子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | 스러스트 볼베어링의 볼가이드 제조방법 | KR1020020054029 | 2002-09-07 | KR1020040022769A | 2004-03-18 | 소기섭 |
| PURPOSE: A method for manufacturing a ball guide of a thrust ball bearing is provided to reduce stress and deformation of the thrust ball bearing by minimizing a processing degree of a guide section of the ball guide. CONSTITUTION: A drawing dice including a hole having a size identical to a diameter of a ball guide is prepared. The drawing dice has an arc-shaped protrusion, which is integrally formed with the drawing dice, in such a manner that a guide section is formed in a steel wire discharged from the drawing dice. The steel wire formed with the guide section is drawn from the drawing dice by means of a drawing device. Then, the steel wire formed with the guide section is bent by using a bending machine such that the steel wire has a diameter corresponding to a diameter of a thrust bearing. Then, the steel wire is cut by using a cutter. | ||||||
| 102 | 숏 제조방법 | KR1020030013448 | 2003-03-04 | KR1020030032980A | 2003-04-26 | 김경조 |
| PURPOSE: A manufacturing method of shots having high mechanical efficiency during shot pinning process by reducing forming time of cut wires and simplifying fabricating process, thereby improving work efficiency and surface strength is provided. CONSTITUTION: The manufacturing method of shots comprises cutting process (I) of cutting the steel wire to a certain length by continuously penetrating steel wire into a high speed rotation rollers on which cutting blades are formed; injection step (II) of injecting the cut pieces of steel wire into a storage tank of a shot forming apparatus; transfer step (III) of transferring the cut pieces of steel wire inside the storage tank to an impeller; forming step (IV) of processing the cut pieces by projecting the cut pieces of steel wire transferred to the impeller onto a projecting surface; and transportation step (V) of transporting the processed cut pieces to the storage tank using a conveyor, wherein the cut pieces of steel wire are processed by continuously repeating the transfer step (III), forming step (IV) and transportation step (V), and where dust generated in the forming step (IV) is sucked into a dust collector. | ||||||
| 103 | CORE-SHEATH RIBBON WIRE | PCT/EP2011003585 | 2011-07-18 | WO2012022404A2 | 2012-02-23 | MILKE EUGEN; DICK JUERGEN; PRENOSIL PETER; WULFF FRANK-WERNER |
| The present invention was based on the object of providing a ribbon wire with which it is possible to effectively prevent damage to the bonding surfaces during the bonding process and short circuits when the corresponding assemblies are used. According to the invention, this object is achieved by a bonding wire having a wire core made of a first material and a wire sheath which envelops the wire core and is made of a second material, wherein the first material has a first metal and the second material has a second metal and the first metal and the second metal are different, and wherein the bonding wire has a cross-sectional ratio of not more than 0.8. | ||||||
| 104 | THREE-DIMENSIONAL COMPLEX COIL | PCT/US2006060923 | 2006-11-15 | WO2007076179A9 | 2007-08-23 | MONETTI RICHARD; MARTINEZ GEORGE; FITZ MATTHEW |
| A complex coil and a fixture for forming same configured such that loops are formed having various configurations relative to each other. The configurations provide improved thrombus formation and reduced rotation or tumbling once implanted. The complex coil is formed of a material that may deformed for purposes of placing the complex coil into a catheter and returns to a complex shape that includes said loops once deployed. | ||||||
| 105 | THREE-DIMENSIONAL COMPLEX COIL | PCT/US2006060923 | 2006-11-15 | WO2007076179A3 | 2008-05-29 | MONETTI RICHARD; MARTINEZ GEORGE; FITZ MATTHEW; PEREZ DAMIAN JONATHAN |
| A complex coil and a fixture for forming same configured such that loops are formed having various configurations relative to each other. The configurations provide improved thrombus formation and reduced rotation or tumbling once implanted. The complex coil is formed of a material that may deformed for purposes of placing the complex coil into a catheter and returns to a complex shape that includes said loops once deployed. | ||||||
