| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Two element electrical connection | EP89312195.4 | 1989-11-23 | EP0370818A2 | 1990-05-30 | 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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| 202 | Dispositif assurant un contact électrique dans un appareil générateur d'impulsions de fréquence élevée ou d'ondes de choc | EP88400009.2 | 1988-01-05 | EP0277047A3 | 1990-02-14 | Lacruche, Bernard; Aschwanden, Jean-Paul; Cathignol, Dominique |
L'invention concerne un dispositif assurant un contact électrique amélioré entre un conducteur électrique (12) et une électrode (14). Ce dispositif est caractérisé en ce qu'il comprend un élément (50) formant écrou de contact de position fixe, un matériau électriquement conducteur, comportant un orifice axial (52) traversant dans lequel passe l'électrode (14) ou un élement porte-électrode (16), ce conducteur électrique (12) aboutissant à l'élément formant écrou (50) par une flèche de connexion (54). Cet élément formant écrou (50) peut être réalisé en deux demi-disques (50a, 50b). On obtient ainsi une facilité de montage et de démontage ainsi qu'un contact électrique amélioré en cours de fonctionnement. |
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| 203 | Linear fiber armature for electromagnetic launchers | EP84308277.7 | 1984-11-29 | EP0182947A1 | 1986-06-04 | Scuro, Joseph |
An armature, for conducting very large DC currents between a pair of electrically conductive rails while being driven along the rails under the influence of electromagnetic forces generated by the application of the currents, including a plurality of spiraled conductive fibers. The fibers pass through a sleeve and are compacted to a maximum packing density within the sleeve to form a single solidified connection. A brush assembly formed by the sleeve and fibers is mounted on an insulating support structure adapted to slide between the rails of an electromagnetic launcher. |
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| 204 | OVERHEAD TRAVELLING CRANE | EP83902448.6 | 1983-08-01 | EP0151641A1 | 1985-08-21 | 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. |
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| 205 | Dispositif d'alimentation électrique pour mécanismes mobiles | EP84440062.2 | 1984-12-05 | EP0147347A2 | 1985-07-03 | Russo, Michel |
La présente invention concerne un dispositif d'alimentation 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 conducteur (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). |
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| 206 | Balai pour collecteur | EP78400178.6 | 1978-11-14 | EP0002627A1 | 1979-06-27 | Tourtellier, Jean-Louis |
L'invention concerne un balai pour collecteur d'un chariot circulant dans un monorail tubulaire électrifié utilisé dans les installations de manutention. Ce balai est caractérisé en ce qu'il comporte une embase en matière isolante (19) pourvue de moyens d'encliquetage (26) solidaires d'éléments conducteurs d'électricité (34) reliés au collecteur et coopérant avec une tête saillante (43) en matière conductrice constituant un frotteur de contact (24) en forme de lame réalisé en un matériau conducteur d'électricité tel qu'un alliage à base de cuivre et de carbone ou fritté. L'invention concerne les moyens moteurs pour le transport des charges dans les installations de manutention. 1 |
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| 207 | ELECTRONICS RACK WITH INTEGRATED BATTERIES FOR UNINTERRUPTED POWER SUPPLY | US15987546 | 2018-05-23 | US20180358789A1 | 2018-12-13 | Nico CORBO; Brendan K. WALSH |
| An electronics rack with integrated battery storage compartment for an uninterrupted power supply is disclosed. The battery storage compartment includes a compartment housing attached to the rack and a compartment drawer slidingly mounted within the compartment housing. The compartment drawer includes an uninterrupted power supply (UPS) and one or more batteries for providing battery powered backup for electronics components mounted in the rack. The UPS includes one or more output power lines that connect to one or more outlets for supplying power to components mounted on the rack. The compartment drawer is mounted to the compartment housing through mating slide rails. The compartment drawer includes an access panel with a handle which permits a user to slide the compartment drawer out from the compartment housing. | ||||||
| 208 | CONTACT DEVICE | US15891952 | 2018-02-08 | US20180183195A1 | 2018-06-28 | 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. | ||||||
| 209 | Linear Brushless Contact Slip For High Pressure and High Temperature Downhole Application | US15518061 | 2014-11-18 | US20170298697A1 | 2017-10-19 | Kar Ki Loh |
| A linear electrical contact slip structure for conducting electricity between two regions of a tool string while deployed within a wellbore. The linear electrical contact slip maintains an electrical connection between a piston structure and a collar structure, where either structure can be a stroker section or a stator section, and where the electrical connection is maintained when the stoker section is either stationary or in motion. The electrical connections between the piston and collar are grouped along the interior hollow surface of the collar, corresponding to contacts on the exterior of the piston head. The piston and collar are configured to prevent relative rotational motion, but to allow relative linear motion, by use of projections from the piston that match grooves in the collar. | ||||||
