| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Repositionable Cord Mounts for Data Communication and Power Supply | US13772423 | 2013-02-21 | US20140057487A1 | 2014-02-27 | William May |
| Repositionable cord mounts which have sufficient yield strength to support an electronic device in a desired orientation so that, for example, the screen of a smartphone can be elevated and/or positioned at any desired elevated position and inclined angle while being supported entirely by a cord mount. The cord mounts comprise plugs having plug bodies, typically formed of a polymeric material, from which electrical connectors extend. The surface of the plug body from which the conductive portions extend is referred to herein as the “protrusion surface”. All support for an electronic device connected to a plug is provided by one or more male portions and the protrusion surface. | ||||||
| 142 | CONNECTOR ASSEMBLY | US13490479 | 2012-06-07 | US20130316555A1 | 2013-11-28 | YU HAN; JUN-HUI WANG; LI-REN FU |
| A connector assembly includes a connector body, a connecting portion formed on a bottom of the connector body, a number of cables extending up from a top of the connector body, and a cable cover. The cable cover includes a receiving member having a substantially U-shaped cross-section. The receiving member defines a receiving slot in a bottom and an opening in an end. The receiving member is attached to the connector portion through the receiving slot. The cables are bent toward one of opposite ends of the connector body to extend out of the receiving member through the opening. | ||||||
| 143 | Rigid to elastic electrode connection | US13298010 | 2011-11-16 | US08550823B2 | 2013-10-08 | Philippe Menardo; Arnaud Fourmon; Philippe F. Jean; Ambroise A. Wattez |
| An electrical connection assembly (70, FIGS. 4-7) connects a cable conductor (82) of stiff material such as a copper wire, to a deformable electrode (34, FIG. 5) that lies at the surface of a sheet of elastomeric material (74). The connector assembly includes deflectable elastomeric walls that form a cavity (76) that holds an electrically conductive fluid (84) such as an electrolyte that surrounds and engages the stiff conductor (82) and that engages the elastic electrode (34) as it deflects. | ||||||
| 144 | ELECTRICAL CONNECTOR ASSEMBLY | US13779208 | 2013-02-27 | US20130230996A1 | 2013-09-05 | David Allen Klein; Donald Robert Worthington, JR.; Matthew Chris Peterson |
| An electrical connector assembly includes a housing having a front end and a rear end and including housing channels extending axially from the front end to the rear end for holding a wire assembly. The connector assembly includes a stabilizer having a front end and a rear end. The stabilizer includes supports extending from the front end with support channels along a longitudinal axis of the stabilizer. The stabilizer is coupled to the rear end of the housing so that the support channels align with the housing channels to accept corresponding wire assemblies therein. A front retaining feature holds the stabilizer to the housing. A rear retaining feature holds the wire assemblies to the stabilizer. | ||||||
| 145 | HOUSING FOR ELECTRICAL CONNECTION BETWEEN A FOIL CONDUCTOR AND A CONDUCTOR | US13813417 | 2011-07-21 | US20130224990A1 | 2013-08-29 | Bernhard Reul; Andreas Schlarb |
| A housing having an electrical connection between a conductor and a foil conductor is described. An inlet opening (8) of the housing is rounded off at entry edges thereof on at least one side for the foil conductor, such that the inlet opening increasingly expands in an outward direction. | ||||||
| 146 | ELECTRICAL CORD WITH WEAR RING | US13724492 | 2012-12-21 | US20130171866A1 | 2013-07-04 | James B.A. Tracey; Edwin N. Kretzschmar; Richard Ceraldi |
| An electrical cord can include a cord segment with a receptacle. The receptacle can have a surface and apertures that accept a plug to form an electrical connection between the plug and wires of the electrical cord. A wear ring can be on the receptacle. The wear ring can be at least as large as the receptacle in a transverse cross-section. The wear ring can inhibit or prevent at least a portion of the surface from contacting a ground surface when the receptacle is on the ground surface or is dragged along the ground surface. | ||||||
| 147 | Connector | US13253297 | 2011-10-05 | US08435068B2 | 2013-05-07 | Hiroyuki Oomori |
| A housing (10) made of synthetic resin is formed with a pair of interference surfaces (17A, 17B) symmetrical with respect to a virtual axis of symmetry (S) and oblique to the virtual axis of symmetry (S) and receiving portions (16) spaced apart from the interference surfaces (17A, 17B) in a direction of the virtual axis of symmetry (S). The upper and lower covers (21A, 21B) of wire (20) are formed with interference portions (27) that come into contact with only parts of the pair of interference surfaces (17A, 17B), and contact portions (26) that come into contact with the receiving portions (16). The interference portions (27) contact the interference surfaces (17A, 17B) and plastically deform when the housing (10) and the wire cover (20) are connected and the receiving portions (16) and the contact portions (26) are held in contact. | ||||||
| 148 | RIGID TO ELASTIC ELECTRODE CONNECTION | US13298010 | 2011-11-16 | US20120322274A1 | 2012-12-20 | Philippe Menardo; Arnaud Fourmon; Philippe F. Jean; Ambroise A. Wattez |
| An electrical connection assembly (70, FIGS. 4-7) connects a cable conductor (82) of stiff material such as a copper wire, to a deformable electrode (34, FIG. 5) that lies at the surface of a sheet of elastomeric material (74). The connector assembly includes deflectable elastomeric walls that form a cavity (76) that holds an electrically conductive fluid (84) such as an electrolyte that surrounds and engages the stiff conductor (82) and that engages the elastic electrode (34) as it deflects. | ||||||
