| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Electrical terminal and method of connecting a wire therewith | EP13178250.0 | 2013-07-26 | EP2693567A2 | 2014-02-05 | Harasawa, Masaaki; Sakai, Ken |
In an electrical terminal (1), a pair of connecting face portions (11) of a first member (10) receive a wire (40) from a wider-gap side (d1) of inner faces (11a) facing each other, and hold the wire (40) between the inner faces (11a) facing each other. Plural serrations (11b, 11c) extending in directions intersecting with a direction in which the axial line of the wire (40) extends are respectively formed on the inner faces (11a) of the pair of connecting face portions (11) facing each other. A second member (20) is mated with the pair of connecting face portions (11) from the wider-gap side (d1) of the inner faces (11a) of the pair of connecting face portions (11) facing each other to make the inner faces (11a) facing each other closer to each other. Accordingly, the plural serrations (11b, 11c) bite into the wire (40) to connect the wire (40) with the pair of connecting face portions (11).
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| 162 | Terminal assembly and method for connecting an electric wire to a terminal element | EP10192412.4 | 2010-11-24 | EP2458694B1 | 2013-06-26 | Van Tilburg, Jan; Scheefhals, Fred |
| 163 | ELECTRICALLY CONDUCTIVE CONNECTING MEMBER, PROCESS FOR MANUFACTURING ELECTRICALLY CONDUCTIVE CONNECTING MEMBER, AND BATTERY EQUIPPED WITH ELECTRICALLY CONDUCTIVE CONNECTING MEMBER AS ELECTRODE | EP11832604.0 | 2011-10-13 | EP2581966A1 | 2013-04-17 | SAKAE Akira |
The present invention provides an electrically conductive connecting member which can be used for a battery having a plus output terminal and a minus output terminal that are composed of different metals from each other and which does not undergo electrolytic corrosion and the reduction in electric resistance and has excellent mechanical strength. This electrically conductive connecting member (1) is used for a battery in which a pair of output terminals are composed of different metals from each other, and comprises an electrode section (a bar-shaped section (10)) which is connected to one of the output terminals and is composed of the same metal as that used for one of the output terminals and a bus bar section (a band-plate-shaped section (11)) which is connected to the electrode section and is composed of the same metal as that used for the other output terminal, wherein the electrode section and the bus bar section are integrated with each other through diffusion bonding. |
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| 164 | Steckerverbinderbuchse | EP09010633.7 | 2009-08-19 | EP2159883A1 | 2010-03-03 | Maiterth, Eduard; Hönnige, Jens |
Die Erfindung betrifft eine Steckverbinderbuchse (1) umfassend eine zylinderförmige Steckverbinderbuchsenhülse (4) mit einem in der Steckverbinderbuchsenhülse (4) eingepasstem Lamellenkontaktgitter (2), sowie einem Crimphalter (3), wobei der Crimphalter (3) am Außenmantel der Steckverbinderbuchsenhülse (4) mit einem Befestigungsteil (8) befestigt ist, wobei das Befestigungsteil zwei ringförmige umlaufende plastisch verformte Nuten (11) an der Ober- und Unterseite des Befestigungsteils (8) aufweist.
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| 165 | Anschlussklemme an einem Spulenkörper eines Transformators | EP05007892.2 | 2005-04-11 | EP1713097A1 | 2006-10-18 | Algeri, Angelo; Oftinger, André |
Die Erfindung betrifft eine Anschlußklemme für den elektrischen Anschluß von Leitungen an einen Transformator. Die Klemme besteht aus einem etwa U-förmigen Grundkörper (6), der über einen Schenkel (7, 8) in einer Aufnahme (2a, 2b) eines Klemmleistenklotzes (2) eines Spulentragkörpers (3) unverlierbar gehalten ist. Die Anschlußklemme (1) weist erste Anschlußmittel (11) für einen äußeren Anschluß (13) sowie zweite Anschlußmittel (12) für einen inneren Anschluß (14) auf, wobei die Anschlußmittel (11, 12) zumindest teilweise einteilig mit dem Grundkörper (6) der Klemme (1) ausgebildet sind. Um neben den Anschlußmitteln eine elektrische Kontaktierung der Klemme zu ermöglichen, ist vorgesehen, in der Aufnahme (2a, 2b) eine Querbohrung zur elektrischen Kontaktierung des in der Aufnahme (2a, 2b) liegenden Schenkels (17, 18) vorzusehen.
