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 |
|---|---|---|---|---|---|---|
| 221 | METHOD FOR PRODUCING AN ELECTRIC INTERFACE AND INTERFACE | US13582641 | 2011-03-01 | US20120329323A1 | 2012-12-27 | Dieter Fink; Hans Michael Finke |
| A method for the production of a multi-polar shielded electric interface, particularly a plug-in connection, such as a plug, a socket, a Y-part, a T-part, or the like comprising at least one cable (2) connected thereto with a shielding (1), the interface comprising electric contacts (4) and with the cable (2) with the electric contacts (4) comprising conductors (3) to be connected and a shielding (1) surrounding the conductors (3), to be guided from the cable (2) to the interface, wherein to form a shielding element (6) the shielding (1) of the cable (2) and at least an area adjacent to the shielding (1) around the electric contacts (4) is coated by injection molding with an electrically conductive composite material, with the shielding element (6) being distanced from the electric contacts (4) or an isolating body (5) being embedded. An interface is produced accordingly. | ||||||
| 222 | Tapered transition ramp for cable protector with offset center sections | US12423967 | 2009-04-15 | US08288652B2 | 2012-10-16 | Thomas M. Lubanski |
| An exemplary ramp structure capable of being positioned over at least a portion of a cable protection system comprises first and second center portions, a first side ramp portion adjacent a side of each center portion, and a first tapered portion adjacent an end of the first side ramp portion. The first tapered portion may be tapered in at least two different directions that are substantially orthogonal to each other. | ||||||
| 223 | END TERMINATION FOR THREE-PHASE INSULATED CONDUCTORS | US13268246 | 2011-10-07 | US20120118634A1 | 2012-05-17 | 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. | ||||||
| 224 | HYDROFORMED SPLICE FOR INSULATED CONDUCTORS | US13268226 | 2011-10-07 | US20120085564A1 | 2012-04-12 | Charles D'Angelo III; Ryan Michael Gonsoulin; David Jon Tilley |
| A method for coupling ends of two insulated conductors includes coupling an end portion of a core of a first insulated conductor to an end portion of a core of a second insulated conductor. At least a part of the end portions of the cores are at least partially exposed. Electrically insulating material is placed over the exposed portions of the cores. An inner sleeve is placed over end portions of the two insulated conductors to be coupled. An outer sleeve is placed over the inner sleeve. There is an open volume between the inner sleeve and the outer sleeve. The inner sleeve and the outer sleeve are coupled to jackets of the insulated conductors. A pressurized fluid is provided into the open volume between the inner sleeve and the outer sleeve to compress the inner sleeve into the electrically insulating material and compact the electrically insulating material. | ||||||
| 225 | METHOD FOR MAKING SMOOTH TRANSITIONS BETWEEN DIFFERING LEAD SEGMENTS | US13285074 | 2011-10-31 | US20120042517A1 | 2012-02-23 | Carole A. Tronnes; Daniel J. Stetson; Brian T. Stolz |
| A method for forming a lead body includes contacting a proximal section of the lead body having a lumen and a first lead body characteristic to a distal section of the lead body having a lumen and a second lead body characteristic. The proximal and distal sections are contacted such that their lumens are axially aligned. A lap band is disposed about a portion of the proximal section and a portion of the distal section, and is thermally formed to the proximal and distal sections. Axially compressive pressure is applied to the lap band as the lead body is being thermally formed. The pressure applied is sufficient to result in the lead body having an outer diameter in regions proximally and distally adjacent to the lap band that are substantially the same to an outer diameter in a region formed by the lap band. | ||||||
| 226 | Method for making smooth transitions between differing lead segments | US12707116 | 2010-02-17 | US08061026B2 | 2011-11-22 | Carole A. Tronnes; Daniel J. Stetson; Brian T. Stolz |
| A method for forming a lead body includes contacting a proximal section of the lead body having a lumen and a first lead body characteristic to a distal section of the lead body having a lumen and a second lead body characteristic. The proximal and distal sections are contacted such that their lumens are axially aligned. A lap band is disposed about a portion of the proximal section and a portion of the distal section, and is thermally formed to the proximal and distal sections. Axially compressive pressure is applied to the lap band as the lead body is being thermally formed. The pressure applied is sufficient to result in the lead body having an outer diameter in regions proximally and distally adjacent to the lap band that are substantially the same to an outer diameter in a region formed by the lap band. | ||||||
| 227 | Medical Cable Connector for a Medical Lead Providing an Electrical Receptacle That is Movable Relative to an Outer Body | US13069077 | 2011-03-22 | US20110245886A1 | 2011-10-06 | 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. | ||||||
| 228 | METHOD FOR MAKING SMOOTH TRANSITIONS BETWEEN DIFFERING LEAD SEGMENTS | US12707116 | 2010-02-17 | US20100212154A1 | 2010-08-26 | Carole A. Tronnes; Daniel J. Stetson; Brian T. Stolz |
| A method for forming a lead body includes contacting a proximal section of the lead body having a lumen and a first lead body characteristic to a distal section of the lead body having a lumen and a second lead body characteristic. The proximal and distal sections are contacted such that their lumens are axially aligned. A lap band is disposed about a portion of the proximal section and a portion of the distal section, and is thermally formed to the proximal and distal sections. Axially compressive pressure is applied to the lap band as the lead body is being thermally formed. The pressure applied is sufficient to result in the lead body having an outer diameter in regions proximally and distally adjacent to the lap band that are substantially the same to an outer diameter in a region formed by the lap band. | ||||||