| 149 | ASSEMBLY FOR SECURING A WIRE HARNESS TO A SENSOR COUPLER | US12962229 | 2010-12-07 | US20120138333A1 | 2012-06-07 | Jack A. Strahm, JR. |
| A coupler for connecting a vehicle wire harness to a vehicle sensor comprises a body having a first end and a second end. The first end is operably connected to the vehicle sensor. The second end is adapted to connect with a first section of the vehicle wire harness. An assembly is associated with the body for attaching a second section of the vehicle wire harness, which is spaced from the first section of the wire harness, to the coupler. The assembly includes an attachment member which is rotatable at least partially about a longitudinal axis defined by the coupler body. The rotation of the attachment member relative to the coupler allows the second section of the vehicle wire harness to be properly positioned relative to the coupler and the vehicle sensor. | ||||||
| 150 | Wire Cover, Wiring Method of Wires and Electrical Connector | US13190720 | 2011-07-26 | US20120028486A1 | 2012-02-02 | Yoshifumi Suemitsu; Ryuichi Komiyama; Kazushige Sakamaki |
| The invention provides a wire cover, a wiring method and an electrical connector that can ensure routing of wires even in a limited space. The connector includes a housing, a lever, and a wire cover. The lever is mounted to the housing, and the wire cover is mounted to a side of a back surface of the housing. The wire cover includes a cover body, a wire routing passageway, and a hood portion. The cover body includes a plurality of wire receiving passageways positioned in one direction, while the wire routing passageway is directed into an inside of the cover body. The hood portion protrudes from a circumference of the wire routing passageway and provides a leading direction out of the wire routing passageway. The hood portion extends in a direction other than a direction of extension from a front surface and the back surface of the cover body. | ||||||
| 151 | Electrical connector and a fabricating method thereof | US12714542 | 2010-02-28 | US07955136B1 | 2011-06-07 | Ming-Chun Lai |
| An electrical connector includes a shell, an insulating housing, a plurality of contacts and a pair of strengthening plates. The insulating housing is formed with a contact tongue plate. If the electrical connector is assembled, the contacts are inserted into the insulating housing. The strengthening plates are inserted in the contact tongue plate. The contact tongue plate with the contacts and the strengthening plates are received in the shell. The strengthening plates will improve the structure of the contact tongue plate of the electrical connector to resist an external force such as a pressing force of a mating connector. The strengthening plates can prevent the contact tongue plate of the electrical connector from deformation and damage. | ||||||
| 152 | ELECTRICAL POWER SYSTEM, METHOD AND ASSEMBLY HAVING NONCONDUCTIVE SUPPORT BAR | US12609441 | 2009-10-30 | US20110101805A1 | 2011-05-05 | Preston Shultz; Kevin Crowl |
| A method, system and assembly for transferring electrical power adapted to provide power to a grounded aircraft is provided. The assembly comprises a first and second insulated electrical conductor and a plug body, attached to ends of these conductors. A first contact and a second contact is provided within the plug body, having electrically conductive connections with the first and second conductors. A non conductive support bar disposed at least partially within the plug body separating at least portions of the first contact and the first conductor from the second contact and the second conductor. | ||||||
| 153 | PROTECTIVE DEVICE, PARTICULARLY FOR CONNECTION ELEMENT | US12933773 | 2009-03-25 | US20110005807A1 | 2011-01-13 | Jean-Rene Chesnais; Yann Batique; Jean Ferrand |
| A protective device includes a mechanical protective sheath (20) and a thermal protective nozzle (30) mounted at one end (21) of the mechanical protective sheath (20), the mechanical protective sheath (20) including a tubular textile structure that is deformable by compression in the longitudinal direction of the mechanical protective sheath (20), the textile structure having, in a longitudinal compression area, an expanded sheath portion (25) adapted to interact by the reversion of one end (32) of the thermal protective nozzle (30). The device can be used in particular for protecting an element (11) connecting to a sensor (12) of an engine (13). | ||||||
| 154 | CABLE CONNECTOR ASSEMBLY WITH IMPROVED WIRE ORGANIZER | US12688927 | 2010-01-18 | US20100184325A1 | 2010-07-22 | ZHU-QUAN XIAN; HUA-YING LIU; CHUNG-YEN YANG; WEN-XING TANG |
| A cable connector assembly (100), comprising an insulative housing (1); a plurality of terminals received in the insulative housing; a plurality of wires (12) electrically connected with the terminals and extending out the insulative housing, said wires comprises divided into first group wires (121) and second group wires (122), the diameter of the second group wires thicker than the first group wires; a plurality of flat boards (2) including a number of first flat boards (21) and a number of second flat boards (22), the second flat board larger than the first flat board, the first group wires organized by first flat board and corresponding first plasters (3) enlacing the first group wires and the first flat boards, the second group wires together with the first flat boards and the first plasters organized by second flat boards and the second plasters (3). | ||||||
