Class / Patent application number | Description | Number of patent applications / Date published |
439874000 | METALLIC CONNECTOR OR CONTACT HAVING PART PERMANENTLY SECURED TO CONDUCTOR USING FUSED OR MOLDED MATERIAL | 45 |
20080214064 | CIRCULAR ELECTRICAL CONNECTOR - An electrical connector includes a hollow conductive post member having a circular periphery, a foot portion and a distal end. The distal end has a generally cup shaped indentation. A base member is included having top and bottom surfaces. The foot portion of the post member is mounted to the top surface. At least one standoff extends from the bottom surface of the base member. The at least one standoff is for resting against a contact surface when soldering the electrical connector to the contact surface, thereby separating the bottom surface from the contact surface to define a minimum volume therebetween for occupation by solder. | 09-04-2008 |
20080287013 | Connector - A connector, comprising a connector body ( | 11-20-2008 |
20090042455 | Electrically and Thermally Non-Metallic Conductive Nanostructure-Based Adapters - A conductive adapter for carrying relatively high current from a source to an external circuit without degradation is provided. The adapter includes a conducting member made from a conductive nanostructure-based material and having opposing ends. The adapter can also include a connector portion positioned on one end of the conducting member for maximizing a number of conductive nanostructures within the conducting member in contact with connector portion, so as to enable efficient conduction between a nanoscale environment and a traditional electrical and/or thermal circuit system. The adapter can further include a coupling mechanism situated between the conducting member and the connector portion, to provide a substantially uniform contact between the conductive nanostructure-based material in the conducting member and the connector portion. A method for making such a conductive adapter is also provided. | 02-12-2009 |
20090042456 | CONNECTING STRUCTURE OF ELECTRIC WIRE AND ELECTRONIC-COMPONENT INCORPORATING UNIT - A connecting structure includes a unit body including a case having an electronic-component housing concave portion and a fitting-connection concave portion and an electronic component housed in the electronic-component housing concave portion and making a first connecting portion in the fitting-connection concave portion; an electric wire having an electric-wire side terminal in the middle of the electric wire in an electric-wire direction; and a cover member having an electric wire housing portion held on the electric wire so as to overlie an area of the electric-wire side terminal and a cover side fitting part to be fitted in the fitting-connection concave portion. In such a configuration, after the cover member is previously assembled with the electric wire to form a cover-assembled wire, the cover-assembled wire is fit in the fitting-connection concave portion and simultaneously therewith the first connecting portion is connected to the electric wire side terminal. | 02-12-2009 |
20090053942 | CONDUCTION TERMINAL AND METHOD FOR TIN-DIPPING CONDUCTION TERMINAL - The invention provides a conduction terminal, and the conduction terminal includes a weld part and a solder. The weld part includes an end surface and a side wall adjacent to the end surface. A solder film covers the end surface and the side wall. Compared with prior art, a solder on the weld part of the conduction terminal of the invention forms as a film. Therefore, the conduction terminal of the invention is easily welded on a substrate, and the conduction terminals do not easily have a short circuit and conjoined solders. Additionally, a method for tin-dipping the conduction terminal including the following steps of: providing a fixture having multiple storage troughs, sizes of the storage troughs are the same; disposing equivalent quantity of solder on each of the storage troughs; heating the fixture to melt the solders; inserting the weld parts of the conduction terminals into the corresponding accommodation holes, so as to stick the solder on the conduction terminal, and the solder covers as a solder film on the conduction terminal after cooling. | 02-26-2009 |
