission means (21) is arranged upstream from the fixing thread (19) along the screw-in direction (5). -->
Anchoring element according to any of the preceding claims, characterised in that the fixing thread (19) has a thread depth which is at least 20% of the total length (Lges) of the anchoring element (1; 1a), in particular at least 25%, in particular at least 30%, in particular at least 35%, in particular at least 40...		TOGE Dübel GmbH & Co. KGTOGE Dübel GmbH & Co. KGDEIllesheimer Strasse 10 90431 Nürnberg---F16B035/06F16B035/06
F16B037/12		12F16B0035/065F16B0035/065
F16B0037/127		----1020212116942021-10-15DEGerhard, Andreas1DE 90427 NürnbergRau, Schneck & Hübner
Patentanwälte Rechtsanwälte PartGmbB		---0DE102006 003 172
DE202006 021 070
DE29 711 128
DE202006021070
DE29711128		520EP4166800B1
DE102021211694A1		22-EP41668002023-04-1918TOGE Dübel GmbH & Co. KG-------------
62
US20240401633A12024-12-05FIXING ELEMENT AND HEAT DISSIPATION UNIT USING SAMEinvention18/2029582023-05-29A heat dissipation unit includes a main body and a plurality of fixing elements. The main body has a heat receiving zone and a plurality of through holes formed at four corners outside the heat receiving zone. The fixing elements are mounted in the through holes and respectively include a screw having a spring fitted thereon; a sleeve disposed outside the screw and the spring and having a pair of windows formed near an upper end; and a spring retaining ring fitted around the sleeve and having a pair of upward extended hooked arms extended through the windows to compress the spring in the sleeve. When the fixing elements have been assembled to the main body, the springs can be released at the same time and can therefore apply even downward forces synchronously for the main body to closely and evenly contact with a bare die heat source.1. A fixing element, comprising:
a screw being provided at a lower end with an annular groove for receiving a retaining ring therein, and having a spring externally fitted thereon;a sleeve having an open upper end, an open lower end, and an internal hollow receiving space defined between and communicable with the open upper and lower ends; and including a pair of windows, which are formed on the sleeve near the open upper end thereof and correspondingly located at two opposite positions, the windows respectively having an upper edge and being communicable with the receiving space; and the screw being disposed in the receiving space of the sleeve; anda spring retaining ring defining an inner opening for fitting on around an outer surface of the sleeve; the spring retaining ring having an upper side surface, from which a hooked arm set is extended upward; the hooked arm set including a plurality of hooked arms that are extended through the windows into the receiving space to press against a top end of the spring, so that the spring is held down in the sleeve in a compressed state.		1. A fixing element, comprising:
a screw being provided at a lower end with an annular groove for receiving a retaining ring therein, and having a spring externally fitted thereon;a sleeve having an open upper end, an open lower end, and an internal hollow receiving space defined between and communicable with the open upper and lower ends; and including a pair of windows, which are formed on the sleeve near the open upper end thereof and correspondingly located at two opposite positions, the windows respectively having an upper edge and being communicable with the receiving space; and the screw being disposed in the receiving space of the sleeve; anda spring retaining ring defining an inner opening for fitting on around an outer surface of the sleeve; the spring retaining ring having an upper side surface, from which a hooked arm set is extended upward; the hooked arm set including a plurality of hooked arms that are extended through the windows into the receiving space to press against a top end of the spring, so that the spring is held down in the sleeve in a compressed state.
2. The fixing element as claimed in claim 1, wherein an area on the outer surface of the sleeve extended from lower edges of the windows to the lower end of the sleeve is defined as a coupling zone; the coupling zone having an outer diameter smaller than that of other areas on the outer surface of the sleeve, such that a stepped section is formed around the sleeve at a joint of the coupling zone with the sleeve; and the stepped section preventing the spring retaining ring from axially moving down out of the coupling zone.
3. The fixing element as claimed in claim 1, wherein the spring retaining ring has an annular peripheral zone defined on the upper side surface to circumferentially extend along a periphery thereof, and the hooked arm set is upward extended from the upper side surface near or adjoining the inner opening; the hooked arms of the hooked arm set respectively having a fixed end connected to the upper side surface of the spring retaining ring and a free end bent into a hooked end.
4. The fixing element as claimed in claim 3, wherein the hooked ends respectively have an upper contact surface and a lower contact surface; the hooked ends being extended through corresponding windows into the receiving space of the sleeve with the lower contact surfaces pressed on the top end of the spring.