| 229 | Electrical connection for a resistor element made of electrically-conductive fibers | US11066486 | 2005-02-28 | US20050194376A1 | 2005-09-08 | Daniel Brunner; Andre Amari |
| The present invention provides a connection endpiece placed on a resistor element provided with at least one layer of electrically-conductive fibers, the endpiece serving to connect a power supply wire electrically to said resistor element. The endpiece comprises at least one metal plate having a top face for connection to said power supply wire, and provided with at least one rigid metal connector member of substantially flat shape arranged at a first end of said metal plate and connected to at least one layer of electrically-conductive fibers of said resistor element, said top face of said metal plate being covered in a removable anti-adhesive covering. | ||||||
| 230 | Arrangement for establishing electrical contact in joints, and a method of producing the arrangement | US216828 | 1994-03-24 | US5435746A | 1995-07-25 | Karl-Erik Leeb |
| An arrangement for establishing electrical contact in joints, and a method of producing the arrangement. The arrangement comprises an electric contact making device which is enclosed in a joint between two metal surfaces between which electrical contact shall be established. The joint and the contact making device are held together and protected by plastic material. The arrangement is produced by applying pressure to the joint so that the surface penetrating devices of the contact making device will spring, and by converting the plastic material from a fluid state to a solid state while maintaining the pressure, so that the resilient biassing effect of the surface penetrating devices against the metal surfaces will be made permanent in the arrangement. | ||||||
| 231 | Composite electrical interconnection medium comprising a conductive network, and article, assembly, and method | US79374 | 1987-07-30 | US4923739A | 1990-05-08 | Sungho Jin; William R. Lambert; Robert C. Moore; John J. Mottine, Jr.; Richard C. Sherwood; Thomas H. Tiefel |
| An electrical interconnection medium is made as a composite of electrically conducting, magnetic particles in a nonconductive matrix material. Particles are magnetically aligned into a network which extends in at least two dimensions as, e.g., in a sheet or layer medium. A layer medium may further include additional, larger conductive particles which may be magnetically aligned into columns extending the thickness of the medium; typically, in this case, the medium serves as an anisotropically conductive medium in the direction of the columns, with slight in-plane conductivity imparted by the network aiding the dissipation of electrostatic charge. | ||||||
| 232 | Electrical pin connector | US171535 | 1980-07-23 | US4350408A | 1982-09-21 | Bill J. Hays |
| There is disclosed a pin connector particularly suited for use in automotive ignition wiring. The pin connector comprises a metal shaft for insertion into the standard wire receiving sleeves of distributors, coils and the like and, for this purpose has a metal shaft with a diameter less than that of the sleeve to be received loosely therein with a groove intermediate its length to oppose the annular slot of the receiving sleeve and a resilient retainer seated in this groove and resiliently projecting into the slot to retain the pin connector in the sleeve. The pin connector has a prong connector end having a bulbous end with a reduced diameter neck to receive a box connector that has a mating socket with a detent to be received over the prong connector and to complete the connection to an ignition wire. The pin connector is sized of lesser diameter than the internal diameter of the receiving sleeve to provide a tolerance therebetween, accommodating manufacturing imprecisions. The pin connector is used in combination with an elastic boot carried on the conductor which is slipped over the pin connector and the supporting structure of the housing or the receiving sleeve so that the pin connector is resiliently biased in the assembly, in secure electrical contact with the receiving sleeve. | ||||||
| 233 | Wire tensioning apparatus | US84757 | 1979-10-15 | US4305436A | 1981-12-15 | James N. Zehren |
| Apparatus for tensioning wire, such as wire loops applied over a braided wire sleeve forming a sheath for an electrical cable splice. The tensioning apparatus comprises an jack rod and jacking mechanism of known construction, a first wire clamp fixed to the based end of the jack rod, and a second wire clamp assembly slidably mounted on the jack rod opposite the jacking mechanism from the first wire clamp whereby the jacking mechanism may be operated to spread the lapped ends of a wire loop to tighten the loop. | ||||||
| 234 | Sealed splice | US961302 | 1978-11-16 | US4186986A | 1980-02-05 | John R. Shoemaker |
| An electrical connector is disclosed of the type for sealably protecting an electrical splice particularly for buried wires. The connector has a shell for containing the spliced wires to be protected. The shell further contains a volumetrically collapsable container filled with a viscous sealant material. A closure cap is closed compressibly over the container, collapsing the same and expelling and distributing the sealant throughout the connector shell. | ||||||
| 235 | Strand adapter for aerial closures and cable terminals | US635750 | 1975-11-28 | US4032212A | 1977-06-28 | Carl Walter Faust; Arnold Ray Smith |