| 106 | HEADSET FOR CAMERA | PCT/CA0301281 | 2003-08-29 | WO2004023839A3 | 2004-07-01 | LAPALME MARIE; DUCAS LUC; DALLAIRE MICHEL; MESSIER PATRICK |
| A head set is disclosed comprising a head band (16) having a first and a second end; a pad-like support means (18) attached to the first end of the head band to rest on a first side of a head; a mounting to support a camera; and an earpiece attached to the second end of the head band (16) that can pivot in at least two directions with respect to the headband, the earpiece comprising an ear-shaped, resilient wire (1) and an elastomeric covering (6) that can pivot with respect to the wire. | ||||||
| 107 | 침체 및 침병이 면접촉 결합된 한방침 및 이의 제조방법 | KR1020160032711 | 2016-03-18 | KR101675716B1 | 2016-11-11 | 양판정 |
| 한방침및 이의제조방법이개시된다. 한방침은침체; 및내부공간을갖고상기침병결합부를상기내부공간으로삽입하여상기침체와결합하고, 와이어가나선형으로감겨서스프링형상을이루는침병을포함하는한방침으로서, 상기침체는상기침병결합부가상기침병의스프링형상의내면에면접촉가능한크기를갖는볼록형상부가상기침체의축방향을따라일정간격으로나열되어있는형상을갖도록구성되며, 상기침체는상기침병결합부가상기침병의내부로강제삽입되어상기볼록형상부및 상기침병의스프링형상의내면이면접촉하여결합된것을특징으로한다. 이러한한방침의제조방법은스프링형상의침병을가공하는침병가공단계; 인발다이에원료를투입하여직경을사전설정된침의외경으로근사시키도록인발하여선재를형성하는인발단계; 선재를첨예부를일측에갖는침체형상으로절단, 연마하는침체성형단계; 상기침체성형단계에서성형된침체의첨예부의반대측영역을다수의홈 성형돌기가일정간격으로배열되어있는상부다이및 하부다이의사이에위치시킨후 상기상부다이및 하부다이를상승및 하강시킴에따라상기홈 성형돌기가상기침체의외면을가압하여상기첨예부의반대측에다수의볼록형상부를성형하는제1 프레스가공단계; 및상기침체에형성된다수의볼록형상부를상기침병의내부로강제삽입하여상기침체및 침병을결합하는침체및 침병결합단계를포함한다. | ||||||
| 108 | 도금용 걸이 줄 제조 장치 및 그 방법 | KR1020140170469 | 2014-12-02 | KR101522847B1 | 2015-06-25 | 이춘길 |
| 본발명은피도금물을등간격으로걸어도금이이루어지도록하는걸이줄을제조하는장치로써, 지지각의상단에상판이구비된지지틀; 2가닥의원선을공급하되, 상기상판의일측에원선의이동을안내하는가이드부로이루어진원선공급부; 상기가이드부의전방측에위치하며, 중앙에 2개의인입공이형성되어상기 2가닥원선이각각끼워져간격을유지하는상태로이동하도록하는인입안내부; 상기인입안내부를따라이동하는 2가닥의원선사이에핀이끼워지고, 이핀이장착된회전체가회전하여원선을꼬는트위스트유닛; 상기트위스트유닛의핀이원선사이에끼워지면, 실린더로원선을압지하고, 이원선을당겨팽팽하게유지시킴으로써꼬임이원활하도록하는장력발생부; 구동실린더에랙 기어를연결하고, 이랙 기어와맞물려회전하는피니언기어로구성되어상기회전체에회전력을전달하여꼬임이이루어지도록하는동력발생부; 및상기꼬임작업후 제조된걸이줄을후방측압지실린더로압지하고, 이실린더가장착된후방측압지블록을당겨인출하는인출부;로구성된기술적인특징을갖는것으로달성된다. | ||||||
| 109 | LED 어레이 그리드, LED 어레이 그리드의 제조를 위한 방법 및 장치 및 LED 어레이 그리드에서 사용하기 위한 LED 구성부품 | KR1020087028705 | 2007-04-19 | KR101412473B1 | 2014-06-30 | 위캠프,요하네스,더블유.; 슬로브,코르넬리스 |
| LED 어레이 그리드의 제조 방법이 개시된다. 이 방법은 N개(N은 1 보다 큰 정수)의 전기 도선들(W 1 -W N )을 평행하게 배치하여, 배선들(W 1 -W N )의 어레이를 생성하는 단계 - 상기 어레이는 배선들의 길이 방향에 직교하는 너비 D를 가짐 - , 각 LED 구성부품(106, 206)이 적어도 2개의 인접하는 배선들(W n -W n+1 )에 전기적으로 연결되도록 LED 구성부품들(106, 206)을 배선들(110, 210)의 어레이에 배치하는 단계, 너비 D가 증가하도록 배선들의 어레이를 늘리는(stretching) 단계, 및 늘어난 LED 어레이 그리드(100; 200)를 하나의 판(302)에 또는 2개의 판(302, 304) 사이에 배치하는 단계를 포함한다. LED 어레이 그리드, PCB, IDC-형 LED 구성부품 | ||||||
| 110 | 꼬리표용 철사 제조장치 | KR1020090091921 | 2009-09-28 | KR1020110034411A | 2011-04-05 | 김봉규; 신동국 |
| PURPOSE: A wire manufacturing device for a tag is provided to the efficiency of work in which tags hang on a bunch of reinforcing bar, since a large amount of wires are rapidly processed to uniform length. CONSTITUTION: A wire manufacturing device for a tag comprises a fixing unit(10), a supply unit(20), and a rolling unit(30). The fixing unit forms the base. The supply unit is coupled with the fixing unit, and wire is unreeled by the rotation thereof. The rolling unit is coupled with the fixing unit, and the wire is reeled by the rotation thereof. The supply unit comprises a supporting body(21), a rotary shaft(22), a bearing, and a rotator(24). The fixing unit is projected upward from the supporting body. Both ends of the rotary shaft are fixed to the support body. The bearing is coupled with the outer circumference of the rotary shaft. The rotator is formed with a through-hole so the rotary shaft passes therethrough. | ||||||
| 111 | 베임을 방지하는 금속수세미 제조장치 | KR1020090034182 | 2009-04-20 | KR1020100115552A | 2010-10-28 | 심상준 |
| PURPOSE: An apparatus for manufacturing of a metallic scrubber preventing slash is provided to form rounded edges on a metal band by pressing metal threads using press rollers with curved grooves. CONSTITUTION: An apparatus for manufacturing of a metallic scrubber preventing slash comprises a winding roller, press rollers(30), friction rollers, and a winding and forming shaft. The winding roller supplies metal threads continuously. The press rollers press the provided metal threads to form a metal band and have grooves(31) on the surfaces contacting each other. The cross section of the internal space formed by the two grooves is equal to that of the metal thread. The friction rollers provide friction to the metal band to be twisted. The winding and forming shaft winds up the twisted metal band to a certain volume. | ||||||
