An electrical plug device includes a connector housing pluggable with a mating housing, a connection aid engageable with the mating housing, a position assurance element held at the connector housing and displaceable from an open position to a securing position, and a blocking mechanism. The connection aid is movable from a plugging position to a holding position. The connector housing in the plugging position is connectable to the mating housing. The mating housing in the holding position is held at the connector housing. The connection aid in the open position is movable from the plugging position to the holding position and in the securing position is fixated in the holding position. The blocking mechanism blocks the position assurance element in the open position and has a release element with which the blocking mechanism is released in a state of the connector housing and the mating housing being plugged together.

The present disclosure provides an electrical connector comprising first and second connector housings configured to be coupled and uncoupled from one another via a mate assist mechanism comprising a lever. The lever is configured to be positioned, when the first and second connector housings are in an uncoupled state or the second connector housing is absent, at a pre-lock position, whereby a blocking element of the lever is configured to cooperate with a blocking surface of the first connector housing, the electrical connector comprising a lever seal and a panel seal.

This multi-couplings plate (P1) includes a locking device comprising a frame (14) fixed on the plate (P1), locking members and a drive mechanism, comprising a rotary element (18) rotatable in the frame (14), a sliding element translatable relative to the frame (14) and which cooperates with the locking members. The locking device also comprises several ratchet notches (301-309) secured to an element (18) of the drive mechanism (16) and juxtaposed in the movement direction relative to the frame (14) of the element (18) of the drive mechanism, the ratchet notches (301-309) comprising a final notch (309) and at least one intermediate notch (303-308), and a pawl movable in a housing (326) of the frame (14) and pushed back by a spring (28) toward one of the ratchet notches (301-309). When the pawl cooperates with the intermediate notch (303-308), the pawl limits the movement of the sliding element toward its forward position to a position midway between the forward position and the withdrawn position, and in the coupled configuration, the pawl cooperates with the final notch (309) and keeps the sliding element in the withdrawn position.

A plug connection for electrically and mechanically coupling a pair of electrical conductors includes a coupling having a coupling housing and a lever with a locking element, a pin strip having a pin strip housing with a recess receiving the locking element, and a projection arranged between the lever and the pin strip housing. The lever is rotatably mounted at the coupling housing orthogonally to a plug-in direction. The coupling housing is arranged at least in sections on the pin strip housing in a form-fitting manner and the locking element is arranged adjacent to the recess in a pre-locking position of the lever. The locking element is brought into an operative connection with the recess by rotation of the lever. When a plugging force is applied onto the coupling housing, the projection generates a counter force on the lever against the plugging force.

A housing assembly for a connector includes a securing mechanism for securing the connector to a mating connector in a securing position, and a locking mechanism. The locking mechanism in a locking position locks the securing mechanism in the securing position. The locking mechanism is latchable in a holding position in which the securing mechanism can be moved out of the securing position.

A connector with booster mechanism includes a housing, an operation lever rotatably mounted on the housing and including an arm portion, a drive gear integrally rotatably provided on the operation lever, a speed-reduction member rotatably mounted on the housing, and a slider. The drive gear is coaxial with a rotation center shaft and disposed at a position different from the arm portion in an axial direction of the rotation center shaft. The speed-reduction member includes a large-diameter gear to be meshed with the drive gear and a small-diameter gear having a smaller diameter than the large-diameter gear and coaxial with the large-diameter gear. The slider includes a rack to be meshed with the small-diameter gear and is mounted on the housing movably in a direction intersecting a connecting direction to a mating connector.

A connector assembly includes a first connector having a first insulator and a first contact, a second connector having a second insulator and a second contact and fitted to the first connector along a fitting direction, a lever member rotatably held by one of the first insulator and the second insulator, a push member used to press the first contact and the second contact against each other, a first cam mechanism moving the first insulator and the second insulator relatively along the fitting direction in conjunction with rotation of the lever member, and a second cam mechanism moving the push member in conjunction with rotation of the lever member.

A connector assembly for connecting an upper circuit board to a lower circuit board is disclosed. The upper circuit board includes a series of fastener holes for a fastening device allowing attachment to the lower circuit board. The connector assembly has a support bracket with access holes aligned with the holes of the upper circuit board. The support bracket is configurable to be positioned over the upper circuit board. The connector assembly has a moveable cover bracket having a series of access holes. The cover bracket is suspended between the support bracket and the cover bracket. The cover bracket is moveable between an open position aligning the access holes with the access holes of the support bracket, and a closed position. In the closed position, the cover bracket blocks access between the access holes of the support bracket and the holes of the upper circuit board.

A locking pin driving mechanism includes a motor, a preceding gear, a round gear, a feed screw and a slider. The feed screw is coaxially fixed to the round gear. A locking pin is mounted in the slider. A center axis of the locking pin and a center axis of the feed screw are each disposed in parallel with a center axis of a vehicle inlet. An interaxial distance between the center axis of the vehicle inlet and the center axis of the feed screw is set to be larger than an interaxial distance between the center axis of the vehicle inlet and the center axis of the locking pin.

A connector assembly is presented herein. The connector assembly includes a first connector that has a fixed gear rack and a pinion gear engaged with the fixed gear rack and rotatable around a trunnion that is disposed in a first slot. The pinion gear and fixed gear rack cooperate to translate the trunnion along the slot as the pinion gear rotates. The first connector also includes a lever connected to the pinion gear configured to rotate the pinion gear and an actuator arm connected to the pinion gear defining a post protruding from the actuator arm. The connector assembly also contains a second connector that is configured to mate with the first connector. The second connector defines a second slot and a passage sized, shaped, and arranged to receive the post into the second slot.