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 |
|---|---|---|---|---|---|---|
| 101 | JPS4825191A - | JP7737072 | 1972-08-03 | JPS4825191A | 1973-04-02 | |
| 102 | TERMINAL BLOCK OF ROTATING ELECTRIC MACHINE | US15754411 | 2015-08-26 | US20180254678A1 | 2018-09-06 | Hirokazu MATSUZAKI; Masahide KIMURA; Toshiaki TANNO; Hiroshi NAKAHARA |
| A terminal block of a rotating electric machine includes a terminal block main body, a high-current electrical wire connecting section to which a high-current electrical wire of the rotating electric machine is connected, multiple neutral wire connecting sections to which neutral wires of the rotating electric machine are connected, and a bus bar that connects the neutral wire connecting sections to each other | ||||||
| 103 | CELL CONNECTOR UNIT | US15898291 | 2018-02-16 | US20180241068A1 | 2018-08-23 | Masahiro IMANISHI; Daiji HOTTA |
| A cell connector unit is a cell connector unit configured to be connected with a cell laminate of the fuel cell unit. The cell connector unit has a plurality of cell connectors that are connected with cells of the cell laminate, and the plurality of cell connectors are linked to each other so as to be in line in a lamination direction of the cells in a state where the cell connector unit is connected with the cell laminate. Among the cell connectors arranged on both ends in the lamination direction of the cells, a first cell connector is provided with a protrusion for recognizing the cell connector unit, and a second cell connector is not provided with the protrusion, and all of the cell connectors located between the cell connectors arranged on the both ends include or do not include the protrusion. | ||||||
| 104 | Relay terminal block | US15529110 | 2015-01-08 | US09831571B2 | 2017-11-28 | Shinya Kaneoya |
| A relay terminal block fixed to a fixing part by a screw includes a main body having a first surface facing the fixing part, and a second surface on a rear surface side of the first surface. The main body is formed with a recessed portion depressed from the second surface toward the first surface, a through-hole formed from a bottom surface of the recessed portion through to the first surface, and a protrusion that is provided at an edge of the recessed portion to protrude in a direction away from the second surface. The through-hole is formed to have an inner diameter larger than an outer diameter of a shaft of the screw and smaller than an outer diameter of a head of the screw, and the recessed portion is formed to have an inner diameter larger than the outer diameter of the head of the screw. | ||||||
| 105 | Intelligent sensor network in a load center | US15033973 | 2013-11-06 | US09784773B2 | 2017-10-10 | Vishwas Mohaniraj Deokar; Namwook Paik; Jeffrey Steven Young |
| According to one aspect, embodiments of the invention provide a system for monitoring a load center including a plurality of current sensors, a communication bus, a plurality of sensor circuits, a power module configured to be coupled to a load center input line and to receive input AC power from the input line, a collector, and a cable configured to be coupled between the power module and the collector, wherein the power module is further configured to provide power to the plurality of sensor circuits via the communication bus, provide power to the collector via the cable, measure at least one of voltage, frequency and phase of input AC power and provide signals related to the measured voltage, frequency or phase to the collector via the cable, receive current measurement signals from the plurality of sensor circuits and provide the received current measurement signals to the collector via the cable. | ||||||
| 106 | BUSBAR | US15278938 | 2016-09-28 | US20170098814A1 | 2017-04-06 | Andrej Golubkov |
| The present invention refers to a busbar for electrically connecting a plurality of cells of a battery module. In order to electrically disconnect the battery cells from each other upon thermal runaway of at least one of the cells or short circuit, the busbar includes a core and a shell at least partially made of a first material, said first material being an electrically conducting material, wherein the core is at least partially made of a second material having a coefficient of thermal expansion which is significantly higher than the coefficient of thermal expansion of the first material. | ||||||
| 107 | Electrical connector for connecting a cable | US14920149 | 2015-10-22 | US09577385B1 | 2017-02-21 | Wen Wei Lin |
| An electrical connector used for mating a mating connector includes an insulating body having multiple terminal slots in communication with an insertion space, multiple terminals, an insulating block. Each terminal slot has at least one side wall from which a depressed portion is depressed, the depressed portion is laterally in communication with the terminal slot. Each terminal has a connection portion connected to a contact portion and a soldering portion, a stopping portion protrudes from the connection portion and is located at the depressed portion. The insulating block is insert molded at a back end of the insulating body. A protruding portion protrudes from a front end of the insulating block and enters the depressed portion. The stopping portion is stopped in front of the protruding portion. | ||||||
| 108 | Electric connector with deformable terminals | US13937601 | 2013-07-09 | US09252508B2 | 2016-02-02 | Takayoshi Endo; Sakai Yagi; Takuya Takeda |
| An electric connector includes at least one terminal pin having, at opposite ends thereof, terminals to be inserted into through-holes formed through printed circuit boards spaced away from and facing each other, and an aligner for aligning the terminal pins in a row in such a condition that the terminal pins are movable relative to the aligner, the terminal pin including a movement-limiter which restricts movement of the terminal pin in a direction of an axis thereof. | ||||||
