Patent application number | Description | Published |
20100276196 | COVER ASSEMBLIES FOR CABLES AND ELECTRICAL CONNECTIONS AND METHODS FOR MAKING AND USING THE SAME - An integral, unitary cover assembly for covering an electrical connection between first and second electrical cables each having a primary conductor and a neutral conductor includes an inner elastomeric sleeve, an outer elastomeric sleeve and an integral jumper assembly. The inner sleeve defines a cable passage to receive the electrical connection and the primary conductors of the first and second cables. The outer sleeve surrounds the inner sleeve. The jumper assembly includes an electrically conductive jumper conductor, a first jumper connector and a second jumper connector. The jumper conductor is interposed between the inner and outer sleeves and has first and second opposed ends. The first jumper connector is mounted on the first end of the jumper conductor and is configured to mechanically and electrically couple the neutral conductor of the first cable to the jumper conductor. The second jumper connector is mounted on the second end of the jumper conductor and configured to mechanically and is electrically couple the neutral conductor of the second cable to the jumper conductor. | 11-04-2010 |
20100279542 | METHODS AND KITS FOR COVERING ELECTRICAL CABLES AND CONNECTIONS - A method for forming a connection assembly includes: forming an electrical connection between first and second electrical cables, the first cable including a first primary conductor and a first neutral conductor, the second cable including a second primary conductor and a second neutral conductor; and providing an integral, unitary cover assembly. The cover assembly includes: an inner elastomeric sleeve defining a cable passage to receive the electrical connection and the first and second primary conductors; and an outer elastomeric sleeve surrounding the inner sleeve. The method further includes: mounting the cover assembly on the cables such that the electrical connection and the first and second primary conductors extend through the cable passage; installing a first protective sleeve on a first neutral segment of the first neutral conductor; routing the first neutral segment and the first protective sleeve exteriorly of the outer sleeve to a second neutral segment of the second neutral conductor; and mechanically and electrically coupling the first and second neutral segments to thereby provide electrical continuity between the first neutral conductor and the second neutral conductor. | 11-04-2010 |
20140208591 | Tools and Methods for Installing Cover Sleeves on Electrical Connections - A method for installing an elastomeric cover sleeve on an electrical connection including a connector and a cable having a cable axis includes: providing an installation tool including a slide portion; premounting the installation tool on the cable such that the slide portion extends along the cable axis and covers a portion of the cable; thereafter, sliding the cover sleeve onto the cable and onto the slide portion of the premounted installation tool to a parked position wherein the slide portion is interposed between the cover sleeve and the cable; installing the connector onto the cable; and thereafter, sliding the cover sleeve along the cable axis and the slide portion onto the connector. | 07-31-2014 |
Patent application number | Description | Published |
20100029147 | Connection Enclosure Assemblies, Connector Systems and Methods for Forming an Enclosed Connection Between Conductors - An enclosed connection system for connecting first and second elongate electrical conductors includes a transverse wedge connector and an enclosure. The transverse wedge connector includes an electrically conductive first connector member, an electrically conductive second connector member, and a clamping mechanism. The first connector member includes: a first body having inner and outer opposed ends; a first hook portion on the outer end of the first body, the first hook portion defining a first channel to receive the first conductor; and a first abutment portion on the inner end of the first body. The second connector member includes: a second body having inner and outer opposed ends; a second hook portion on the outer end of the second body, the second hook portion defining a second channel to receive the second conductor; and a second abutment portion on the inner end of the second body. The clamping mechanism is selectively operable to displace the first and second connector members relative to one another from an open position to a clamping position to clamp the first conductor in the first channel and between the first hook portion and the second abutment portion and to clamp the second conductor in the second channel and between the second hook portion and the first abutment portion to thereby form a connection. The enclosure is configured to receive and cover the connection and to protect the transverse wedge connector. | 02-04-2010 |
20100124454 | SEALANT-FILLED ENCLOSURES AND METHODS FOR ENVIRONMENTALLY PROTECTING A CONNECTION - A sealant-filled enclosure for environmentally sealing a connection includes a first cover member and a second cover member. The first cover member defines a first cavity having a first bottom. The second cover member is pivotally connected to the first cover member for movement between an open position and a closed position. The second cover member defines a second cavity having a second bottom. A first sealant is positioned in the first cavity and extends up to a first level relative to the first bottom without a connection disposed in the first cavity. A second sealant is positioned in the second cavity and extends up to a second level relative to the second bottom without a connection disposed in the second cavity. The first and second levels together exceed a height from the first bottom to the second bottom in the closed position. The first and second sealants may be gels. | 05-20-2010 |