20090149088 | MICROCONTACT, METHOD FOR PRODUCING THE SAME AND ELECTRONIC COMPONENT - A microcontact according to the invention is less than 10 mm in length and composed of a conductive basis material, a base surface treatment layer formed thereon, and an upper surface treatment layer, and includes a contact portion, a terminal portion, and an intermediate portion formed over its entire circumference with exposed oxide surfaces of the base surface treatment layer. The exposed oxide surfaces are formed by irradiating the front and rear surfaces of the contact with laser beams at respective predetermined inclined angles to remove the upper surface treatment layer and simultaneously to oxidize the narrow base surface treatment layer exposed by the removal of the upper surface treatment layer. In this manner, the exposed oxide surfaces can be formed with a high accuracy in a simple manner for stopping solder rise at a predetermined position when the terminal portion of the microcontact is jointed to a substrate by soldering. | 06-11-2009 |
20090170380 | ELECTRICAL CONNECTOR - An improved electrical connector for use with a glazing is disclosed. The glazing preferably comprises a ply of glazing material having a first electrically conductive component mounted thereon, and a second electrically conductive component, joined to the first by a solder. The second component comprises first and second connector feet linked by a bridge portion, the bridge portion being at a height h above each of the connector feet, and each of the feet comprises at least one protrusion having a height d. At least one of h or d is chosen to maximise the adhesion between the second electrically conductive component and the first electrically conductive component. Preferably, the glazing is an automotive glazing. | 07-02-2009 |
20090191770 | CONDUCTING TERMINAL CONNECTOR AND MANUFACTURING METHOD THEREOF - There is disclosed a conducting terminal connector which comprises an insulating tube, a conducting terminal and a soldering sleeve. The conducting terminal has a first end received in the insulating tube and a second end opposite to said first end, and the second end is exposed outwardly for connecting an external conducting contact point so that the first end is bent to form a longitudinal elongation with an opening facing upward. The soldering sleeve is formed by a casting method so as to form a corrugated surface on the outer periphery thereof, and has a melting point in which a heat source is applied to an outer part of the insulating tube so that an inner part of the insulating tube is shrunken to lodge in the outer corrugated surface of the soldering sleeve thereby forming the conducting terminal connect. | 07-30-2009 |
20100003867 | CONNECTOR FOR USE WITH LIGHT-WEIGHT METAL CONDUCTORS - Connecting elements and methods for the electrical connection between a light-weight metal conductor and an electrical contact, in particular for use in motor vehicles are disclosed. A metal sleeve is cold welded to the conductor. A contact element is connected to the metal sleeve in an electrically conductive manner and can be connected to the contact. A hardenable liquid seals, in a gas-tight manner, a contact element-side opening in the metal sleeve cold welded to the light-weight metal conductor. | 01-07-2010 |
20100035484 | TERMINAL WELD TAB HAVING A WIRE SQUEEZE LIMITER - One embodiment includes an electrical connection terminal ( | 02-11-2010 |
20100227515 | WELD TERMINAL, SWITCH ASSEMBLY AND METHODS OF ATTACHMENT - A terminal and electrical contact for a pair of leads of an electrical component is provided, the terminal having a pair of terminals each comprising a planar member comprising a conductive material that surrounds an opening in the planar member; and wherein one of the pair of leads is welded to one of the pair of terminals such that the lead traverses the opening and is welded to the terminal at a portion of the terminal adjacent to the opening and the other one of the pair of leads is welded to the other one of the pair of terminals such that the lead traverses the opening and is welded to the terminal at a portion of the other one of the pair of terminals adjacent to the opening. | 09-09-2010 |
20100233917 | FIXTURE DEVICE FOR CABLE ELEMENTS - A cable fixture device for routing at least one cable element from a first location on the cable fixture device to a second location on the cable fixture device is provided. The cable fixture device includes a strip element and a plurality of pin elements disposed on at least one surface of the strip element. Each of the plurality of pin elements includes a stem element and a head element. The stem element of the each pin element is attached to the strip element. Further, each pin element is capable of elastic deformation and the at least one cable element is routed through the plurality of pin elements. The head elements of the plurality of pin elements prevent disengagement of the at least one cable element from the cable fixture device. | 09-16-2010 |
