The present invention relates to a terminal (1) with a spring force terminal connection (2) with at least one conductor terminal point (K), an insulating material housing (6), a conductor introduction channel (60), and a release lever (5). The release lever (5) is mounted in the insulating material housing (6) pivotably about a pivot axis (A) extending transverse to a conductor introduction direction (E) of an electric conductor between an idle position with closed conductor terminal point (K) and an actuating position with opened conductor terminal point (K). The release lever (5) has two lever arm portions (50) which are spaced apart from one another and which are immersed on both sides of the conductor introduction channel (60) at least partially into the insulating material housing (6). The lever arm portions (50) have in each case a guide portion (53) which face one another and form between them at least a part of the conductor introduction channel (60). The guide portions (53) in the idle position and/or in the actuating position, as seen in the conductor introduction direction, run toward the conductor terminal point (K) in a manner which narrows the conductor introduction channel (60).

A plug connector assembly includes first and second connector housings, a rotary lever, and a slide. The rotary lever has side faces each having a guide path into which in each case a guide pin on the second connector housing is inserted and is displaced along the guide path by rotation of the rotary lever whereby the connector housings move toward one another and electrical contact elements thereof connect. The slide is movable on the second plug connector housing. A driver element of the rotary lever cooperates in a form-fit manner with a driver element of the slide when the rotary lever rotates causing the slide to linearly move. A locking element of the slide is displaced relative to a locking element of the first connector housing when the slide linearly moves whereby a form-fit locking action between the locking elements may be established or cancelled.

A connector 10 includes a connector body 20 and a lever 50. The connector body 20 includes a guide portion 30. The lever 50 includes a guide receiving portion 60. The lever 50 is rotatable about a rotary shaft 54 with respect to the connector body 20 to a guide start position where guide by the guide portion 30 is started and a guide end position where the guide by the guide portion 30 is ended. At least one of the guide portion 30 and the guide receiving portion 60 arcuately extends with the rotary shaft 54 as a center. The guide receiving portion 60 contacts the guide portion 30 with a larger contact pressure when the lever 50 is at the guide end position than when the lever 50 is at the guide start position.

The present invention provides a lever-type connector capable of preventing the position of a slider from being displaced by a gear of a wire cover coming into contact with rack teeth of a slider when the wire cover is attached to a housing. A lever-type connector (C) is provided with: a housing (10); a slider (20) that is provided to be movable in a first direction with respect to the housing (10), and has a plurality of rack teeth (22) arranged in the first direction; a wire cover (30) that is installed on the housing (10), and covers a wire draw-out surface (12) of the housing (10); and a lever (40) that is rotatably installed in the wire cover (30), has a gear (44) engaging with the rack teeth (22), and moves the slider (20). The housing (10) has a fulcrum part (50) that rotatably supports the wire cover (30), and a positioning part (60) that causes the gear (44) to face a position where the gear is engabeable with the rack teeth (22) by hitting against the wire cover (30).

A lever-type connector includes a housing configured to rotate about a first shaft, a second lever configured to rotate about a second shaft and a cam groove linked with rotation of the second lever. The first lever includes a guide portion extending from an operating portion toward the first shaft, and the second lever includes a coupling portion coupled to the first lever relatively displaceably along the guide portion. The both levers are linked and rotated between an initial position where connection of the housing and a mating housing is started and a connection position where the connection of the housing and the mating housing is completed. When a virtual line passing through the second shaft and the coupling portion with the second lever located at the initial position is set, the first shaft is located closer to the connection position than the virtual line.

Provided is a connector in which first and second connector members are fitted with each other. The first connector member includes a first housing formed with a protrusion. The second connector member includes a second housing; hood member; elastic member; and locking mechanism. The hood member is to cover and to be mounted with the second housing. The elastic member is to be provided between the hood member and second housing. The locking mechanism is to lock the protrusion. The locking mechanism is operated so that the protrusion is drawn in a fitting direction. After the movement of the first and second connector members in the fitting direction is restrained, the locking mechanism is operated so that the hood member is moved while compressing the elastic member, which fix the locking mechanism with the elastic member being compressed.

A connector includes a connector housing 10 provided with cavities 13 for accommodating terminal fittings and connectable to a mating connector, a cover 50 configured to cover wires pulled out from the connector housing 10 by being mounted on a cover mounting surface 10A side of the connector housing 10 opposite to a connection surface, locking pieces 55 deflectably provided on both side surfaces of the cover 50 and configured to lock the cover 50 to the connector housing 10 by projecting toward the connector housing 10, and protection walls 37 provided on the connector housing 10, the other locking piece 55 coming into contact with the protection wall 37 when being pushed in an unlocking direction when one of the locking pieces 55 is unlocked and the cover 50 is inclined with respect to the connector housing 10.

A connector assembly that includes a first connector and a second connector. The first connector has a spring member press-fitted into a housing thereof. The second connector has a groove in a housing thereof. At the time of mating, the spring member is inserted in the groove in a mating direction to be deformed elastically in a direction intersecting the mating direction. Then, with the spring member of the first connector elastically deformed in the groove of the second connector, looseness between the housing of the first connector and the housing of the second connector is prevented.

A connector having a housing, a slide member, and an operation lever. The slide member slides in response to operation of the operation lever. The slide member has a guide projection and slides while the guide projection is guided in a guide groove of the housing. The slide member has a cam groove that receives a cam pin in a second connector and the slide member, by sliding, performs mating with the second connector. The slide member has a first nipping portion that nips the cam pin when it slides to a completely mated position. The housing has a second nipping portion that nips the guide projection of the slide member when the slide member slides to the completely mated position.

A connector includes a lever drawing and fitting a first housing and a second housing by moving from a temporary lock position to a final lock position. The lever includes a lever-side lock portion elastically deformable in a first direction away from a surface of the first housing, and including a reinforcing rib that enhances rigidity against a deformation of the lever-side lock protrusion. The first housing includes a housing-side lock portion which locks the lever-side lock portion when the lever is in the temporary lock position, which inhibits movement of the lever to the final lock position during locking, and which permits the lever to move to the final lock position when the locking is released. The second housing includes a lock releasing portion which pushes the lever-side lock portion in the first direction so as to release the locking.