Patent application number | Description | Published |
20100216337 | ELECTRICAL CONNECTOR WITH SLIDER COMPONENT FOR FAULT CONDITION CONNECTION - An electrical connector includes a socket that is configured to provide a current path between a connection terminal and a contact pin inserted into the socket during a standard connection. A slider component of the electrical connector is configured to move relative to the socket to make contact with the contact pin and provide a current path between the connection terminal and the contact pin during a fault condition connection. | 08-26-2010 |
20100216355 | ELECTRICAL BUSHING WITH RADIAL INTERPOSER SPRING - An electrical bushing connects a power distribution component with a power line. The electrical bushing includes a connection terminal that is configured to connect with the power distribution component. A core component of the electrical bushing defines a socket that is configured to receive a contact pin associated with the power line. The electrical bushing also includes a radial interposer spring that is configured to complete an electrical connection between the contact pin and the core component when the contact pin is inserted into the socket. | 08-26-2010 |
20100314232 | CABLE TERMINATION SYSTEMS AND ISOLATING APPARATUS FOR ELECTRICAL POWER TRANSMISSION CONDUCTORS AND METHODS USING THE SAME - A conductor termination system for use with an electrical power transmission conductor includes a termination assembly and a connector. The termination assembly includes an end member and an integral retainer mechanism. The end member includes a receiver portion configured to receive a segment of the conductor. The retainer mechanism includes a moveable keeper member on the end member. The retainer mechanism is operable to selectively clamp a segment of the conductor in the receiver portion to the end member and to apply a retention load to the conductor segment. The connector is adapted to be applied to the end member and the conductor to securely clamp the conductor segment to the end member. | 12-16-2010 |
20120097414 | Corrosion Resistant Muliple Tap Connectors - A multi-tap enclosure for an electrical cable includes a housing including a first wall and an opposite second wall and a third wall extending between the first and second wall. A first opening is in the first wall of the housing. The first opening defines a main cable axis for the multi-tap enclosure. A second opening is in the second wall of the housing. The second opening is located on the main cable axis. A main cable access opening is in the third wall of the housing. The main cable access opening has a frangible wall therein configured to allow movement of the electrical cable horizontally therethrough towards the main cable axis. The first opening and the second opening have frangible covers therein configured to allow movement of the electrical cable horizontally therethrough towards the main cable axis to allow the electrical cable to extend along the main cable axis through the first and second openings when installed in the multi-tap enclosure. | 04-26-2012 |
20120220151 | Cable Termination Systems and Isolating Apparatus for Electrical Power Transmission Conductors and Methods Using the Same - A conductor termination system for use with an electrical power transmission conductor includes a termination assembly and a connector. The termination assembly includes an end member and an integral retainer mechanism. The end member includes a receiver portion configured to receive a segment of the conductor. The retainer mechanism includes a moveable keeper member on the end member. The retainer mechanism is operable to selectively clamp a segment of the conductor in the receiver portion to the end member and to apply a retention load to the conductor segment. The connector is adapted to be applied to the end member and the conductor to securely clamp the conductor segment to the end member. | 08-30-2012 |
20130045622 | CONTACT REGION OF AN ELECTRICALLY CONDUCTIVE MEMBER - A contact region of an electrically conductive member includes a contact area, a shroud and at least one projection. The contact area is provided to electrically engage a mating connector. The shroud is positioned proximate the contact area and is dimensioned to cooperate with a portion of the mating connector to align the mating connector in the contact area. The at least one projection is provided proximate the contact area, such that the at least one projection cooperates with a mating connector to limit the rotation of the mating connector relative to the contact area. | 02-21-2013 |
20130168217 | Cable Termination Systems and Isolating Apparatus for Electrical Power Transmission Conductors and Methods Using the Same - A conductor termination system for use with an electrical power transmission conductor includes a termination assembly and a connector. The termination assembly includes an end member and an integral retainer mechanism. The end member includes a receiver portion configured to receive a segment of the conductor. The retainer mechanism includes a moveable keeper member on the end member. The retainer mechanism is operable to selectively clamp a segment of the conductor in the receiver portion to the end member and to apply a retention load to the conductor segment. The connector is adapted to be applied to the end member and the conductor to securely clamp the conductor segment to the end member. | 07-04-2013 |
20130295790 | CONNECTOR ASSEMBLIES AND SYSTEMS AND METHODS FOR FORMING DISCONNECTABLE JOINT ASSEMBLIES - A disconnectable joint system includes first and second connectors and a coupling fastener. The first connector defines a first conductor bore to receive a first cable conductor, and a first coupling portion including a first coupling bore and a first integral interlock feature. The second connector defines a second conductor bore to receive a second cable conductor, and a second coupling portion including a second coupling bore and a second integral interlock feature. The first and second coupling portions are mateable in an interlocked position wherein the first and second interlock features are interlocked with one another, the first and second coupling bores are substantially aligned, and the coupling fastener can be inserted through the first and second coupling bores and tightened to securely couple the first and second connectors to one another. The first and second connectors can be separated upon removal of the coupling fastener. | 11-07-2013 |
