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 |
|---|---|---|---|---|---|---|
| 81 | Terminal block with integral heat sink and motor provided therewith | US13404331 | 2012-02-24 | US09105990B2 | 2015-08-11 | Daisuke Akuta |
| A terminal block (10) to be fixed to a motor case (C) which houses a motor body and includes a coolant flow path (C1) and adapted to fasten busbars by tightening bolts includes nuts (30) for tightening the bolts, and a heat sink (40) made of aluminum die-cast and held in close contact with the nuts (30) via an insulation plate (20) behind the nuts (30). The heat sink (40) includes a heat radiating portion (46) which comes into contact with cooling water passing in the coolant flow path (C1) of the motor case (C). | ||||||
| 82 | Terminal-supporting apparatus | US13616043 | 2012-09-14 | US09086304B2 | 2015-07-21 | Takehito Mizunuma; Takamitsu Kubota; Toru Shimizu; Yoshiyuki Kono |
| A terminal-supporting apparatus includes a resin part made of non-conductive resin material and a plurality of conductive terminals including parallel terminal portions which are directly supported by the resin part. The parallel terminal portions are electrically connected to each other through an electric element. The resin part supporting the parallel terminal portions is made of non-conductive resin material mixed with non-conductive reinforced fibers of which thermal expansion coefficient is smaller than that of the non-conductive resin material. An extending direction of the parallel terminal portion is referred to as a longitudinal direction and a direction perpendicular to the longitudinal direction is referred to as a perpendicular direction. The non-conductive reinforced fibers have a fiber direction which is substantially the same as the perpendicular direction. | ||||||
| 83 | CONNECTOR | US14291171 | 2014-05-30 | US20150024640A1 | 2015-01-22 | Eiichi YAMADA; Koji CHIKANO; Ryo SUMIYA |
| A connector having a housing and a terminal made installed therein is disclosed. The terminal has a base portion held by the housing, a first contact member connected on one end to the base portion in the longitudinal direction, and a pair of second contact members connected to the ends of the base portion in the longitudinal direction. The first contact member includes a first contact portion in the vertical direction. Each second contact member includes a second contact portion in the vertical direction. The pair of second contact members is arranged linearly in the longitudinal direction of the base portion. The first and second contact members are arranged in the transverse direction of the base portion. The first contact portion and the second contact portion are positioned on the base portion. | ||||||
| 84 | Battery connector | US13674942 | 2012-11-12 | US08764479B2 | 2014-07-01 | Nai-Chien Chang |
| A battery connector is disclosed. The battery connector is disposed in a mounting side of a motherboard, and an input/output port is positioned on the mounting side for inserting outer connectors. Wherein, the electric connector includes a connector body having a battery accommodating space for accommodating the battery. The connector body is located on the mounting side and the input/output port is positioned on the mounting side. The computer case has a slot near the input/output port, and the slot is disposed corresponding to the battery accommodating space. | ||||||
| 85 | POKE-IN CONNECTOR | US12211991 | 2008-09-17 | US20100068925A1 | 2010-03-18 | Christopher George Daily |
| A connector having a housing and a contact are described. The connector includes an electrically conductive contact and a housing. The housing has a cavity to receive and secure the contact, a first alignment feature for receiving a first conductive cable into the contact and a second alignment feature for receiving a second conductive cable into the contact. The housing also includes at least one attachment point protruding from the housing to attach and secure the connector to a surface and at least one flexible flange to substantially prevent movement of the connector on a surface. The contact receives and secures the first conductive cable and the second conductive cable to provide an electrical connection between the first conductive cable and the second conductive cable. The attachment point attaches and secures the connector to a surface. | ||||||
| 86 | Electrical connecting apparatus for flat conductors | US12287298 | 2008-10-08 | US07632109B2 | 2009-12-15 | Matthis Boensch; Thorsten Beck; Wolfgang Schild |
| A connector assembly for connecting the flat conductors of a photovoltaic panel with an electrical component, such as a diode, printed circuit or the like, includes a conductor support body having a base portion adapted for connection with the photovoltaic panel, and a bridge portion carrying a plurality of flat seats with edges around which the free ends of the flat conductors are bent, respectively. A bus bar is provided for each flat conductor, each bus bar including a pair of resilient contacts arranged for engagement with the portion of the associated conductor that is bent around the conductor seat. A protective housing encloses the bus bars and at least the bridge portion of the support body, which housing contains openings for receiving output cables the ends of which are connected with the bus bars. | ||||||
| 87 | Electrical breadboard assembly | US10161074 | 2002-05-31 | US06685483B2 | 2004-02-03 | Eric Blauvelt |
| A transparent base supports two or more socket boards side-by-side. Binding posts are arrayed on the longer side of one rectangular socket board. Turning the assembly over allows the user to see how the sockets are connected to the busbars on the backsides of the side-by-side socket boards. | ||||||