| 210 | SLIDING-CONTACT POWER SUPPLY SYSTEM AND THREE-DIMENSIONAL CIRCULATING GARAGE HAVING THE SAME | US15505367 | 2015-09-14 | US20170264065A1 | 2017-09-14 | Tian QI; Jinghua TANG |
| A sliding-contact power supply system and a three-dimensional circulating garage having the same are provided. The sliding-contact power supply system includes: a plurality of sub-sliding wires, each of the plurality of sub-sliding wires being adapted to be electrically connected to an outside power supply; a plurality of insulation segmentation elements, each of the plurality of insulation segmentation elements being connected between two sub-sliding wires; and a plurality of current collectors, each of the plurality of current collectors being electrically connected to the sub-sliding wire; wherein the plurality of sub-sliding wires and the plurality of insulation segmentation elements form a sliding wire guide rail having a ring shape, and each current collector is slidably disposed on the sliding wire guide rail. | ||||||
| 211 | Continuously powered server sled | US15172982 | 2016-06-03 | US09693477B1 | 2017-06-27 | Jon Brian Ehlen |
| Technology is provided for a server platform with a continuously powered server sled. The server platform includes a cubby chassis including partitions defining a plurality of sled positions. A power tray is located in a corresponding one of the plurality of sled positions and a server sled is positioned on and continuously powered by the power tray. The power tray includes a tray chassis having a tray sidewall and a tray bottom wall. A pair of elongate conductors extend along the tray sidewall. A tray connector is mounted on the tray bottom wall and is in electrical communication with the pair of elongate conductors. The server sled includes a sled chassis having a chassis sidewall and a chassis bottom wall. A side-plane printed circuit board is mounted to the chassis sidewall and includes a pair of conductive elements positioned for sliding contact with the elongate conductors. | ||||||
| 212 | Adaptive energy transfer system and method | US13939326 | 2013-07-11 | US09419398B2 | 2016-08-16 | Joseph Forrest Noffsinger; Aaron Richard Mitti |
| Systems and methods of the invention relate to transferring energy from a vehicle to a device via a track circuit. Embodiments of the present invention include a power source of a vehicle that can be utilized to transfer energy through a track circuit to a device coupled thereto. The track circuit can include a section of track having a first pair of insulated joints located on a first rail and a second pair of insulated joints on a second rail, each pair separated by a distance. Moreover, a signal can be communicated to the vehicle based on receipt of the transferred energy. | ||||||
| 213 | Angled electrical contactor | US14242961 | 2014-04-02 | US09270069B2 | 2016-02-23 | Peter Willard Hammond |
| Embodiments of an angled electrical contactor are provided. An aspect includes a moving contact bar including at least 4 contact discs, wherein a first contact disc and a second contact disc of the moving contact bar are located in a first plane, and a third contact disc and a fourth contact disc of the moving contact bar are located in a second plane, wherein the first plane and the second plane are distinct and are at an angle to each other. Another aspect includes a first stationary contact bar including at least 2 contact discs, wherein a first contact disc of first stationary contact bar is in a third plane, the third plane being substantially parallel to the first plane, and a second contact disc of the first stationary contact bar is in a fourth plane, the fourth plane being substantially parallel to the second plane. | ||||||
| 214 | ANGLED ELECTRICAL CONTACTOR | US14242961 | 2014-04-02 | US20150288122A1 | 2015-10-08 | Peter Willard Hammond |
| Embodiments of an angled electrical contactor are provided. An aspect includes a moving contact bar including at least 4 contact discs, wherein a first contact disc and a second contact disc of the moving contact bar are located in a first plane, and a third contact disc and a fourth contact disc of the moving contact bar are located in a second plane, wherein the first plane and the second plane are distinct and are at an angle to each other. Another aspect includes a first stationary contact bar including at least 2 contact discs, wherein a first contact disc of first stationary contact bar is in a third plane, the third plane being substantially parallel to the first plane, and a second contact disc of the first stationary contact bar is in a fourth plane, the fourth plane being substantially parallel to the second plane. | ||||||
| 215 | Electrical power transmitting telescopic strut | US14540518 | 2014-11-13 | US09120558B2 | 2015-09-01 | Timothy Sanderson |
| A telescopic strut comprises a plurality of hollow members arranged to slide one within another between a retracted and an extended position. Adjacent hollow members are arranged to be electrically connected by one or more electrical connector assemblies as the hollow members move between the retracted and extended positions. Each electrical connector assembly includes an electrically conductive pad on one of the hollow members which is in sliding contact with an electrically conductive strip on the other of the hollow members. The telescopic strut may be used to electrically connect a moveable control surface to a fixed aerofoil structure in an aircraft. | ||||||