5. A heat dissipation unit, comprising a heat dissipation main body having a first side, an opposite second side, a heat receiving zone, and a plurality of through holes formed at four corners outside the heat receiving zone to extend from the first side to the second side; and a plurality of fixing elements being correspondingly mounted in the through holes on the heat dissipation main body; and
the fixing elements respectively including:
a screw including an annular groove being formed above an externally threaded lower end that is used to extend through the heat dissipati...		ASIA VITAL COMPONENTS CO., LTD.TWASIA VITAL COMPONENTS CO., LTD.TW----F16B039/10F16B039/10
H05K007/20		22-F16B0039/10F16B0039/10
H05K0007/2039		--------Wen-Ji Lan1TW New Taipei City-------0-0-10-00-US202404016332024-12-0519ASIA VITAL COMPONENTS CO., LTD.Pub.-------------
63
US20240399479A12024-12-05TAP MACHINING METHOD AND TAP MACHINING APPARATUSinvention18/6632162024-05-14A tap machining method includes: forming a female thread by cutting while synchronizing a rotation phase of a main spindle with positions of a workpiece to be machined by the tap and the main spindle in a rotation axis direction of the main spindle, the main spindle rotating while holding a tap with a tool holder mounted on a distal end portion; and adding or subtracting an angle amount of torsional deformation of the tap generated according to a cutting speed to or from the rotation phase of the main spindle during the synchronization.1. A tap machining method comprising:
forming a female thread by cutting while synchronizing a rotation phase of a main spindle with positions of a workpiece to be machined by the tap and the main spindle in a rotation axis direction of the main spindle, the main spindle rotating while holding a tap with a tool holder mounted on a distal end portion; andadding or subtracting an angle amount of torsional deformation of the tap generated according to a cutting speed to or from the rotation phase of the main spindle during the synchronization.		1. A tap machining method comprising:
forming a female thread by cutting while synchronizing a rotation phase of a main spindle with positions of a workpiece to be machined by the tap and the main spindle in a rotation axis direction of the main spindle, the main spindle rotating while holding a tap with a tool holder mounted on a distal end portion; andadding or subtracting an angle amount of torsional deformation of the tap generated according to a cutting speed to or from the rotation phase of the main spindle during the synchronization.
2. The tap machining method according to claim 1, wherein
the angle amount of the torsional deformation of the tap is calculated from a relationship between an angle amount of the torsional deformation of the tap and the cutting speed preliminarily obtained by at least any one of a calculation based on material mechanics, a finite element method, or an actual measurement.
3. A tap machining apparatus comprising:
a machining unit that forms a female thread by cutting while synchronizing a rotation phase of a main spindle with positions of a workpiece to be machined by the tap and the main spindle in a rotation axis direction of the main spindle, the main spindle rotating while holding a tap with a tool holder mounted on a distal end portion; andan adding or subtracting unit that adds or subtract an angle amount of torsional deformation of the tap generated according to a cutting speed to or from the rotation phase of the main spindle during the synchronization.
4. The tap machining apparatus according to claim 3, wherein
the angle amount of the torsional deformation of the tap is calculated from a relationship between an angle amount of the torsional deformation of the tap and the cutting speed preliminarily obtained by at least any one of a calculation based on material mechanics, a finite element method, or an actual measurement.		OKUMA CORPORATIONJPOKUMA CORPORATIONJP Niwa-GunOKUMA CORPORATIONJP-B23G005/06B23G005/06
B23G001/18
B23Q017/00
B23Q017/09		23-B23G0005/062B23G0005/062
B23G0001/18
B23Q0017/0952
B23G2210/04
B23Q2017/001		-----2023-090387
2023-128720		2023-05-31
2023-08-07		JPKiyoshi YOSHINO1JP Niwa-Gun-------0-0-00-00-US202403994792024-12-0520OKUMA CORPORATIONPub.-------------
64
TWI848725B2024-07-11搓牙機之推料調整裝置invention1121201142023-05-30本發明搓牙機之推料調整裝置,其包含有一動力源,以及一受該動力源作動之頂推件,該搓牙機具有一可依序承接胚料之搓牙板組,以及一可將該等胚料推送至該搓牙板組處之推料板,故,利用該頂推件之推移,以帶動該推料板產生遠離該搓牙板組之作動,更有利於確認該推料板所推送之胚料是否正確地進入該搓牙板組中,有效簡化搓牙前之調整校正作業,以及確保後續搓牙成型出的成品符合要求。一種搓牙機之推料調整裝置,該搓牙機具有一機台,一設於該機臺上且供複數胚料置放之進料裝置,一設於該機臺上且承接該等胚料之搓牙板組,以及一將該等胚料依序推送至該搓牙板組位置處之推料板,其中,該搓牙板組具有一固定牙板,一與該固定牙板呈對應設置之活動牙板,以及一形成於該固定牙板與該活動牙板間之搓牙通道;其特徵在於:
該推料板上設有一頂掣部,另該機臺上加設有一推料調整裝置,該推料調整裝置包含有一設於該機台之動力源,以及一受該動力源作動之頂推件,而前述該頂推件的設置位置與該頂掣部的設置位置呈相對設置,以便透過該頂推件推動該頂掣部,促使該推料板產生位移並遠離該搓牙板組。
一種搓牙機之推料調整裝置,該搓牙機具有一機台,一設於該機臺上且供複數胚料置放之進料裝置,一設於該機臺上且承接該等胚料之搓牙板組,以及一將該等胚料依序推送至該搓牙板組位置處之推料板,其中,該搓牙板組具有一固定牙板,一與該固定牙板呈對應設置之活動牙板,以及一形成於該固定牙板與該活動牙板間之搓牙通道;其特徵在於:
該推料板上設有一頂掣部,另該機臺上加設有一推料調整裝置,該推料調整裝置包含有一設於該機台之動力源,以及一受該動力源作動之頂推件,而前述該頂推件的設置位置與該頂掣部的設置位置呈相對設置,以便透過該頂推件推動該頂掣部,促使該推料板產生位移並遠離該搓牙板組。

