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 |
|---|---|---|---|---|---|---|
| 61 | Terminal block | JP2011046481 | 2011-03-03 | JP2012186882A | 2012-09-27 | AKUTA DAISUKE |
| PROBLEM TO BE SOLVED: To improve heat radiation performance of a heat sink without increasing a number of components.SOLUTION: A terminal block 10 is fixed to a motor case C which houses a motor body and is provided with a coolant passage C1, and a bus bar is fastened to the terminal block 10 by tightening a bolt. The terminal board 10 includes: a nut 30 for tightening the bolt; and a heat sink 40 which is made by aluminum die casting and closely contacts with a rear portion of the nut 30 through an insulation plate 20. A heat radiation part 46, which contacts with a coolant passing through the coolant passage C1 of the motor case C, is provided in the heat sink 40. | ||||||
| 62 | Electrical connection box | JP2010240915 | 2010-10-27 | JP2012094381A | 2012-05-17 | TAGANO MASAHIRO |
| PROBLEM TO BE SOLVED: To provide an electrical connection box having a new structure which allows a taper-shaped connection terminal to be stably positioned and held inside a terminal housing part without impairing connection operability.SOLUTION: A plurality of outer ribs 24a to 24e extending in an inserting direction of a connection terminal 56, and lateral ribs 50a and 50b are protrudingly formed on inner faces 20a to 20d of a terminal housing part 14. Protrusion dimensions of the outer ribs 24a to 24e are gradually increased toward a tip side of the connection terminal 56. Meanwhile, the connection terminal 56 is sandwiched by the outer ribs 24a to 24e from both outer sides in an overlapping direction of a pair of holding pieces 66, 66, and is also sandwiched by the lateral ribs 50a and 50b from both outer sides in a direction perpendicular to an overlapping direction. Consequently, the connection terminal 56 is positioned inside the terminal housing part 14. | ||||||
| 63 | Connection structure of a printed circuit board | JP2003169971 | 2003-06-13 | JP4082285B2 | 2008-04-30 | 努 内藤; 達也 岡 |
| 64 | Electrical connection box for automobile | JP2004036433 | 2004-02-13 | JP2005229740A | 2005-08-25 | SAKA YUKINORI; NAKAGAWA TORU; OKA YOSHITO |
| PROBLEM TO BE SOLVED: To drain water intruded into an electrical connection box from a lower case, without passing the water through the region of internal circuit and without increasing the size of the electrical connection box. SOLUTION: The circumferential wall 10a of the upper case of an electrical connection box for automobile is fitted in the circumferential wall 11a of the lower case, locking claws 10b and 11b, projecting from the outer surface of upper case circumferential wall and the inner surface of lower case circumferential wall, are coupled while engaged with each other, and the air gap between the circumferential walls formed by the locking claw fitting part of the upper case 10 and the lower case 11 serves as a drainage channel 13. Drain outlets 14 are bored in the bottom wall 11c of the lower case, abutting against the lower end of the drainage channel 13. The drain outlets 14 are formed of the punching holes of the lock pawl 11b in the lower case 11, where the bottom wall 11c of the lower case at the lower end face of the drainage channel is inclined downwardly, toward the drain outlets 14, and a rib 15 for sectioning the drainage channel 13, while spacing apart from the circumferential wall 11a is projected from the bottom wall 11c of the lower case. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 65 | Position adjusting device | JP51481795 | 1994-11-18 | JP3632107B2 | 2005-03-23 | アペル,ペーター; ヴィルツェク,クラウス; ハウショップ,マリオン |
| The proposed device is intended for use in motor vehicles and permits a high level of accuracy in measurement and simple and cost-effective manufacture. It comprises a shaft component (12) arranged adjustably in a housing element (13) of unit (1), a fixed unit (20) with a stator element (21) and a rotating unit (20') of a rotation angle sensor (2) which can move in relation to the fixed unit (20). The stator element (21) consists of two rounded cusp-shaped subcomponents held with a bracing unit and secured in a stator mount (23). There is a clearance recess between the subcomponents of the stator element. The rotating unit (20') is a ring-shaped magnet element (24) held by a magnet holder (26, 27) connected to the shaft element (12); this arrangement allows the magnet element (24) to move around the stator element subcomponents leaving an air gap (25) is left. The housing element (13) can be constructed in many parts. The stator mount (23) and parts of the multiple-component housing element (13) can be moulded from an electrically conducting long-fibre granulate with 1-10 % by volume stainless steel filaments. This creates a high degree of shielding against electromagnetic influences. | ||||||
| 66 | Power Distribution Center | JP51954098 | 1997-10-22 | JP2000502560A | 2000-02-29 | シンプソン,ダグラス; デリー,ジョゼフ,エル.; バッツ,ローレンス,ディー; ロビンソン,チャールズ,エル. |
| (57)【要約】 自動車用の電力ディストリビューション・センター(PDC)は、リレーとフューズとを介して自動車にくまなく電気を給電するコネクターへ給電分与する。 該PDCは、ハウジング/コネクタープレート(10)、プリント回路基板(30)、リードフレームアッセンブリー(40)、 絶縁体(50)、B+バスバー(60)、アライメントプレート(100)およびカバー(110)を含む。 PDCは、B+バスバーアッセンブリー(60)を使用して電力をPDCに受ける。 リードフレームアッセンブリー(40)を使用してPDC内で特定の回路へ給電分与する。 プリント回路基板(30)を用いて、PDC内で電力とシグナルとを分与する。 端子クリップ(84,84')を使用して、PDCと関連のリレー及びフューズとの間を相互連通する。 PDCには、PDCの一部としてインターフェース(15)を設けることにより、電子モジュールが簡単に付け加えることができるように形成されており、これによって、各モジュールに対し別個の配線ハーネスを必要とせずに、モジュール類をネットワークに付加することができるようになる。 | ||||||
