61 |
Electrical terminal and method of applying same to electrical conductors |
US33729264 |
1964-01-13 |
US3243763A |
1966-03-29 |
ELLIOTT HOWARD A |
|
62 |
CONNECTION TERMINAL STRUCTURE |
US14701028 |
2015-04-30 |
US20160319853A1 |
2016-11-03 |
Shang Tsai WU |
A connection terminal structure includes a basic element and a clamping element. The basic element is bent to be L-shaped and includes a longitudinal arm and a transverse arm connected to the longitudinal arm. An upper end of the longitudinal arm forms an engaging flange and an engaging shoulder portion. A right end of the transverse arm forms a joint portion. The clamping element comprises a resilient clamping arm, a supporting arm, and a connecting arm. The connecting arm forms an opening portion and extends from the supporting arm to the longitudinal arm. The opening portion fits around the engaging shoulder portion. A lower end of the supporting arm forms a joint end jointed to the joint portion. The resilient clamping arm connects with the supporting arm, extends to the longitudinal arm, has a front end engaging with the engaging flange, and penetrates the opening portion to move resiliently. |
63 |
CONNECTOR |
US15084543 |
2016-03-30 |
US20160315412A1 |
2016-10-27 |
Shigeto Kataoka |
A connector (10A) includes a main body (300) with a wire pull-out surface (66) through which wires (100) are pulled out and a wire cover (50)50 mounted on the main body (300). The wire cover (50) includes a back plate (51) and two covering portions (53) projecting from opposite ends of the back plate (51) to face each other and cover the wires (100) from opposite sides. The covering portions (53) have an opening (55) configured to expose parts of the wires (100) when viewed in the facing direction at a position overlapping a formation area of the wire pull-out surface (66). A mounting portion (59) extends from an edge of the opening (55) to the back plate (51) and is configured such that a binding band (75) for fixing the wires (100) is mounted thereon. |
64 |
Electrical connection via fastener hole |
US13956331 |
2013-07-31 |
US09385448B2 |
2016-07-05 |
Phillip D. Bondurant; Giovanni Nino; David W. Rook; Anthony Mactutis; David Bothell |
The systems, apparatus, and methods disclosed herein provide access to systems located within a closed structure, such that the systems are traditionally difficult for humans to access. Exemplary structures include an engine compartment, airplane wing, or fuselage. This access allows a system located within the structure to be electrically coupled with an electrical I/O device located outside the structure. Access to a system located within the closed structure is provided by way of a hole. |
65 |
Device for connecting a first electric cable to a second electric cable, distributor arrangement and air- or spacecraft |
US13189730 |
2011-07-25 |
US09343833B2 |
2016-05-17 |
Detlef Tiegs; Merten Helms |
The present invention provides a device for connecting a first electric cable to a second electric cable, said device comprising: a first cable lug which comprises a first connection portion for electrically contacting the first electric cable and a socket portion having a conical socket; a second cable lug which comprises a second connection portion for electrically contacting the second electric cable and a plug portion having a conical plug; wherein the plug can be inserted into the socket and conductively contacted therewith in order to connect the first cable to the second cable in an electrically conductive manner. |
66 |
DRE/HDMI/IR PASS THROUGH CABLE |
US13930622 |
2013-06-28 |
US20140004742A1 |
2014-01-02 |
Allen Sheff |
DRE/HDMI/IR Pass through cable that delivers a crisp, clear audio/video signal. The illustrated cable offers the same baseline performance as a High Speed HDMI Cable, plus an additional, dedicated data channel, known as the HDMI Ethernet Channel, for device networking. The HDMI and the HDMI Ethernet Channel are extruded together to form a one piece cable structure rather than the current two piece cable structure available in the market. This extrusion may, for example, be executed through what is referred to in the art as a Siamese-type extrusion method. |
67 |
Packet-based digital display interface signal mapping to bi-directional serial interface signals |
US12853133 |
2010-08-09 |
US08583836B2 |
2013-11-12 |
Osamu Kobayashi |
A passive cable adaptor for connecting a data source device with a display device is described. The adaptor has a packet-based interface connector at one end, the connector having a positive main link pin, a negative main link pin, a positive auxiliary channel pin, and a negative auxiliary channel pin. Also at the same end is a serial interface connector, such as a serial interface connector. At the other end is an upgraded serial interface connector (e.g., enhanced serial interface) connector having high-speed transmission pins, high-speed receiving pins, and a ground pin, wherein multimedia content is transmitted over the cable adaptor and electrical power is supplied over the cable adaptor simultaneously. |