一種搓牙機之推料調整裝置,該搓牙機具有一機台,一設於該機臺上且供複數胚料置放之進料裝置,一設於該機臺上且承接該等胚料之搓牙板組,以及一將該等胚料依序推送至該搓牙板組位置處之推料板,其中,該搓牙板組具有一固定牙板,一與該固定牙板呈對應設置之活動牙板,以及一形成於該固定牙板與該活動牙板間之搓牙通道;其特徵在於:
該機臺上設有一頂掣部,另該推料板上加設有一推料調整裝置,該推料調整裝置包含有一設於該推料板上之動力源,以及一受該動力源作動之頂推件,而前述該頂推件的設置位置與該頂掣部的設置位置呈相對設置,以便透過該頂推件推動該頂掣部,促使該推料板產生位移並遠離該搓牙板組。
銓益盛機械有限公司TW高雄市路竹區民權路96巷113號銓益盛機械有限公司TW---B23G001/44B23G001/44
B23G011/00		12-----蕭銘益1TW劉冠廷高雄市左營區大中二路428號7樓之35120熊正一熊正一TWM3920261CN2067619
US3952884
US2011/0318118		310I84872511I848725TW2024465222024-12-01CHUAN YI SHENG MACHINERY CO., LTD19銓益盛機械有限公司ValidNONO2024/07/112043/05/29NONONONONO62030/07/10
65
EP3877662B12024-12-04METHODS AND APPARATUS FOR A FASTENER HEAD HAVING A DUAL ZONE SOCKET AREA AND A MATING DRIVER BITinvention19883117.42019-10-02Methods and apparatus for a fastener head having a dual zone socket area and a mating driver bit according to aspects of the present technology include a fastener configured with driving surfaces adapted to provide enhanced engagement between each other during use. The fastener includes a recessed socket area with a sidewall that has an upper inwardly tapering section and a lower vertical section that extends to the bottom of the recessed socket area. The upper inwardly tapering section of the sidewall may also include an offset relative to the lower vertical section to create asymmetrical driving and removal surfaces. The technology also includes a corresponding mating driver bit configured with mating surfaces to the fastener to provide enhanced engagement between the fastener and mating driver bit. The technology also allows either the fastener or the driving bit to be used with preexisting fasteners and driver bits.A fastener having a head portion (100) with a recessed socket area (101) extending into the head portion (100) and a shank sharing a longitudinal axis (1410) with the recessed socket area (101), comprising:
a sidewall defining the recessed socket area (101) having a top edge (204) and a bottom edge (206); anda plurality of driving surfaces and removal surfaces disposed along the sidewall, wherein:
an upper section (102) of the sidewall tapers inwardly towards the longitudinal axis (1410) between about one degree and about three and three-fifths degrees from the top edge (204) to a curvilinear transition line (1202); anda lower section (104) of the sidewall forms a vertical surface relative to the longitudinal axis (1410) and is disposed between the curvilinear transition line (1202) and the bottom edge (206), wherein:
the lower section (104) of the sidewall is offset in the clockwise direction from the upper section (102) of the sidewall by a rotation of between one degree and six degrees causing the curvilinear transition line (1202) to vary along a length of the plurality of driving surfaces and removal surfaces between the top edge (204) and the bottom edge (206); anda driving surface of the lower section (104) of the sidewall at the bottom edge is aligned with a driving surface of the upper section (102) of the sidewall to form a vertical line of insertion extending from the top edge (204) to the bottom edge (206).		A fastener having a head portion (100) with a recessed socket area (101) extending into the head portion (100) and a shank sharing a longitudinal axis (1410) with the recessed socket area (101), comprising:
a sidewall defining the recessed socket area (101) having a top edge (204) and a bottom edge (206); anda plurality of driving surfaces and removal surfaces disposed along the sidewall, wherein:
an upper section (102) of the sidewall tapers inwardly towards the longitudinal axis (1410) between about one degree and about three and three-fifths degrees from the top edge (204) to a curvilinear transition line (1202); anda lower section (104) of the sidewall forms a vertical surface relative to the longitudinal axis (1410) and is disposed between the curvilinear transition line (1202) and the bottom edge (206), wherein:
the lower section (104) of the sidewall is offset in the clockwise direction from the upper section (102) of the sidewall by a rotation of between one degree and six degrees causing the curvilinear transition line (1202) to vary along a length of the plurality of driving surfaces and removal surfaces between the top edge (204) and the bottom edge (206); anda driving surface of the lower section (104) of the sidewall at the bottom edge is aligned with a driving surface of the upper section (102) of the sidewall to form a vertical line of insertion extending from the top edge (204) to the bottom edge (206).
A fastener according to claim 1, wherein a height of the upper section (102) comprises between one-third and two-thirds of a total depth of the recessed socket area (101). -->
A fastener according to claim 1 or 2, wherein:
a cross-sectional area of the recessed socket area (101) decreases between the top edge (204) and the curvilinear transition line (1202); anda cross-sectional area of the recessed socket area (101) remains constant between the curvilinear transition line (1202) and the bottom edge (206).
A fastener according to any of claims 1 to 3, wherein:
the sidewall forms a curving multi-lobular surface having six lobes (402); andeach lobe (402) comprises a driving surface on a first side of the lobe (402) and a removal surface on a second side of the lobe (402).
A fastener according to any of claims 1 to 3, wherein:
the sidewall comprises a curving multi-lobular surface having at least three lobes (402); andeach lobe (402) comprises a driving surface disposed on a first side of the lobe (402) and a removal surface disposed on an opposite second side of the lobe (402).
A fastener according to any of claims 1 to 5, wherein:
the curvilinear transition line (1202) between the upper section (102) and the lower section (104) is not perpendicular to the longitudinal axis (1410) such that the curvilinear transition line (1202) extends deeper into the recessed socket along each removal surface than along each driving surface;an upper section (102) of the sidewall along each removal surface extends deeper into the recessed socke...		Bryce Fastener Company, Inc.Bryce Fastener Company, Inc.US1230 N. Mondel Drive Gilbert, Arizona 85233---F16B023/00F16B023/00
B25B015/00		22B25B0015/005B25B0015/005
B25B0015/008
B25B0023/108
F16B0023/003
F16B0023/0038		----2018161815372018-11-06USCAMPBELL, Richard, Bryce, II1US Gilbert, AZ 85233Cabinet Beaumont---0DE102016 003 880
DE4 413 782
JP2004 197 908
US2 777 353
US4 970 922
US5 105 690
US5 171 117
US5 435 680
US2005 166 724
US2006 078 404
US2009 003 967
US2011 217 143
US2013 298 737
US2017 095 909
US2017 106 507
US2018 106 286
DE4413782
JP2004197908		1850EP3877662B1
US11986931
US11806846
US11173589
WO2020096716		53-EP38776622021-09-1515Bryce Fastener Company, Inc.-------------
66
EP4469692A12024-12-04METHOD AND APPARATUS FOR A FASTENER HAVING A PROGRESSIVE THREAD PROFILEinvention23700742.22023-01-11A novel threaded fastener is provided having an elongated shank portion with a first end and a second end opposed to the first end, and a helical thread in the form of a continuous helical ridge that is arranged on an external surface of the shank portion. The helical thread includes an asymmetrical threaded portion that has a progressively increasing axial displacement of a pressure flank of the helical thread between the first end and the second end of the shank portion, and a progressively decreasing axial displacement of a non-pressure flank of the helical thread between the first end and the second end of the shank portion. When assembled, the novel threaded fastener has a clamping force distribution that is evenly distributed on the helical threads along its axis in the direction of force transmission reducing the risk of self-loosening and increasing fatigue resistance.1 . A threaded fastener, comprising: an elongated shank portion having a first end and a second end opposed to the first end; and a helical thread arranged on an external surface of the shank portion; wherein the helical thread includes an asymmetrical threaded portion having a progressive asymmetrical thread profile; and wherein the progressive asymmetrical thread profile has a progressively increasing axial displacement of a pressure flank of the helical thread between the first end and the second end of the shank portion, and a progressively decreasing axial displacement of a non-pressure flank of the helical thread between the first end and the second end of the shank portion.

