An operating member (11) is displaceable to an assembled position, an initial position and a connection position with respect to a housing (10). The operating member (11) is rotated from the assembled position to the initial position with support shafts (18) inserted into end portions (41) of long grooves (39) serving as a center of rotation and includes a rotating mechanism configured to increase a laterally projecting amount of the housing (10) as the operating member moves from the assembled position toward the initial position and a sliding mechanism configured to move the operating member in a direction to reduce the laterally projecting amount from the initial position to the connection position while the support shafts (18) are displaced relative to the long grooves (39) and proceed with a connecting operation of the both housings (10, 12) by cam engagement with a mating housing (12) during a movement.

A moving direction of an operating member (11) from an initial position toward a connection position with respect to a housing (10) is selectable from directions along a first movement path and a second movement path opposite to each other. The housing (10) includes a first lock portion (25) and a second lock portion (26) at positions line-symmetrical with respect to a center of a length along the moving direction of the operating member (11). The first and second lock portions (25, 26) lock and hold the operating member (11) selected to move along the first movement path respectively at the initial position and the connection position and lock and hold the operating member (11) selected to move along the second movement path respectively at the connection position and the initial position.

An operating member (11) includes a plate-like arm (37) configured to cover an outer surface of a housing (10) and is displaceable to an initial position and a connection position. A resilient piece (48) is provided on an outer edge of the arm (37) and projects along a plate surface of the arm (37). The resilient piece (48) restricts a displacement of the operating member (11) from the initial position to the connection position by resiliently locking a lock receiving portion (32) while being unlocked from the lock receiving portion (32) by being pressed by an unlocking portion (15) of a mating housing (12) and allowing displacement of the operating member (11) to the connection position. The resilient piece (48) is shaped to be delectable and deformable in a direction along the plate surface of the arm portion (37) when being pressed by the unlocking portion (15).

An operating member (11) is displaceable to an assembled position, an initial position and a connection position with respect to a housing (10) and proceeds with a connecting operation of the housing and a mating housing (12) by cam engagement with the mating housing (12) when being displaced from the initial position to the connection position. The housing (10) includes resilient locks (25, 26) configured to restrict a displacement of the operating member (11) in a direction opposite to that from the assembled position toward the initial position by resiliently locking the operating member (11) at the assembled position and restrict a displacement of the operating member (11) in a return direction from the initial position to the assembled position by resiliently locking the operating member (11) at the initial position.

It is aimed to provide a connector capable of suppressing opening deformation of an operating member and avoiding enlargement. A U-shaped operating member (11) is arranged to straddle a housing (10) and is linearly movable from an initial position to a connection position while arms (37) slide on the housing (10) and proceeds with a connecting operation of the housing (10) and a mating housing (12) by cam engagement of the arms (37) with the mating housing (12) during a movement. The housing (10) includes support shafts (18) and the arms (37) include linearly extending long grooves (39) into which the support shafts (18) are inserted to be slidable in contact therewith. The support shaft (18) includes jaws (19) and the long groove (39) includes an engaging edge (44) configured to contact the jaws (19) in an opening direction of the arm (37).

A connector includes a lever attachable to a first housing to draw and fit the first housing and a second housing by rotating around a rotating axis from a temporary lock position to a final lock position. The lever includes: a positioning portion including a pair of wall surfaces which extend toward the first housing and which are spaced at a predetermined distance from each other in a first direction parallel to the rotating axis; and a lever side lock portion. The first housing includes: a reception portion which receives the positioning portion so as to hold the pair of wall surfaces in the first direction; and a housing-side lock portion to which the lever-side lock portion is locked in a state in which the positioning portion has been received in the reception portion and when the lever is in the final lock position.

A connector includes a first housing, a second housing, a mate assist slider, and a cam gear. The first-housing has a first outer surface. The second housing is configured to mate with the first housing, and the second housing includes a pin extending from a second outer surface. The connector also includes a mate assist slider moveable from an unmated position to a mated position. The connector also includes a cam gear mounted to the first outer surface. The cam gear moves in response to a movement of the mate-assist-slider from the unmated position to the mated position. The cam gear has a cam slot with an inertial detent. A vibratory feedback is provided to an assembler indicative of a properly positioned connector housing when the pin is moved past the inertial detent.

A lever-type connector (1) has a connector housing (10), and a lever (20) including cam plates (21) having cam grooves (23) for receiving cam followers (34) of a mating housing (30). The lever (20) includes push-back pieces (27) retracted from an opening edge (13E) of the connector housing (10) facing the mating housing (30) and extending from the cam plates (21). The connector housing (10) includes push-back piece receiving portions (18) configured to bias the lever (20) from a proper connection position to an initial position by butting against the push-back pieces (27) when the lever (20) is at the proper connection position. An angle (a) of a corner part (C) formed by a line connecting a center of rotation of the lever (20) and a base (27R) of the push-back piece (27) connected to the cam plate (21) and the push-back piece (27) is larger than 90°.

An electrical connector comprises a first housing, a second housing, a lever adapted to couple the first housing and the second housing with each other, a first interlock member, a second interlock member, a first cam mechanism adapted to mate the first housing and the second housing with each other with movement of the lever in a first direction, and a second cam mechanism. The second interlock member is configured to be mated with the first interlock member to energize an electric circuit. The first cam mechanism limits a moving direction of the lever to a second direction after moving in the first direction. The second cam mechanism is adapted to convert the movement of the lever in the second direction into movement in a mating direction of the first housing and the second housing to mate the first interlock member with the second interlock member.

A connector assembly comprises a first housing, a second housing, a machine readable identifier coupled to the second housing, and a position assurance lock disposed proximate to the second housing. The position assurance lock is configured to secure the first housing to the second housing and place the machine readable identifier in a first state or a second state, depending on whether the first housing is secured to the second housing.