A structure of electrical connection is a structure of mutual electrical connection between a first power supply unit, a second power supply unit, and electric wires. The first power supply unit is provided with a first columnar terminal, and the second power supply unit is provided with a second columnar terminal. A tubular terminal is connected to an end of the electric wire. A first tubular terminal fitted to the first columnar terminal, a second tubular terminal fitted to the second columnar terminal, and a columnar terminal fitted to the tubular terminal are joined to a conductive connection plate. The entirety of the connection plate and the ends of the electric wires are covered with a cover.

A connection assembly, a connector and a connector assembly are disclosed. The connection assembly is used to connect a high-voltage cable and comprises: a threaded fastener for fixedly connecting the high-voltage cable to a mating connection part, the threaded fastener comprising an insulation member; and a conductive plug connected with the insulation member to allow the threaded fastener to be tightened or loosened by rotating the conductive plug. In the present invention, the conductive plug arranged in the mounting hole of the conductive housing can realize the electromagnetic shielding function, and the elastic sealing sleeve sleeved on the conductive plug seals the gap between the conductive plug and the inner wall of the mounting hole and can realize the waterproof function.

A trunk bus connector for electrically coupling one or more branch cables to a trunk line. The trunk bus connector containing a junction area, overmold, undermold, and entry pathways arranged so that the branch cables can be coupled to the trunk line without the use of 90-degree bends. The entry of the branch cables relative to the trunk line being approximately 30 to 50 degrees resulting in easier, more reliable installation with less material required.

A trunk bus connector for electrically coupling one or more branch cables to a trunk line. The trunk bus connector containing a junction area, overmold, undermold, and entry pathways arranged so that the branch cables can be coupled to the trunk line without the use of 90-degree bends. The entry of the branch cables relative to the trunk line being approximately 30 to 50 degrees resulting in easier, more reliable installation with less material required.

A wiring substrate has a first wiring substrate, plurality of second wiring substrates, and an adhesive layer. The plurality of second wiring substrates are arranged adjacent to each other on the first wiring substrate. The adhesive layer adheres the first wiring substrate and the plurality of second wiring substrates to each other. The adhesive layer has a filling portion that fills a groove portion formed by opposing of side surfaces of adjacent ones of the plurality of second wiring substrates.

A wiring substrate has a first wiring substrate, plurality of second wiring substrates, and an adhesive layer. The plurality of second wiring substrates are arranged adjacent to each other on the first wiring substrate. The adhesive layer adheres the first wiring substrate and the plurality of second wiring substrates to each other. The adhesive layer has a filling portion that fills a groove portion formed by opposing of side surfaces of adjacent ones of the plurality of second wiring substrates.

Method for crimping a cable terminal onto an electric cable includes providing an electric cable having an outer insulation sheath and at least one conductive strand with a sheathed portion, and providing a terminal having shrink wings and provide a gasket having a sealing portion and a shrink portion. The method also includes stripping the electrical cable so that a stripped portion is formed, positioning the shrinkage portion of the joint so that it directly overlaps the stripped portion of the cable without the shrinkage portion overlapping the sheathed portion of the cable, and fully crimping the shrink wings onto the shrink portion of the joint without the shrink wings covering the sheathed portion of the cable.

Method for crimping a cable terminal onto an electric cable includes providing an electric cable having an outer insulation sheath and at least one conductive strand with a sheathed portion, and providing a terminal having shrink wings and provide a gasket having a sealing portion and a shrink portion. The method also includes stripping the electrical cable so that a stripped portion is formed, positioning the shrinkage portion of the joint so that it directly overlaps the stripped portion of the cable without the shrinkage portion overlapping the sheathed portion of the cable, and fully crimping the shrink wings onto the shrink portion of the joint without the shrink wings covering the sheathed portion of the cable.

The present invention relates to a reusable mains-power electrical connector. The connector includes a connector body for receiving cables and fasteners. One or more protectors are located within the body to protect the received cables when the fasteners engage with the protectors to fasten the cables within the body. The connector also includes relieving means for relieving the cables of the protectors when releasing the fasteners to remove the cables. Advantageously, the connector may be re-used when the fasteners engage with the protectors to fasten new cables received within the body.

The present invention relates to a reusable mains-power electrical connector. The connector includes a connector body for receiving cables and fasteners. One or more protectors are located within the body to protect the received cables when the fasteners engage with the protectors to fasten the cables within the body. The connector also includes relieving means for relieving the cables of the protectors when releasing the fasteners to remove the cables. Advantageously, the connector may be re-used when the fasteners engage with the protectors to fasten new cables received within the body.