2. The threaded fastener of claim 1 , further comprising a head portion arranged on the second end of the shank portion, wherein the head portion is engageable by a tool.

3. The threaded fastener of claim 1 , wherein the progressively increasing axial displacement of the pressure flank of the helical thread is determined for a plurality of successive helical elements employing a progressive relief relationship to achieve a uniform load distribution along the pressure flank of the helical thread between the first end and the second end of the shank portion.

4. The threaded fastener of claim 1 , further comprising the asymmetric threaded portion being disposed between a first engaged helical thread portion that is proximal to the first end of the shank portion and a final engaged helical thread portion that is proximal to the second end of the shank portion, and a progressively decreasing axial displacement of a non-pressure flank of the helical thread between the first engaged helical thread portion and the final engaged helical thread portion of the shank portion.

5. The threaded fastener of claim 4, wherein the progressively increasing axial displacement of the pressure flank of the helical thread is determined for a plurality of successive helical elements employing a progressive relief relationship to achieve a uniform load distribution along the pressure flank of the helical thread between the first engaged helical thread portion and the final engaged helical thread portion.

6. The threaded fastener of claim 5, wherein the progressive relief relationship to achieve the uniform load distribution along the pressure flank of the helical thread comprises each successive arc length of the helical thread being determined based upon a progression relationship, wherein the progression relationship is defined as: sfi = f(i,n,sf) wherein: i represents an i-th engaged helical thread portion; n represents total quantity of the engaged threads; sfi represents an axial displacement of the i-th engaged helical thread portion from a nominal symmetrical thread; and sf represents a total axial displacement based upon an expected deflection of the helical thread between a first engaged helical thread portion and a final engaged helical thread portion in-use.

7. The threaded fastener of claim 6, wherein the non-pressure flank is determined to maintain a uniform longitudinal cross-sectional area of the helical thread portion between the first end and the second end of the shank portion.

8. The threaded fastener of claim 1 , wherein a longitudinal cross-sectional area of the helical thread is constant throughout the asymmetrical threaded portion.

9. The threaded fastener of claim 1 , wherein the asymmetrical threaded portion is composed of a plurality of successive helical elements arranged in series, and wherein the progressively increasing axial displacement of the pressure flank of the asymmetrical threaded portion between the first end and the second end of the shank portion comprises the progressively increasing axial displacement being determined for the plurality of successive helical elements based upon an expected deflection of a respective one of the plurality of successive helical elements when in-use.

10. The threaded fastener of claim 9, wherein the progressively increasing axial displacement is determined for each of the plurality of successive helical elements to achieve a load that is evenly distributed on the plurality of successive helical elements of the helical thread portion in-use.

11 . The threaded fastener of claim 1 , wherein the threaded fastener is formed from a blank having a head portion and the shank portion, wherein the shank portion comprises a cylindrical-shaped shank portion, wherein the cylindrical-shaped shank portion has a constant diameter, and wherein the helical thread is cold-rolled onto the external surface of the cylindrical-shaped shank portion.

12. A fastener assembly, comprising : a first element engageable to a second element via a threaded junction; the first element having a first helical thread; and the second element having a second helical thread that engages the first helical thread of the first element; wherein the first helical thread has an asymmetrical threaded portion including a progressively increasing axial displacement of a pressure flank of the first helical thread between a first end and a second end of the first element; and wherein the asymmetrical threaded portion includes a progressive asymmetrical thread profile having a progressively decreasing axial displacement of a non-pressure flank of the first helical thread between the first end and the second end of the first element.

13. The fastener assembly of claim 12, wherein a longitudinal cross-sectional area of the first helical thread is constant throughout the asymmetrical threaded portion.

14. The fastener assembly of claim 12, wherein the first element comprises an elongated cylindrical shaft.

15. The fastener assembly of claim 12, wherein the first element comprises a threaded nut.

16. The fastener assembly of claim 12, wherein the asymmetrical threaded portion of the first helical thread is a continuous device that is composed of a plurality of successive helical elements arranged in series, and wherein the progressive asymmetrical thread profile having the progressively increasing axial displacement of the asymmetrical threaded portion between the first end and the second end of the first element comprises the progressively increasing axial displacement being determined for a plurality of successive helical elements based upon an expected deflection of a respective one of the plurality of successive helical elements in-use.

17. The fastener assembly of claim 16, wherein the progressively increasing axial displacement is determined for each of the plurality of successive helical elements to achieve a load that is evenly distributed over the plurality of successive helical elements in-use.

18. The fastener assembly of claim 12, wherein the asymmetrical threaded portion is composed of a plurality of successive helical elements arranged in series, and wherein the progressively increasing axial displacement of the asymmetrical threaded portion between the first end and the second end of the first element comprises the progressively increasing axial displacement being determined for the plurality of successive helical elements employing a progressive relief relationship between a first engaged helical thread portion that is proximal to the first end and a final engaged helical thread portion that is proximal to the second end to achieve a uniform load distribution along the pressure flank of the helical thread portion between the first end and the second end of the first element.

