121 |
철도 차량들의 연결을 위해 배치된 열차 커플러 내의 커넥터 및 연결 블록 |
KR1020097019102 |
2008-02-14 |
KR1020090109592A |
2009-10-20 |
달스트롬토미; 웨스트만앤더스 |
The present invention relates to a connector (5) by which data signals are conducted between data communication networks separately installed in coupled rail vehicles. The connector comprises a contact holder (6) arranged to be seated in a train coupler connection block (7); a metal contact housing (20) arranged for insertion in a forward end of the contact holder, and a metal contact member (21) seated in the contact housing, the contact member extending through the contact housing to a conductor termination (22) seated in a rear end of the contact holder. The invention further relates to a connection block in a train coupler, wherein a multiplicity of connectors are arranged in the front of the connection block and adapted for mating with connectors of a corresponding connection block for electrically connecting rail vehicles that are interconnected by the train coupler, and wherein at least some of the connectors are effective for conducting signals at 100 MHz frequency range via electromagnetically shielded contacts according to the invention. |
122 |
전기 스플라이스 커넥터 |
KR1020097016956 |
2007-12-31 |
KR1020090106610A |
2009-10-09 |
왈츠피터에이. |
An electrical connector union coupler assembly including a coupling subassembly and a collet retainer. The coupling subassembly includes a coupling sleeve rotatably connected to a coupling body. The coupling body includes a first end with a threaded section and a first surface adapted to press against a first set of electrical connector wedges. The coupling sleeve is constrained on the coupling body for substantially only rotational movement relative to the coupling body. The collet retainer has a first end movably connected to the coupling sleeve by a threaded connection. The collet retainer includes a second end with a threaded section and a second surface adapted to press against a second set of electrical connector wedges. |
123 |
개선된 커플링 콤포넌트를 구비한 부싱웰 |
KR1020080066100 |
2008-07-08 |
KR1020090005995A |
2009-01-14 |
래리지벤스; 알란보그스트롬 |
A bushing well including an improved coupling component is provided to be simply mounted on an electricity component without applying a mounting tool to an outer surface of the busing and reduce the amount of metal epoxy required for molding of the bushing well. A bushing well housing(12) comprises an internal cavity(18) of a cone-shape. The internal cavity of cone-shape accommodates one-side end of a bushing insert. An electric conductance insert(20) is arranged within the bushing well housing. The electric conductance insert comprises a mount tool tying part(26). The mounting tool tying part is formed by a wrenching path(28) equipped in an axial bore(22). The wrenching path has a hexagonal inner section providing a wrenching socket(29). |
124 |
배전용 연결구조립체와 이를 연결하는 방법 |
KR1019890011914 |
1989-08-22 |
KR100157402B1 |
1998-11-16 |
빈센트제이볼리버; 폴엠로치제브스키; 에드워드엘샌키이; 로이더블유드메이어 |
내용 없음 |
125 |
HERMAPHRODITIC HANDLE SOCKET ASSEMBLY AND PIN ASSEMBLY |
PCT/US2005018407 |
2005-05-26 |
WO2005119855A3 |
2006-03-23 |
BORDEAU JAMES; GALLUSSER DAVID OTIS |
An electrical cable assembly with hermaphroditic coupling with a high current rating, is disclosed. The electrical cable assembly with hermaphroditic coupling includes a pin contact terminal in a first coupling sleeve and a hyperboloid socket terminal in a second coupling sleeve. The pin contact terminal may be inserted within the second coupling sleeve, and the hyperboloid socket terminal may be inserted within the first coupling sleeve. The socket contact may include a RADSOK® socket. The first and second coupling sleeves are coupled together by urging the pin contact terminal into the hyperboloid socket terminal and rotating. |
126 |
IGNITION LEAD WITH REPLACEABLE TERMINAL CONTACT |
PCT/US2004016310 |
2004-05-21 |
WO2004106730A3 |
2005-04-07 |
FLEETWOOD CHARLES T; RUNGE MICHAEL A |
An ignition lead (40) that includes at least one terminal assembly having a replaceable terminal contact (54) that provides a simple means of replacing worn contacts without removal and replacement of the entire ignition lead (40). The terminal assembly includes the replaceable contact (54) which threads onto a contact body (52) located within a tubular insulator (50). A retaining ring (56) attaches to the contact (54) to hold the insulator (50) in place over the contact body (52). The contact (54) can include a groove (72) that extends around the contact (54) to receive the retaining ring (56). |
127 |
CARDIAC LEAD WITH ETFE COATED DBS COIL |
PCT/US9926599 |
1999-11-10 |
WO0027471A9 |
2000-11-23 |
PATAG ALFREDO E |
A cardiac lead is provided that includes a connector for coupling to a cardiac stimulator and a first flexible insulating sleeve coupled to the connector. A second flexible insulating sleeve is coupled to the connector and has a portion positioned inside the first flexible insulating sleeve. A first conductor wire is provided that has at least a first loop and a second loop. The first and second loops are positioned between the portion of the second flexible insulating sleeve and the first insulating sleeve. A second conductor wire is provided that has a third loop. The third loop is positioned between the portion of the second flexible insulating sleeve and the first insulating sleeve. The first and second conductor wires are spiraled together so that the third loop is positioned between the first and second loops. The lead provides for the union of two conductors in a flexible structure that facilitates passage of a highly curved stylet. |
128 |
Apparatus and method for a plumbing connector |
US15442021 |
2017-02-24 |