20100130076 | CONNECTION ENCLOSURE ASSEMBLIES, CONNECTOR SYSTEMS AND METHODS FOR FORMING AN ENCLOSED CONNECTION BETWEEN CONDUCTORS - An enclosed connection system for connecting first and second elongate electrical conductors includes a transverse wedge connector and an enclosure. The transverse wedge connector includes an electrically conductive first connector member, an electrically conductive second connector member, and a clamping mechanism. The first connector member includes: a first body having inner and outer opposed ends; a first hook portion on the outer end of the first body, the first hook portion defining a first channel to receive the first conductor; and a first abutment portion on the inner end of the first body. The second connector member includes: a second body having inner and outer opposed ends; a second hook portion on the outer end of the second body, the second hook portion defining a second channel to receive the second conductor; and a second abutment portion on the inner end of the second body. The clamping mechanism is selectively operable to displace the first and second connector members relative to one another from an open position to a clamping position to clamp the first conductor in the first channel and between the first hook portion and the second abutment portion and to clamp the second conductor in the second channel and between the second hook portion and the first abutment portion to thereby form a connection. The enclosure is configured to receive and cover the connection and to protect the transverse wedge connector. | 05-27-2010 |
20110100671 | WRAP-AROUND CABLE SLEEVE ASSEMBLIES AND METHODS FOR MAKING AND USING THE SAME - A wrap-around cable sleeve assembly for environmentally sealing a cable section includes a wrap-around sleeve and a cable mastic patch. The wrap-around sleeve has a longitudinally extending portion and opposed first and second longitudinal edges. The longitudinally extending portion defines a portion of a cable chamber extending around the cable section when the wrap-around sleeve is wrapped around the cable section. The cable mastic patch is disposed on an interior surface of the longitudinally extending portion and extends transversely across the longitudinally extending portion. The cable mastic patch is configured and positioned to engage the cable section and form a continuous environmental circumferential seal about the cable section when the wrap-around sleeve is wrapped around the cable section. | 05-05-2011 |
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 |
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 |
20140338953 | JOINT BODIES AND METHODS FOR COVERING ELECTRICAL CABLES AND CONNECTIONS - A joint body for protecting an electrical cable connection including an electrical cable includes an expandable, elastomeric bladder sleeve and an electrically insulating gel. The bladder sleeve defines a gel cavity and a cable passage to receive the electrical cable. The gel is disposed in the gel cavity and surrounds at least a portion of the cable passage. The joint body is configured to be installed on the connection such that the connection is disposed in the cable passage and is surrounded and electrically insulated by the gel. | 11-20-2014 |
Patent application number | Description | Published |
20090131873 | SYSTEM AND METHOD FOR POSITIONING IMPLANTABLE MEDICAL DEVICES WITHIN CORONARY VEINS - An improved system and method for placing implantable medical devices (IMDs) such as leads within the coronary sinus and branch veins is disclosed. In one embodiment, a slittable delivery sheath and a method of using the sheath are provided. The sheath includes a slittable hub, and a substantially straight body defining an inner lumen. The body comprises a shaft section and a distal section that is distal to, and softer than, the shaft section. A slittable braid extends adjacent to at least a portion of one of the shaft section and the distal section. In one embodiment of the invention, the sheath further includes a transition section that is distal to the shaft section, and proximal to the distal section. The transition section is softer than the shaft section, but stiffer than the distal section. | 05-21-2009 |
20140343549 | SYSTEM AND METHOD FOR POSITIONING IMPLANTABLE MEDICAL DEVICES WITHIN CORONARY VEINS - An improved system and method for placing implantable medical devices (IMDs) such as leads within the coronary sinus and branch veins is disclosed. In one embodiment, a slittable delivery sheath and a method of using the sheath are provided. The sheath includes a slittable hub, and a substantially straight body defining an inner lumen. The body comprises a shaft section and a distal section that is distal to, and softer than, the shaft section. A slittable braid extends adjacent to at least a portion of one of the shaft section and the distal section. In one embodiment of the invention, the sheath further includes a transition section that is distal to the shaft section, and proximal to the distal section. The transition section is softer than the shaft section, but stiffer than the distal section. | 11-20-2014 |