20140033494 | CONTROLLED TORQUE FASTENERS AND METHODS FOR USING SAME - A controlled torque fastener for use with a substrate includes a first driver engagement feature and a primary fastener portion connected to the first driver engagement feature. The primary fastener portion includes a threaded fastening portion and a second driver engagement feature connected to the threaded fastening portion. The first driver engagement feature is configured to be engaged by a first driver to enable the first driver to tighten the controlled torque fastener onto the substrate until the first driver engagement feature breaks off from the primary fastener portion. The second driver engagement feature includes a socket configured to receive a second driver and to enable the received second driver to apply a torque to the primary fastener portion. | 02-06-2014 |
20140073175 | Apparatus and Methods for Environmentally Sealing Terminal Blocks - A method for environmentally protecting a terminal block includes providing a sealing device including: a base substrate having an anchoring surface; and a gel sealant body having an engagement surface. The gel sealant body is secured to the anchoring surface and extends forwardly from the anchoring surface to the engagement surface. The method further includes: applying the sealing device to the terminal block such that the gel sealant body is interposed between the terminal block and the base substrate and the engagement surface engages the terminal block; and wrapping a retainer member around the terminal block and securing the sealing device to the terminal block using the retainer member. | 03-13-2014 |
20140083831 | Cable Termination Systems and Isolating Apparatus for Electrical Power Transmission Conductors and Methods Using the Same - A conductor termination system for use with an electrical power transmission conductor includes a termination assembly and a connector. The termination assembly includes an end member and an integral retainer mechanism. The end member includes a receiver portion configured to receive a segment of the conductor. The retainer mechanism includes a moveable keeper member on the end member. The retainer mechanism is operable to selectively clamp a segment of the conductor in the receiver portion to the end member and to apply a retention load to the conductor segment. The connector is adapted to be applied to the end member and the conductor to securely clamp the conductor segment to the end member. | 03-27-2014 |
20140216778 | Holdout Devices and Cover Assemblies and Methods Incorporating the Same - A cover assembly for covering an elongate substrate includes a holdout device and a resilient, elastically radially expanded sleeve member. The holdout device includes a core having an axially extending slit defined therein and defining a core passage to receive the substrate, and a designated target region. The sleeve member defines an axially extending sleeve passage. The sleeve member is mounted on the core such that the core is disposed in the sleeve passage and the sleeve member exerts a radially compressive recovery force on the core. When the substrate is disposed in the core passage and a radially directed release force is applied to the target region, the core will reduce in circumference and collapse around the substrate under the recovery force of the sleeve member to a collapsed position. | 08-07-2014 |
20140273575 | Electrical Connectors and Methods for Using Same - An electrical connector for forming a mechanical and electrical coupling with an electrical conductor includes a tubular housing, at least one jaw member, a sealant containment membrane, and a sealant. The tubular housing has a connector axis. The housing defines a conductor receiving opening and an interior cavity each configured to receive the conductor along the connector axis. The at least one jaw member is configured to clamp the conductor within the interior cavity. The sealant containment membrane is disposed in the interior cavity and defines a sealant chamber. The sealant is contained in the sealant chamber in the interior cavity to environmentally protect an electrical contact engagement between the conductor and the electrical connector when the conductor is clamped in the interior cavity by the at least one jaw member. | 09-18-2014 |
20140273599 | Electrical Connectors and Methods for Using Same - An electrical connector for forming a mechanical and electrical coupling with an electrical conductor includes a tubular housing, at least one jaw member, a sealant containment membrane, and a sealant. The tubular housing has a connector axis. The housing defines a conductor receiving opening and an interior cavity each configured to receive the conductor along the connector axis. The at least one jaw member is configured to clamp the conductor within the interior cavity. The sealant containment membrane is disposed in the interior cavity and defines a sealant chamber. The sealant is contained in the sealant chamber in the interior cavity to environmentally protect an electrical contact engagement between the conductor and the electrical connector when the conductor is clamped in the interior cavity by the at least one jaw member. | 09-18-2014 |
20150016917 | Controlled Torque Fasteners and Methods for Using Same - A controlled torque fastener for use with a substrate includes a first driver engagement feature and a primary fastener portion connected to the first driver engagement feature. The primary fastener portion includes a threaded fastening portion and a second driver engagement feature connected to the threaded fastening portion. The first driver engagement feature is configured to be engaged by a first driver to enable the first driver to tighten the controlled torque fastener onto the substrate until the first driver engagement feature breaks off from the primary fastener portion. The second driver engagement feature includes a socket configured to receive a second driver and to enable the received second driver to apply a torque to the primary fastener portion. | 01-15-2015 |