| 109 | COMPOSITE INTELLIGENT TERMINAL WIRING DEVICE AND PLUG DEVICE | US14385099 | 2013-09-10 | US20150180140A1 | 2015-06-25 | Guojun He; Xingzhe Hou; Yingying Cheng; Huaxiao Yang; Ji Xiao; Jianming Hu; Ke Zheng; Xiaorui Hu; Xiyang Ou; Jing Liu |
| A combined-type intelligent terminal wiring device and a plug device are provided. The wiring device includes a top wiring terminal board, a bottom wiring terminal board and a combined-type socket. An interior of each terminal of the combined-type socket has a spring-leaf structure, and each spring leaf includes an upper spring leaf and a lower spring leaf which are conductively connected via a contact surface. The top wiring terminal board has one end configured to connect the upper spring leaf, and the bottom wiring terminal board has one end configured to connect the lower spring leaf. The plug device includes a plug and a wiring terminal, the plug is located at a front end of the plug device and is a conductive metallic sheet, and the wiring terminal is located at a rear end of the plug device and has one end connected to the conductive metallic sheet. | ||||||
| 110 | Electric connector | US13706449 | 2012-12-06 | US09017088B2 | 2015-04-28 | Takayoshi Endo; Sakai Yagi; Jun Mukunoki; Shuji Touno |
| An electric connector includes a housing having an opening and a bottom. The housing has a recess formed at the bottom and at least one electric terminal projects through a bottom of the recess into the housing. A sealant layer composed of cured light-curing resin at least partially fills the recess. | ||||||
| 111 | CATHETER ELECTRICAL CONNECTOR ASSEMBLY | US13816715 | 2011-08-12 | US20130144253A1 | 2013-06-06 | Garrett Ryan; Samar Sourour |
| A catheter includes a catheter sheath, and a handle. The handle includes an electrical connector its proximal end for connecting the catheter to standard electrical devices such as a typical monitoring device. The catheter handle houses an electrical connector assembly. The electrical connector assembly includes a first connector member to which electrical conductors of a catheter sheath are connected and a second connector member, which is further connected to the connector integrated at the proximal end of the catheter handle. The first connector member is received in a socket of the second connector member in a clip-in manner. | ||||||
| 112 | Layout schemes and apparatus for multi-phase power switch-mode voltage regulator | US12698819 | 2010-02-02 | US08400778B2 | 2013-03-19 | Michael R. Hsing; Anthonius Bakker |
| A multi-phase voltage regulator is disclosed where each phase is comprised of an array of high and low side transistors that are integrated onto a single substrate. Further, a system of mounting the voltage regulator onto a flip chip and lead frame is disclosed wherein the source and drain lines form an interdigital pattern. | ||||||
| 113 | Wire Harness | US13285344 | 2011-10-31 | US20120120629A1 | 2012-05-17 | Masashi NAKAYAMA |
| A wire harness includes a relay box having an external shape that is defined by a frame to which one of a mechanical relay cassette and a communication-function-provided relay cassette is replaceably attached, a junction connector having a space in which a communication module is installable, and a junction box having a microcomputer which works a communication function optionally. | ||||||
| 114 | Metalized elastomeric probe structure | US11718283 | 2005-09-30 | US08054095B2 | 2011-11-08 | Gareth Geoffrey Hougham; Ali Afzali; Steven Allen Cordes; Paul W. Coteus; Matthew J. Farinelli; Sherif A. Goma; Alphonso P. Lanzetta; Daniel Peter Morris; Joanna Rosner; Nisha Yohannan |
| A probe structure for an electronic device is provided. In one aspect, the probe structure includes an electrically insulating carrier having one or more contact structures traversing a plane thereof. Each contact structure includes an elastomeric material having an electrically conductive layer running along at least one surface thereof continuously through the plane of the carrier. The probe structure includes one or more other contact structures adapted for connection to a test apparatus. | ||||||
| 115 | Method and apparatus for shaping spring elements | US09753188 | 2000-12-29 | US20010038030A1 | 2001-11-08 | Igor Y. Khandros; Thomas H. Dozier; Gary W. Grube; Gaetan L. Mathieu |
| Interconnection elements for electronic components, exhibiting desirable mechanical characteristic (such as resiliency, for making pressure contacts) are formed by using a shaping tool (512) to shape an elongate core element (502) of a soft material (such as gold or soft copper wire) to have a springable shape (including cantilever beam, S-shape, U-shape), and overcoating the shaped core element with a hard material (such as nickel and its alloys), to impart to desired spring (resilient) characteristic to the resulting composite interconnection element. A final overcoat of a material having superior electrical qualities (e.g., electrical conductivity and/or solderability) may be applied to the composite interconnection element. The resulting interconnection elements may be mounted to a variety of electronic components, including directly to semiconductor dies and wafers (in which case the overcoat material anchors the composite interconnection element to a terminal (or the like) on the electronic component), may be mounted to support substrates for use as interposers and may be mounted to substrates for use as probe cards or probe card inserts. The shaping tool may be an anvil (622) and a die (624), and may nick or sever successive shaped portions of the elongate elements, and the elongate element may be of an inherently hard (springy) material. Methods of fabricating interconnection elements on sacrificial substrates are described. Methods of fabricating tip structures (258) and contact tips at the end of interconnection elements are also described. | ||||||