| 67 | Electrical wiring auxiliary equipment and electrical systems related to it | JP15485292 | 1992-06-15 | JPH0760710B2 | 1995-06-28 | ティエーリ ジャン−ピエール; ヌーリ ダニエル |
| 68 | Prefabricated conductor connecting device | JP6606293 | 1993-12-10 | JPH0664369U | 1994-09-09 | 興植 尹 |
| (57)【要約】 【目的】 導線の接続および離脱作業を容易に行うことができ、かつ外部からの衝撃や振動が加わった場合にも導線を堅固に保持すること。 【構成】 接続端子台1のヒンジ軸4上にその下端が内側に傾斜を持つように導線接続用逆止片102を揺動可能に支承させるとともに、この逆止片102を外方に押圧するべく接続端子台1の傾斜凹溝6にスプリング10
1を配置し、該導線接続用逆止片102と導電板20 1,202との間に導線300を圧接保持させるようにしている。 |
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| 69 | Electric junction box | JP15307191 | 1991-06-25 | JPH053618A | 1993-01-08 | OZAKI KEIICHI; SAKAMOTO MASAMI; SHIMOJI EIJI |
| PURPOSE:To reduce the amount of weight and cost of a bus bar circuit board, by providing an easily changeable circuit and eliminating a useless circuit in the bus bar circuit board that constitutes an internal circuit with regard to an electric junction box for interconnection of wire harness and the like. CONSTITUTION:An electric junction box stores a stack of bus bar circuit boards 30 in a case 20 (21 to 23). In the bus bar circuit board 30, a plurality of bus bars 32 with each branching tab 33 are placed flat on an insulating board 31. The stack of bus bar circuit boards 30 are separately stored into at least two blocks A1 and A2, and then given bus bars 32 are connected with a wire 40 within a block and/or between blocks. | ||||||
| 70 | Stereoscopically molded product sealing stereoscopic conductive circuit and manufacture thereof | JP33435790 | 1990-11-29 | JPH04199781A | 1992-07-20 | MIYASHITA TAKAYUKI; AKEDA SATOYUKI |
| PURPOSE:To efficiently manufacture a circuit having a complicate stereoscopic shape by integrally molding a conductor and its supporting frame with thermoplastic resin material by injection molding, etc. CONSTITUTION:A stereoscopic circuit board 1 coupled fixedly to a frame 2 and having a desired shape is molded with thermoplastic resin as a primarily molded product, and then the entire or at least part required for conductivity of the surface of the product is coated with metal to form a conductive part 3. Then, the product formed on the surface with the conductive part is fixed in a mold, insert molded with a secondarily molding material 4 to form a secondarily molded product in which the part 3 of the primary product is sealed and exposed at a frame, and then the fixing frame 2 is removed by cutting. Thus, a synthetic resin molded product in which the stereoscopic conductive circuit is sealed, can be efficiently manufactured. | ||||||
| 71 | JPS5220708Y2 - | JP4879571 | 1971-06-09 | JPS5220708Y2 | 1977-05-12 | |
| 72 | JPS4918153B1 - | JP7339867 | 1967-11-16 | JPS4918153B1 | 1974-05-08 | |
| 73 | DEVICE FOR CONNECTING ELECTRICAL COMPONENTS WITH A POWER SUPPLY | US15771880 | 2016-10-24 | US20180317334A1 | 2018-11-01 | Michael Grotz; Sven Sautter; Sebastian MENEGHINI |
| The invention relates to a device (30) for connecting electrical components (20, 22) with a power supply (42). The invention is distinguished in that the device (30) is formed by a three-dimensionally bent wire (32), in which contact regions (36) are formed at least at its ends, preferably also in between. In relation to known devices, which create a connection with power rails or by contact plates, the device according to the invention is producible substantially more simply and cost-effectively and can be three-dimensionally formed nearly arbitrarily. | ||||||
| 74 | Electrical Access System | US15899722 | 2018-02-20 | US20180241186A1 | 2018-08-23 | James W. Gibboney, JR. |
| A support is configured to be attached to and supported by a surface and to a channel running from the first end to the opposing second end of the support. The support carries a first electrical connector in a first end of the channel and a second electrical connector, wired to the first, in the opposing, second end of the channel. The first electrical connector is in electrical connection with the second electrical connector via at least one electrical conductor. An electrical current applied to the first electrical connector is conveyed by that electrical conductor to the second electrical connector. Wiring is directed through holed in the support to access points in the outer surface of the support where the user may access electrical current for operating appliances, charging batteries, and passing digital information. The supports may be decorative molding such as baseboards, crown molding, and chair rails. | ||||||
| 75 | GROOVED CONNECTOR WITH LAND BRIDGE | US15794127 | 2017-10-26 | US20180115106A1 | 2018-04-26 | Timothy McSWEENEY |
| A connector assembly including a female element having a bore with an open end. A male element is insertable into the bore of the female element along an axis in a first axial direction and removable from the bore of the female element in a second axial direction. One of the female and male elements defines a circumferential surface extending around the axis and a depression in the circumferential surface, the depression having a catch wall facing in one of the first and second axial directions and a release wall facing in the other one of the first and second axial directions. A second one of the male and female elements has a finger mounted thereon, the finger has a catch end biased in a radial direction transverse to the axis, the catch end of the finger being configured to engage the depression and abut the catch wall. | ||||||