| 216 | Electrical power transmitting telescopic strut | US12801597 | 2010-06-16 | US08899529B2 | 2014-12-02 | Timothy Sanderson |
| A telescopic strut comprises a plurality of hollow members arranged to slide one within another between a retracted and an extended position. Adjacent hollow members are arranged to be electrically connected by one or more electrical connector assemblies as the hollow members move between the retracted and extended positions. Each electrical connector assembly includes an electrically conductive pad on one of the hollow members which is in sliding contact with an electrically conductive strip on the other of the hollow members. The telescopic strut may be used to electrically connect a moveable control surface to a fixed aerofoil structure in an aircraft. | ||||||
| 217 | ADAPTIVE ENERGY TRANSFER SYSTEM AND METHOD | US13939326 | 2013-07-11 | US20140041980A1 | 2014-02-13 | JOSEPH FORREST NOFFSINGER; AARON RICHARD MITTI |
| Systems and methods of the invention relate to transferring energy from a vehicle to a device via a track circuit. Embodiments of the present invention include a power source of a vehicle that can be utilized to transfer energy through a track circuit to a device coupled thereto. The track circuit can include a section of track having a first pair of insulated joints located on a first rail and a second pair of insulated joints on a second rail, each pair separated by a distance. Moreover, a signal can be communicated to the vehicle based on receipt of the transferred energy. | ||||||
| 218 | Conductor line, collector and conductor system | US13061990 | 2009-09-01 | US08419450B2 | 2013-04-16 | Andreas Schmiedle; Matthias Wenk; Frank Schirmeier |
| The invention relates to: a conductor line (2) for powering at least one device (11) that can travel along the conductor line (2), comprising a first elongated conductor lane (5b) and at least one other, second elongated conductor lane (6b), wherein the first (5b) and second (6b) conductor lanes comprise a first (5f) and a second (6f) contact opening, respectively, running along the length of the respective lane, for holding a part (15a; 16a) of a first (15) and a second (16) respective conductor contact of a collector (14) of the device (11); a collector (3) comprising at least one first conductor contact (15) provided for engaging into a first contact opening (5f) running along the length of a first conductor lane (5b) of the conductor line (2) and for electrically connecting to the first conductor lane (5b); and a conductor line system (1) formed therefrom. The invention accomplishes the objective of enabling a simple, fast, but non-mistakable connection of a specific conductor contact to a specific conductor lane of a conductor line, using a conductor line (2), a collector (14) and a conductor line system (1), wherein the second contact opening (6f) of the second conductor lane (6b) is adapted so that the first conductor contact (15) provided for connecting to the first conductor lane (5b) cannot engage into the second contact opening (6f) and cannot be connected to the second conductor lane (9). | ||||||
| 219 | Methods and system for providing power and signals in a turbine | US12424180 | 2009-04-15 | US08221078B2 | 2012-07-17 | Mark Dawson; Jack Wallace |
| Power and signals may be transmitted from a root portion of an extendable rotor blade to a moving tip portion using a slide block and a slide channel. The slide block is configured to fit within the slide channel and includes a conductive element that comes into contact with a conductive element of the slide channel. The tip portion may be attached to the slide block such that as the slide block moves along the slide channel, the tip portion is extended or retracted accordingly. The conductive elements may be fixed within each of the slide block and slide channel so that when the tip portion is retracted or extended, the conductive elements do not move. | ||||||
| 220 | CONNECTOR AND INTERPOSER USING CONNECTOR | US13345904 | 2012-01-09 | US20120103676A1 | 2012-05-03 | Akira TAMURA |
| A connector conducting electricity between external electrodes while the connector is being compressed, the connector including: a columnar main body made of an elastic dielectric; a first contact terminal made of an inelastic conductor including first and second electrode sections provided on a top surface and a side surface of the columnar main body and a coupling section interconnecting the first and second electrode sections; a second contact terminal made of an inelastic conductor including third and fourth electrode sections provided on a bottom surface and a side surface of the columnar main body and a coupling section interconnecting the third and fourth electrode sections, the fourth electrode section being disposed in a position in which the fourth electrode section does not contact the second electrode section; and a conductor provided outside the main body and conducting electricity between the second and fourth electrode sections. | ||||||