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| 166 | Method of connecting circuit element | EP01101740.7 | 2001-01-25 | EP1133011A3 | 2004-11-10 | Suzuki, Koji, c/o K.K. Tokai Rika Denki Seisakusho |
A terminal (2) of a thin metallic plate is fixed to a board body (la) of an electrically insulating material. The terminal (2) has a contact through-hole (2a). In order to connect the terminal (2) to a contact (3a), a board 1 is arranged so that the hole area (1b) of the board body (la) is fit over the receiving portion (4a) of a receiving die (4). The contact (3a) of the resistor (3) is inserted into the contact through-hole (2a). Thereafter, the vicinity of the terminal through-hole (2a) in the terminal (2) is crushed by a crushing punch (5) which is moved for pressing in a direction of arrow, and plastically deformed. Thus, the terminal (2) is mechanically and electrically connected to the contact (3a). |
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| 167 | Powdered metal connector | EP89304051.9 | 1989-04-24 | EP0340950A1 | 1989-11-08 | Beinhaur, Ernest Lloyd |
A powdered metal insert (2) is disclosed for use with a fiber optic cable (16) or a wire. The insert (2) is positioned in a connector with the cable positioned along the longitudinal axis of the insert. Termination of the insert to the cable occurs as a force is applied to the insert in a direction which is parallel to the longitudinal axis of the insert. This longitudinal force results in an evenly distributed transverse force being applied to the cable and the connector. This even distribution of forces along the cable can be easily and accurately controlled so that the powdered metal insert (2) can be used effectively to provide the mechanical connection required for the fiber optic cable (16) as well as to effectively provide the mechanical and electrical connection of the stranded wire. |
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| 168 | Verbindung eines Leiterdrahtes mit einem Klemmenstück sowie Verfahren zur Herstellung dieser Verbindung | EP79101358.4 | 1979-05-04 | EP0006982B1 | 1982-05-26 | Schulze, Günter |
| 169 | Manchon d'ancrage pour conducteur électrique nu et organe de déformation pour assurer sa liaison par étirage avec un conducteur électrique nu | EP80420004.6 | 1980-01-09 | EP0013655A1 | 1980-07-23 | Novel, Pierre |
Ce manchon est composé d'un élément de liaison (3) et d un corps d'accrochage (2). L'élément de liaison, réalisé en métal ductile, est tubulaire sur toute sa longueur pour être traversé par le conducteur (5). Il comporte une trompe (6) coincée dans un alésage complémentaire du corps (2) pour transmettre le courant à ce dernier. Le corps (2), réalisé en alliage métallique à haute résistance mécanique, est solidaire de la chape d'accrochage 12 et de la plage de raccordement (13). Lorsque la liaison de l'élemént (3) et du conducteur (5) est assurée par étirage de l'élément (3), une filière (16) imperdable, mais irrécupérable, est montée à demeure dans une gorge (18) de l'élément. Après étirage, elle est détruite. |
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| 170 | TERMINAL CONNECTOR AND TERMINAL CONNECTION METHOD | US15534150 | 2015-12-15 | US20180351265A1 | 2018-12-06 | Toshiaki ASADA; Yusuke KIKUCHI |
| [Problem]An object of the present invention is to provide the terminal connector and the terminal connection method that are capable of properly keeping the contact area and the contact surface pressure of the electrical contact portion for a long term even if the respective terminals of the motor and the control unit are configured at a simple shape, and to provide the optimum terminal connector and terminal connection method to use for the electric power steering apparatus, the electric actuator and so on.[Means for solving the problem]A terminal connector which connects between a motor-side terminal of a motor and a unit-side terminal of a control unit for the motor, wherein the terminal connector has an electrical contact due to a formation of a junction site between the motor-side terminal and the unit-side terminal by abutting the motor-side terminal and the unit-side terminal and applying a plastic deformation with a machine work to an abutted portion. | ||||||
| 171 | Medium-voltage or high-voltage electrical device | US15528703 | 2015-11-12 | US10134503B2 | 2018-11-20 | Anthony Combessis; Laurent Keromnes; Melek Maugin; Lucile Carteron |
