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 |
|---|---|---|---|---|---|---|
| 161 | CONNECTOR FOR WELLHEAD | US15194834 | 2016-06-28 | US20170005428A1 | 2017-01-05 | Robert R. ARCYIEWICZ |
| A connector for a wellhead that includes at least one contact that has a conductor receiving end and an opposite mating end. The conductor receiving end includes a termination passageway. An insert supports the at least one contact. The insert includes an installation end for receiving at least one conductor of a cable and an opposite interface end configured to mate with a mating connector. The insert has at least one inner chamber for retaining the at least one contact. | ||||||
| 162 | Board mount electrical connector assembly | US14685657 | 2015-04-14 | US09537236B2 | 2017-01-03 | Steven A. Neu; Alexander R. Mathews |
| An electrical connector includes an insulative connector housing including a longitudinal bottom wall defining a plurality of contact openings for receiving a plurality of contacts, first and second side walls extending upwardly from the bottom wall at opposing sides thereof, first and second end walls extending upwardly from the bottom wall at opposing ends thereof, first and second pairs of latch openings at opposing ends of the bottom wall, and first and second protrusions extending upwardly from the bottom wall and disposed between respective first and second pairs of latch openings. Each latch opening extends through the bottom wall and through a side wall and is configured to allow a latch to eject a mating connector by moving within the opening. Each of the protrusions is configured to engage a corresponding opening in a latch of a mating connector cover or strain relief assembled to the electrical connector. | ||||||
| 163 | Electrical connector devices and methods for employing same | US13599564 | 2012-08-30 | US09472862B2 | 2016-10-18 | Anthony Freakes |
| An apparatus and method are disclosed that may include a contact pin; and a plurality of loops of conductive wire, coated with insulation material, disposed in proximity to the contact pin, wherein along at least one portion of the conductive wire, at least one edge of the contact pin extends through the insulation material and thereby forms conductive electrical contact with the conductive wire. | ||||||
| 164 | Communication connector | US14463145 | 2014-08-19 | US09419391B2 | 2016-08-16 | Masud Bolouri-Saransar; Surendra Chitti Babu |
| Embodiments of the present invention are generally related to communication connectors, and more specifically, to communication connectors such as jacks which are compatible with more than one style of a plug. In one embodiment, the electrical and mechanical design of a jack in accordance with the present invention may extend the usable bandwidth beyond the IEC 60603-7-71 requirement of 1000 MHz to support potential future applications such as, but not limited to, 40GBASE-T. In addition, the jack may be backwards compatible with lower speed BASE-T applications (e.g., 10GBASE-T and/or below) when an RJ45 plug is mated to the jack. | ||||||
| 165 | Connector having a stabilizer in contact with a contact holder or an engagement member of a cable tray | US14502762 | 2014-09-30 | US09391377B2 | 2016-07-12 | Jean Tuck McGregor; James Michael Broughman; Allen R. Nelson; Darren Michael Mark; Laura Winfield Alexander; Donald Collins Meves |
| A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established). | ||||||
| 166 | CONNECTOR | US14909551 | 2014-07-20 | US20160197438A1 | 2016-07-07 | Keishi Kitamura; Yoshihiro Mizutani; Yasuto Takeda; Hiroki Hirai; Tetsuji Tanaka; Hiroyoshi Maesoba; Kosuke Sone; Teruo Kato; Kazuhisa Nimura |
| A connector (40) is avoided from becoming large sized by avoiding a guiding used upon fitting from becoming large. A counterpart housing (71) includes a cylindrical hood (72). A housing (41) includes a housing body (42) that can be fitted in the hood (72). The counterpart housing (71) is allowed to be angularly displaced about an axis parallel to a fitting direction of the housings (41, 71). One side of an opening edge of the hood (72) is configured as a counterpart arc portion (74) that curves in an arc shape along an angular displacement direction. One side of a front face of the housing body (42) in the fitting direction is configured as an arc portion (64) that curves in an arc shape along the angular displacement direction, and is configured capable of entering into the hood (72) by being guided by the counterpart arc portion (74). | ||||||
| 167 | Contacting device of an electric plug-in connector | US13981658 | 2012-01-26 | US09306296B2 | 2016-04-05 | Stefan Jaschke; Stephan Schreier |
| The invention relates to a contact-making apparatus for establishing electrical contact between a conductor or a plurality of conductors of a cable which is to be connected and a plug connector, comprising an insulating body which can be inserted into a chamber of a plug connector housing which is provided for this purpose, and at least one pressure piece which is suitable for receiving at least one conductor, wherein the at least one pressure piece is connected to the insulating body in a pivotable and articulated manner, and wherein the insulating body comprises at least one recess which in turn contains at least one insulation-displacement terminal, and wherein the pressure piece can be recessed in the at least one recess in the insulating body, and therefore the insulation-displacement terminal makes electrical contact with the end portion of the conductor. | ||||||