US10119640B2 |
2018-11-06 |
Mark E Goodson |
The present invention provides an apparatus for a threaded plumbing connector to electrically ground pipes. The apparatus includes wire terminal block(s), connecting the threaded plumbing connector body to a wire or other conductive material. In the event that a pipe becomes electrically energized, the grounding connection of the threaded plumbing connector would be able to shunt the electrical current away from the pipes and reduce the risk of fire. |
129 |
Through roof connector assembly |
US15494670 |
2017-04-24 |
US10074915B2 |
2018-09-11 |
Antoni Paul Merrill; Martin John Grocock |
A through roof connector assembly for connecting an air termination conductor to a conducting rod through a roof of a structure while limiting water ingress into the roof. The through roof connector assembly includes a universal top, a threaded stud, a conduit connection component with an upper threaded tap hole and a lower threaded tap hole which do not meet to provide a completely weatherproof connection, and a conduit extending through a roof membrane when installed in the roof. The conduit has within a conducting rod, the conducting rod threaded the lower threaded tap hole of the conduit connection component. The air terminal also threads into the threaded stud. An o-ring is located between the conduit connection component and the conduit to provide a further weatherproof connection. |
130 |
Grounding Device |
US15747572 |
2016-07-29 |
US20180220516A1 |
2018-08-02 |
Wei Chon Alvin HO |
The present invention relates to a grounding device. In particular, the present invention relates to ground device, or an earth receptacle, that may be installed or fixed into a structure (e.g. placed in the ground) to provide an avenue of safe discharge for electrical current when the device is connected to a piece of equipment of vehicle. In an aspect of the present invention, there is provided a grounding device comprising: (a) a first casing having an open top; (b) a pin extending from the base of and within the first casing, the pin made from an electrically conductive material and has a longitudinal length with opposite first and second ends, the second end of the pin in contact with or integral with base of the casing; (c) a plate member having an opening to allow the plate to move along the longitudinal length of the pin between a first position and a second position, the plate member and the frame form a cavity within the first casing; and (d) a biasing member disposed within the cavity and attached to the plate member for biasing the plate member in the first position, wherein the first position conceals the longitudinal length of the pin within the cavity and the second position is any position that exposes a portion of the longitudinal length of the pin. |
131 |
MECHANICAL DISCONNECT SWITCH WITH INTEGRATED FUSE PROTECTION |
US15687706 |
2017-08-28 |
US20170358417A1 |
2017-12-14 |
Geoffrey Schwartz; Dana Scribner; Joe Thomas |
A circuit protection assembly (CPA) is disposed between a source of power and a circuit to be protected. The CPA comprises a mounting block having a bore extending therethrough and a recess cavity on a first surface of the mounting block. A post having a first end is disposed within the recess cavity and a body portion extends through the bore. The body portion configured to receive a terminal and the second end configured to receive a securing mechanism. A fuse having a centrally disposed aperture is configured to receive the body portion of the post and to receive the terminal for connection to a circuit to be protected. An insulator disposed on the terminal and disposed beneath the securing mechanism. The insulator configured to isolate the post from the terminal and the fuse while allowing the securing mechanism to apply an amount of torque. |
132 |
Connection structure between main transformer and high-voltage device box and railcar including same |
US14414545 |
2013-07-10 |
US09831644B2 |
2017-11-28 |
Hiroyuki Kawasaki; Hiroyuki Sakurai; Ryoji Negi |
A connection structure includes: a circuit breaker connected to a power cable through which high-voltage power is supplied; a high-voltage device box accommodating the circuit breaker; a main transformer configured to transform a voltage of the high-voltage power and provided under the floor of the car; a first connector device electrically connected to the circuit breaker and provided at a dividing wall of the high-voltage device box; a second connector device electrically connected to the main transformer and provided at a dividing wall of the main transformer; and a high-voltage cable covered with an insulating coating and having both end portions to which cable connector portions are respectively attached, wherein the high-voltage cable connects the first connector device and the second connector device in such a manner that the cable connector portions respectively fit and are connected to the first connector device and the second connector device. |
133 |
Mechanical disconnect switch with integrated fuse protection |
US14478416 |
2014-09-05 |
US09824840B2 |
2017-11-21 |
Geoffrey Schwartz; Dana Scribner; Joe Thomas |
A circuit protection assembly (CPA) is disposed between a source of power and a circuit to be protected. The CPA comprises a mounting block having a bore extending therethrough and a recess cavity on a first surface of the mounting block. A post having a first end is disposed within the recess cavity and a body portion extends through the bore. The body portion configured to receive a terminal and the second end configured to receive a securing mechanism. A fuse having a centrally disposed aperture is configured to receive the body portion of the post and to receive the terminal for connection to a circuit to be protected. An insulator disposed on the terminal and disposed beneath the securing mechanism. The insulator configured to isolate the post from the terminal and the fuse while allowing the securing mechanism to apply an amount of torque. |
