| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Two element electrical connection | EP89312195.4 | 1989-11-23 | EP0370818A3 | 1991-07-17 | Schroll, Ross E.; Folkins, Jeffrey J. |
An electrostatographic printing machine comprises a main frame (10) and at least one unit (11) insertable into and removable from said main frame for cooperative association therewith in producing prints. Two electrical contact elements (67,72), one on each of said main frame and said removable unit, engage one another to form an electrical connection to conduct electric current between the main frame (10) and the removable unit (11). One of the contact elements (67) comprises a plurality of resiliently flexible conductive fibers (69) arranged in a brush-like configuration and the second element (72) comprises a substantially continuous conductive surface for electrical contact with said brush. |
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| 122 | Linear fiber armature for electromagnetic launchers | EP84308277.7 | 1984-11-29 | EP0182947B1 | 1989-05-24 | Scuro, Joseph |
| 123 | OVERHEAD TRAVELLING CRANE | EP83902448.6 | 1983-08-01 | EP0151641B1 | 1988-10-12 | ISHIKURA, Takashi Tsubakimoto Chain Co.; MINO, Joji Tsubakimoto Chain Co.; SATO, Kiyomi Tsubakimoto Chain Co.; NAGATO, Takaaki Tsubakimoto Chain Co.; SHIBAYAMA, Haruo Tsubakimoto Chain Co. |
| An overhead travelling crane for conveying an article comprising a monorail (12) formed with a recess (18a) for engaging a rail connecting plate with the side face of the web of a rail of I-shaped section and with a pressure contact mounting projecting strip (17) for a rail hanging member and a trolley wire support projecting along the longitudinal direction of the side face of the web on the opposite surfaces of the upper and lower flanges of the rail, a drive carrier (13) and a driven carrier (14) moving on the monorail via rubber or synthetic resin cylindrical wheels (22, 36), a load bar (15) supported at both ends rotatably through a vertical pin fixed at both ends to the frames of the carriers, two pairs of guide rollers (26, 37) approaching both side faces of the upper part of the monorail and guide rollers (27, 38) approaching both side faces of the lower part of the monorail at the front and rear of the wheel, a transmission for transmitting and coupling the wheel shaft of the drive carrier via a toothed belt (33) to the drive motor (30), a trolley wire (40) aligned and supported vertically to the side face of the monorail, and a current collector (57) elastically contacted with the slidably contacting surface of the trolley wire fixed to the frame of the driven carrier. | ||||||
| 124 | Abzweigungsbuchse für Energieverteiler an drehbaren Stellen | EP86200660.8 | 1986-04-18 | EP0241603A1 | 1987-10-21 | Dekkers, Peter Joannes |
Abzweigungsbuchse für bewegliche Elektrogeräte und Armaturen, bestehend aus einem Zylinder (5) mit drehbaren Teilen eines Gehäuses (8),in welchem Schleifkontakte eingefasst sind. |
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| 125 | Electrical supply device for mobile mechanisms | EP84440062 | 1984-12-05 | EP0147347A3 | 1985-08-07 | Russo, Michel |
| La présente invention concerne un dispositif d'alimenta tion électrique pour mécanismes mobiles. Dispositif caractérisé en ce qu'il est constitué par un conducteur en forme de caisson (1) muni d'une enveloppe isolante (2), et par un preneur de courant sous forme d'un chariot-guide (3) épousant les contours intérieurs du conduc teur (1) et pourvu d'un balai (4) preneur de courant, qui est poussé en contact avec le conducteur (1) au moyen de ressorts de pression (5), et qui est relié à la machine à alimenter correspondante par un câble de liaison souple (6). | ||||||
| 126 | CONTACT UNIT AND METHOD | US16223199 | 2018-12-18 | US20190189369A1 | 2019-06-20 | Hans Rastl; Siegfried Gadocha; Herbert Wallmann; Robert Aigner |
| The invention relates to a contact unit and to a method for steering electric arcs on a contact unit, in particular for supplying vehicles with power via an overhead wire (20), the contact unit comprising a sliding contact device (19), the sliding contact device having a contact strip support (21) and a contact strip (22) disposed thereon, the contact unit having a steering device (24) for electric arcs (25) which is disposed on the contact unit, the steering device being provided with a magnet (30). | ||||||
| 127 | HIGH-FREQUENCY-TUNING SLIDING ELECTRICAL CONTACT | US16116867 | 2018-08-29 | US20190059150A1 | 2019-02-21 | Yuntao SONG; Manman XU; Gen CHEN; Yongsheng WANG; Guang LIU |
| Disclosed is a high-frequency-tuning sliding electrical contact. The contact includes a tuning ring which is composed of an inner elastic piece, an upper base, an outer elastic piece and a lower base. Pull rods are welded to an upper side face of the upper base, and upper ends of the pull rods are driven to move up and down by a motor, so that the tuning ring slides up and down between the outer sleeve and the inner sleeve along the pull rods. The overall structure of the novel electrical contact is simple, compact and economical. The disclosure reduces joule heat produced by contact resistance and prevents contact surface fusion welding or conductive damage, and is especially suitable for tuning in a small gap range. | ||||||
| 128 | Power connector assembly for a communication system | US15412430 | 2017-01-23 | US09985403B1 | 2018-05-29 | Michael David Herring; Jeffery Walter Mason; Zhengguo Sun; Guangming Zhao |
