Patent application number | Description | Published |
20080311802 | Push-in wire connector with improved busbar - A push-in wire connector has an improved busbar suitable for use with either solid or stranded wire. The connector has a housing with a hollow interior. At least two openings in the housing provide access to the interior for the ends of wires inserted into the connector. A busbar is mounted in the housing. The busbar defines at least two wire-crossing axes extending from an entry edge to an exit edge and a thickness between a top face and a bottom face. The busbar has a wire-receiving pocket extending below the top face on each of the wire-crossing axes and a wire-engaging protrusion extending above the top face on each of the wire-crossing axes. | 12-18-2008 |
20090186517 | PUSH-IN WIRE CONNECTOR WITH IMPROVED BUSBAR - A push-in wire connector has an improved busbar suitable for use with either solid or stranded wire. The connector has a housing with a hollow interior. At least two openings in the housing provide access to the interior for the ends of wires inserted into the connector. A busbar is mounted in the housing The busbar defines at least two wire-crossing axes extending from an entry edge to an exit edge and a thickness between a top face and a bottom face. The busbar has a wire-receiving pocket extending below the top face on each of the wire-crossing axes and a wire-engaging protrusion extending above the top face on each of the wire-crossing axes. | 07-23-2009 |
20090215326 | In-Line Push-In Wire Connector - A push-in wire connector has an enclosure that includes at least two wire entry ports that face in opposite directions. A terminal assembly is disposed within the enclosure and includes a busbar positioned between the wire ports. A spring member biases inserted conductors into engagement with the busbar. | 08-27-2009 |
20110076900 | ONE-PIECE CONDUCTIVE CLIP FOR PUSH-IN WIRE CONNECTOR - This is a one-piece conductive clip for use with push-in wire connectors. The one-piece conductive clip retains electrical conductors within the connector and provides electrical connection between two or more conductors. The clip has terminal blocks which include a spring and a busbar. The spring and the busbar are arranged so that the spring clamps a wire inserted between the spring and the busbar. The terminal blocks are arranged in two separate rows where each row is located along a plane generally parallel to the other row. This allows both vertically-stacked and horizontally-adjacent electrical connections between the electrical conductors. | 03-31-2011 |
20120149231 | Terminal Structures for Wiring Devices - Terminal structures for wiring devices, such as receptacle assemblies, are disclosed having first and second spring assemblies constructed of a first metal and each having at least one spring finger with the first and second spring assemblies being connected to respective first and second conductive contacts that are constructed of a second metal, wherein the terminal structures are configured for push-in termination of conductive stripped ends of respective first and second wires between the at least one spring finger of the respective first and second spring assemblies and the respective first and second conductive contacts, and wherein the first and second conductive contacts are configured to be connected to respective first and second separate conductive elements. Such a terminal structure is shown for example within a receptacle assembly in the form of a grounding duplex plug outlet. | 06-14-2012 |
20130084757 | ELECTRICAL CONNECTOR SYSTEM AND METHOD FOR MAKING THE SAME - An electrical connector system and method for making same, for joining adjacent ends of electrical power conductors, including a female connector assembly and a male connector assembly. Each of the female and male connector assemblies is provided with push-in type, spring mechanism to facilitate the insertion of a bared end of an electrical conductor, into the respective female or male connector housing for secured engagement of the bared end of the electrical conductor, without the assembler having to make physical contact with any electrically conductive structures. | 04-04-2013 |
20130105033 | CONNECTOR ASSEMBLY FOR ESTABLISHING AN ELECTRICAL CONNECTION WITH WIRES | 05-02-2013 |
20130115797 | ELECTRICAL DISCONNECT WITH PUSH-IN CONNECTORS HAVING A BUSBAR - An electrical disconnect includes a male housing having an enclosed contact and a female housing similarly having an enclosed contact. The contact in at least one of the housings includes a busbar to electrically couple a plurality of wires. Upon joining the disconnect, the contacts in the two housing engage to form as releasable connection. By including a busbar, multiple conductors in one of the housings may be coupled to a single conductor in the second housing. Additionally, by disconnecting the housing, each load in the circuit may be simultaneously interrupted as desired. | 05-09-2013 |
20130130537 | TERMINAL STRUCTURES FOR WIRING DEVICES - Terminal structures for wiring devices, such as receptacle assemblies, are disclosed having first and second spring assemblies constructed of a first metal and each having at least one spring finger with the first and second spring assemblies being connected to respective first and second conductive contacts that are constructed of a second metal, wherein the terminal structures are configured for push-in termination of conductive stripped ends of respective first and second wires between the at least one spring finger of the respective first and second spring assemblies and the respective first and second conductive contacts, and wherein the first and second conductive contacts are configured to be connected to respective first and second separate conductive elements. Such a terminal structure is shown for example within a receptacle assembly in the form of a grounding duplex plug outlet or switch. | 05-23-2013 |