| 155 | Rotatable video connector for cables and adapters | US11696046 | 2007-04-03 | US07435090B1 | 2008-10-14 | Tavis D Schriefer; Edward A Stanfield |
| An electrical connector is disclosed for conducting an electrical signal from a source, such as a video output device, to a destination, such as a video display device. The electrical connector includes a cable that has an outer sheath and contains at least one electrical conductor. An L-shaped plug is included that has a conduit therethrough for conveying each electrical conductor therethrough. A connector housing rotationally captures a proximal end of the plug and includes a jack electrically connected to at least one of the electrical conductors. The plug is preferably limited to rotation of approximately 270 degrees with respect to the connector housing, and includes a discernable detent every 90 degrees. As such, the cable may be rotated to any suitable position to facilitate the installation of the connector into the destination, but only through a limited arc. | ||||||
| 156 | Output terminal connection structure for vehicle generator capable of generating high and low voltages | US11822670 | 2007-07-09 | US20080032570A1 | 2008-02-07 | Toshiki Hitomi; Shigenobu Nakamura |
| The output terminal connection structure for a vehicle generator capable of generating a high voltage and a low voltage includes a high voltage output terminal provided in the vehicle generator, a high voltage lead terminal to be connected to the high voltage output terminal, a low voltage output terminal provided in the vehicle generator, and a low voltage lead terminal to be connected to the low voltage output terminal. At least one of the high voltage output terminal, the high voltage lead terminal, the low voltage output terminal, and the low voltage lead terminal is formed in such a shape or a structure that the low voltage lead terminal can be prevented from being connected to the high voltage output terminal. | ||||||
| 157 | USB connector with orientation adjustment | US11557504 | 2006-11-08 | US07234963B1 | 2007-06-26 | Kui-Hsien Huang |
| A USB connector with orientation adjustment is disclosed. The USB connector comprises a top cover, a connector seat with a cable slot, a cable rotating seat, cable and a bottom cover. The top cover is engageable with the bottom cover enclosing the connector seat and the cable rotating seat; the connector seat is a structure for connecting the branched wire of the cable, and the cable slot to the cable; the cable rotating seat is a circular seat plate having a pivot slot at the center of the rotating seat, and the bottom section of the circular seat plate is provided with a plurality of positioning holes and the lateral side of the circular seat plate is provided with through holes; the end of cable passes through the lateral through hole of the pivot slot of the cable rotating seat, and the branched cable is connected to the cable slot of the connector seat; the bottom cover is engaged with the top cover by means of peg and the covers encloses the connector seat and the cable rotating seat, and an engaging body mounted below the bottom cover is engaged with an engaging slot of the connector seat such that the connector seat exposes only a fixed length, and the rear section of the bottom cover is a protruded circular engaging plate which is directly pivotally mounted to the pivot slot of the cable rotating seat and is engaged at the positioning hole of the rotating seat by the positioning points. | ||||||
| 158 | Cable connector assembly and system | US10532839 | 2003-10-20 | US07223119B2 | 2007-05-29 | Gert Droesbeke |
| The invention relates to a cable connector assembly including cover means and connecting means, wherein the cover means include wall portions and an opening adapted to accommodate the connecting means. At least one of the wall portions is at least partially curved for guiding at least one cable of one or more other cable connector assemblies. Cable ties to attach the cable to the curved wall portion are disclosed are well. The invention facilitates cable management in dense and small cabinets. | ||||||
| 159 | Tool support | US10918729 | 2004-08-13 | US07150424B2 | 2006-12-19 | Michael B. Hopper |
| A support assembly is provided for suspending lightweight tools or other objects, such as hairdryers and the like. The assembly provides support and in particular embodiments, electrical power to the object suspended. In addition, the assembly provides management of the power cord. Embodiments of the assembly include a quick release electrical connector deployed between and configured to selectively electrically connect and disconnect the tool from a power supply and/or a gimbal assembly configured to permit rotation of the tool about first and second axes, the cord extending through the gimbal assembly. | ||||||
| 160 | Front access lan and timing (SATT) | US10864851 | 2004-06-09 | US07037143B2 | 2006-05-02 | Farid Aziz; Peter Ajersch; Lloyd Cosman |
| A recessed connectorized faceplate assembly for connecting multiple cables at the front of an electronics equipment shelf. The recessed connectorized faceplate assembly includes a connectorized faceplate defining the back wall of a cabling volume behind where a standard faceplate would normally be situated. The cabling volume has an aperture admitting cables routed from a cable trough situated between equipment shelves. The front of the cabling volume comprises a hinged faceplate granting access to the cabling volume. Access is via a pivoting panel forming one of the sidewalls. A bridging cable connecting the circuit card containing the faceplate to the backplane allows partial withdrawal of the card while maintaining connections. | ||||||
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