19. The fastener assembly of claim 18, wherein the progressive relief relationship to achieve the uniform load distribution along the threads comprises each successive arc length of the helical thread portion being determined based upon a linear progression relationship, wherein the linear progression relationship is defined as: sfi = f(i,n,sf) wherein: i represents an i-th engaged helical thread portion; n represents total quantity of the engaged threads; sfi represents an axial displacement of the i-th engaged helical thread portion from a nominal symmetrical thread; and sf represents a total axial displacement based upon an expected deflection in-use.

20. A process for fabricating a threaded fastener, the process comprising: determining an arrangement for a continuous helical ridge, the arrangement for the continuous helical ridge including a plurality of helical elements having a progressively increasing axial displacement between a first end and a second end that is defined by a progressive relief relationship, wherein the progressive relief relationship achieves a uniform load distribution along a pressure flank of the continuous helical ridge between the first end and the second end; and forming via a cold-rolling process, the arrangement for the continuous helical ridge on an outer surface of a blank shank.		1 . A threaded fastener, comprising: an elongated shank portion having a first end and a second end opposed to the first end; and a helical thread arranged on an external surface of the shank portion; wherein the helical thread includes an asymmetrical threaded portion having a progressive asymmetrical thread profile; and wherein the progressive asymmetrical thread profile has a progressively increasing axial displacement of a pressure flank of the helical thread between the first end and the second end of the shank portion, and a progressively decreasing axial displacement of a non-pressure flank of the helical thread between the first end and the second end of the shank portion.

2. The threaded fastener of claim 1 , further comprising a head portion arranged on the second end of the shank portion, wherein the head portion is engageable by a tool.

3. The threaded fastener of claim 1 , wherein the progressively increasing axial displacement of the pressure flank of the helical thread is determined for a plurality of successive helical elements employing a progressive relief relationship to achieve a uniform load distribution along the pressure flank of the helical thread between the first end and the second end of the shank portion.

4. The threaded fastener of claim 1 , further comprising the asymmetric threaded portion being disposed between a first engaged helical thread portion that is proximal to the first end of the shank portion and a final engaged helical thread portion that is proximal to the second end of the shank portion, and a progressively decreasing axial displacement of a non-pressure flank of the helical thread between the first engaged helical thread portion and the final engaged helical thread portion of the shank portion.

5. The threaded fastener of claim 4, wherein the progressively increasing axial displacement of the pressure flank of the helical thread is determined for a plurality of successive helical elements employing a progressive relief relationship to achieve a uniform load distribution along the pressure flank of the helical thread between the first engaged helical thread portion and the final engaged helical thread portion.

6. The threaded fastener of claim 5, wherein the progressive relief relationship to achieve the uniform load distribution along the pressure flank of the helical thread comprises each successive arc length of the helical thread being determined based upon a progression relationship, wherein the progression relationship is defined as: sfi = f(i,n,sf) wherein: i represents an i-th engaged helical thread portion; n represents total quantity of the engaged threads; sfi represents an axial displacement of the i-th engaged helical thread portion from a nominal symmetrical thread; and sf represents a total axial displacement based upon an expected deflection of the helical thread between a first engaged helical thread portion and a final engaged helical thread portion in-use.

7. The threaded fastener of claim 6, wherein the non-pressure flank is determined to maintain a uniform longitudinal cross-sectional area of the helical thread portion between the first end and the second end of the shank portion.

8. The threaded fastener of claim 1 , wherein a longitudinal cross-sectional area of the helical thread is constant throughout the asymmetrical threaded portion.

9. The threaded fastener of claim 1 , wherein the asymmetrical threaded portion is composed of a plurality of successive helical elements arranged in series, and wherein the progressively increasing axial displacement of the pressure flank of the asymmetrical threaded portion between the first end and the second end of the shank portion comprises the progressively increasing axial displacement being determined for the plurality of successive helical elements based upon an expected deflection of a respective one of the plurality of successive helical elements when in-use.

10. The threaded fastener of claim 9, wherein the progressively increasing axial displacement is determined for each of the plurality of successive helical elements to achieve a load that is evenly distributed on the plurality of successive helical elements of the helical thread portion in-use.

11 . The threaded fastener of claim 1 , wherein the threaded fastener is formed from a blank having a head portion and the shank portion, wherein the shank portion comprises a cylindrical-shaped shank portion, wherein the cylindrical-shaped shank portion has a constant diameter, and wherein the helical thread is cold-rolled onto the external surface of the cylindrical-shaped shank portion.

12. A fastener assembly, comprising : a first element engageable to a second element via a threaded junction; the first element having a first helical thread; and the second element having a second helical thread that engages the first helical thread of the first element; wherein the first helical thread has an asymmetrical threaded portion including a progressively increasing axial displacement of a pressure flank of the first helical thread between a first end and a second end of the first element; and wherein the asymmetrical threaded portion includes a progressive asymmetrical thread profile having a progressively decreasing axial displacement of a non-pressure flank of the first helical thread between the first end and the second end of the first element.

13. The fastener assembly of claim 12, wherein a longitudinal cross-sectional area of the first helical thread is constant throughout the asymmetrical threaded portion.

14. The fastener assembly of claim 12, wherein the first element comprises an elongated cylindrical shaft.

15. The fastener assembly of claim 12, wherein the first element comprises a threaded nut.

16. The fastener assembly of claim 12, wherein the asymmetrical threaded portion of the first helical thread is a continuous device that is composed of a plurality of successive helical elements arranged in series, and wherein the progressive asymmetrical thread profile having the progressively increasing axial displacement of the asymmetrical threaded portion between the first end and the second end of the first element comprises the progressively increasing axial displacement being determined for a plurality of successive helical elements based upon an expected deflection of a respective one of the plurality of successive helical elements in-use.