20110177727 | ALUMINUM CONDUCTOR AND CONDUCTIVE TERMINAL CONNECTION - A conductive terminal is a feasible of making a reliable and cost effective electrical connection between the aluminum conductor and any metal conductor. The terminal includes a blank, a three dimensional structure formed from the blank, and multiple seams and a slit being sealed by a metal filler. It has a transition opening to allow melted metal to flow in and make a metallic bond between terminal and the aluminum conductor. The folded two arms with the metallic seals provide sealing surface for adhesive shrinkable tube. An assembly of terminal and the aluminum conductor includes a compressed the aluminum conductor within a terminal hollow tube, a metallic bond and coating, an metallic seals at a slit and multiple seams. The shrinkable adhesive tube seals the connection of the aluminum conductor and conductive terminal from environmental fluids at multiple locations. These locations start from the two arms with metallic seals, the transition opening, non-deformed hollow tube of the terminal, and the insulation of the aluminum conductor. The metallic bond and coating also isolate the aluminum conductor from air. | 07-21-2011 |
20110189904 | WELD TERMINAL, SWITCH ASSEMBLY AND METHODS OF ATTACHMENT - A terminal and electrical contact for a pair of leads of an electrical component is provided, the terminal having a pair of terminals each comprising a planar member comprising a conductive material that surrounds an opening in the planar member; and wherein one of the pair of leads is welded to one of the pair of terminals such that the lead traverses the opening and is welded to the terminal at a portion of the terminal adjacent to the opening and the other one of the pair of leads is welded to the other one of the pair of terminals such that the lead traverses the opening and is welded to the terminal at a portion of the other one of the pair of terminals adjacent to the opening, wherein the opening and the planar member are configured such that a high resistance zone is created at the portion of the terminal adjacent to the opening. | 08-04-2011 |
20120115374 | CONTACTING TERMINAL - A contacting terminal electrically connecting with an electrical element includes a soldering plate, a pair of facing confining plates extended upward from two opposite side edges of the soldering plate, an upward flexible arm extended from one end of the soldering plate, and a contacting portion extended from a free end of the flexible arm and beyond tops of the confining plates. The contacting portion is elastically pressed downward by the electrical element to realize an electrical connection therebetween and restricted between the confining plates. Tops of the confining plates are capable of stopping the electrical element pressing the contacting portion downward excessively. | 05-10-2012 |
20120214359 | CABLE CONNECTION STRUCTURE AND CABLE CONNECTION METHOD - A cable connection structure includes a cable and a substrate that includes a connection electrode to which the cable is connected. The substrate includes two or more protrusions that form a groove in which a conductor part of the cable is arranged. The height of the protrusions is greater than the diameter of the conductor part of the cable. | 08-23-2012 |
20130102205 | FUSE UNIT, MOLD STRUCTURE, AND MOLDING METHOD USING MOLD STRUCTURE - A mold structure includes a fixed mold and a movable mold to bury a bus bar having a main body circuit unit with a tuning-fork terminal along with molding of a resin molded product. The fixed mold and the movable mold being joined together are configured to nip a terminal base of the tuning-fork terminal between a terminal base receiving portion of the fixed mold and a terminal base abut portion of the movable mold in a state where the tuning-fork terminal is protruded outside a cavity which is formed by mold main body portions of the fixed mold and the movable mold being joined together and into which resin is injected. | 04-25-2013 |
20130203303 | CONNECTION ELEMENT FOR AN ELECTRICAL CONDUCTOR - A connection element for an electrical conductor contains a first section to be connected to another component, and a second section having a front surface to be welded to an electrical conductor. The front surface has a three-dimensional form raised in a central region in relation to an edge region surrounding the central region. The connection element is hollow in the region of the front surface. | 08-08-2013 |
