子分类:
- H01R4/01: .使用形状记忆材料连接的,如形状记忆金属
- H01R4/02: .焊接或熔接连接的{(H01R4/625,H01R4/723,H01R12/59优先)}
- H01R4/04: .使用导电黏合剂的
- H01R4/06: .使用导电黏合剂的
- H01R4/08: .由爆破起作用的
- H01R4/10: .只由扭转、缠绕、弯曲、压接或其他永久变形起作用的
- H01R4/22: .端帽,即绝缘材料帽或导电材料帽,用以盖住或保持从同一端进入帽的导线之间的连接
- H01R4/24: .穿透绝缘线或电缆芯线而使用的针尖、开槽板或类似接触件的连接{(用于多相电缆入H01R9/031;用于同轴电缆入H01R9/053;用于扁平电缆入H01R12/67)}
- H01R4/26: .至少一个连接部件有一个凸出部分咬入或卡入其他连接部件以改善接触的连接(H01R4/188, H01R4/203, H01R4/5075优先;使用形状记忆材料的入H01R4/01)
- H01R4/28: .夹紧连接、弹簧连接(通过特别适用于接触或插入印刷电路的终端完成的入H01R12/00)
- H01R4/54: .{刺刀或锁眼}
- H01R4/56: .一导体拧入另一导体
- H01R4/58: .按接触件的形状或材料区分的(H01R4/01优先)
- H01R4/70: .连接部分的绝缘(端帽入H01R 4/22)
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | METHOD FOR PRODUCING AN ELECTRIC INTERFACE AND INTERFACE | PCT/DE2011000203 | 2011-03-01 | WO2011107075A2 | 2011-09-09 | FINK DIETER; FINKE HANS MICHAEL |
| The invention relates to a method for producing a preferably multi-pole, shielded electric interface, in particular a plug connection, preferably a plug, a socket, a Y piece, T piece or similar, comprising at least one cable (2) and protector (1), which is connected to the electric interface comprising electric contacts (4) and the cable (2) provided with wires (3) which are to be connected to the electric contacts (4) and a protector (1) which surrounds the wires (3). The protector extends from the cable (2) to the or into the interface. Said method is characterised by virtue of the fact that to form a protection element (6), the cable (2) protector (1) or the cable and at least one area around the electric contacts (4) and bordering the protector (1) is extrusion coated with an electrically conductive composite material. Said protection element (6) is insulated against the electric contacts (4) at a distance or by integrating an insulating body (5). An interface is correspondingly produced. | ||||||
| 122 | 전기 접촉 수단을 갖는 복합 판유리 | KR1020157002413 | 2013-06-28 | KR101882063B1 | 2018-07-25 | 로일베른하르트; 샬귄터 |
| 본발명은 - 열가소성중간층 (4)을통해서로면-대-면접합된제1 판유리 (1) 및제2 판유리 (2), - 적어도제1 판유리 (1)의내부-측표면 (I) 상의하나이상의전기전도성코팅 (3), - 전기전도성코팅 (3)의영역상의 1개이상의버스바 (5), 및 - 버스바 (5)의하나이상의영역상의 1개이상의전기전도성접촉스트립 (6) 을적어도포함하며, 여기서접촉스트립 (6)은하나이상의전기공급라인 (7)에연결되고, 접촉스트립 (6)의하나이상의영역은버스바 (5)와직접접촉하는것인, 전기접촉수단을갖는복합판유리에관한것이다. | ||||||
| 123 | 면상화납이 리벳 결속된 윈드실드용 전원클립 글라스 납땜방법 | KR1020140043448 | 2014-04-11 | KR101555779B1 | 2015-09-24 | 이영석; 정수영 |
| 본 발명은 면상화납이 리벳 결속된 윈드실드용 전원클립 글라스 납땜방법 및 윈드실드용 전원클립에 관한 것으로서, 전원클립을 윈드실드의 열선에 명확하고 용이하게 납땜하도록 한 것이다.