17. The fastener assembly of claim 16, wherein the progressively increasing axial displacement is determined for each of the plurality of successive helical elements to achieve a load that is evenly distributed over the plurality of successive helical elements in-use.

18. The fastener assembly of claim 12, wherein the asymmetrical threaded portion is composed of a plurality of successive helical elements arranged in series, and wherein the progressively increasing axial displacement of the asymmetrical threaded portion between the first end and the second end of the first element comprises the progressively increasing axial displacement being determined for the plurality of successive helical elements employing a progressive relief relationship between a first engaged helical thread portion that is proximal to the first end and a final engaged helical thread portion that is proximal to the second end to achieve a uniform load distribution along the pressure flank of the helical thread portion between the first end and the second end of the first element.

19. The fastener assembly of claim 18, wherein the progressive relief relationship to achieve the uniform load distribution along the threads comprises each successive arc length of the helical thread portion being determined based upon a linear progression relationship, wherein the linear progression relationship is defined as: sfi = f(i,n,sf) wherein: i represents an i-th engaged helical thread portion; n represents total quantity of the engaged threads; sfi represents an axial displacement of the i-th engaged helical thread portion from a nominal symmetrical thread; and sf represents a total axial displacement based upon an expected deflection in-use.

20. A process for fabricating a threaded fastener, the process comprising: determining an arrangement for a continuous helical ridge, the arrangement for the continuous helical ridge including a plurality of helical elements having a progressively increasing axial displacement between a first end and a second end that is defined by a progressive relief relationship, wherein the progressive relief relationship achieves a uniform load distribution along a pressure flank of the continuous helical ridge between the first end and the second end; and forming via a cold-rolling process, the arrangement for the continuous helical ridge on an outer surface of a blank shank.		Fontana Fasteners R.D. S.r.l.ITVia Fontana 9Fontana Fasteners R.D. S.r.l.IT---F16B031/04F16B031/0411F16B0031/04F16B0031/04---202263303020 P2022-01-25USMORETTI, Gabriele Carli
GOSS, David Curtis
REDAELLI, Paolo
PEREGO, Francesco
CATTANEO, Sergio		5IT
US		 Como
Rockford, Illinois
Monastero
Merate
Magenta		Elzaburu S.L.P.--0010EP4469692A1
US20230258218
WO2023143911
TW202329839		44-EP44696922024-12-0419Fontana Fasteners R.D. S.r.l.-------------
67
TWI866140B2024-12-11防轉結構之組裝方法invention1121125002023-03-31本發明係提供一種防轉結構之組裝方法,該防轉結構包含至少一防轉部、一材料進入部及一施壓部,用以一外力施壓於該施壓部,以使一物體之材料進入或流入該材料進入部,並以該防轉部對該物體防轉。藉此,可使防轉結構與所需之物體達到穩固組合之功效。一種防轉結構之組裝方法,該防轉結構包含至少一防轉部及一施壓部,該施壓部設於該防轉部的下方,一外力施壓於該施壓部以形變成一材料進入部於該防轉部的下方,以使一物體之材料進入或流入該材料進入部,並以該防轉部對該物體防轉。一種防轉結構之組裝方法,該防轉結構包含至少一防轉部及一施壓部,該施壓部設於該防轉部的下方,一外力施壓於該施壓部以形變成一材料進入部於該防轉部的下方,以使一物體之材料進入或流入該材料進入部,並以該防轉部對該物體防轉。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構設有一連接部,該連接部為螺紋部、螺柱、柱體、外扣體、內扣體、孔部、槽部、螺孔、輪子、圓體、球體、齒輪、把手、栓體、提拉體或活動體。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構先以該材料進入部設於該物體,再將一元件組合於該防轉結構之一連接部,其中該元件與該連接部組合時會產生作用力。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構先該材料進入部設於該物體,再將一元件組合於該防轉結構之一連接部,其中該連接部為螺紋部,於該元件與該連接部旋鎖組合時產生作用力,用以該防轉部對抗該作用力,以用以使該防轉結構達到防轉。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構先該材料進入部設於該物體,再將一元件扣接組合或抵頂組合於該防轉結構之一連接部,其中該元件與該連接部扣接組合或抵頂組合時產生作用力,用以該防轉結構之防轉部對抗該作用力。
如請求項1所述之防轉結構之組裝方法,其中該防轉部之數量為一個或一個以上。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構為弧面體、球面體、階狀體、斜面體、錐體、曲面體、切面體、凸體、凹體或平面體。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構以該防轉部放入該物體,並施以壓力於該施壓部,用以使該施壓部形變而限位或卡合於該物體。
如請求項1所述之防轉結構之組裝方法,其中該防轉結構以該防轉部先設於該物體之對應防轉部,再施以壓力於該施壓部,用以使該施壓部形變而限位或卡合於該物體。		伍隆國際有限公司TW新北市新店區寶橋路235巷129號8樓之1伍隆國際有限公司TW---F16B037/06F16B037/06
F16B011/00
F16B005/02
F16B005/06		13-----王鼎瑞1TW王立成
余宗學		臺北市信義區東興路37號9樓
臺北市信義區東興路37號9樓		5135賴耿賢賴耿賢TW202225575
TW202325999		2CN101498332110-00I866140TW2024410852024-10-16FIVEGRAND INTERNATIONAL CO., LTD.19伍隆國際有限公司Valid-------------