68 |
CABLE ASSEMBLY FOR A CONNECTOR SYSTEM |
US13685137 |
2012-11-26 |
US20130084735A1 |
2013-04-04 |
Brian Patrick Costello |
A cable assembly includes a first header connector that includes a housing that holds a plurality of contacts. The housing of the first header connector has a first mating interface. The cable assembly also includes a second header connector having a housing that holds a plurality of contacts. The housing of the second header connector has a second mating interface facing in an opposite direction from the first mating interface. The first and second header connectors are identical to one another. A cable bundle has a plurality of cables extending between the first and second header connectors. The cables are connected between the contacts of the first header connector and corresponding contacts of the second header connector. |
69 |
Cable assembly for a connector system |
US12944336 |
2010-11-11 |
US08398429B2 |
2013-03-19 |
Brian Patrick Costello |
A connector system includes a chassis that has a framework of panels that defines a plurality of cells extending between first ends and second ends. A clip is coupled to the framework within a corresponding cell. A cable assembly is received in a corresponding cell. The cable assembly includes a first header connector coupled to the framework at the first end of the corresponding cell using the clip and a second header connector is coupled to the framework at the second end of the corresponding cell using the clip. The first header connector has a housing that holds a plurality of contacts. The housing of the first header connector has a first mating interface. The second header connector has a housing that holds a plurality of contacts. The housing of the second header connector has a second mating interface that faces in an opposite direction from the first mating interface. A cable bundle has a plurality of cables that extends between the first and second header connectors. The cables are connected between corresponding contacts of the first header connector and the contacts of the second header connector. |
70 |
THERMAL WALL PLUG SENSING AND CONTROL |
US13078164 |
2011-04-01 |
US20120212179A1 |
2012-08-23 |
John F. Nathan; David A. Hein; Faisal K. Sallam; Mark Anthony Mueller |
A system and method operable to facilitate thermal wall plug sensing and control may include an ability to control current drawn by a charging system or other load according to a temperature determined at an interface between the charging system and an energy source used to provided energy to the charging system. A temperature sensed with a temperature sensor included in a plug assembly or other housing or cord used to connect the charging system to the energy source may be used to implement the temperature regulated current control. |
71 |
CABLE ASSEMBLY FOR A CONNECTOR SYSTEM |
US12944336 |
2010-11-11 |
US20120122335A1 |
2012-05-17 |
BRIAN PATRICK COSTELLO |
A connector system includes a chassis that has a framework of panels that defines a plurality of cells extending between first ends and second ends. A clip is coupled to the framework within a corresponding cell. A cable assembly is received in a corresponding cell. The cable assembly includes a first header connector coupled to the framework at the first end of the corresponding cell using the clip and a second header connector is coupled to the framework at the second end of the corresponding cell using the clip. The first header connector has a housing that holds a plurality of contacts. The housing of the first header connector has a first mating interface. The second header connector has a housing that holds a plurality of contacts. The housing of the second header connector has a second mating interface that faces in an opposite direction from the first mating interface. A cable bundle has a plurality of cables that extends between the first and second header connectors. The cables are connected between corresponding contacts of the first header connector and the contacts of the second header connector. |
72 |
DEVICE FOR CONNECTING A FIRST ELECTRIC CABLE TO A SECOND ELECTRIC CABLE, DISTRIBUTOR ARRANGEMENT AND AIR- OR SPACECRAFT |
US13189730 |
2011-07-25 |
US20120021635A1 |
2012-01-26 |
Detlef Tiegs; Merten Helms |
The present invention provides a device for connecting a first electric cable to a second electric cable, said device comprising: a first cable lug which comprises a first connection portion for electrically contacting the first electric cable and a socket portion having a conical socket; a second cable lug which comprises a second connection portion for electrically contacting the second electric cable and a plug portion having a conical plug; wherein the plug can be inserted into the socket and conductively contacted therewith in order to connect the first cable to the second cable in an electrically conductive manner. |
73 |
PACKET-BASED DIGITAL DISPLAY INTERFACE SIGNAL MAPPING TO BI-DIRECTIONAL SERIAL INTERFACE SIGNALS |
US12853133 |
2010-08-09 |