즉, 본 발명은 윈드실드용 전원클립 글라스 납땜방법에 있어서, 플럭스납을 면상화하여 전원클립의 솔더면에 리벳결속하는 납리벳결속과정으로 이루어지는 것이다. 따라서, 본 발명은 윈드실드용 전원클립 글라스 납땜방법에 있어서 전원클립의 솔더부 바닥면에 플럭스납을 면상화하여 리벳결속되는 납리벳결속과정으로 이루어짐으로써 윈드실드의 열선에 납땜시 전원클립이 윈드실드의 열선에 명확하게 납땜되고 전원클립의 접속이 자동화에 의하여 이루어질 수 있는 것이다. |
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| 124 | 와이어 연결 장치 | KR1020137003550 | 2011-09-15 | KR101540983B1 | 2015-07-31 | 하나자키히사시 |
| 파이버코어전도체상에작용하는전단방향의힘을제어함으로써전기연결의신뢰성을개선할수 있는, 파이버코어전도체(21)를연결하는와이어연결장치(1, 10)를제공하는것을목적으로한다. 전기도전성금속으로파이버의표면을도금함으로써형성된, 복수의파이버코어도전성와이어를스트랜딩함으로써구성된파이버코어전도체(21)를연결하는와이어연결장치(1, 10)는, 파이버코어전도체(21)의단부에장착되기위해봉 형상핀(5)과상기핀(5)으로부터외부를향해뻗어있는헤드(6)를가진리벳(3); 및핀(5)이통과해서삽입되고리벳(3)이연결되는개구(8)와헤드(6)가위에오버랩핑되는오버랩부분(9)을가진판 형상단자(4)를포함한다. 파이버코어전도체(21)는파이버코어전도체(21)와단자(4)를전기적으로연결시키기위해헤드(6)와단자(4)의오버랩부분(9) 사이에클램핑된다. | ||||||
| 125 | 차량 유리에 부착하기 위한 전기 커넥터 | KR1020157003484 | 2013-08-08 | KR1020150083987A | 2015-07-21 | 마이-크리스,아이다,템; 모저,제프리,휴; 지어아이젠,피터 |
| 전기도관에전기전도성기판을연결하기위한유리에부착하기위한커넥터가개시된다. 커넥터는내부영역, 및그 내부에형성된슬롯을갖는하측을구비한전기비전도성하우징을포함한다. 상기커넥터는전기전도성인서트를추가로포함한다. 상기전도성인서트는하우징내에정해진슬롯을통하여적어도부분적으로연장되는접촉부를갖는다. 미리도포된열 활성화가능한접착제는상기유리에상기하우징을부착하기위한하우징의하측에구비된다. 개시된본 발명은두 개의실시형태, 즉압축력에의해기판과접촉부사이에전도성을유지하는것 및무연솔더에의해전도성을유지하는것이제공된다. 제1 실시형태에서, 상기접촉부는그로부터연장되는전도성스키드를포함한다. 제2 실시형태에서, 전도성인서트의적어도접촉부는무연솔더로코팅된다. | ||||||
| 126 | 화재감지기 | KR1020130063640 | 2013-06-03 | KR1020140142429A | 2014-12-12 | 조재철; 박범석; 신용규 |
| 화재감지기가 개시된다. 본 발명의 화재감지기는, 일측면이 건축물에 부착되고, 타측면에 베이스 터미널이 마련되는 베이스; 및 베이스에 결합되되, 베이스 터미널과 전기적으로 접속되는 단말기 터미널과 화재감지부가 각각 형성되어 있는 단말기를 포함하고, 베이스 터미널과 단말기 터미널이 접속한 상태에서 베이스 터미널의 소성변형이 방지되도록, 베이스에는 베이스 터미널 외측에 형성되어 베이스 터미널을 지지하는 지지부가 형성되는 것을 특징으로 한다. 본 발명에 의하면, 베이스 터미널 외측에 베이스 터미널을 지지하는 지지부가 형성됨으로써 가압력과 외력 등이 지속적으로 전달되더라도 베이스 터미널과 단말기 터미널 간의 결합구조 및 전기전도도가 안정적으로 유지되고, 설치시와 점검시에 작업자 및 점검자의 감전사고가 방지되도록 이루어지는 화재감지기를 제공할 수 있게 된다.