| A semi-conductive crosslinked layer produced from a polymer composition includes at least one polymer A having at least one epoxy function. A cross-linking agent B includes at least one reactive function that can react with the epoxy function of said polymer A in order to allow the cross-linking of said polymer A. The polymer composition also has an electrically conductive filler having a specific surface area BET of at least 100 m2/g according to the ASTM standard D 6556. | ||||||
| 172 | Coupling joint for coupling insulated conductors | US15259601 | 2016-09-08 | US10090652B2 | 2018-10-02 | Patrick Silas Harmason; Dong Sub Kim; Marlon Almario Tamase; Charles D'Angelo, III |
| A fitting for coupling ends of insulated conductors includes a sleeve to couple an end of a jacket of a first insulated conductor to an end of a jacket of a second insulated conductor. The sleeve is located between end portions of the insulated conductors. At least one of the ends of the sleeve is angled relative to the longitudinal axis of the sleeve. The sleeve has a longitudinal opening that extends along the length of the sleeve substantially the distance between end portions of the jackets of the insulated conductors. The longitudinal opening allows electrically insulating material to be filled into the sleeve. | ||||||
| 173 | Medium-voltage or high-voltage electrical device | US15528703 | 2015-11-12 | US20170263348A1 | 2017-09-14 | Anthony COMBESSIS; Laurent KEROMNES; Melek MAUGIN; Lucile CARTERON |
| The invention relates to an electrical device (1, 20, 30) comprising a semi-conductive cross-linked layer (3, 4, 5, 21, 22, 23, 31, 32) produced from a polymer composition comprising: at least one polymer A comprising at least one epoxy function, and a cross-linking agent B comprising at least one reactive function that can react with the epoxy function of said polymer A in order to allow the cross-linking of said polymer A, characterised in that the polymer composition also comprises an electrically conductive filler having a specific surface area BET of at least 100 m2/g according to the ASTM standard D 6556. | ||||||
| 174 | Mechanical Assembly by Means of Autogenous Riveting | US15449358 | 2017-03-03 | US20170178769A1 | 2017-06-22 | Didier Denerf; Christophe Lequeux; Philippe Fortanier; Eric Labreze; Laurent Clisson; Matthieu Francillout; Bertrand Cahuzac; Richard Retout |
| A mechanical assembly of a multi-strand cable including a plurality of strands and a substrate, the plurality of strands being aligned at the substrate in a first direction and the substrate having a convex edge in a plane perpendicular to the first direction. The plurality of strands is assembled on the substrate by swaging the strands around the convex edge, leading to the deformation of a portion of the strands around said convex edge. The substrate includes an opening in a plane substantially parallel to the first direction, the edge of which forms at least one portion of the convex edge. The swaging operation is carried out on the portion of the strands positioned between the edges of the opening such that a portion of the plurality of punched strands passes through the opening and projects around the convex edge onto the top and bottom sides thereof. | ||||||
| 175 | COUPLING JOINT FOR COUPLING INSULATED CONDUCTORS | US15259601 | 2016-09-08 | US20160380414A1 | 2016-12-29 | Patrick Silas HARMASON; Dong Sub KIM; Marlon Almario TAMASE; Charles D'Angelo, III |
| A fitting for coupling ends of insulated conductors includes a sleeve to couple an end of a jacket of a first insulated conductor to an end of a jacket of a second insulated conductor. The sleeve is located between end portions of the insulated conductors. At least one of the ends of the sleeve is angled relative to the longitudinal axis of the sleeve. The sleeve has a longitudinal opening that extends along the length of the sleeve substantially the distance between end portions of the jackets of the insulated conductors. The longitudinal opening allows electrically insulating material to be filled into the sleeve. | ||||||
| 176 | ELECTROMAGNETIC INTERFERENCE SPLICE SHIELD | US14667116 | 2015-03-24 | US20160286697A1 | 2016-09-29 | Jason Robert Degen; Jesus Joel Pantino; Matthew James Baker |