| A power connector assembly includes a power rail having a power supply circuit being configured to be mounted within an equipment cabinet and a sliding power connector configured to be terminated to a host circuit board. The sliding power connector has a power contact electrically connected to the power supply circuit of the power rail. The sliding power connector is configured to be slid along the power rail as an equipment rack holding the circuit board is opened and closed during an extension cycle of the equipment rack. The power contact maintains electrical connection with the power rail during the entire extension cycle. | ||||||
| 129 | Contact device | US15397293 | 2017-01-03 | US09929522B2 | 2018-03-27 | Klaus Pfeiffer-Wagner |
| A contact device for transmitting electrical energy from a preferably spatially fixed busbar to a tap-off bar, movable along the busbar, including: at least one connecting housing, the busbar being mechanically connected to the tap-off bar by connecting housing, at least one combi clip, the combi clip brought into engagement with part of the outer periphery of the connecting housing in a mechanically releasable manner and establishing a mechanical connection between the connecting housing and a connecting bracket, at least one power plug housing, the power plug housing positioned mechanically and from the outside on the busbar and/or on the tap-off bar such that a mechanical connection between the connecting housing and the busbar and/or the connecting bar is established by the power plug housing. | ||||||
| 130 | Electrical connector | US15326088 | 2015-07-15 | US09893453B2 | 2018-02-13 | Gregory Simon Cox |
| The present invention relates to an electrical connector in particular an electrical connector having at least two terminals that are connected wherein the electrical connector permit movement of each terminal relative to each other. The electrical connector has a first body part having a first terminal; the first terminal is connected to a second terminal formed in a second body part, the first and second body parts are connected together and can move with respect one to another thereby permitting variable angles to be created between an axis defined by the first terminal and an axis defined by the second terminal. | ||||||
| 131 | POWER SUPPLYING MODULE | US15535866 | 2015-12-09 | US20170348861A1 | 2017-12-07 | Hiroki Kikuchi; Nobuhiro Omote |
| A power supplying module that can be reduced in size is provided. The power supplying module includes a module body, and a lead-in unit provided on one surface of the module body. The lead-in unit includes a plate unit that fixes at least one sealing tube to the one surface of the module body, and at least one circumference holding unit that holds a circumference of the corresponding sealing tube. The plate unit is provided with, in a longitudinal direction of the one surface of the module body, a plurality of cable insertion holes, and a plurality of positioning portions that position the plurality of circumference holding units to the corresponding cable insertion holes. | ||||||
| 132 | Power transfer unit | US14127594 | 2012-10-11 | US09762017B2 | 2017-09-12 | Nick Baker; Jonas Ståhl |
| The disclosure relates to a power-transfer unit for a sealing unit of a packaging machine comprising a support, intended to be attached to a sealing unit, a power bar comprising a contact-initiation section, a contact-termination section, and an intermediate section therebetween, the power bar being resiliently suspended in the support and being movable along a first direction being normal to a contact surface of the intermediate section. The power bar is suspended in the support by a first leaf spring. | ||||||
| 133 | Connectors for smart windows | US15394637 | 2016-12-29 | US09728920B2 | 2017-08-08 | Stephen Clark Brown; Mark A. Collins; Travis D. Wilbur; Alexander Rumer; Dennis Mullins |
| This disclosure provides connectors for smart windows. A smart window may incorporate an optically switchable pane. In one aspect, a window unit includes an insulated glass unit including an optically switchable pane. A wire assembly may be attached to the edge of the insulated glass unit and may include wires in electrical communication with electrodes of the optically switchable pane. A floating connector may be attached to a distal end of the wire assembly. The floating connector may include a flange and a nose, with two holes in the flange for affixing the floating connector to a first frame. The nose may include a terminal face that present two exposed contacts of opposite polarity. Pre-wired spacers improve fabrication efficiency and seal integrity of insulated glass units. Electrical connection systems include those embedded in the secondary seal of the insulated glass unit. | ||||||
| 134 | An Electrical Connector | US15326088 | 2015-07-15 | US20170214203A1 | 2017-07-27 | Gregory Simon Cox |
| The present invention relates to an electrical connector in particular an electrical connector having at least two terminals that are connected wherein the electrical connector permit movement of each terminal relative to each other. The electrical connector has a first body part having a first terminal; the first terminal is connected to a second terminal formed in a second body part, the first and second body parts are connected together and can move with respect one to another thereby permitting variable angles to be created between an axis defined by the first terminal and an axis defined by the second terminal. | ||||||
| 135 | Mounting for a data conductor, energy transmission system and data transmission system | US14112419 | 2012-04-20 | US09716376B2 | 2017-07-25 | Bernd Maier; Frank Pietschmann |