|
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| 127 | 와이어 연결 장치 | KR1020137003550 | 2011-09-15 | KR1020130052613A | 2013-05-22 | 하나자키히사시 |
| 파이버코어전도체상에작용하는전단방향의힘을제어함으로써전기연결의신뢰성을개선할수 있는, 파이버코어전도체(21)를연결하는와이어연결장치(1, 10)를제공하는것을목적으로한다. 전기도전성금속으로파이버의표면을도금함으로써형성된, 복수의파이버코어도전성와이어를스트랜딩함으로써구성된파이버코어전도체(21)를연결하는와이어연결장치(1, 10)는, 파이버코어전도체(21)의단부에장착되기위해봉 형상핀(5)과상기핀(5)으로부터외부를향해뻗어있는헤드(6)를가진리벳(3); 및핀(5)이통과해서삽입되고리벳(3)이연결되는개구(8)와헤드(6)가위에오버랩핑되는오버랩부분(9)을가진판 형상단자(4)를포함한다. 파이버코어전도체(21)는파이버코어전도체(21)와단자(4)를전기적으로연결시키기위해헤드(6)와단자(4)의오버랩부분(9) 사이에클램핑된다. | ||||||
| 128 | 플러그 백 | KR2020020029413 | 2002-10-01 | KR200307289Y1 | 2003-04-18 | 옥윤채 |
| 본 고안은 플러그백에 관한 것으로, 그 구성은 대략 평면이 직사각형 형태로 상부 커버와 하부커버로 구성되어 그 내부에 수납 공간을 가지며, 각각의 커버는 그 내측 전면과 테두리에 걸쳐 쿠션부가 형성되고 잠금장치가 형성된 플러그백에 있어서, 상기 하부 커버는 상기 수납 공간내측 테두리에 걸쳐 하측면에 그 수직 단면 형상이 대략 직사각형 형상인 일정 크기의 연결 수단 설치 공간이 하측면 길이방향으로 형성되며, 그 설치 공간의 일단부는 상기 하부 커버의 일측 외부에 형성된 개구부로 연통되고; 상기 연결 수단 설치 공간에서 일측부에는 소정 크기의 충전지가 고정설치 되는데, 상기 충전지가 플러그백 측면에 고정됨과 동시에 가방에 충격이 가해질 때에도 충전지가가 흔들리지 않도록 걸림턱이 형성되어 상기 연결 수단 설치공간은 전체적으로 상단부 폭이 하단부보다 약간 크게 형성되고, 상기 연결 수단 설치공간내에 설치된 충전지와 전기적으로 연결된 콘센트와; 일단부는 상기 충전지와 전기적으로 연결되어 코일형 케이블 형태로 형성되고, 타단부는 플러그가 그 단부에 연결된 일자형 케이블 형태로 형성되어 상기 연결 수단 설치공간내에서 자유롭게 이동가능한 케이블로 구성된 것을 특징으로 한다. | ||||||
| 129 | 진공청소기의 모터 조립체 | KR1020010047795 | 2001-08-08 | KR1020030013672A | 2003-02-15 | 전형일 |
| PURPOSE: A motor assembly of a vacuum cleaner is provided to improve cleaning efficiency, and to increase the productivity of the motor assembly by sealing a wire with a sealing member and installing the wire with penetrating a case. CONSTITUTION: A motor assembly of a vacuum cleaner is composed of a case(51) including a front case(55) and a rear case(52); a wire installed in the case to receive power; an installation part(54) protruded at the side of the front case or the rear case; and a sealing member(60) inserted to the installation part with a through hole(62) penetrated by the wire. The wire is mounted in the sealing member inserting to the through hole by a cutting part. Cleaning efficiency is improved with preventing outflow of dust or air from the vacuum cleaner. | ||||||
| 130 | MICRO CONDUCTIVE THREAD INTERCONNECT COMPONENT TO MAKE AN INTERCONNECT BETWEEN CONDUCTIVE THREADS IN FABRICS TO PCB, FPC, AND RIGID-FLEX CIRCUITS | US15910740 | 2018-03-02 | US20180255639A1 | 2018-09-06 | Mark Bergman; Yolita Nugent |
| An interconnect component is configured as an adapter or interposer providing mechanical and electrical interconnects between conductive threads, such as those woven within fabrics, and electrical connection points, such as contact pads on a printed circuit board (PCB), a flexible printed circuit (FPC), and/or a rigid-flex circuit board. | ||||||
| 131 | Semiconductor device having multiple contact clips | US14165720 | 2014-01-28 | US09837380B2 | 2017-12-05 | Tian San Tan; Theng Chao Long |
| A semiconductor device includes a device carrier, a first semiconductor chip mounted on the device carrier and a second semiconductor chip mounted on the device carrier. Further, the semiconductor device includes a first contact clip bonded to a first electrode of the first semiconductor chip, a second contact clip bonded to a first electrode of the second semiconductor chip and an insulating connector configured to hold the first contact clip and the second contact clip together. | ||||||
| 132 | LEVER-TYPE CONNECTOR | US15518569 | 2015-10-14 | US20170279222A1 | 2017-09-28 | Keita Kayano |