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US20240401362A12024-12-05RESILIENT SLIP FRICTION JOINTinvention18/8064162024-08-15A slip connector to connect first and second members of a structure to allow relative but resisted movement, and to at least in part return any movement. In one embodiment, the connector includes a first and second components and a resilient fixing. The resilient fixing holds mutually slidable ramped surfaces of the first and second components contiguous so that the line(s) of action of the fixing(s) is/are oblique to the mutually slidable ramped surfaces held contiguous. In another embodiment the connector includes first, second and third components and a resilient fixing. The resilient fixing holds mutually slidable ramped surfaces of the first and third components contiguous and mutually slidable ramped surfaces of the second and third components contiguous so that the line(s) of action of the fixing(s) is/are oblique to the mutually slidable ramped surfaces held contiguous.1. A self-centring slip connector connecting first and second members so as to allow relative but resisted movement between the first and second members from an initial position due to an external force, and also fully return the first and second members back to the initial position, the connector comprising:
a first component connected to said first member, the first component having a ramped surface;a second component connected to said second member, the second component having a ramped surface; anda resilient fixing providing a compression force in a direction to hold the ramped surface of the first component in contiguous relation with the ramped surface of the second component;wherein, under the external force, the ramped surfaces of the first and second components slidingly move relative to each other in a first direction oblique to the direction of the compression force, and wherein upon a ceasing of the external force to zero, the first and second members return to the initial position.		1. A self-centring slip connector connecting first and second members so as to allow relative but resisted movement between the first and second members from an initial position due to an external force, and also fully return the first and second members back to the initial position, the connector comprising:
a first component connected to said first member, the first component having a ramped surface;a second component connected to said second member, the second component having a ramped surface; anda resilient fixing providing a compression force in a direction to hold the ramped surface of the first component in contiguous relation with the ramped surface of the second component;wherein, under the external force, the ramped surfaces of the first and second components slidingly move relative to each other in a first direction oblique to the direction of the compression force, and wherein upon a ceasing of the external force to zero, the first and second members return to the initial position.
2. A self-centring slip connector connecting first and second members so as to allow relative but resisted movement between the first and second members from an initial position due to an external force, and also fully return the first and second members back to the initial position, the connector comprising:
a) a first component connected to said first member, the first component having a ramped surface;b) a second component, the second component having a ramped surface;c) a third component having a ramped surface over lapping or under lapping with at least a part of the ramped surface of the first component and at least a part of the ramped surface of the second component, at least one of the second component and the third component connected to said second member;d) a resilient fixing providing a compression force in a direction to hold at least the part of the ramped surface of the first component in contiguous relation with the ramped surface of the third component, and to hold at least the part of the ramped surface of the second component in contiguous relation with the ramped surface of the third component;wherein, under the external force, the ramped surface of the first component and the ramped surface of the third component and the ramped surface of the second component and the ramped surface of the third component slidingly move relative to each other in a first direction oblique to the direction of the compression force, and wherein upon a ceasing of the external force to zero, the first and second members return to the initial position.
3. The self-centring slip connector of claim 1, wherein to fully return the first and second members to the initial position, the ramped surfaces of the first and second components are at an angle sufficiently oblique to the direction of the compression force of the resilient fixing such that frictional resistance between the sliding movement of the ramped surfaces is overcome.
4. The self-centring slip con...		Auckland UniServices LimitedNZAuckland UniServices LimitedNZ----E04H009/02E04H009/02
E04B001/36
E04B001/38
E04B001/98
F16B005/00
F16B005/02
F16B007/04		34-E04H0009/021E04H0009/021
E04B0001/36
E04B0001/388
E04B0001/98
E04H0009/0237
F16B0005/0072
F16B0005/0241
F16B0007/0426
