| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 具有汇流条的电接线盒 | CN00100902.8 | 2000-01-04 | CN1259781A | 2000-07-12 | 笠井浩二 |
| 一种例如用于车辆中的电接线盒,它具有一条汇流条(10),该汇流条具有一个脊骨,该脊骨包括许多单片的金属板条零件(11—1,11—2,等),这些单片的金属板条零件通过其相互重叠部分连接在一起,和许多金属板单片端子零件(12—1,12—2等),每个金属板端子零件具有一个底脚部分和一个端子成形部分。底脚部分布置成平面抵靠住脊骨并与所述脊骨连接。该汇流条可以经济的方式很容易的制造,并适合各种构造。 | ||||||
| 2 | Bus bar unit | JP2007096027 | 2007-04-02 | JP2008259259A | 2008-10-23 | OTSUJI MOTOFUMI; KATAOKA HIROSHI |
| <P>PROBLEM TO BE SOLVED: To solve the matter of a bus bar unit that since the joints of conductive wires are arranged on one side, spacing between the joints of conductive wires is narrow and thereby connection work of conductive wires is complicated. <P>SOLUTION: The bus bar unit 30 comprises a bus bar holder 31, and a plurality of bus bars 41-43 and 51-53. Grooves are formed in the planar portion 32 of the bus bar holder 31 and the bus bars 41-43 are contained therein. The bus bars 41-43 have the joints 411, 421 and 431 of conductive wires arranged on the planar portion side of the bus bar holder 31. Grooves are also formed in the base portion 33 of the bus bar holder 31 and the bus bars 51-53 are contained therein. The bus bars 51-53 have the joints 511, 521 and 531 of conductive wires arranged on the base side of the bus bar holder 31. With such an arrangement, the conductive wires wound into the coil of armature are connected with the joints 411-431 and 511-531 of conductive wires. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 3 | モータ | JP2016079966 | 2016-10-07 | JPWO2017061608A1 | 2018-07-26 | 伊賀 知輝; 村上 俊輔; 芳賀 英博 |
| モータはステータコアと複数のコイルを有するステータと、コイルの軸方向一方側に配置される複数の中性点バスバーとを備える。ステータコアは、環状のコアバックから径方向に延びる複数のティースを有し、複数のコイルはそれぞれティースの周囲に巻き回された導線からなる。複数のコイルは、第1制御系統に属する第1コイル群と、第2制御系統に属する第2コイル群とを含む。複数の中性点バスバーは、第1コイル群に含まれるコイルと接続される第1中性点バスバーと、第2コイル群に含まれるコイルと接続される第2中性点バスバーとを含む。複数の中性点バスバーの少なくとも2つが、径方向に重なる位置に配置される。 |
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| 4 | モジュール式バスシステム | JP2017549774 | 2016-03-23 | JP2018514904A | 2018-06-07 | ムラー,フランク; ヴァームター,ピーター |
| モジュール式バスシステムは、基部及び長手方向軸を有する支持レールと、該支持レール上に取り付け可能な少なくとも1つの基部モジュールと、該モジュール式バスシステムと通信するための電気コネクタ及び電子装置を含む少なくとも1つの入力/出力機能モジュールとを備え、該基部モジュールが、該電気コネクタに電気的に接続される少なくとも2つの第1の電気コネクタの少なくとも1つのグループが接続されたバックプレーンプリント基板を有して、該入力/出力機能モジュールに電気的に接続され、該少なくとも1つのグループの該少なくとも2つの第1の電気コネクタが、該支持レールの長手方向に対して垂直に延びる想像線に沿って順に配置されて、該支持レールの基部が位置する平面内又は該基部と平行な平面内に位置し、該電気コネクタが、該少なくとも1つの基部モジュールの電気コネクタの一方に電気的に接続されるように構成される。【選択図】図10 | ||||||
| 5 | Distribution equipment | JP2007000447 | 2007-01-30 | JP3133744U | 2007-07-26 | 啓文 鄭 |
| 【課題】2のレールを連結ユニットを介して強固に接続することができる配電装置を提供する。
【解決手段】連結ユニット4は、壁に取付けるベース41と、該ベース41に覆うカバー42とから中空状ケース体を形成し、該ケース体のレール2、2と連結する両端にそれぞれレール2、2を連結する挿入口40、40をそなえている。 この例では、挿入口40、40として、ベース41の連結端を切欠いて形成される。 連結ユニット4の挿入口40側に、レール2の係止孔27に引っ掛かけられるフック43が設けられ、フック43は係止孔27に引っ掛かけられレール2と連結ユニット4とを強固に連結して定位できる。 この例では、フック43は、ケース体の外部に向いてベース41からカバー42へ斜めに斜面43aが形成されている。 【選択図】図4 |
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| 6 | MODULAR BUS SYSTEM | US15560016 | 2016-03-23 | US20180069359A1 | 2018-03-08 | Frank MÜLLER; Peter WERMTER |
| A modular bus system including a support rail having a base and a longitudinal axis; at least one base module, mountable on the support rail, for electrical connection to at least one input/output functional module having a backplane printed circuit board with at least one group of at least two first electrical connectors connected thereto, for electrical connection to an electrical connector of an input/output functional module, the first electrical connectors of the group arranged one after the other along an imaginary line that extends perpendicular to the longitudinal direction of the support rail and lie in a plane in which the base of the support rail is located or which is parallel to the base; at least one input/output functional module having an electrical connector and an electronic device for communication with the modular bus system, the electrical connector of the input/output functional module configured for electrical connection to one of the electrical connectors of the base module. | ||||||