| A lever-type connector (1) has a connector housing (10), and a lever (20) including cam plates (21) having cam grooves (23) for receiving cam followers (34) of a mating housing (30). The lever (20) includes push-back pieces (27) retracted from an opening edge (13E) of the connector housing (10) facing the mating housing (30) and extending from the cam plates (21). The connector housing (10) includes push-back piece receiving portions (18) configured to bias the lever (20) from a proper connection position to an initial position by butting against the push-back pieces (27) when the lever (20) is at the proper connection position. An angle (a) of a corner part (C) formed by a line connecting a center of rotation of the lever (20) and a base (27R) of the push-back piece (27) connected to the cam plate (21) and the push-back piece (27) is larger than 90°. | ||||||
| 133 | MEDICAL CABLE CONNECTOR FOR A MEDICAL LEAD PROVIDING AN ELECTRICAL RECEPTACLE THAT IS MOVABLE RELATIVE TO AN OUTER BODY | US15356275 | 2016-11-18 | US20170237207A1 | 2017-08-17 | Daniel J. Stetson; Carole A. Tronnes; David W. Lee |
| A medical cable connector of a medical cable receives a medical lead while an electrical receptacle within the medical cable connector is placed into a distal position relative to an outer body of the medical cable connector. The electrical receptacle is retracted to a proximal position once insertion of the medical lead into the medical cable connector is completed. The electrical receptacle may be mounted to an inner body which moves relative to the outer body. A biasing member may be present to bias the inner body to a particular position. A slider may be present to provide a clinician with a surface to touch when applying force to position the electrical receptacle in the distal position for insertion of the medical lead. Various other features may be present to facilitate insertion of the medical lead and/or to maintain the position of the electrical receptacle relative to the outer body. | ||||||
| 134 | Methods of stitching components on fabrics using metal foils | US14268775 | 2014-05-02 | US09674950B1 | 2017-06-06 | Weifeng Liu; Zhen Feng; Anwar Mohammed |
| An electronics assembly includes one or more electronic components coupled to a fabric. Each electronic component includes one or more electrical connection points, such as a bond pad or solder bump. The electronics assembly also includes one or more metal foils, one metal foil coupled to one electrical connection point on an electronic component. The metal foil is stitched to the fabric by an electrically conductive wire, thereby providing an electrical connection between the electronic component and the electrically conductive wire via the metal foil. | ||||||
| 135 | SYSTEMS, APPARATUS, AND RELATED METHODS FOR WEATHER-PROOFED WIRE SPLICINGS | US13966742 | 2013-08-14 | US20160372840A9 | 2016-12-22 | Michael Joye |
| Disclosed are systems, apparatus and related methods for making weather, fire, or water-proofed wire-to-wire electrical connections. | ||||||
| 136 | Conductive resin composition, method for manufacturing electronic component using same, bonding method, bonding structure, and electronic component | US13206693 | 2011-08-10 | US09491868B2 | 2016-11-08 | Tomoaki Onoue; Masaaki Hirayama; Yoshiki Aburatani |
| A conductive resin composition which includes (a) a curable resin and (b) hard spherical carbon formed by coating the surface of a spherical base carbon particle with fine carbon particles and/or pitch-derived fine carbon pieces is used to electrically bond two conductive elements. The conductive resin composition is supplied to a space between areas of at least two works respectively having the areas to be electrically connected to each other, and the conductive resin composition is cured while applying a pressure between the areas. | ||||||
| 137 | End termination for three-phase insulated conductors | US14082557 | 2013-11-18 | US09337550B2 | 2016-05-10 | John Matthew Coles; Francis Marion Stone, Jr.; Patrick Silas Harmason; Charles D'Angelo, III; David Booth Burns |