| 88 | Electrical box for providing electrical power and low voltage signals to a building | US10087983 | 2002-03-05 | US20030171039A1 | 2003-09-11 | Forrest L. Pierson JR. |
| An electrical box is provided for receiving an electrical unit. A low voltage section is configured to provide a low voltage connection, wherein a barrier isolates the low voltage connection. A high voltage section is separated from the low voltage section via the barrier to provide a high voltage connection. The high voltage section includes a plurality of bus bars, and a plurality of displacement connectors that are coupled to the plurality of bus bars and are configured redundantly to accept wires. | ||||||
| 89 | Electrical outlet box | US09602884 | 2000-06-26 | US06259023B1 | 2001-07-10 | Kenneth H. Reiker |
| An electrical outlet box includes channels in a female member for receiving in spaced apart relationship three conductors of an uncut electrical cable. One or more sets of three receivers mounted in a male member for electrically engaging each conductor interconnects the conductors of the cable and defines an electrical socket of a socket assembly of the electrical outlet box. A cover is attachable to the male member for covering the space between the socket assembly and the surrounding wall board aperture. Fittings are included and formed as part of the electrical outlet box to permit back to back attachment of a pair of electrical outlet boxes and for side by side mounting in a ganged manner of two or more electrical outlet boxes. Routing of the cable in slots in the studs of a wall is described along with a retainer for retaining the cable in the slots. | ||||||
| 90 | Universal contact receptacle | US732502 | 1996-10-29 | US6000974A | 1999-12-14 | Georghe Hotea |
| A contact receptacle (4) for an electrical terminal (2) having a plurality of terminal receiving regions (12, 14) defined by a plurality of spring arms (16a-b) each of which including a terminal engaging section (20, 21) that corresponds to each of the terminal receiving regions (12, 14) for engaging a tab terminal (8) selectively disposed in one of the regions (12, 14). Furthermore, a terminal mating portion (30) is provided to be received within at least two of the terminal receiving regions (12, 14). | ||||||
| 91 | Electrical connector for conductive leads | US426546 | 1995-04-21 | US5595505A | 1997-01-21 | Christopher J. Duke; Frank Wheeler-King; Michael J. Whelan |
| An electrical connector for electrically connecting leads to a device having a contact with a first end for electrically engaging the lead and a second end for electrically engaging the device. The contact is retained within a housing. A fastener maintains engagement of the lead with the contact. The connector being characterized in that the forces exerted to maintain the lead in electrical engagement with the contact by way of the fastener are isolated from the insulative body. | ||||||
| 92 | Cross connect system for telecommunications systems | US176094 | 1993-12-30 | US5504654A | 1996-04-02 | George J. Knox; William D. McKittrick |
| A cross connect system for telecommunication wires reduces the required time to install and effect cross connections if the wire connections are made by hand and changes are made between circuits by unplugging a modular plug and plugging it in at a different position. The connector of the present invention has a terminal block accepting a plurality of plugs connected each to a pair of wires and the plugs fit onto the terminal block or can be stacked on each other for half tapping, testing or transferring. Protected plugs may be provided having overvoltage protection circuits, and jumper plugs may be stacked onto such protected plugs. | ||||||
| 93 | Cross connect system for telecommunications systems | US927712 | 1992-08-17 | US5281163A | 1994-01-25 | George J. Knox; William D. McKittrick |
| A cross connect system for telecommunication wires reduces the required time to install and effect cross connections if the wire connections are made by hand and changes are made between circuits by unplugging a modular plug and plugging it in at a different position. The connector of the present invention has a terminal block accepting a plurality of plugs connected each to a pair of wires and the plugs fit onto the terminal block or can be stacked on each other for half tapping, testing or transferring. Protected plugs may be provided having overvoltage protection circuits, and jumper plugs may be stacked onto such protected plugs. | ||||||
| 94 | Lay-in pedestal connector bar and method | US848673 | 1992-03-09 | US5199905A | 1993-04-06 | David R. Fillinger |
| A connector bar for use in above grade pedestals for the distribution for underground electrical power to residential housing includes a body member having a pair of completely enclosed cable openings for receiving the main power line cables and partially enclosed wire openings within the body member for receiving distribution cables. Each distribution cable is trimmed to the proper length by placing it adjacent the connector bar and cutting the connector approximately flush with the top of the bar and the insulation is trimmed from the cable at a location just below the connector bar. After these steps have been accomplished, the cable is installed into the connector bar by laterally placing it into the partially enclosed opening and securing it in place by means of the set screw. | ||||||
| 95 | High density connector module | US863368 | 1992-04-01 | US5160282A | 1992-11-03 | John D. Swaffield; John T. Doyle |
| A contact element of unitary construction, the contact element including a plurality of contact element mating portions which are connected via serpentine portions. The contact element being used in connector modules and providing both electrical connection and mechanical retention. | ||||||
