Class / Patent application number | Description | Number of patent applications / Date published |
174168000 | With conductor holding means | 17 |
20080308299 | Connection Apparatus - A connection apparatus ( | 12-18-2008 |
20090038824 | WIRE HOLDER - A wire holder includes a synthetic resin component that includes a clamp portion for holding at least one wire and a metal component that includes at least one lead portion mounted on a circuit board. The synthetic resin component includes a groove-shaped fitting groove portion. The metal component includes at least one fitting portion that fits the fitting groove portion and is connected to the lead portion. The fitting groove portion includes at least one first opening portion which allows the at least one lead portion to project in a predetermined direction when the at least one fitting portion fits the fitting groove portion. At least one of end portions in an extension direction of a groove of the fitting groove portion is opened as a second opening portion which allows one of the at least one lead portion to project along the extension direction of the groove of the fitting groove portion. | 02-12-2009 |
20100025078 | CARRYING DEVICE FOR BUSBARS - A carrying device for busbars, having at least one holding device to be fixed on a base unit. The device has a receiving opening for feeding through at least one busbar, and a clamping device for fixing the same. Expanded installation possibilities of busbars result if there is a receiving part that is inserted, or that can be inserted, in the receiving opening. The part can have at least one recess that is adjusted to the cross-section of a busbar, and the respective busbar can be selectively disposed in the holding device in at least two installation positions pivoted about the longitudinal axes thereof, by the receiving part. | 02-04-2010 |
20100236816 | INSULATOR FOR ELECTRIFIED ELEMENTS - An insulator member comprises a set of passages ( | 09-23-2010 |
20100326701 | SYSTEMS AND METHODS FOR REMOVING INSULATION DISPOSED OVER CONDUCTORS OF IMPLANTABLE ELECTRIC STIMULATION SYSTEMS - A method for forming a lead or lead extension includes forming an arrangement of elongated conductors. Each of the conductors extends from a proximal end of the arrangement to a distal end of the arrangement. Each of the conductors includes a layer of insulation disposed over a conductive core. A conductor-separating element is disposed over either the proximal end or the distal end of the arrangement. The conductor-separating element includes a plurality of ablation windows defined in a body. An end of at least one of the elongated conductors is radially extended over a portion of the conductor-separating element such that a portion of the at least one elongated conductor extends across at least one of the ablation windows. Insulation from the portion of the at least one conductor extending across the ablation window is ablated to expose a portion of the conductive core of the elongated conductor. | 12-30-2010 |
20110005809 | INSULATION SPACER FOR A GAS INSULATED DEVICE AND METHOD OF PRODUCING SAME - An insulation spacer for a gas insulated device includes an insulator disc and an armature extending around an outer periphery of the insulator disc and holding the same. The armature is ring-shaped defining a ring axis and includes two ring base surfaces extending substantially perpendicularly to the ring axis; and a ring inner surface being arranged between the two ring base surfaces and facing the ring axis. Further, the ring inner surface includes at least one protrusion directed radially inwardly towards the ring axis, the at least one protrusion being shaped such that it locks the insulator disc in the armature against movement in both directions parallel to the ring axis. | 01-13-2011 |
20130264097 | Insulating Cover and Retaining Pin for High Voltage Electrical Transmission Structures - A plastic retaining pin for being inserted through a retaining hole in a high voltage insulating cover has an oval cross-section. The pin has a compressible nose, with the wide part of the nose being larger than the retaining hole. The nose has a relatively long front portion that expands out from the tip at about a 15 degree angle for easy insertion through the retaining hole. A back part of the nose is relatively short and has a relatively steep angle of about 45 degrees so as to require a higher pulling force to compress the nose when removing the pin from the hole. The other end of the pin has a grasping hole for receiving the hook of a hot stick. If the retaining hole is oval, the grasping hole is at a predetermined orientation with respect to the insulating structure to ease removal using a hot stick. | 10-10-2013 |
20130306355 | Electrical Insulator Apparatus and Methods of Retaining an Electrical Conductor with an Electrical Insulator Apparatus - An electrical insulator apparatus and methods of using the same are provided. The apparatus includes an insulator body formed about a central axis, the insulator body having a plurality of spaced fins positioned along an exterior of the insulator body. A first jaw portion is positioned on an upper portion of the insulator body. A second jaw portion is positioned proximate to the first jaw portion and is movable with respect to the first jaw portion. At least one fastener is connected between the first and second jaw portions. A jaw platform is positioned at least partially between the first and second jaw portions, wherein the first and second jaw portions and the jaw platform form a notch sized to receive an electrical conductor, wherein the jaw platform substantially lies within a first plane angled substantially between 6° and 184° with respect to the central axis of the insulator body. | 11-21-2013 |
174169000 | Fitting or terminal type | 2 |
20080202794 | RATCHET-HEAD CONDUCTOR LOCKING MEDIUM VOLTAGE ELECTRICAL BUS POLYMER INSULATOR WITH PIN MOUNT - Cable support insulators of the present invention generally have an insulator body having a cable base and a plurality of insulator sheds. The cable base has a ratchet locking mechanism to secure an electrical conductor to the insulator. In preferred embodiments, a cable support insulator is provided that has an insulator body comprising a plurality of insulator sheds and a cable base. A locking base is connected to the cable base, and a retaining clamp is pivotally connected to the cable base. The cable base has a front end, a back end, and a seat adapted to receive a conductor cable. The locking base has a front plate having a plurality of ratchet teeth. The retaining clamp has a first retaining arm, a second retaining arm, and a locking blade. | 08-28-2008 |