20140057501 | ELECTRICAL-MECHANICAL FASTENING DEVICE FOR MOTOR VEHICLES - An electro-mechanical fastener includes a fastener body having a connection portion materially integrally formed with at least one mounting member. The at least one mounting member has a thickness that is no more than three-times greater than a thickness of a substrate to which the electro-mechanical fastener is joined. The at least one mounting member is configured and disposed to be joined to the substrate through a welded connection. | 02-27-2014 |
20140194014 | ELECTRIC WIRE CONNECTION STRUCTURE - The present invention has an object of providing an electric wire connection structure for providing sufficiently high electric characteristics by welding and fixing a terminal and core wires, for providing the terminal with a strength sufficiently high to withstand the pressure at the time of welding, and for improving the adhesiveness of the core wires to the terminal by preventing the core wires from escaping at the time of welding. The electric wire connection structure is for connecting core wires ( | 07-10-2014 |
20140273665 | Adjustable Bonding Washer - An adjustable bonding washer for placement between two metal pieces to create an electrical bond between them. The bonding washer has two metallic parts constrained to slide relative to one another along an axis. Each part has oppositely directed teeth that are forcibly embedded into the metal pieces to make electrical contact with them when they are rigidly clamped together. Adjustability enables the bonding washer to be mated with metal pieces having a range of widths and profiles, such as the slotted rails used to support arrays of photovoltaic panels. | 09-18-2014 |
20140378010 | ELECTRICAL PLUG CONNECTOR FOR ELECTRICAL CONNECTION BY MEANS OF ULTRASONIC WELDING - The invention relates to an electrical plug connector in the form of a solid contact pin which has the following: A) a contact section, B) a transition section which adjoins the contact section, and C) a connection section, which adjoins the transition section, for electrical connection to an electrical line by means of ultrasonic welding, wherein the connection section has at least one geometric wave refraction element for refracting waves during ultrasonic welding. | 12-25-2014 |
20150038025 | ELECTRICAL TERMINAL ASSEMBLY - An electrical terminal assembly is provided with at least one blade having a distal end that is sized to be received within an electrical outlet. One of a lug and a pair of crimp tabs with distal ends is provided on a proximal end of the at least one blade. A wire is in electrical communication with a vehicle charger. The wire is welded to the lug or received between the pair of crimp tabs with the distal ends of the crimp tabs deformed centrally within the crimp tabs to press the wire against the proximal end of the at least one blade, with the wire welded to the pair of crimp tabs. | 02-05-2015 |
20150099406 | STRUCTURE FOR JOINING ELECTRIC WIRE AND TERMINAL, RESISTANCE-WELDING ELECTRODE, AND METHOD FOR JOINING ELECTRIC WIRE AND TERMINAL - A structure for joining an electric wire and a connection terminal by a resistance-welding is provided. The electric wire includes a core wire made of metal. The connection terminal is made of metal different from the metal of the core wire. The core wire includes a melt-joining portion configured to be resistance-welded with the connection terminal. The melt-joining portion has an inclined surface which is inclined so that a thickness of the core wire becomes larger toward a base-end side from a thinnest part of the melt-joining portion along an extending direction in which the core wire extends. | 04-09-2015 |
20150104983 | JOINT STRUCTURE BETWEEN END OF COAXIAL CABLE AND TERMINAL, AND JOINING METHOD THEREBETWEEN - The present invention relates to a joint structure for joining an end of an outer conductor of a coaxial cable in which the outer conductor including a plurality of outer core wires is coaxially and integrally formed with and around an inner conductor via an insulation inner coat with a terminal, a joint end is formed by bending the plurality of outer core wires in a direction crossing a longitudinal direction of the cable, and a joint portion is formed by joining the joint end with a conductor connection portion of the terminal disposed in a direction crossing an axial direction of the cable. | 04-16-2015 |