| 96 | Terminal block and adapter | US601023 | 1990-10-23 | US5069636A | 1991-12-03 | Gerald L. Shimirak; Paul S. Chan; John Kay; Jim Croce; Van L. Huynh; John Swinmurn; Eric Bierlein |
| This invention provides a terminal block or an adaptor where the binding posts and the caps which screw on the binding posts are adapted to receive small wires without breaking or cutting the wires when the cap is installed with normal installation torque for binding posts. The binding posts and cap can also receive large gauge wires and make connection therewith through the insulation on the wire without cutting or braking the conductor in the wire. | ||||||
| 97 | Connector assembly | US607944 | 1990-11-01 | US5046959A | 1991-09-10 | Dan E. Robbins; Charles G. Kozlowski; Archie L. Epperson |
| A connector assembly having a signal post receptacle subassembly and a ground post receptacle subassembly. The signal post receptacle assembly has a connector shell which is mounted on an electrical assembly chassis, and has an electrical insulation board which is supported by the connector shell, and has a group of signal posts extending through and supported by the electrical insulation board, and having a retainer plate assembly fixedly attaching the electrical insulation board to the connector shell. The ground post receptacle subassembly has a ground post plate mounted on the retainer plate assembly, and has a group of ground posts with each ground post being fixedly connected at one end thereof to the ground post plate. An electrical grounding path extends from each ground post, through the ground post plate, retainer plate assembly, and connector shell, to the electrical assembly chassis. | ||||||
| 98 | Wire termination connector and terminal block | US457572 | 1989-12-27 | US4995829A | 1991-02-26 | Lawrence E. Geib; William R. Bailey; James S. Zielinski |
| A connector provides wire termination, without the need for any tools, facilitating electrical connection and trimming of excess wire by way of pressure applied by a human finger. Connection is accomplished by means of a rotational mechanism comprising an insulative base housing, a conductive electrical terminal and a non-conductive cam lever. The cam lever is configured around a rotating hub and has a wire passageway therethrough. the conductive electrical terminal, has a first insulation displacement contact and a second feedthrough/trimming contact, and fits slidably in the insulative base housing. With a wire installed through the wire passageway and feedthrough/timming contact, manual rotation of the cam lever and exertion of finger pressure terminates the wire in the conductive terminal and trims excess wire. A detent retains the cam lever in the engaged position. Reverse rotational movement of the cam lever frees the wire for removal. | ||||||
| 99 | Wire termination block | US439634 | 1989-11-21 | US4964812A | 1990-10-23 | John A. Siemon; Brian Reed |
| A wire connecting system which includes a pair of mating connectors for effecting electrical cross connections between a first set of of conductors and a second set of conductors is presented. The two mating connectors are known by the terms "wiring block" and "connecting block" wherein the wiring block provides evenly spaced receptacles for the first wire conductors that hold them in alignment for engagement with a plurality of insulation penetrating slotted beam contacts carried by the connecting block. The plurality of insulation penetrating slotted beam contacts housed by the connecting block are double ended such that, once the first set of wire conudctors are terminated, a second set of wire conductors are then indexed and retained by the connecting block for subsequent termination to the opposing ends of the insulation penetrating contacts by a tool or end cap designed for such a purpose. The connecting block employs a novel one piece structure which both forms the connector block housing as well as provides retention means for positioning and retaining the slotted beam contacts. These retention means comprise retention posts which are flash molded onto the side of the connecting block during the molding operation. Upon insertion and positioning of a plurality of beam contacts within the connecting block housing, pressure is exerted against the retention posts thereby breaking the flash molding and forcing the posts through positioning holes in the contacts. Thereafter, the post tips are peened in place providing permenant but free floating connection between the contacts and the connecting block housing. Still another important feature of the present invention is the novel use of a "zero gap" insulation displacement connector in the slotted beam contact. | ||||||
| 100 | Electrical high current industrial oven or fryer compression connection | US105676 | 1987-10-08 | US4831240A | 1989-05-16 | Kenneth F. Davis |
| Industrial electric ovens and fryers of the type used for cooking precooked foods such as meats prior to packaging of the food draw high currents which tend to melt internal electrical connections. An industrial heating device includes compression-type electrical connections which reliably carry high currents and are capable of withstanding high voltage levels without breaking down. Compression-type electrical connections are used instead of the screw-type connections of the prior art to insure that all electrical connections have reliable, relatively large current-carrying cross-sectional contact areas. The electrical connection matrix of the resulting industrial heating device has increased current-carrying capacity and is much more reliable and resistant to electrical failure. | ||||||
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