An electrical connector comprises an insulating body, a pair of first terminal members, a pair of second terminal members, and a fastening part. The insulating body comprises a mating groove. The pair of first terminal members is disposed in the mating groove. Each of the first terminal members comprises a plurality of first elastic contacting parts. The pair of second terminal members is disposed in the mating groove. The pair of first terminal members is disposed between the pair of second terminal members. Each of the second terminal members comprises a plurality of second elastic contacting parts. The second elastic contacting part abuts against the first elastic contacting portion correspondingly. The fastening part fastens the pair of first terminal members and the pair of second terminal members.

A joint connector 10 to be connected to wires 11 includes a lower housing 30 and an upper cover 60. The lower housing 30 accommodates terminals 12 to be respectively connected to front end parts in an extending direction of the wires 11. The upper cover 60 is assembled to close an upper surface of the lower housing 30. The lower housing 30 or the upper cover 60 includes a lower guide portion 36 or an upper guide portion 69 for bending the wires 11 by contacting the wires 11 with the lower housing 30 and the upper cover 60 assembled.

A connector assembly applied to a wire harness includes a connector and a connector cover that is attached to the connector. Furthermore, the connector cover includes: a wall part that forms a connector housing space part for housing an end part of the connector and a locking release part, and a routing space part which is positioned adjacent to the connector housing space part and in which a wiring material is routed; a hole part that is formed in the wall part, while being positioned adjacent to the locking release part and communicating inside and outside of the connector housing space part in a state of being attached to the connector; and a restriction part that is formed in the wall part and blocks the hole part from the routing space part in a state of being attached to the connector.

A heated throttle valve apparatus is disclosed herein, which includes a valve system with a valve driver configured to provide a rotational force to a valve assembly via a thermal isolating drive coupler configured to prevent the transfer of thermal energy from the valve assembly to the valve driver. The valve assembly includes a valve body and a valve closure member, a valve shaft with a valve shaft heater in a first heating zone and one or more body heaters in a second heating zone, permitting the user to control temperature in the heating zones independently. An electrical conductor strain relief is provided, configured to eliminate strain in the shaft heater electrical conductors when the valve closure member undergoes a change in angular orientation. The electrical conductor strain relief includes a curvilinear flexible member wound between a first connection area and a second connection area.

An electric connector includes a tubular conductive shell, covers provided outside the shell to cover at least part of the shell, and a movable cover coupled to the cover through a rotary shaft. The cover has locking pieces on a cable side. The movable cover has locking pieces to be engaged with the locking pieces. At least one of the locking piece or the locking piece includes multiple locking pieces arranged along a circumferential direction of a circle about the rotary shaft. The locking pieces and the locking pieces form a ratchet mechanism, and have such a structure that the locking pieces and the locking pieces are movable in an approaching direction and movement in a direction in which the locking pieces and the locking pieces are separated from each other is restricted.

An electrical connector includes a main body, a first cover, and a second cover. The main body includes a first connection portion, a wire inlet portion, and an accommodating space between the first connection portion and the wire inlet portion. The first cover is pivotally connected to the first connection portion to be rotatable relative to the main body between a first position and a second position. When the first cover is at the first position, the accommodating space is opened for installation. When the first cover is at the second position, the first cover at least partially closes the accommodating space for protection. The second cover is connected to the first cover and separably encloses a wire inlet hole with the wire inlet portion. The second cover is movable relative to the wire inlet portion to adjust the size of the wire inlet hole.

An electric connector is provided which enables a cost increase to be reduced and enables strength to be improved. The electric connector for connecting a cable to a counterpart connector includes: a connection part that is connected to an electrically conductive part of the cable, that is connected to an electrically conductive member of the counterpart connector, and that is electrically conductive; a holding member that holds the cable and the connection part; a case that covers the holding member; and a cover that covers a part of the case. The case includes an engaging arm part that is engaged with the holding member and that is elastically deformable. The cover includes regulating parts that cover the engaging arm part and regulate elastic deformation of the engaging arm part in a direction in which engagement of the engaging arm part with the holding member is released.

A connecting terminal (A, B) comprising: a housing (1) comprising a conductor inlet opening (8) configured to receive a conductor (9) to be clamped, the housing (1) comprising a conductor clamping region extending from the conductor inlet opening (8) in an insertion direction of the conductor (9) to be clamped; a current rail (3) disposed in the housing (1) and forming at least a first boundary of the conductor clamping region; and a spring clamp (4) disposed in the housing (1) and configured to exert a clamping force towards the first boundary of the conductor clamping region shall provides a more reliable operation over an extended period of time, in particular with maximum size conductors. To that end, the current rail (3) comprises a first extension (27) forming a second boundary of the conductor clamping region.

A connector includes a terminal that is to be contacted with a conductive member of a wire, a housing in which the terminal is arranged, and a holding member that is fit in the housing and in contact with the terminal to hold a position of the terminal. At least one of the terminal and the housing includes a pressing portion that presses the conductive member in a direction such that the conductive member comes in contact with the terminal.

A communication connector has an outer housing with an opening, a shielding wrap at least partially enclosing the outer housing, and a contact carrier assembly configured to be interested into the opening of the outer housing. The contact carrier assembly at least partially encloses at least two contacts each with an insulation displacement contact (IDC). The contact carrier assembly also has an integrated wire cap that utilizes a hinge feature to press cable conductors of a cable into their respective IDCs.