20150111442 | TERMINAL-PROVIDED WIRE, METHOD FOR MANUFACTURING SAME AND JIG - A terminal-provided wire ( | 04-23-2015 |
20150126078 | CRIMP TERMINAL, CONNECTION STRUCTURAL BODY AND CONNECTOR - In a female crimp terminal including a pressure-bonding section for permitting pressure-bonding and connection to an aluminum core wire of an insulated wire, the pressure-bonding section is configured in a hollow sectional shape by a plate material, and a long length direction weld portion in a long length direction is welded, a forward part in the hollow sectional shape is caused to take an almost flat plate-shaped sealing shape and a width direction weld portion in a width direction is welded. | 05-07-2015 |
20160028177 | ELECTRIC CONNECTION STRUCTURE AND TERMINAL - An electric connection structure includes a copper member including copper or a copper alloy; a metal member connected to the copper member and including a metal having an ionization tendency greater than that of copper; and a surface treatment layer at least in a portion of the copper member that is different from a connection part connected to the metal member. The surface treatment layer includes a surface treating agent having a hydrophobic part and a chelate group in the molecular structure. Thus, the occurrence of electric erosion can be suppressed in the electric connection structure in which different kinds of metals are connected. | 01-28-2016 |
20160199932 | METHOD FOR ESTABLISHING AN ELECTRICALLY CONDUCTIVE CONNECTION BETWEEN AN ELECTRICAL LINE AND AN ELECTRICALLY CONDUCTIVE COMPONENT | 07-14-2016 |
20160204523 | CONDUCTION PATH AND ELECTRICAL WIRE | 07-14-2016 |
20190148843 | TERMINAL-EQUIPPED ELECTRIC WIRE, AND TERMINAL | 05-16-2019 |
20190148869 | TERMINAL AND MANUFACTURING METHOD THEREOF | 05-16-2019 |
439875000 | Having duplicate locations for permanently securing individual conductors thereto | 3 |
20100093232 | RECEPTACLE CONTACT WITH A WIDENED MATING TIP - A receptacle connector includes a housing and a receptacle contact. The housing includes a cavity extending through the housing from the mating side to the mounting side. The receptacle contact is disposed within the cavity and is configured to receive a mating contact of the mating connector. The receptacle contact includes elongated shafts disposed on opposite sides of a longitudinal axis and mating tips coupled to the shafts. The mating tips have tapered shapes between the shafts and outer ends of the mating tips. The tapered shapes are wider than the shafts in a lateral direction that is transverse to the longitudinal axis. The receptacle contact is configured to receive a mating contact of a mating connector between the mating tips to electrically couple the mating connector with the receptacle connector. | 04-15-2010 |
20110021091 | HIGH-CURRENT CONTACT AND ELECTRIC COMPONENT WITH A HIGH-CURRENT CONTACT - The invention relates to a high-current contact ( | 01-27-2011 |
20130143453 | WIRE CONNECTING TERMINAL FOR ENAMELED WIRES - A wire connecting terminal for enameled wires includes an insulating plate ( | 06-06-2013 |
439876000 | Adapted to be secured to conductor formed on printed circuit board | 10 |
20080220667 | ELECTRICAL TERMINAL FOR SEALED ACCUMULATOR - A terminal for a sealed accumulator comprises a single-piece body made of aluminium with at least one tinned zone for soldering to an electronic card and at least one non-tinned zone for connection to a current output terminal of the accumulator. | 09-11-2008 |
20080261462 | Board-to-Board Connector - A connector mountable to a printed circuit board is disclosed including a nonconductive housing with a plurality of slots, each slot having an opposed first and second end walls with grooves in each end wall and a plurality of terminals ( | 10-23-2008 |
20080261463 | Contact element - The invention relates to a contact element for printed circuit boards, comprising a terminal body that has an insertion opening for the insertion of a conductor and a screw for the fastening by clamping of the conductor within the terminal body. A seating element with a seating surface is detachably fastenable by a fastening element to the contact element. The seating surface has a surface area that is greater than the cross-sectional surface area of the terminal body. | 10-23-2008 |