| 76 | Method for routing a conductor across a terminal block | US14494965 | 2014-09-24 | US09948052B2 | 2018-04-17 | Richard Gale; Bradley Chamberlin |
| A terminal block for an apparatus includes at least one terminal conductor having a first end that extends to a second end. The first end includes a first connection portion and the second end includes a second connection portion. A non-electrically conductive member covers the at least one terminal conductor. The non-electrically conductive member includes a body having a first end section arranged at the first end extending through an intermediate section to a second end section arranged at the second end. The first end section includes a first opening exposing the first connection portion, and the second end portion includes a second opening exposing the second connection portion. The body further includes a conductor routing system having at least one conductor routing member configured and disposed to restrain and guide a conductor member across the at least one terminal conductor. | ||||||
| 77 | Electrical connection device, terminal block including same, photovoltaic power generation system, and electrical appliance | US15323919 | 2015-06-25 | US09774108B2 | 2017-09-26 | Yuichi Takashima |
| There is provided an electrical connection device (100) including a male portion including a head (21) having a groove for insertion of a driver, and a body portion (24) having a spirally penetrating first guide hole (26a) formed from a lower end and a second guide hole (26b); a female portion (116) having a hole portion (118) into which the body portion (24) is inserted; an elastic portion (40) to be disposed on an outer circumference of the body portion (24) when the body portion (24) is inserted into the hole portion (118); and a movable body (30) which is disposed below the elastic portion, and engages and penetrates through the first guide hole (26a) when the body portion (24) is inserted into the hole portion (11), in which a first conductive member (50) and a second conductive member (60) are interposed between an upper end of the elastic portion (40) and the head (21), and with the movable body (30) engaged in the first guide hole (26a), as the head (21) rotates to a predetermined rotation angle relative to the hole portion (118), a biasing force of the elastic portion (40) is increased due to a rise of the movable body (30) in contact with a lower end of the elastic portion (40), and when a rotation angle of the head (21) relative to the hole portion (118) exceeds the predetermined rotation angle, the movable body (30) engages in an end portion (29) of a second guide hole (26b) leading to the first guide hole (26a), the second guide hole being provided in a direction in which the biasing force is reduced, to suppress rotational movement of the movable body (30) relative to the body portion (24). | ||||||
| 78 | Contact, connector, and connecting device | US14364588 | 2013-01-24 | US09455515B2 | 2016-09-27 | Takeshi Ebisawa |
| A distance between first contact portions is set smaller than a thickness of a first connection object in the state where neither of the first connection object and a second connection object is inserted into a contact. A distance between second contact portions is set greater than a thickness of the second connection object in the state where neither of the first connection object and the second connection object is inserted into the contact. When the first connection object is inserted between the first contact portions, a pair of conductive portions are relatively moved to shorten the distance between the second contact portions so that the second connection object is held between the second contact portions. | ||||||
| 79 | Electrical device | US13503618 | 2010-09-28 | US09414515B2 | 2016-08-09 | Michael Kiesel; Ronny Enenkel; Alexander Junginger |
| An electrical device, which is assembled from modules or includes assembled modules, the modules each including an electronic circuit mounted on a respective heat sink, the modules being configured as nodes of a system bus that also leads to an electronic circuit designed as a node of the system bus, the electronic circuit being configured in a lower part that is configured in a recess of the housing of the electrical device; an upper part being detachably connectable to the lower part; a memory element being configured in the upper part; and data lines for reading out the memory element via the electronic circuit being routed via a plug connection to the electronic circuit. | ||||||
| 80 | Modular electrical system providing four wire circuit configurations | US13647992 | 2012-10-09 | US09166308B2 | 2015-10-20 | Norman R. Byrne |
| A modular electrical system (230) comprises a number of separate components forming a four-wire system (110). The component set (230) includes receptacle junction blocks (130), two-way connectors (232), four-way connectors (236), two-way jumper cable assemblies (234), and three-way jumper cable assemblies (238). The components of the component set (230) include various configurations of male blade terminals (150) and female terminals (200) located on the individual components so that a number of differing system configurations can be achieved. | ||||||
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