US20110191814A1 |
2011-08-04 |
Osamu Kobayashi |
A passive cable adaptor for connecting a data source device with a display device is described. The adaptor has a packet-based interface connector at one end, the connector having a positive main link pin, a negative main link pin, a positive auxiliary channel pin, and a negative auxiliary channel pin. Also at the same end is a serial interface connector, such as a serial interface connector. At the other end is an upgraded serial interface connector (e.g., enhanced serial interface) connector having high-speed transmission pins, high-speed receiving pins, and a ground pin, wherein multimedia content is transmitted over the cable adaptor and electrical power is supplied over the cable adaptor simultaneously. |
74 |
PACKET-BASED DIGITAL DISPLAY INTERFACE SIGNAL MAPPING TO MICRO SERIAL INTERFACE |
US12862087 |
2010-08-24 |
US20110191480A1 |
2011-08-04 |
Osamu Kobayashi |
A passive cable adaptor for connecting a data source device with a display device is described. The adaptor has a packet-based interface connector at one end, the connector having a positive main link pin, a negative main link pin, a positive auxiliary channel pin, and a negative auxiliary channel pin. At the other end is a micro serial interface connector, wherein multimedia content is transmitted over the cable adaptor and electrical power is supplied over the cable adaptor simultaneously. The cable adaptor has an auxiliary and hot plug detect (HPD) controller utilized to map the auxiliary channel and HPD signals of the packet-based digital display to the micro serial interface ID signal. |
75 |
Adapter for a welder |
US224237 |
1988-07-25 |
US4824382A |
1989-04-25 |
Richard P. Ryan |
An adapter comprising a tubular housing carrying a 110 to 125 volt type plug receptacle is disclosed. The plug receptacle forms the output side of the adapter, with the input side consisting of a metallic pick-up strip for insertion into the electrode holder carried by the output lead of an electric arc welder. The input side of the adapter also includes a fused ground clip which is connectable onto an electrical ground such as the grounded output lead of an arc welder. |
76 |
Electrical tab receptacle |
US208714 |
1980-11-20 |
USRE31142E |
1983-02-08 |
Reginald J. Simmons |
An electrical tab receptacle for mating with a complementary tab is provided with an integral tongue having a lance whereby the receptacle can be releasably secured to the tab, the tongue being resiliently depressible by means of a finger, a tool, or part of a housing containing the receptacle, to release the receptacle from the tongue. |
77 |
Insulated connection of photovoltaic devices |
US752666 |
1976-12-20 |
US4089576A |
1978-05-16 |
Reinhold J. Barchet |
The electric terminals or leads of photovoltaic devices to be interconnected into an array are encased in the insulating layers of the devices. Guideholes pass through the devices and the terminals. Fasteners having an insulated head and shank with a conductive means on the shank are positioned so that the conductive means is in contact with the terminals. Screw and nail type fasteners are disclosed. |
78 |
Cable coupler |
US3692921D |
1971-04-12 |
US3692921A |
1972-09-19 |
YONKERS EDWARD H |
There is provided an improved high voltage cable coupler having a body of integrally cast dielectric polymer chemically formed in situ and having at least one cable receiving channel therethrough. An internal conductor is cast within the body extending within the cable receiving channel to receive the end of a cable. The cable receiving channel is symmetrical, and a cable may be inserted in one end, secured through the other, and the other end then plugged. A soft polymer sealing sleeve advantageously provides air-free interfaces between the cable and the walls of the cable channel, and between the plug and the wall of the cable channel. In a desired embodiment, the soft polymer sealing sleeve is thicker in wall section than the space between the cable and channel so as to form an interference fit between the cable and channel, and between the plug and cable channel wall, so as to resiliently load the soft polymer. At all times, the inner end of the soft polymer is free to move axially into a shielded space, thus permitting a limited range of cable diameters to be used with a given sealing sleeve, and a wide range of cable diameters can be accommodated by employing sealing sleeves of various appropriate wall thickness.
|
79 |
Electrical clip contact device |
US43890165 |
1965-03-11 |
US3268852A |
1966-08-23 |
BO WENNERSTEN |
|
80 |
커넥터 |
KR1020160044889 |
2016-04-12 |
KR101761509B1 |
2017-07-25 |
가타오카시게토 |
본발명은복수개의전선을묶는작업을용이하게행할수 있도록하는것을과제로한다. 커넥터(10A)는, 복수개의전선(100)이인출되는전선인출면(66)을갖는커넥터본체(300)와, 커넥터본체(300)에부착되는전선커버(50)를구비한다. 전선커버(50)는, 전선인출면(66)과간격을두고배치되는등판부(51)와, 등판부(51)의양단으로부터서로대향하여돌출됨으로써전선(100)을대향방향양측으로부터덮는한 쌍의피복부(53)를갖는다. 한쌍의피복부(53)에는, 그대향방향에서볼 때전선인출면(66)의형성영역과겹치는위치에, 전선(100)의일부를대향방향에서볼 때노출시키는개구부(55)가설치된다. 개구부(55)의가장자리로부터등판부(51)에걸쳐있는부위에는, 전선(100)을묶어서고정하는결속밴드(75) 등의고정수단을부착하기위한부착부(59)가설치된다. |