20090053943 | Bringing a cable into contact with a flexible strip conductor - The invention relates to a cable for bringing into contact with a contact point of a flexible strip conductor, to a contact strip for one or more cables of this type, and to a system for bringing control electronics, which are situated on a flexible printed circuit board, into contact with at least one electrical and/or electronic component. The component is, particularly, a mechatronic transmission or engine controller of a motor vehicle. A special contact with a welding boss is placed at the end of a cable. A bundle of cables of this type is fixed in a defined position by way of a contact strip. The invention enables, for the first time, one or more cables to be directly brought into contact with the contact point(s) of a flexible strip conductor. This advantageously eliminates additional contact points and parts such as mating connectors, etc. whereby leading to a distinct improvement in quality and reduction in costs. The invention is particularly suited for use in contacting systems in mechatronic transmission or engine controllers, etc. of a motor vehicle. | 02-26-2009 |
20090264028 | JOINT STRUCTURE, JOINING METHOD, WIRING BOARD AND METHOD FOR PRODUCING THE SAME - A joint structure of the present invention includes a conductive member containing copper as a major component thereof, an electrode member containing copper as a major component thereof, and a joint portion formed by fusion welding the conductive member and the electrode member with a brazing material containing tin as a major component thereof and containing substantially no copper, wherein the amount of copper atoms contained in the alloy in the central part of the joint portion is higher than that in the outer circumference part. | 10-22-2009 |
20090318036 | CONNECTOR FOR ELECTRICAL CONNECTION - In a connector, a fixed member is configured to be fixed to a substrate. An insertion member is arranged separate from the fixed member and configured to be insertable into an insertion part of a mating connector. Pairs of contacts are arranged on side surfaces of the insertion part of the mating connector to connect the fixed member and the insertion member to each other. Each contact includes a first fixed part fixed to the fixed member, a second fixed part fixed to the insertion member, and a contact part to contact with a contact piece of the mating connector. A cross-sectional shape of a portion of each contact between the first fixed part and the second fixed part is such that the insertion member is displaceable relative to the fixed member in an arranging direction of the pair of contacts and a direction perpendicular to the arranging direction. | 12-24-2009 |
20100304625 | SOLDER ATTACHED CONTACT AND A METHOD OF MANUFACTURING THE SAME - There are provided the steps of preparing a contact ( | 12-02-2010 |
20110009013 | ELASTIC SHEET STRUCTURE - An elastic sheet structure includes a plate portion, two wedged portion formed at opposite sides of the plate portion, and a latching portion formed another side of the plate portion. The wedged portion and the latching portion can be formed by bending two extending portions of the plate portion downwardly, the wedged portion is used to resist with a circuit board, the latching portion is for insertion into a hole of the circuit board to latch with the circuit board. | 01-13-2011 |
20120156948 | SUBSTRATE CONNECTING STRUCTURE AND ELECTRONIC DEVICE - There is provided a board connection structure capable of preventing occurrence of a connection failure, which would otherwise be caused by an uneven temperature increase in connection region of circuit boards during thermo-compression bonding. | 06-21-2012 |
20130137314 | WIRE-TO-BOARD CONNECTOR - Provided is a wire-to-board connector including a plug attached to a wire, and a receptacle mounted on a circuit board. The plug and the receptacle are formed of metal. The plug is fitted into the receptacle to electrically connect the wire to the circuit board. The receptacle has an accommodating portion formed in a tubular shape. The plug has an inserted portion to be inserted into the accommodating portion of the receptacle. The inserted portion includes a body plate and an elastic piece elastically supported in a cantilevered manner by the body plate. The elastic piece of the inserted portion has a free end. The accommodating portion has an engaged portion. When the inserted portion is inserted into the accommodating portion, the free end engages with the engaged portion along with an elastic deformation of the elastic piece, thereby allowing the plug to be fitted into the receptacle. | 05-30-2013 |