| 7 | TERMINAL STRIP AND TERMINAL STRIP BLOCK | US15121396 | 2015-01-26 | US20160372846A1 | 2016-12-22 | Dennis Habirov; Torsten Schloo; Harry Bentler; Olaf Schyrocki |
| A terminal strip for latching onto a mounting rail includes a terminal housing that has a first connection side and a second connection side and a busbar arranged in the terminal housing. At least two conductor connection elements are arranged in the terminal housing. The conductor connection elements each connect at least one conductor to the busbar. Each conductor connection element has a first function shaft having at least one plug-in connection receiving region and at least a second function shaft having at least one screw-connection receiving region arranged on each of the two connection sides of the terminal housing. One connection region is formed for each plug-connection receiving region and for each screw-connection receiving region in the busbar. The function shafts of one connection side are arranged in a manner spaced apart from one another. | ||||||
| 8 | HORIZONTAL T-JUNCTION BLOCK ASSEMBLY | US12835797 | 2010-07-14 | US20140065882A1 | 2014-03-06 | Norman R. Byrne |
| A horizontal junction block assembly (200) is disclosed having a receptacle block region (214) extending through a lateral or front surface (212) of the assembly (200). An internal wiring assembly (226) connects a horizontal terminal group (229) to a vertical male terminal set (262) which extends upwardly through a vertical junction block terminal housing (244). A vertical cable assembly (280) having a vertical cable connector (284) is connectable to the vertical male terminal set (262). | ||||||
| 9 | System and method for distribution of electrical power | US12045129 | 2008-03-10 | US07527521B2 | 2009-05-05 | Richard J Rubin; Lawrence A Ellis |
| An electrical power distribution system that includes a circuit splitting mechanism configured to receive electrical power and to output a plurality of separate electrical circuits having a modular connector that has a plurality of contacts, each contact connected to one circuit of the plurality of separate electrical circuits. Each contact of the modular connector is selected to conduct at least one of an elevated current and an elevated voltage. Each connector is connected to a plurality of wires that extend through a housing that routes and connects the wires to one or more additional connectors positioned at a distal location, typically via a distribution housing having the additional connectors mounted on the housing, for connecting/routing the power from the separate circuits to one or more mechanisms positioned at a distal location that use the electrical power. | ||||||
| 10 | Press fit connection for mounting electrical plug-in outlet insulator to a busway aluminum housing | US11647061 | 2006-12-28 | US07517235B2 | 2009-04-14 | Sandeep P. Bagewadi; Steven E. Richard; Trey Coley; Jeffery Lynn Cox |
| A molded plastic outlet box for electric busway systems comprising: a molded plastic base comprising a plurality of press-fit tabs for attachment of the base to a housing of the electric busway system disposed about a bottom surface of the base. | ||||||
| 11 | Busbar unit for an electric motor | US12060373 | 2008-04-01 | US07514829B2 | 2009-04-07 | Motofumi Otsuji; Nakaba Kataoka |
| A busbar unit includes a busbar holder and a plurality of busbars. The busbar holder has a first surface and a second surface on both sides in an axial direction, respectively. The first surface is provided with grooves in which one or more busbars are accommodated. The busbar in the groove of the first surface is provided with a wire connector portion on the first surface. The second surface is also provided with grooves accommodating remaining busbar(s) therein. The busbar(s) in the groove of the second surface is provided with a wire connector portion on the second surface. To each wire connector portion, a conductive wire forming a coil winding of an armature of a motor is connected. | ||||||