20130137316 | METHODS AND APPARATUS FOR PREVENTING OXIDATION OF AN ELECTRICAL CONNECTION - A malleable wax-based antioxidant is provided for use between two electrical connectors. To form the example antioxidant, a wax-base is melted and particles, such as, for example, zinc particles, are provided in suspension with the melted wax. The suspension is then cooled and formed into a shape by, for example, molding, extrusion, die cutting, or other suitable forming method. The antioxidant remains viscose under normal operating temperatures of the electrical connector to avoid oozing and/or running out of the antioxidant, thus better preventing oxidation of the connector. The particles keep the connections running cool, particularly with aluminum to aluminum connections. | 05-30-2013 |
20130229067 | CONNECTOR HAVING WIRELESS CONTROL CAPABILITIES - A connector for connecting a source of low-voltage DC power to a low-voltage DC powered device includes a line-side interface arranged for releasably and electrically coupling the connector to the source of low-voltage DC power, a line-side interface arranged for electrically coupling the connector to the low-voltage DC powered device, a power controller electrically coupled to the line-side interface and the load-side interface and operarable to control a bringing of power to the load-side interface from the line-side interface, and an RF receiver electrically coupled to the power controller for receiving a first signal from a device external to the connector and for generating, in response thereto, a second signal for controlling operations of the power controller. | 09-05-2013 |
20130237072 | CONNECTOR HAVING A PUSH-IN TERMINATION FOR AN ELECTRICALLY ACTIVE GRID - An example electrical connector includes a non-electrically-conductive housing carrying at least a pair of opposed flexible, electrically-conductive push-in type contacts. The contacts each having a first end configured to receive and grip an electrical conductor, and a second end having a contact portion to releasable electrically couple with a corresponding conductive strip housed on opposite sides of an upper rail of a corresponding low voltage direct current grid member. In one example, a strain relief mechanism is coupled to the housing and is adapted to mechanically couple to the inserted electrical conductor and to assist in retaining the inserted electrical conductor in the push-in type contact. The housing may also define at least a pair of first interior spaces enclosing the first end of each of the contacts and for receiving and gripping the electrical conductor. | 09-12-2013 |
20130237095 | ELECTRICAL CONNECTOR WITH A PUSH-IN TYPE CONTACT - An electrical connector includes a housing having outwardly extending sleeves for connection with a corresponding connector. The housing defines an aperture extending through the extending sleeves, and an electrically-conductive contact is retained within the interior space of the housing and extending into the aperture. The electrically-conductive contact has an end comprising a contact portion within the aperture and an opposite end comprising a push-in type contact element. A cap retains the contact within the interior space, enclosing the interior space, and defining a port to allow insertion of a conductor of various construction therethrough. | 09-12-2013 |
20130252444 | MODULAR WIRING SYSTEM - A modular wiring system includes a junction box having a plurality of ports and a programmable wiring board carrying electrically conductive elements. A plurality of cable receiving connectors are each insertable into a corresponding one of the plurality of ports of the junction box and each provides electrical coupling between wires of a cable and the electrically conductive elements of the programmable wiring board. At least one electrical device receiving connector is coupled to the programmable wiring board. The at least one electrical device receiving connector releasably receives an electrical device and provides electrical coupling between the electrical device and the electrically conductive elements of the programmable wiring board. | 09-26-2013 |
20140065852 | MODULAR WIRING SYSTEM - A modular wiring system includes a junction box having a plurality of ports and a programmable wiring board carrying electrically conductive elements. A plurality of cable receiving connectors are each insertable into a corresponding one of the plurality of ports of the junction box and each provides electrical coupling between wires of a cable and the electrically conductive elements of the programmable wiring board. At least one electrical device receiving connector is coupled to the programmable wiring board. The at least one electrical device receiving connector releasably receives an electrical device and provides electrical coupling between the electrical device and the electrically conductive elements of the programmable wiring board. | 03-06-2014 |
20140103742 | CONNECTOR HAVING WIRELESS CONTROL CAPABILITIES - A connector for connecting a source of AC power to a powered device includes a line-side interface arranged for releasably and electrically coupling the connector to the source of power, a load-side power interface arranged for electrically coupling the connector to the powered device, a load-side control interface for controlling the power supplied to the powered device, a controller electrically coupled to the line-side interface, the load-side power interface, and the load-side control interface and operable to control a bringing of power to the load-side power interface from the line-side interface and for bringing a control signal to the load-side control interface, and a receiver electrically coupled to the controller for receiving a first signal from a device external to the connector and for generating, in response thereto, a second signal for controlling operations of the controller. | 04-17-2014 |
20140203638 | ELECTRICAL OUTLET HAVING WIRELESS CONTROL CAPABILITIES - A line-in power is connectable to the disclosed outlet housing similar to any known power outlet. This provided power is used to drive an AC/DC converter to create a DC bus internal to the outlet housing. This DC bus powers the electronics, including, for example, a wireless transceiver incorporated within the outlet housing. In at least one instance, the wireless transceiver will receive a command from another wireless device to turn power ON or OFF to the local outlet and the downstream (e.g. daisychained, etc.) outlets. These outlets can be wired to the output terminations (push-in and/or other) on the back of the local outlet and/or outlet housing, or may be connected through any other suitable electrical connection | 07-24-2014 |