| 112 | 야생 동물 보호용 철망의 제조방법 | KR1020070100982 | 2007-10-08 | KR1020090035935A | 2009-04-13 | 김기완; 최인수 |
| A manufacturing method of a wire net for the wild animal protection is provided to directly protect wild animals and indirectly protect an operator by fundamentally preventing the wild animals from invading to a road. A manufacturing method of a wire netting for the wild animal protection comprises: a length iron wire fetching step of summarily drawing out the length iron wires(S110); a width iron wire array step of putting the width iron wire on an upper part to the traverse direction(S120); a wire netting manufacturing step of spot-welding the length iron wires and the width iron wires by a protrusion type electrode unit and a roller type electrode unit with the electricity of the high pressure; and a repeating performance step of repetitively performing the length iron wire fetching step or the wire netting manufacturing step. | ||||||
| 113 | 지퍼요소용 이형선재 제조방법 및 장치 | KR1020030058957 | 2003-08-26 | KR1020030072308A | 2003-09-13 | 서범랑 |
| PURPOSE: A manufacturing method and a manufacturing apparatus of deformed wire rod for zipper element are provided to manufacture "Y" shaped deformed wire rod that is an element for manufacturing zipper. CONSTITUTION: The manufacturing apparatus of deformed wire rod for zipper element comprises a supply coiling bobbin (A) for coiling thus supplying a metal wire rod; first rolling part(100) sequentially comprising guide part(110) installed in front of operation die (T) to guide the metal wire rod, correction part(120) installed in rear of the guide part(110) to correct the metal wire rod straightly, first sub-roller(130), and first rolling roller(140) installed in rear of the first sub-roller(130); second rolling part(200) comprising guide part(210) formed in front of the operation die (T), and second rolling roller(220) installed in rear of the guide part(210); third rolling part(300) comprising guide part(310) formed in front of the operation die (T), and third rolling roller(320) installed in rear of the guide part(310); fourth rolling part comprising guide part(410) formed in front of the operation die (T), and second sub-roller(420), third sub-roller(430) and fourth rolling roller(440) sequentially installed in rear of the guide part(410); tension control parts(500) which are installed between the respective rolling parts of the first to fourth rolling parts and equipped with tension bobbin interlockingly connected to slider and moved up and down, and in which the slider is moved up and down along guide rod according to tension of the metal wire rod guided to the tension bobbin; and a recovery coiling bobbin (B) for coiling a deformed wire rod semi-finished and completely rolling treated at the rear side of the fourth rolling part. | ||||||
| 114 | 장식품용 금속메시 및 그의 제조방법 | KR1019920700713 | 1990-07-31 | KR1019940009120B1 | 1994-10-01 | 노다후미오; 나카자토미노루; 코구레노보루; 후쿠시마마사토시 |
| 내용 없음. | ||||||
| 115 | METHOD OF FORMING A NITINOL STENT | EP13704324.6 | 2013-01-31 | EP2816981A1 | 2014-12-31 | THOMPSON, Dustin |
| A method of a forming a hollow, drug-eluting nitinol stent includes shaping a composite wire into a stent pattern, wherein the composite wire comprises an inner member, a nitinol intermediate member, and an outer member. After the composite wire is shaped into the stent pattern, the composite wire is heat treated to set the nitinol intermediate member in the stent pattern. After heat treatment, the composite wire is processed to remove the outer member and the inner member without adversely affecting the intermediate member. Openings may be provided through the intermediate member and the lumen of the intermediate member may be filled with a substance to be eluted through the openings. | ||||||
| 116 | Method of forming medical devices; intravascular occlusion devices | EP09075025.8 | 1995-07-10 | EP2055263B1 | 2014-06-18 | Amplatz, Curtis |