| 168 | WATER STOPPING STRUCTURE FOR INSULATION-COATED WIRE AND WIRE HARNESS | US14739291 | 2015-06-15 | US20150372464A1 | 2015-12-24 | Masataka WAKABAYASHI; Hiroyuki OOTSUKI |
| A low-cost water blocking structure for an insulation-coated wire that can ensure high water blocking ability and favorable workability as well as a wire harness are provided. A water blocking structure for an insulation-coated wire includes a heat-shrinkable tubular protective member that is closed at one end by a stopper and that accommodates an intermediate portion of an insulation-coated wire, and a resin material that is accommodated in the protective member and that penetrates the intermediate portion of the insulation-coated wire. Slit portions are formed in a coating of the insulation-coated wire within the protective member, the slit portions extending in a direction that crosses the axis of the insulation-coated wire on opposite sides of the intermediate portion with respect to a radial direction, and a water blocking agent penetrates the intermediate portion via these slit portions. | ||||||
| 169 | Telecommunications wiring termination block | US14113892 | 2012-04-26 | US09093760B2 | 2015-07-28 | Owen B. Weikle; Ronald L. Fredrickson; Nicholas B. Larsson; Brett Utesch; George I. Wakileh |
| A device that replaces the traditional 66 block device has improved pair-to-pair wire isolation to facilitate the transmission of both POTS and xDSL signals. The device includes a non-conductive lower member and a non-conductive upper member that retain a plurality of pairs of electrically conductive stampings therebetween. Each of the pairs of stampings is positioned to be in electric contact with each other such that a signal can be transmitted from one stamping to the other stamping. The stampings are utilized to electrically connect external telecommunication wires to internal telecommunications wires. Each toggle of a plurality of toggles is independently and pivotally connected to the upper member and includes a through bore for accepting an end of a wire that is accessible to an installer when the toggle is in an open, un-terminated position. Each of the toggles are movable from the open, un-terminated position to a closed, terminated position. | ||||||
| 170 | CONNECTORS FOR LANDSCAPE LIGHTING SYSTEMS | US14502722 | 2014-09-30 | US20150099393A1 | 2015-04-09 | Jean Tuck McGregor; James Michael Broughman; Allen R. Nelson; Darren Michael Mark; Laura Winfield Alexander; Donald Collins Meves |
| A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established). | ||||||
| 171 | CONNECTORS FOR LANDSCAPE LIGHTING SYSTEMS | US14502762 | 2014-09-30 | US20150099392A1 | 2015-04-09 | Jean Tuck McGregor; James Michael Broughman; Allen R. Nelson; Darren Michael Mark; Laura Winfield Alexander; Donald Collins Meves |
| A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established). | ||||||
| 172 | COMMUNICATION CONNECTOR | US14463145 | 2014-08-19 | US20150056824A1 | 2015-02-26 | Masud Bolouri-Saransar; Surendra Chitti Babu |
| Embodiments of the present invention are generally related to communication connectors, and more specifically, to communication connectors such as jacks which are compatible with more than one style of a plug. In one embodiment, the electrical and mechanical design of a jack in accordance with the present invention may extend the usable bandwidth beyond the IEC 60603-7-71 requirement of 1000 MHz to support potential future applications such as, but not limited to, 40GBASE-T. In addition, the jack may be backwards compatible with lower speed BASE-T applications (e.g., 10GBASE-T and/or below) when an RJ45 plug is mated to the jack. | ||||||
| 173 | Cable Clip for Module Electronics | US14528353 | 2014-10-30 | US20150053251A1 | 2015-02-26 | Markus Hopf |
| The disclosure relates to an apparatus including a multi-part housing to be assembled around two lines and conducting a power current generated by a solar module, and an electric circuitry arranged within the housing. The apparatus further includes connection devices for connecting the electric circuitry to the two lines such that at least one component of the electric circuitry is connected in parallel to the solar module. The connection devices include insulation displacement terminals which electrically contact the two lines, and at least one cutting blade made of an electrically insulating material cutting through at least one of the two lines in assembling the multi-part housing. | ||||||
| 174 | Grounding Electrical Connector | US13959048 | 2013-08-05 | US20150034362A1 | 2015-02-05 | Paul KOVALOV |