| The invention relates to a mounting for a data conductor on a conductor strand of a conductor line. The invention further relates to an energy transmission system for transmitting electrical energy between a conductor line and an electrical consumer that can be moved along the conductor line and has at least one data conductor guided along the conductor line and at least one antenna arranged on the consumer, and to a data transmission system for contactless local data transmission between at least one data conductor guided along a conductor line and at least one antenna arranged on an electrical consumer that can be moved along the conductor line. The invention solves the problem of enabling a compact construction, simple, fast fitting and retrofitting of an energy transmission system and reliable data transmission in an energy transmission system by means of a mounting having a mounting means that is adapted to an outer contour of the conductor strand for fastening the mounting to the conductor strand and a fastening means for fastening the data conductor to the mounting at a distance from the conductor strand, and by means of an energy transmission system and a data transmission system, which comprise a multiplicity of mountings for mounting the data conductor at an invariant distance from a conductor strand of the conductor line. | ||||||
| 136 | Steering apparatus | US15120121 | 2015-05-28 | US09688222B2 | 2017-06-27 | Hiroshi Kakita; Daiki Orihara; Osamu Kurihara |
| A steering apparatus has a guide member (31) being received in a guide groove (25) and attached to an inner column (11), metal fittings that have conductivity, is in contact with the inner column to attach the guide member to the inner column, and an electricity-carrying plate (40) that is composed of a metal plate material having conductivity, is fixed to the inner column in contact with the metal fittings, and elastically deforms and in contact with an inside of a pair of guide walls at a predetermined contact pressure, so that a new electricity-carrying passage from a steering wheel to a vehicle body is secured. | ||||||
| 137 | CONNECTORS FOR SMART WINDOWS | US15394637 | 2016-12-29 | US20170117674A1 | 2017-04-27 | Stephen Clark Brown; Mark A. Collins; Travis D. Wilbur; Alexander Rumer; Dennis Mullins |
| This disclosure provides connectors for smart windows. A smart window may incorporate an optically switchable pane. In one aspect, a window unit includes an insulated glass unit including an optically switchable pane. A wire assembly may be attached to the edge of the insulated glass unit and may include wires in electrical communication with electrodes of the optically switchable pane. A floating connector may be attached to a distal end of the wire assembly. The floating connector may include a flange and a nose, with two holes in the flange for affixing the floating connector to a first frame. The nose may include a terminal face that present two exposed contacts of opposite polarity. Pre-wired spacers improve fabrication efficiency and seal integrity of insulated glass units. Electrical connection systems include those embedded in the secondary seal of the insulated glass unit. | ||||||
| 138 | STEERING APPARATUS | US15120121 | 2015-05-28 | US20170057433A1 | 2017-03-02 | Hiroshi KAKITA; Daiki ORIHARA; Osamu KURIHARA |
| A steering apparatus has a guide member (31) being received in a guide groove (25) and attached to an inner column (11), metal fittings that have conductivity, is in contact with the inner column to attach the guide member to the inner column, and an electricity-carrying plate (40) that is composed of a metal plate material having conductivity, is fixed to the inner column in contact with the metal fittings, and elastically deforms and in contact with an inside of a pair of guide walls at a predetermined contact pressure, so that a new electricity-carrying passage from a steering wheel to a vehicle body is secured. | ||||||
| 139 | Electrical contactor | US14971065 | 2015-12-16 | US09525259B2 | 2016-12-20 | Peter Willard Hammond |
| An electrical contactor includes a first stationary contact bar with first and second contact surfaces, and a single moving contact bar with first and second contact surfaces. The first and second contact surfaces of the first stationary contact bar and the first contact surface of the single moving contact bar are configured such that, when the single moving contact bar travels towards the first stationary contact bar, the first contact surface of the single moving contact bar touches the first contact surface of the first stationary contact bar in a first contact point, and the second contact surface of the first stationary contact bar in a second contact point. At least one of the first and second contact surfaces of the first stationary contact bar or the first contact surface of the single moving contact bar have a convex shape to establish the first and second contact points. | ||||||
| 140 | Electrical power contact with two adjacent contact blades abutting each other | US14761486 | 2014-03-13 | US09419356B2 | 2016-08-16 | Charles Copper; Christopher S. Gieski |
| A power connector can include a dielectric connector housing and electrical contacts that are supported by the housing. The electrical contacts can each include first and second contact bodies. The first contact body can include a first contact blade and the second contact body can include a second contact blade that can define a mating portion of the electrical contact. The mating portion can be configured to mate with a complementary power connector along a mating direction so as to establish an electrical connection between the power connector and the complementary power connector. The contact blades can be configured slide with respect to each other along the mating direction. | ||||||
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