E04B2103/06		-----708334
712496
718585		2015-05-20
2015-09-18
2016-03-31		NZPouyan Zarnani
Pierre Joseph Henri Quenneville		2NZ Remuera
Stonefields		-------0-0-00-00-US202404013622024-12-0520Auckland UniServices LimitedPub.-------------
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WO2024248393A12024-12-05CONNECTOR HUB AND ASSEMBLY METHOD THEREFORinventionKR20240069092024-05-22The present invention relates to a connector hub having female threaded holes so that connection members can be fastened thereto when a prefabricated module is installed. The connector hub of the present invention is made of a steel material having a cube shape, a sphere shape or an octagonal prism shape. The cube-shaped or sphere-shaped connector hub from among the connector hubs has female threaded holes formed in the center of the steel material in the up-down, left-right and front-rear directions at angles of 90 degrees. The octagonal prism-shaped connector hub has ten holes formed in the centers of eight rectangular sides and front and back sides thereof. The hole is made to form an angle of 45 degrees with that of an adjacent side and has female threads at the center of the steel material. The connector hub comprises: an L-type connector hub having left-hand female threads; and an R-type connector hub having right-hand female threads formed in correspondence to the L-type connector hub such that a bidirectional bolt or a connection member can be fastened thereto.커넥터허브에 있어서,상기 커넥터허브는 큐브 형상과 구 형상 또는 팔각기둥 형상의 강재로 커넥터허브를 구성하고,상기 커넥터허브 중 큐브 형상 또는 구 형상 커넥터허브에는 상하, 좌우, 전후 90°각도 방향에서 강재의 중심부로 암나사산 홀을 형성시키며,상기 팔각기둥 형상의 커넥터허브는 8면과 앞,뒷면 중앙에 홀을 형성시키며, 이웃하는 면과 45°각도를 이루며, 강재의 중심부로 암나사산이 형성된 홀을 만들며,상기 커넥터허브는 왼쪽 암나사산이 형성된 L형커넥터허브와 상기 L형커넥터허브에 대응하여 양방향볼트 또는 연결부재를 체결시킬 수 있도록 오른쪽 암나사산이 형성된 R형커넥터허브를 포함하는 것을 특징으로 하는 커넥터허브.커넥터허브에 있어서,상기 커넥터허브는 큐브 형상과 구 형상 또는 팔각기둥 형상의 강재로 커넥터허브를 구성하고,상기 커넥터허브 중 큐브 형상 또는 구 형상 커넥터허브에는 상하, 좌우, 전후 90°각도 방향에서 강재의 중심부로 암나사산 홀을 형성시키며,상기 팔각기둥 형상의 커넥터허브는 8면과 앞,뒷면 중앙에 홀을 형성시키며, 이웃하는 면과 45°각도를 이루며, 강재의 중심부로 암나사산이 형성된 홀을 만들며,상기 커넥터허브는 왼쪽 암나사산이 형성된 L형커넥터허브와 상기 L형커넥터허브에 대응하여 양방향볼트 또는 연결부재를 체결시킬 수 있도록 오른쪽 암나사산이 형성된 R형커넥터허브를 포함하는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 양방향볼트는 L형 양방향볼트와 R형 양방향볼트로 구성하여 커넥터허브와 연결부재를 연결시키며,상기 L형 양방향볼트의 일측은 왼쪽 암나사산이 형성된 L형 커넥터허브에 체결될 수 있도록 왼쪽 수나사산이 형성되고, L형 양방향볼트의 타측은 연결부재의 왼쪽 암나사산에 결합될 수 있도록 왼쪽 수나사산을 형성시키며,상기 R형 양방향볼트의 일측은 오른쪽 암나사산이 형성된 R형커넥터허브에 체결될 수 있도록 오른쪽 수나사산이 형성되고, R형 양방향볼트의 타측은 연결부재의 오른쪽 암나사산에 결합될 수 있도록 오른쪽 수나사산을 형성시키는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 연결부재가 원통형 연결부재인 경우 원통형 연결부재의 양쪽 끝단의 안쪽에 암나사산을 형성시키되,상기 L형 커넥터허브 및 R형 커넥터허브도 암나사산이 형성되기 때문에 원통형 연결부재와 커넥터허브 사이에 양방향볼트를 끼워 체결시키는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 연결부재가 원통형 연결부재인 경우 원통형 연결부재의 양쪽 끝단의 바깥쪽에 수나사산을 형성시키고, 수나사산이 형성된 원통형 연결부재를 상기 L형 커넥터허브와 R형 커넥터허브 사이에 끼워 체결시키는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 연결부재가 일정한 길이를 갖는 육면체 형상으로 형성되고, 내부에 원 형상의 홀이 형성된 연결부재인 경우 연결부재의 양쪽 끝단의 안쪽에 암나사산을 형성시키고, 사각통 연결부재는 상기 L형 커넥터허브 및 R형 커넥터허브 사이에 양방향볼트를 끼워 결합시키는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 원통형 연결부재중 파이프의 두께가 얇아서 원통형 연결부재에 직접 암나사산 시공이 불가할 경우 암나사산이 시공된 부싱을 원통형 연결부재에 강제끼움방식으로 설치하는 것으로 원통형 연결부재 끝단에 서로다른 방향의 암나사산이 설치된 부싱을 삽입 설치하는 것을 특징으로 하는 커넥터허브.
제1항에 있어서,서로 대향되는 한 쌍의 L형 커넥터허브 사이에 연결부재를 연결시키는 LR형 방향 전환볼트 및 서로 대향되는 R형 커넥터허브의 사이에 연결부재를 연결시키는 RL형 방향 전환볼트를 더 포함하고,상기 LR형 방향 전환 볼트의 일측에는 상기 L형 커넥터허브의 왼 방향 암나사산 홀에 체결될 수 있도록 왼 방향 수나사산이 형성되고, 상기 LR형 방향 전환 볼트의 타측에는 상기 연결부재에 형성되는 오른 방향 암나사산 홀에 체결될 수 있도록 오른 방향 수나사산이 형성되며,상기 RL형 방향 전환 볼트의 일측에는 상기 R형 커넥터허브의 오른 방향 암나사산 홀에 체결될 수 있도록 오른 방향 수나사산이 형성되고, 상기 RL형 방향 전환 볼트의 타측에는 상기 연결부재에 형성되는 왼 방향 암나사산 홀에 체결될 수 있도록 왼 방향 수나사산이 형성된 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 R형 커넥터허브 및 L형 커넥터허브에 판재가 부착된 조립식 모듈을 형성하되, 판재는 마감볼트로 R형 커넥터허브 및 L형 커넥터허브 각각에 체결되어 인테리어소품 및 가정용가구, 사무용가구, 업소용가구 중 선택되는 어느 하나로 형성할 수 있으며,상기 마감볼트는 L형 마감볼트 및 R형 마감볼트로 구성되고, 판재의 두께에 따라 길이를 달리하며, 상기 L형 마감볼트는 상기 L형 커넥터의 왼 방향 암나사산 홀에 체결될 수 있도록 왼 방향 수나사산이 형성되고, 상기 R형 마감볼트는 상기 R형 커넥터허브의 오른 방향 암나사산 홀에 체결될 수 있도록 오른 방향 수나사산이 형성된 것을 특징으로 하는 커넥터허브.
제1항에 있어서,상기 커넥터허브와 양방향볼트 또는 커넥터허브와 연결부재를 체결하는 경우 체결되는 면과 면 사이에 엇갈리는 문제를 방지하기 위하여 커넥터허브와 연결부재의 접하는 면에 커넥터허브와 연결부재 안쪽으로 각각 나사산의 1피치 이내 만큼의 공회전 구간을 형성시켜 틀어지거나 빈틈을 방지하는 것을 특징으로 하는 커넥터허브.		SONG, Sun ImKR102ho, 108dong, 22-1 Jungbu-daero 747beon-gil, Giheung-gu,Yongin-si,Gyeonggi-do 16996,16996,KRSONG, Sun ImKR----F16B007/18F16B007/18
A47B047/00
A47B095/00
F16B012/40		24--------10-2023-0071487
10-2024-0037442		2023-06-02
2024-03-18		KRSONG, Sun Im1KR102ho, 108dong, 22-1 Jungbu-daero 747beon-gil, Giheung-gu,Yongin-si,Gyeonggi-do 16996,16996,KRMAJOR PATENT AND LAW FIRM(3M Tower, Yeoksam-dong) the third floor, 10, Teheran-ro 20-gil,Gangnam-gu,Seoul 06235,06235,KR-----0-0-00-00-WO20242483932024-12-0520SONG, Sun Im-------------
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