134 |
Replaceable machine-mounted male input power connections |
US14993199 |
2016-01-12 |
US09782851B2 |
2017-10-10 |
Paul William Garvey; Scott S. Liebert |
A system and method for replaceable machine-mounted male input power connections includes a power connection unit that is at least partially arranged within a housing and configured to transfer power received from a power source to drive a welding process. The power connection unit includes an input configured to receive power from the power source, an output configured to deliver the power received at the input to drive the welding process, and a bus system, configured to connect the input and the output. The power connection unit also includes a male connector having a conductive post extending to a threaded cylindrical shaft. The male conductor forms at least a portion of the input or the output and extends from the housing through a coupling assembly. The coupling assembly includes a correspondingly threaded portion configured to engage the threaded cylindrical shaft of the male connector to the bus system. |
135 |
Power-Electric Contact Device; Exchangeable Power-Electric Contact Module As Well As Power-Electric Connector |
US15467655 |
2017-03-23 |
US20170279210A1 |
2017-09-28 |
Peter Kraemer; Dusan Ondrej |
A contact for an electrical connector includes a contact section and a connecting section. The connecting section is separable from the contact section. |
136 |
APPARATUS AND METHOD FOR A PLUMBING CONNECTOR |
US15442021 |
2017-02-24 |
US20170214185A1 |
2017-07-27 |
Mark E. Goodson |
The present invention provides an apparatus for a threaded plumbing connector to electrically ground pipes. The apparatus includes wire terminal block(s), connecting the threaded plumbing connector body to a wire or other conductive material. In the event that a pipe becomes electrically energized, the grounding connection of the threaded plumbing connector would be able to shunt the electrical current away from the pipes and reduce the risk of fire. |
137 |
Push On Arrester |
US15222911 |
2016-07-28 |
US20170148553A1 |
2017-05-25 |
Glenn J. Luzzi |
An arrester is disclosed capable of coupling a cable accessory utilizing a push on method. The arrester comprises a body having a surge arrester portion, a receiving portion, and a conductive contact. The receiving portion is configured to couple to a coupling fastener comprising a first side, second side, and a latching mechanism. Various methods of engaging and disengaging the arrester to a cable accessory utilizing the coupling fastener are disclosed. |
138 |
Systems and methods for electrically connecting circuit devices for power distribution enclosures |
US14719243 |
2015-05-21 |
US09548546B2 |
2017-01-17 |
Steven Pever; Timothy J. Fink; Karthik Chandran Krishnamurthy; Raymond Jadin |
A system is provided for a power distribution enclosure that includes an electronic circuit component. The system includes a conductive adapter having a head, and a circuit breaker base adapted for mounting to the power distribution enclosure. The circuit breaker base has an aperture adapted to receive the head of the conductive adapter. The head of the conductive adapter has a shape that substantially prevents rotation of the conductive adapter when the conductive adapter is inserted into the aperture. The conductive adapter is configured to draw away or absorb heat from the electronic circuit component and move the absorbed heat out of the power distribution enclosure. The circuit breaker base is adapted to substantially prevent heat from escaping from the conductive adapter into the power distribution enclosure. Numerous other aspects are provided. |
139 |
ISOLATED ELECTRICAL CONNECTION ASSEMBLY AND METHOD |
US14557055 |
2014-12-01 |
US20160156126A1 |
2016-06-02 |
Christopher M. Eliassen |
An isolated electrical connection assembly having first and second conductive terminals of different conductive materials with a non-metallic, annular spacer sandwiched between opposing inner end faces of the terminals. The first terminal having a bore extending inwards from its inner end face, and a pin projects from the opposing inner end face of the second terminal, through a central opening in the spacer, and into the bore. The pin is releasably secured in the bore to provide electrical connection between the terminals. The interfaces between the inner end faces of the terminals and opposing faces of the spacer are sealed to isolate the connection between the second terminal pin and the first terminal bore. |
140 |
CENTER CONDUCTOR TIP |
US14849146 |
2015-09-09 |
US20160149320A1 |
2016-05-26 |
Cody Anderson; Ian J. Baker; Christopher P. Natoli |
A tip end conductor for an inner conductor of a coaxial cable, comprising a first portion engaging a first region of the outermost tip to mechanically engage the inner conductor and a second portion, axially inboard of the first portion, engaging a second region of the outermost tip to electrically engage the inner conductor. The first and second portions define first and second diameter dimensions, respectively, wherein the first diameter dimension is less than the second diameter dimension, and wherein the first portion of the tip end conductor includes a mechanically irregular surface for being press fit onto, and producing, a mechanical interlock along a first region of the terminal end of the inner conductor. |