| A splice device for electromagnetically sealing a junction or bond between a plurality of cables is provided. A first and second cable each has a conductive core wire, an inner insulation, a braided sleeve, and an insulating cover. The junction or bond fixes and electrically connects the core wire of the second cable to the core wire of the first cable. A plurality of ferrules overlays the braided sleeve and the insulating cover of the first cable and the braided sleeve and the insulating cover of the second cable. A plurality of ring collars overlays the plurality of ferrules and is fixed to the plurality of ferrules. A splice cover or shield overlays the first cable, second cable, plurality of ferrules, and plurality of ring collars and electromagnetically seals the junction/bond between the core wires of the first cable and the second cable. | ||||||
| 177 | MEDIUM- OR HIGH-VOLTAGE ELECTRIC DEVICE | US14895090 | 2014-06-03 | US20160125974A1 | 2016-05-05 | Ruben Briceno Garcia; Jean-Michel Marty; Maud Thivillon; Yannick Goutille; Laurent Keromnes |
| The invention relates to an electric device (1, 20, 30) comprising a cross-linked layer (3, 4, 5, 21, 22, 23, 31, 32) obtained from a polymer composition including at least one polymer comprising at least one epoxy function, characterised in that the polymer composition also comprises a non-polymer compound as a cross-linking agent including at least one reactive function that can react with the epoxy function of the polymer in order to allow the polymer to be cross-linked. | ||||||
| 178 | Coupling device and connector for energy conduction by grounding mechanism | US14251084 | 2014-04-11 | US09270036B2 | 2016-02-23 | Dolcey Casas Rodriguez |
| A ground electrode-coupling device functionally joined to a cylindrical body, with internal cylindrical form and external conical form. The device includes an internal blockage dividing the device into two cavities. The device also includes at least an orifice in each cavity communicating the internal coupling with the external coupling, for enabling the release of the air by coupling the bodies. The external form is a conical geometry for reducing the resistance of the device by being inserted in a solid medium. | ||||||
| 179 | Processes for manufacturing jointing assemblies for medium or high voltage electrical cables and jointing assemblies obtainable by the processes | US13992920 | 2010-12-22 | US09270031B2 | 2016-02-23 | Francesco Portas |
| A process for manufacturing a jointing assembly for medium or high voltage electrical cables may include: forming a tubular element made from semi-conductive material; cutting out of the tubular element first and second cylindrical elements; machining an end portion of the first and second cylindrical elements to provide the end portions with an at least partially rounded profile; arranging the first cylindrical element at a radially inner surface of an elastomeric sleeve made from dielectric material; arranging the second cylindrical element at a free end portion of the elastomeric sleeve, spaced apart from the first cylindrical element, with the at least partially rounded profile end portion of the second cylindrical element facing the at least partially rounded profile end portion of the first cylindrical element; and elastically expanding the elastomeric sleeve by inserting at least one removable support element in a radially inner position with respect to the elastomeric sleeve. | ||||||
| 180 | Jointing assemblies for electrical cables | US13992904 | 2010-12-22 | US09219318B2 | 2015-12-22 | Francesco Portas; Tania Collina; Javier Gracia Alonso |
| A jointing assembly for electrical cables may include: a connector extending about a longitudinal axis and provided, at at least one end portion thereof, with at least one housing seat for at least one free end of a respective electrical cable; and a shrinkable sleeve coaxially arranged in a radially outer position with respect to the connector. The shrinkable sleeve may be held in a radially expanded state by at least one removable support element radially interposed between the connector and the shrinkable sleeve. The connector may be mechanically coupled to the at least one removable support element by at least one stop element that radially projects from at least one of the connector and the at least one removable support element, and that contacts the other one of the connector and the at least one removable support element. | ||||||