| 116 | Method and apparatus for a wiring system utilizing wiring devices | US30093172 | 1972-10-26 | US3860739A | 1975-01-14 | KLOTH JAMES ALBERT; PARSONS STUART L; ZIMMERMAN JR JOHN AARON; VIGEANT GEORGE HENRY |
| Method and apparatus is provided for a wiring system wherein continuous uncut lengths of insulation covered conductors are bridged between a plurality of point-to-point locations defined by openings in a substrate wallboard, with electrical wiring devices connected to medial portions of the insulation covered conductors and placed in registration within respective openings in the substrate. Each wiring device includes a metal box enclosure latching a cover plate to a corresponding wiring device. Each box enclosure serves as a mounting bracket with adjustable and deformable portions which enlarge the profile of the corresponding wiring device and which further grip the substrate to mount the wiring device within an opening of the substrate. The deformable portions are adjustable for gripping substrates of varying thicknesses. Each wiring device includes an electrical terminal having an insulation slicing electrical contact for electrical connection to one of the insulation covered conductors. The cover includes projecting portions for pressing a medial portion of an insulation covered conductor into electrical engagement with a corresponding insulation slicing contact. The present invention provides a wiring system having wiring devices connected electrically at intervals along the length of a multi-conductor electrical cable having both uninsulated and insulation covered conductors, such cable being typically used in a wiring system of a building or mobile home.
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| 117 | Terminal block | US3781724D | 1972-05-30 | US3781724A | 1973-12-25 | MOORE L; BODLE R |
| The invention is characterized by a terminal block formed in part from insulating material. The terminal block is designed to be attached to a housing surrounding electronic equipment which is affected by radio frequency signals. The terminal block is provided with connector pins which extend through the bores of tubular rf filters. These filters are designed to block the entry of rf signals to the interior of the housing and to short out the rf signals to a ground plane which is also a part of the terminal block. The ground plane is electrically connected to the housing and to the rf filters at a point intermediate their ends. In addition, adjustment are provided to control the penetration of the pins and filters on the terminal block inside the housing.
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| 118 | Electrical circuit connection | US3717840D | 1971-02-03 | US3717840A | 1973-02-20 | VAUGHAN W; GRAEME NOEL B |
| This disclosure is directed to an elastic circuit connector comprising a plurality of stacked alternately spaced conducting and non-conducting elements to define a terminal block interposed between complementary housing members. The conducting elements of the terminal block are formed with a flange portion having blanked therefrom a locking tongue to form a screwless electrical connection between a conducting wire and an electrical element. The arrangement is such that the connecting wires of like circuits are co-plannarily connected. The complementary housing member includes an opening formed therein to frictionally secure the enclosing sheath of a conducting wire or the like in the assembled position. It is also contemplated that the housing may include an outlet in the nature of a plug socket or toggle switch having contacts complementing a quick connect control formed integral to the conducting element of the terminal block.
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| 119 | Connecting device | US3670291D | 1970-05-14 | US3670291A | 1972-06-13 | GARCIA BANANCIO |
| A connecting device for joining together two panels end-to-end of various sizes and materials. Each panel includes a plurality of pivotally mounted toggle arms which are alternately positioned with respect to arms on the opposite panel. The toggle arms are also positioned so that their ends overlap and interlock when in closed or engaged position. A top and bottom bar partially connects and properly positions the two panels. The top bar may be provided with a bolt or other means to secure the interlocked toggle arm ends together against the bottom connecting bar when in closed position. A slide member is provided with two pairs of slidable cams to operate the toggle arms which are provided with corresponding cams. The device is connected and disconnected by opposite movement of the slide member with the cams pivoting the toggle arms open or closed by engaging mating cam surfaces.
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| 120 | Electrical connectors and attachments | US3634808D | 1969-11-17 | US3634808A | 1972-01-11 | MORRISON ROBERT A |
| A conductor tape according to this disclosure comprises a first insulator layer having an adhesive for attaching the insulator to a wall surface. Conductors are attached to the opposite surface of said first insulation layer, and a second insulation layer overlaps the conductors. A metallic layer, such as a steel ribbon, is disposed over the second insulation layer. Spacers may be provided at regular intervals along the length of the tape to separate the conductors from the first insulator layer so that a connector lip of an electrical attachment may be wedged between the first insulator layer and the conductors to make electrical contact with the conductors to supply the attachment with electrical energy.
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