| 12 | System and method for distribution of electrical power | US11782262 | 2007-07-24 | US07419388B2 | 2008-09-02 | Richard J Rubin; Lawrence W Ellis |
| An electrical power distribution system includes a circuit splitting mechanism configured to receive electrical power and to output a plurality of separate electrical circuits. A connector has a plurality of contacts, each contact connected to one circuit of the plurality of separate electrical circuits and each contact is selected to conduct at least one of an elevated current and an elevated voltage. A plurality of wires in a tubular housing is provided to carry the power over the plurality of separate electrical circuits in parallel and includes a connector with contacts. The wire and the contacts are each selected to conduct at least one of an elevated current and an elevated voltage. The system includes connectors and contacts that are arranged and adapted to enable a contact to be readily manually engaged with, and disengaged from, a corresponding contact. | ||||||
| 13 | SYSTEM AND METHOD FOR DISTRIBUTION OF ELECTRICAL POWER | US11782262 | 2007-07-24 | US20070263346A1 | 2007-11-15 | Richard Rubin; Lawrence Ellis |
| An electrical power distribution system includes a circuit splitting mechanism configured to receive electrical power and to output a plurality of separate electrical circuits. A connector has a plurality of contacts, each contact connected to one circuit of the plurality of separate electrical circuits and each contact is selected to conduct at least one of an elevated current and an elevated voltage. A plurality of wires in a tubular housing is provided to carry the power over the plurality of separate electrical circuits in parallel and includes a connector with contacts. The wire and the contacts are each selected to conduct at least one of an elevated current and an elevated voltage. The system includes connectors and contacts that are arranged and adapted to enable a contact to be readily manually engaged with, and disengaged from, a corresponding contact. | ||||||
| 14 | METER CENTER AND MULTI-PHASE MULTIPLE METER SOCKET ASSEMBLY THEREFOR | US11337044 | 2006-01-20 | US20070171602A1 | 2007-07-26 | Paul Seff; Serle Cupp; Marc Schoonover; James Campbell |
| A multi-phase multiple meter socket assembly is for a meter center including a plurality of meters. The meter socket assembly includes meter sockets each receiving one of said meters, feeder buses, supply buses, and a plurality of phase connectors. Each of the supply buses has at least one section, and each phase connector electrically interconnects a corresponding one of the at least one section of each of the supply buses with a corresponding one of the feeder buses. At least one of the supply buses is divided in order to include as the at least one section, first and second sections, the first section being in electrical communication with a first one of the feeder buses and the second section being in electrical communication with a second one of the feeder buses. In this manner, the meters are provided with a plurality of phase configurations within the same cabinet. | ||||||
| 15 | Data bank providing connectivity among multiple mass storage media devices using daisy chained universal bus interface | US11045741 | 2005-01-28 | US07008234B1 | 2006-03-07 | Donald L. Brown |
| A data storage system that houses at least two mass storage devices in an enclosure, along with all interconnect cabling electronics to permit access through a shared universal-type interface. An enclosure houses multiple mass storage devices such as disk drives. A set of bridges located within the enclosure provides connectivity from the disk interface to the universal-type bus. Bridge outputs are coupled to a universal hub also located within the enclosure to provide a single port interface to the array of disks. The arrangement thus provides for connectivity to multiple mass storage devices housing in a single enclosure with a single universal bus interface. | ||||||
| 16 | Switch/power drop unit for modular wiring system | US10193954 | 2002-07-11 | US20030010520A1 | 2003-01-16 | Michael D. Ewald; Eddie Tucker JR. |