| A fitting for coupling ends of cores of three insulated conductors includes an end termination placed over end portions of the three insulated conductors. The end termination includes three separate openings that pass through the end termination longitudinally. Each of the insulated conductors passes through one of the openings with end portions of the insulated conductors protruding from one side of the end termination. Exposed cores of the end portions of the insulated conductors protrude from the end termination. A cylinder is coupled to the side of the end termination from which the end portions of the insulated conductors protrude. An electrical bus is coupled to the exposed portion of the cores. Electrically insulating material fills the cylinder such that the cores are substantially enclosed in the electrically insulating material. An end cap is coupled to the cylinder to seal off the interior of the cylinder. | ||||||
| 138 | Terminal with terminal bender having stable bend, wiring member, and head suspension | US13856094 | 2013-04-03 | US09196277B2 | 2015-11-24 | Akira Omachi |
| A terminal includes a terminal wiring part extending from a flexure and having an insulating layer and a wiring layer formed on the insulating layer, a terminal main part formed at a front end of the terminal wiring part and connected to a piezoelectric element arranged to face the terminal main part, and a terminal bender that is made of a supportive metal layer, is arranged along a part of the terminal wiring part in an extending direction thereof, and is plastically deformed to form a bend in the part of the terminal wiring part so as to bring the terminal main part closer to the piezoelectric element. | ||||||
| 139 | Connection terminal, coaxial electrical connector and wiring structure thereof | US13909976 | 2013-06-04 | US09184512B2 | 2015-11-10 | Yuntao Duan |
| Disclosed is a connection terminal, a coaxial electrical connector and a wiring structure thereof which could ensure the reliability of the electrical connection between the connection terminal and a coaxial cable core. The connection terminal includes a terminal body, two contact resilient pieces formed by bending and extending from two sides of the terminal body, and a core connection resilient arm extending from a rear end of the terminal body in a direction remote from the contact resilient pieces. The cross-section of the core connection resilient arm is essentially “Z” shaped, and a contact surface for contacting the coaxial cable core is formed on the core connection resilient arm. The contact surface has an arcuate protrusion protruding in a direction remote from the contact resilient pieces. The coaxial electrical connector and the wiring structure thereof all include the above connection terminal. | ||||||
| 140 | Multi-core cable assembly | US13937496 | 2013-07-09 | US09178287B2 | 2015-11-03 | Masato Tanaka |
| A multi-core cable assembly is formed by arranging a plurality of cables side by side and connecting the cables to a substrate 30 which is a connection member. The plurality of cables configure flat cable units 10, 20 for each diameter of cables, and ground bars 16, 27 are fixed thereto so as to be electrically connected with a shield member included in the cable. Each of ground bars 16, 27 are electrically connected to a ground pad 31 of the substrate 30. The ground bars 16, 27 adjacent to each other are disposed to be shifted in a longitudinal direction of the cable. In addition, two ground bars 16, 27 interposing the other one ground bar and positioned at both sides thereof are disposed in a position overlapped in the longitudinal direction of the cables. | ||||||
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