20150136445 | NON-CONDUCTIVE WIRE SPLICE CONNECTOR - A non-conductive wire splice apparatus having a connector configured to be coupled between a first wire and a second wire. The connector having a non-conductor coupled between a first sleeve and a second sleeve. The first sleeve being attachable to the first wire. The second sleeve being attachable to the second wire opposite the first sleeve. The non-conductor being configured to electrically insulate the first wire from the second wire. An electrical current in the first wire is insulated from being conducted to the second wire. | 05-21-2015 |
174172000 | Insulator embracing | 2 |
20090188698 | ELECTRIC CABLE AND INSULATOR SELF-LOCKING SYSTEM, AND METHOD OF INSTALLATION THEREOF - The insulator comprises a lower bell shaped portion, an intermediate annular waist portion and an upper saddle portion for receiving and supporting an electric transmission overhead cable. An axial blind bore opens at its lower end for receiving an upstanding support pin. The saddle portion includes a transversely-curved groove, substantially normal to the axial bore, and jutting parts on each side of the cable receiving groove and laterally protruding from the waist portion. Each jutting part has an external face which is provide with a partly annular groove, generally coaxial with the bore and of greater radius than that of the waist portion. These annular grooves are adapted to positively retain the inturned flanges of a cable retaining clasp despite an upward force or a laterally upwardly directed force exerted by the cable on the clasp. The waist portion can still be used for attaching the electric wire by a tie-wire. The clasp includes male/female joints at each of its two downwardly curved arms that automatically interlock with each other when a sufficient biasing force is applied thereon by a pneumatic tool deforming the clasp arms, drawing the registering flanges of the latter toward one another to lock the insulator to the overhead electric cable. | 07-30-2009 |
20150129282 | ELECTRICAL WIRE CONNECTOR - An electrical wire connector is configured to secure at least two electrical wires partially covered in sheaths. The electrical wire connector includes a body further comprising a cavity with a port configured to receive the at least two electrical wires twisted to form an electrical wire connection. Teeth are on a bottom surface of the electrical wire connection; wherein the teeth obstruct movement of the sheaths. A bolt, is detachably coupled to the body. Silicone fills the cavity with the at least two electrical wires. Tightening the bolt onto the sheaths into the teeth displaces some of the silicone from the cavity and creates a watertight compartment for the at least two electrical wires. | 05-14-2015 |
174174000 | Insulator structure | 5 |
20100175910 | JACKET FOR CABLE DATA - A jacket for a data cable that comprises a main jacket body having an inner area for receiving one or more filaments and a central longitudinal axis. The main body has an inner surface that surrounds the inner area and an opposite outer surface. At least one longitudinal opening extends through the main jacket body between the inner and outer surfaces and substantially parallel to the central longitudinal axis of the main jacket body. The longitudinal opening is substantially enclosed within the main jacket body. | 07-15-2010 |
20120090876 | ENCLOSURE FOR A CABLE CONNECTION - The present invention is directed to an enclosure for protecting a cable connection. The enclosure includes a sealing member contained within an inner shell. The sealing member is secured around the cable connection by slideably engaging a rigid outer shell over the inner shell. The inner shell has an external topography defining an inner shell profile and wherein the outer shell has an internal topography defining an outer shell profile such that the outer shell profile is similar to the inner shell profile. | 04-19-2012 |
20150114683 | ELECTRICAL CABLE SUPPORT ARRANGEMENT - An electric cable saddle, or support, arrangement includes a housing having an upper recessed portion adapted to receive and support one or more electrical cables in a fixed, stable manner. Plural apertures disposed on upper portions of the housing on opposed sides of the cable(s) and aligned generally transverse to the length of the cable(s) are adapted to receive a flexible, high strength tie member, or strap, for securely attaching the cable(s) to an upper portion of the housing. A slot disposed in a lower portion of the housing and also aligned generally transverse to the length of the cables(s) is adapted to receive a structural support member for supporting the housing and cable(s). A retaining member also disposed in a lower portion of the housing is moveable adjacent to or into engagement with the support member for fixed positioning of the housing on the support member. | 04-30-2015 |
20160007461 | Insulating Substrates Including Through Holes - It is provided an insulating substrate including through holes for conductors arranged in the insulating substrate. A thickness of the insulating substrate is 25 to 100 μm, and a diameter of the through hole is 20 to 100 μm. The insulating substrate includes a main body part and exposed regions exposed to the through holes and is composed an alumina sintered body. A relative density of the alumina sintered body is 99.5 percent or higher. The alumina sintered body has a purity of 99.9 percent or higher, and has an average grain size of 3 to 6 μm in said main body part. Alumina grains are plate-shaped in the exposed region and the plate-shaped alumina grains have an average length of 8 to 25 μm. | 01-07-2016 |
174175000 | Self-retaining | 1 |
20100181098 | INSULATING PROFILE FOR A CONDUCTOR LINE - The invention relates to an insulating profile for a conductor line having at least one chamber extending in the longitudinal direction of the profile, said chamber being open in cross section to one side, thus defining an open front side of the insulating profile, and being suitable for mounting a busbar, the opening of the open chamber on the front side of the insulating profile expanding in a lateral direction such that the surface of the front side of the insulating profile is slanted toward the center of the nearest open chamber. The conductor line can be a multi-pole conductor line, the insulating profile comprising a regular arrangement of a group of a plurality of chambers extending in the longitudinal direction of the profile and being open to one side and each being suitable for mounting a busbar. | 07-22-2010 |