| 117 | KERN-MANTEL-BÄNDCHENDRAHT | EP11749078.9 | 2011-07-18 | EP2596528A2 | 2013-05-29 | MILKE, Eugen; DICK, Jürgen; PRENOSIL, Peter; WULFF, Frank-Werner |
| A bonding wire is provided containing a wire core made of a first material containing a metal and a wire jacket that envelopes the wire core and is made of a second material containing a metal. The wire core and the wire jacket are made of different metals and the bonding wire has an aspect ratio of no more than 0.8. The bonding wire efficiently prevents damage to bonding surfaces during the bonding process and short-circuiting during the use of corresponding sub-assemblies. | ||||||
| 118 | Load bearing structure | EP10013888.2 | 2010-10-22 | EP2420451A1 | 2012-02-22 | Moore, Steve; Ridlington, Steve |
A load - bearing structure (10) for transporting or storing a load is disclosed. The structure includes at least one load - bearing surface (20) and at least one support member (40). The or each of a plurality of support members (40) is disposed at least about the periphery of the load - bearing surface (20) and extends substantially downward relative to the load - bearing surface (20). The or each of a plurality of support members (40) defines a peripheral channel (80) about the load - bearing surface (20), which is apt to accommodate at least a portion (40, 110) of a substantially same load - bearing structure (10). The load - bearing surface (20) and the or each support member (40) are made from a substantially rigid material.
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| 119 | Device for coiling fibres and for the production of capsules made of a coiled fibre and a wrapping of glue or frozen water | EP10466033.7 | 2010-12-16 | EP2372034A1 | 2011-10-05 | Pospisil, Karel |
Device for coiling fibres and for the production of capsules made of a coiled fibre and a wrapping of glue or frozen water, consisting of a container (3) in which a cutter (6) is slidably arranged, the cutter (6) being provided with an upper lid (13) and a wall (12), wherein the upper lid (13) is provided with an aperture (8) and the lower rim of the wall (12) is provided with a cutting edge (9), and wherein the container (3) is provided with an opening (7) in its wall (10), intended for introducing the fibre (2).
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| 120 | Concave-convex patterned metal fiber, metal fiber yarn and fabric including the same, method for preparing the fabric and use thereof | EP10174831.7 | 2010-09-01 | EP2292817A1 | 2011-03-09 | Suk, Chang Hwan |
The present invention relates to a metal fiber, in which frictional force between metal fibers, entanglement and processability are improved, a metal fiber yarn and a fabric including the same, a method for preparing the fabric and a use thereof. According to the present invention, there is provided a metal fiber having concave-convex patterns formed at intervals of 0.3-50mm in a longitudinal direction of the metal fiber; a metal fiber yarn including a metal fiber having concave-convex patterns formed at intervals of 0.3-50mm in a longitudinal direction of the metal fiber and drawn and the metal fiber yarn has a length of 0.45 m to 10.0m per gram; a fabric prepared from the metal fiber yarn; a method for preparing a fabric, including forming concave-convex patterns in a metal fiber at intervals of 0.3-50mm in a longitudinal direction of the metal fiber, forming a metal fiber yarn having a length of 0.45-10.0mm per gram by using the metal fiber in which the concave-convex patterns are formed, and weaving the metal fiber yarn into a fabric; and a filter material and a burner material made of the fabric. The metal fibers having the concave-convex patterns formed at regular intervals in the longitudinal direction have the improved frictional force between the metal fibers and processability due to the concave-convex patterns on the metal fibers and thus, a metal fiber yarn can be easily made with the metal fiber of the present invention. Further, the metal fiber yarn including the metal fibers maintains its form stably because metal fibers are not released. Also, the metal fiber yarn has a plurality of uniform and fine pores.
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