| An assembly for connecting a pre-wired electrical device into a modular wiring system. The electrical device is mounted in a junction box having a knockout hole. Device wiring connects the electrical device through the knockout hole to a connector plug. Cable wiring connects a modular wiring system power tap connector to a connector socket. The cable wiring runs through a flexible conduit sheath. A knockout connector is connected to the flexible conduit sheath. The connector plug connects to the connector socket. The major width of the connector plug/socket combination is less than the diameter of the knockout hole such that the connector plug/socket combination may be pushed into the junction box through the knockout hole. The knockout connector can then be attached to the junction box at the knockout hole. The power tap connector housing, flexible conduit sheath, knockout connector and junction box are all made of nonflammable materials. | ||||||
| 17 | Pre-formed electrical wiring system | US3715627D | 1971-05-13 | US3715627A | 1973-02-06 | D AUSILIO R |
| An electrical wiring system which includes a pre-formed, conductive, main trunk line and a plurality of off-shoot lines having two or more conductive wires embedded within a molded body of insulation, and at least one soft metal wire to enable preforming of the lines for installation within a molded structure. The system also includes components such as a main circuitbreaker box, individual plug-in circuit breakers, receptacles, light switches, and dummy blocks which are used when forming the molded structure to provide openings therein to receive the various components.
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| 18 | Prefabricated wall system | US3708607D | 1971-03-18 | US3708607A | 1973-01-02 | BRODE E; KLEINNEIUR J |
| A prefabricated wall system employing laminar wall panels formed from an expanded high density polystyrene core bonded to two outer skins, the panels being mounted on tracks provided by a longitudinally extending base rail which has hollow electrical ducts therein. Removable cover plates carrying electrical service outlets conceal the base rail ducts, and a hollow trim member is removably secured to a panel to carry wiring vertically from the base rail.
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| 19 | Terminal | US14640803 | 2015-03-06 | US09300060B2 | 2016-03-29 | Burkhard Niemann |
| A terminal strip comprising an insulating housing and three busbar sections and comprising a disconnecting blade opening and a plug-type receptacle for a component plug connector is described.The insulating housing has a channel, which leads from the first busbar section to the second busbar section, for receiving an electrically conductive bridging element. The bridging element is electrically conductively connectable or connected to the first and second busbar sections. | ||||||
| 20 | ELECTRICAL POWER INFEED SYSTEM | US14636273 | 2015-03-03 | US20150255981A1 | 2015-09-10 | Norman R. Byrne; Roger D. Burdi; Timothy J. Warwick |
| An electrical power infeed module for modular electrical power systems selectively provides power to one or more electrical outlets in the system from a single power source, regardless of the number of power sources are engaged by power infeed modules in the system. The power infeed module includes a power infeed cable, a power output cable, and an electrical circuit disposed between the power infeed cable and the power output cable, the electrical circuit being operable to selectively connect the power output cable to the power infeed cable if the power infeed cable is connected to a first power source and the power output cable is not already electrically energized by a second power source. The circuit includes an electrical switch, a sensor for detecting whether the power output cable is electrically energized, and a controller for operating the switch in response to a signal from the sensor. | ||||||
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