A receiving electrical connector includes a body, a slide movably connected to the body and defining a cam surface, and an elastic element biasing the slide relative to the body in a first direction. The cam surface is adapted to bias a mating connector received by the receiving connector from a mated position into a partially mated position in response to a force placed on the slide in a direction opposite the first direction and against an elastic return force imparted on the slide by the elastic element. The cam surface is further adapted to bias the mating connector from the partially mated position to an ejected position under a force applied on the slide by the elastic element.

The application comprises a mechanism for transformation of the movement in rotation by a tool of an interface part housed in the casing of a connector into movement in translation in a plane perpendicular to the coupling direction of a locking cap for locking the casing of the connector to that of a complementary connector.

A support member may be connectable in a removable and adjustable manner to a track assembly. The support member may include an electrical connector, a contact, and a biasing member. The electrical connector may be adjustable to a first position and a second position. The contact may be connected to the electrical connector and configured to engage a conductor of said track assembly. The contact may be engageable with said conductor when the electrical connector is in the first position. The contact may not be engageable with said conductor when the electrical connector is in the second position. The biasing member may be configured to bias the contact into engagement with said conductor when the electrical connector is in the first position.

A lever of a connector can rotate between a first position and a second position and can slide between the second position and a third position. When the lever is rotated to the second position in a state in which the connector whose lever is on the first position is on a fitting preparation position with respect to a mating connector, the connector is drawn to a fitting position, which is closer to the mating connector, by a cam mechanism and a main terminal of the connector and a mating main terminal of the mating connector are connected with each other. When the lever is slid to the third position, a flange portion provided to a housing of the connector and a mating flange portion provided to a mating housing of the mating connector are accommodated in a groove portion of the lever.

A connector with an interlock housing, to which an interlock terminal is attached, separately from a lever that performs connection and disconnection of main terminals with a mating connector, and a first spring piece is formed on the lever. After the main terminals are mutually connected by rotating the lever from a first position to a second position, the lever is slid from the second position to a third position and the interlock housing is pushed down from an opening position to a closing position. When the lever is on the third position and the interlock housing is on the opening position, the first spring piece generates a first elastic restoring force. When applying no external force that slides the lever to the third position against the first elastic restoring force, the lever moves away from the third position and the interlock housing cannot be pushed down.

A connector 10 is provided with a housing 11 and a rubber plug 12 to be mounted into the housing. The rubber plug 12 includes a plurality of rubber plug members (e.g. a first rubber plug member 12A, a second rubber plug member 12B and a third rubber plug member 12C) configured separately from each other and arranged side by side in a front-rear direction and a sealing hole 40 penetrating through the plurality of rubber plug members in the front-rear direction. An inner peripheral surface of the sealing hole 40 includes at least one lip (e.g. a first lip 43, a second lip 44) projecting inward. The number of the lips formed in each of the rubber plug members is at most 1.

A connector position assurance (CPA) device includes a body and a primary lock which extends from the body in a first direction and has a primary locking mechanism at a distal end away from the body. The CPA device further includes two beam portions which are disposed on both sides of the body and extend in the first direction. At least a part of each of the two beam portions is connected to the body. The beam portion includes a secondary locking mechanism that protrudes outwards from an outer side of the beam portion.

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).