| An electrical connector includes a base member and first and second legs extending outwardly from the base member. A first recess is defined by the first and second legs for receiving a support. Second recesses extend inwardly from second sides of the first and second legs. A plurality of pairs of oppositely disposed grooves are formed in the second recesses. At least two pairs of the oppositely disposed grooves have different sizes for receiving various conductor sizes. | ||||||
| 175 | PLUG-IN CONNECTOR HOUSING | US14118268 | 2012-03-28 | US20140334871A1 | 2014-11-13 | Thomas Beneken; York Dobrick; Stefanie Damsch; Georg Staperfeld |
| The invention relates to a plug connector housing consisting of at least one housing upper part and at least one housing lower part which together form a plug connector housing. The housing upper part and the housing lower part each have a contact surface, said contact surfaces being at least partly in contact with each other when the housing upper part and the housing lower part are connected to each other. The housing upper part and the housing lower part are made of an electrically conductive material, said housing upper part and lower part having a surface coating that protects against corrosion for example, and the contact between the two contact surfaces is formed along an edge. | ||||||
| 176 | Electrical plug connector having an insulating body rotatably and slidably held captive on a plug housing | US13699588 | 2011-05-30 | US08851919B2 | 2014-10-07 | Christian Schütz |
| An insulating body is captively secured on the housing for a plug connection having insulation displacement terminals. The insulating body is held on guide of the housing in a rotatable manner and in an insertable manner into the housing via an opening. The guide can be formed as slits that lie in lateral parts of the housing. The lateral parts project beyond the housing. Electric conductors can be inserted into the insulating body on a rear surface, plugged through said body, and cut on a front surface. The electric conductors are thus brought to the intended length before the insulating body is inserted into the housing. | ||||||
| 177 | GROUND CONNECTION STRUCTURE FOR SHIELD WIRE | US14240862 | 2011-08-30 | US20140202728A1 | 2014-07-24 | Kiyohito Fukuda |
| There are provided: a shield projecting portion (4A) being a part of a shield layer (4) of a shield wire (1) projected outside of an exterior covering (5) to be exposed; an annular member for grounding (10, 10A, 10B) disposed in a position surrounding an outer circumference of the shield wire (1) and including a housing chamber (12, 22) having an opening (13) along an annular shape of the annular member for grounding and being configured to house the shield projecting portion (4A) and a ground wire (7) inserted from the opening (13); and a push-in member (20, 20B) inserted from the opening (13) and housed in the housing chamber (12, 22) after insertion of the ground wire (7) and the shield projecting portion (4A) to bring the shield projecting portion (4A) and the ground wire (7) into close contact with each other. | ||||||
| 178 | Communications Plugs Having Capacitors that Inject Offending Crosstalk After a Plug-Jack Mating Point and Related Connectors and Methods | US14198821 | 2014-03-06 | US20140187090A1 | 2014-07-03 | Wayne D. Larsen; Bryan Moffitt |
| Communications plugs are provided that include a plug housing. A plurality of plug contacts are mounted in a row at least partly within the plug housing. The plug contacts are arranged as differential pairs of plug contacts. Each of the differential pairs of plug contacts has a tip plug contact and a ring plug contact. A first capacitor is provided that is configured to inject crosstalk from a first of the tip plug contacts to a first of the ring plug contacts at a point in time that is after the point in time when a signal transmitted through the first of the tip plug contacts to a contact of a mating jack reaches the contact of the mating jack. | ||||||
| 179 | Contamination resistant connecting system and method | US12956360 | 2010-11-30 | US08668229B2 | 2014-03-11 | Carl W. Stoesz; Luis E. Mendez |
| A contamination resistant connecting system includes, a first conduit, a first connector in operable communication with the first conduit, a first seal configured to seal at least part of the first connector from an environment, a second conduit operationally connectable with the first conduit, a second connector in operable communication with the second conduit that is operationally connectable with the first connector and a second seal configured to seal at least part of the second connector from an environment. Additionally, at least one piercing device is configured to pierce through the first seal and the second seal to allow operational connection of the first conduit with the second conduit. | ||||||
| 180 | CONNECTORS FOR LANDSCAPE LIGHTING SYSTEMS | US14047767 | 2013-10-07 | US20140038451A1 | 2014-02-06 | Jean Tuck McGregor; James Michael Broughman; Allen R. Nelson; Darren Michael Mark; Laura Winfield Alexander; Donald Collins Meves |
| A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established). | ||||||
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