The invention relates to a lever-type connector for facilitating the connection. The connector includes a housing on which a cable guide cover is mounted. A lever is rotatably mounted on the cable guide cover and displaces a slide. In the course of the rotation of the lever, the slide cooperates with the cable guide cover in order to maintain the cable guide cover on the housing with greater force and in a better-adapted manner.

A socket for electrical component capable of pressing and fixing an electrical component. A pressing part includes a first cam rotatably supported by the body part, and a second cam supported by the first cam. An elevating part includes a cam locking part provided on a rotational orbit of the second cam. A tip of the second cam is formed such that the tip of the second cam passes over the cam locking part when the elevating part is moved down by making the tip of the second cam abut against the elevating part and rotate, and the tip of the second cam is locked by the cam locking part so as to prevent the rotation when an attempt is made to perform the rotation in the opposite direction. The rotation in the opposite direction is enabled by moving the second cam in the radial direction of the rotation.

An electrical connection box includes a housing and a connector assembly coupled to the housing. The connector assembly includes sockets for receiving plugs from a motor vehicle. The housing is formed to include a cavity that is designed to house electronic circuity. The connector assembly includes at least one socket and at least one connector positioned within the socket. The connector is configured to create an electrical connection with an electrical plug that is received in the socket to electrically couple components of the vehicle with the electronic circuitry and minimize a voltage loss across the electrical connection.

A connector is such that a first housing (10) is provided with a slider (21) formed with two cam grooves (24), a second housing (30) is formed with two cam followers (36) and contact edges (27) are formed at entrances (24E) of the cam grooves (24). An outer peripheral surface of the cam follower (36) has a substantially semicircular surface (41) on a rear side in an entering direction into the cam groove (24). A receiving surface (44) extending in the same direction as the entering direction into the cam groove (24) from an end part of the substantially semicircular surface (41) facing the contact edge part (27) is formed on the outer peripheral surface of the cam follower (36), and at a right angle or at an angle smaller than a right angle to a sliding direction of the slider (21).

A cable holder includes a holder body and cable-holding portions that couple with one or more cables. The cable-holding portions hold portions of two or more cables in a predetermined spacing and arrangement with respect to one another.

An electrical connection box includes a housing and a connector assembly coupled to the housing. The connector assembly includes sockets for receiving plugs from a motor vehicle. The housing is formed to include a cavity that is designed to house electronic circuitry. The connector assembly includes at least one socket and at least one connector positioned within the socket. The connector is configured to create an electrical connection with an electrical plug that is received in the socket to electrically couple components of the vehicle with the electronic circuitry and minimize a voltage loss across the electrical connection.

The connection system for at least one pair of paired connectors includes a plate (2) including an opening for each pair of connectors, to which is attached a first connector of said pair and a bolt (4) that can be moved laterally in relation to the plate and to the first connector, said bolt (4) being moveable to a first position that enables insertion of the second connector of said pair until contact is made between the connectors and to a second stable coupling and locking position of the connectors.

The invention relates to a lever-type connector for facilitating the connection. The connector includes a housing on which a cable guide cover is mounted. A lever is rotatably mounted on the cable guide cover and displaces a slide. In the course of the rotation of the lever, the slide cooperates with the cable guide cover in order to maintain the cable guide cover on the housing with greater force and in a better-adapted manner.

Disclosed is a socket for electrical component in which a socket body and a cover member are separated. A cover member includes a frame-like cover body including an opening in a middle portion in the up and down directions, a heatsink provided to penetrate through the opening of the cover body, an elevating part supporting this heatsink, and a pressing part moving down the heatsink by pressing the elevating part so as to press the heatsink against the electrical component. By pressing the heatsink against the electrical component with the use of the pressing part, the electrical component is fixed to the housing portion of the socket body. Accordingly, it is possible to make the heatsink perform heat dissipation for the electrical component. Thus, it is possible to obtain excellent heat dissipation effect with respect to the electrical component.

A socket for electrical component capable of pressing and fixing an electrical component,

A pressing part includes a first cam rotatably supported by the body part, and a second cam supported by the first cam An elevating part includes a cam locking part provided on a rotational orbit of the second cam. A tip of the second cam is formed such that the tip of the second cam passes over the cam locking part when the elevating part is moved down by making the tip of the second cam abut against the elevating part and rotate, and the tip of the second cam is locked by the cam locking part so as to prevent the rotation when an attempt is made to perform the rotation in the opposite direction. The rotation in the opposite direction is enabled by moving the second cam in the radial direction of the rotation.