An electrical connector assembly includes a female connector, which includes a female connector housing defining a cavity having an hourglass shape and a first array of electrically-conductive pins disposed within the cavity. The electrical connector assembly further includes a male connector that includes a male connector housing having an hourglass-shaped protrusion dimensioned to be inserted into and fit tightly within the cavity and a second array of electrically-conductive sockets, which are contained within the protrusion and are dimensioned and aligned so that upon insertion of the protrusion into the cavity, each of the pins is introduced into and makes electrical contact with a respective one of the sockets.

A connector assembly includes a housing with a terminal cavity and a terminal lock adapted to retain an electrical terminal in the terminal cavity. A terminal position assurance is attached to the housing and engages the terminal lock. The connector assembly also includes a protector plate with a protector body having a front plate face and an opposed back plate face. Terminal openings pass through the protector body. A plurality of staged locks are attached to the protector body for relative rotational movement. The staged locks extending beyond the front plate face and also extending beyond the back plate face. The protector plate is movable relative to the housing in a mate direction from a pre-stage position to a pre-lock position. The protector plate is retained in the pre-lock position relative to the housing against further movement in the mate direction by a staged lock.

[Problem] To allow a plurality of connection terminals to be reliably arranged in a storage case, and the storage case to be placed into a housing. [Means for Resolution] A storage case 1 has a storage portion 2 in which female connection terminals T including connection portions at front ends are arranged in parallel along storage grooves 2d, and a cover 3 that covers the storage portion 2, and tubular temporarily storing portions 2i for inserting tips of connection portions Ta of the female connection terminals T for temporary storage are provided at the fronts of the respective storage grooves 2d.

A heavy-duty plug-in connector has a ground terminal that can be conveniently assembled and can comprise the greatest possible number of electrical crimp plug-in contacts (4,5). For this purpose, ground plug-in contacts (4′, 5′), likewise of a crimping configuration, are fitted in formations (13, 13′, 23, 23′) of the contact carriers (1, 2) for electrical contacting with metallic protective earthing elements (3, 3′, 3″, 3″). For said contacting, the formations (13, 13′, 23, 23′) have a respective opening (130, 130′) or passage (230, 230′). In the formations (13, 13′, 23, 23′), not only ground plug-in contacts (4′, 5′) but also further plug-in contacts (4, 5) are arranged, so that the number of plug-in contacts (4, 5) of the plug-in connector is increased considerably.

A connector 10 is provided with: a connector housing 11 having formed therein first cavities 16 extending in a front-back direction; first terminals 12 accommodated inside the first cavities 16; a front mask 13 attached to a front end part of the connector housing 11; and a lid member 14 attached to an upper surface of the connector housing 11. The connector 10 is configured such that the front mask 13 is attached to the connector housing 11 from above, the lid member 14 covers at least a portion of an upper surface of the front mask 13, the front mask 13 has front cavities 35 extending in the front-back direction, and front end parts of the first terminals 12 are accommodated inside the front cavities 35.

A connector 10 is provided with: a connector housing 11 having formed therein first cavities 16 extending in a front-back direction; first terminals 12 accommodated inside the first cavities 16; a front mask 13 attached to a front end part of the connector housing 11; and a lid member 14 attached to an upper surface of the connector housing 11. The connector 10 is configured such that the front mask 13 is attached to the connector housing 11 from above, the lid member 14 covers at least a portion of an upper surface of the front mask 13, the front mask 13 has front cavities 35 extending in the front-back direction, and front end parts of the first terminals 12 are accommodated inside the front cavities 35.

This application discloses a coil spring type wire-locking terminal block, including a plurality of insulating seats arranged in sequence. A mounting groove is formed in each insulating seat. A wire inlet hole is formed in one side wall of the mounting groove. A connecting terminal is mounted at the bottom of the mounting groove, one end of the connecting terminal penetrates through the bottom of the mounting groove, and a first through hole is formed at one side of the connecting terminal. A wire locking frame is slidably connected in the mounting groove. A compression elastic member is arranged in the wire locking frame, and a second through hole is formed in the side wall of the wire locking frame. The wire inlet hole, the first through hole and the second through hole are arranged corresponding to each other.

An electrical connector including an electrically conductive shell sized to receive and retain an electrically insulating housing insert, where the housing insert includes a cavity for receiving and retaining a wire-terminating electrical contact therein. The shell and housing insert each including keying features designed to cooperate with one another to resist independent rotation of the housing insert within the shell. The electrical connector further includes a wire sealing grommet coupled to the housing insert to improve connector performance and minimize arcing issues.

A heavy-duty plug-in connector has a ground terminal that can be conveniently assembled and can comprise the greatest possible number of electrical crimp plug-in contacts (4,5). For this purpose, ground plug-in contacts (4′, 5′), likewise of a crimping configuration, are fitted in formations (13, 13′, 23, 23′) of the contact carriers (1, 2) for electrical contacting with metallic protective earthing elements (3, 3′, 3″, 3′″). For said contacting, the formations (13, 13′, 23, 23′) have a respective opening (130, 130′) or passage (230, 230′). In the formations (13, 13′, 23, 23′), not only ground plug-in contacts (4′, 5′) but also further plug-in contacts (4, 5) are arranged, so that the number of plug-in contacts (4, 5) of the plug-in connector is increased considerably.

A split housing connector assembly provides integrated terminal position assurance and an independent secondary lock and includes a nosepiece and a rear housing. In a pre-lock configuration, a plurality of wire terminal bays are aligned to allow insertion of wire terminals and wherein in a locked configuration the rear housing is displaced relative to the nosepiece offsetting the wire terminal bays and blocking removal of the wire terminals. The rear housing engages the nosepiece along a cam track to guide relative movement during assembly.