| A strand adapter for mechanically and electrically coupling aerial closures and cable terminals to a messenger cable is disclosed. The adapter is configured such that a range of messenger cable sizes can be advantageously accommodated. In addition, the adapter includes provisions for diminishing rotation during installation thereby simplifying the procedures for coupling aerial closures and cable terminals to a messenger cable. | ||||||
| 236 | Tool-free detachable electric power connector | US566385 | 1975-04-09 | US3942855A | 1976-03-09 | Philippe de Villemeur |
| This connector consists of metal wire sections having a round or oval cross-sectional contour, which are equal in number to the electric conductors to be interconnected, each section comprising a straight or curved central portion, according to the particular position and orientation of the end portions of the electric conductors to be interconnected, and curved end portions bent to an arcuate configuration having a center angle of less than 180.degree. to constitute a highly resilient loop, said wires consisting to this end of a high-grade steel core having a tensile strength of more than 80 kilograms per square millimeter and preferably of the order of 120 kg/sq.mm., coated with a copper layer having a thickness in excess of 0.3 mm and preferably of the order of 0.5 mm. This connector may be used notably for interconnecting electric conductors of the current lead-in type as depicted in the U.S. Pat. No. 3,777,300. | ||||||
| 237 | Method of connecting a contact pin to laminated bus bars | US29001372 | 1972-09-18 | US3893233A | 1975-07-08 | GLOVER DOUGLAS WADE |
| A bus bar of laminar construction useful for power distribution systems and the like is disclosed which features an improved contact pin arrangement for providing input, output, and ground connections to the bus bar, together with an improved method of fabricating the bus bar and installing the contact pins or posts. The bus bar comprises a plurality of metallic conductors in sheet form separated by insulator films in a laminated structure, alternate conductor sheets serving as ground planes with the power signal conductors interleaved between the ground conductors. The conductor sheet - insulator film sandwich is clamped between cover members of phenolic or glass epoxy and the whole is encapsulated in a semi-rigid epoxy which extends between and under the conductor sheets at one end thereof. Finally, a series of holes is drilled through the laminated structure thus formed and particularly through the conductor sheets and semirigid epoxy and metallic pins or posts are inserted under force into these holes to effect a mechanical and electrical connection of high quality with the separate signal conductors and ground conductors for external access to the elements of the bus bar. The post or pin is larger in cross-sectional area than the hole and at least one cross-sectional dimension of the pin through the center of the cross-section is larger than the diameter of the hole. A bead of an epoxy adhesive is placed over the hole prior to pin insertion. Insertion of the pin then carries only so much epoxy therewith as will go into the hole to provide additional adhesion of pin to bus bar as well as hermetic seal.
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| 238 | Electrical terminal | US38540473 | 1973-08-08 | US3865459A | 1975-02-11 | MILLS TERENCE L |
| An electrical terminal comprises a U-shaped sheet metal body with slits or slots in the legs of the body extending inwardly from the edges thereof intermediate the opposite end of the body. These slits or slots define shoulders for abutting the surface of a printed circuit board. The sections of the legs below the slits or slots are flared outwardly so that as the terminal is inserted into the printed circuit board those leg lections will yield and then snap outwardly to underlie and provide a positive lock with the circuit board. The bight of the U-shaped body also has an outwardly struck projection that engages the printed circuit board to enhance stability of the terminal thereon. The trailing end of the body can be used as a wire wrap terminal or may be inserted into a connector.
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| 239 | Plug-in circuit element | US39619273 | 1973-09-11 | US3860323A | 1975-01-14 | FISCHER ARTUR; PORLEIN GERHARD; KILLGUS THEO |
| A support member of a circuit element is provided with openings extending therethrough, and in each of these openings there is lodged one contact sleeve which is provided with a center passage having one end portion whose cross section is circular and which is adapted to accommodate a contact pin, and another end portion whose cross section is convergent in direction away from the first-mentioned end portion and whose smallest cross section is somewhat less than the cross section of a contact wire. In the region of the convergent end portion the sleeve is provided with an axial slot so that it can be somewhat expanded. Thus, the circuit element can be used with both contact pins and contact wires, at the will of a user.
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| 240 | Sleeve joint for aluminum sheathed cable | US3711628D | 1971-02-03 | US3711628A | 1973-01-16 | HANSSON H |
| A sleeve joint for aluminum sheathed cable, particularly when jointing signal telephone and power cables, comprises an aluminum tube whose interior diameter is somewhat larger than the exterior diameter of the aluminum sheathed cable. Both ends of the tube are provided with slots forming a number of tongues which are deformable so that their extremities can be bent down to bear against the sheathed cable. The tongues and the continuous part of the tube are coated on their inside as well as their outside surfaces with a wiping solder consisting of lead, tin, zinc and antimony in special proportions.
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