A first housing 10 includes a resiliently deformable lock arm 30. The lock arm 30 has a lock surface 34 to be arranged to contact a front surface of a panel 90 with the first housing 10 arranged in a mounting hole 91 of the panel 90. A second housing 40 includes a space portion 53 into which an arm plate 72 of a lever 70 is arranged, leg portions 57 rising from the side of an outer wall 52 of the space portion 53 while facing each other, and a bridge portion 58 extending between the leg portions 57 facing each other. The bridge portion 58 includes a releasing portion 65 capable of releasing a state where the lock surface 34 is in contact with the front surface of the panel 90.

Disclosed is a connector assembly having a first connector part and a second connector part. The first connector part includes a lever mounted on a base body of the first connector part for pivotable movement about a pivot axis (C) between first and second positions relative to the base body. The connector assembly can be brought from a ready-to-mate state into a mated state by relative movement of the first and second connector parts towards each other along a connection axis and vice versa. At least one engaging portion of the lever interacts with at least one counter-engaging portion of the second connector part in such a way, that the connector assembly is forcibly brought from the mated to the ready-to-mate state by pivoting the lever from the first position into the second position when the connector assembly is in the mated state.

The present disclosure relates to a connector assembly with a connector position assurance member which may reduce a defect rate in engaging connectors to each other, and an object of the present disclosure is to provide a connector assembly in which a connector position assurance (CPA) member is automatically operated to lock a lever when the lever completes its operation for engaging the female and male connectors to each other.

A connector has a housing configured to mate with a second housing, a pair of slide members movably mounted on the housing, and a lever pivotably attached to the housing and slidably coupled to the slide members. Each slide member has a cam groove in a side surface which provides an angled lead-in surface into the cam groove and cam surfaces engageable with a cam follower post of the second housing. A blocking shoulder partially blocking an opening of the cam groove to prevent entry of the cam follower post unless the cam follower post is in a correct position. When the cam follower post engages the angled lead-in surface, this provides a visual and tactile indication to a user that the connector is ready to be mated with the second housing.

The invention relates to a plug connection (1) which consists of a plug connector (2) and a mating plug connector (3) that can be plugged together in order to form the plug connection (1), comprising a retraction aid which is arranged on a part of the plug connector (1) and which interacts with another part on the mating plug connector (3). The plug connector (1) and the mating plug connector (3) have a retraction aid, said retraction aid being actuated axially in the plug-in direction automatically when the plug connector and the mating plug connector are plugged together.

There is provided a connector in which a plug is put to a socket in any rotational direction around an axis and is guided to a normal position smoothly thereby providing proper connection with a simple structure. On opposite surfaces of the plug and the socket, there are provided a tilted cam surface and a cam follower with which the plug and the socket are slidably contacted to each other, rotated and positioned in a rotational direction around the axis when the plug is fitted onto the socket axially. At the center of one of the opposite surfaces of the plug and the socket, a pin-receiving hole is formed, and a center pin at the center of the other fits into the pin-receiving hole before the tilted cam surface comes in contact with the cam follower.

A mechanism for securing a connector device and a mating connector device to one another and for releasing them from one another, the mechanism having at least one catch arranged on the connector device and a drive with a shaft, the rotation of which is capable of moving the catch to and fro between an open position and a locking position of the catch. The mechanism is constructed such that, during travel between the open position and the locking position, the catch performs a combined pivoting and translational movement, and/or a translational movement on a curved path. The mechanism has a slotted link with a link guide and a link block, wherein the link guide is arranged on the catch and the link block lies on the axis of the shaft or is formed by the shaft. The drive has a crank drive for converting the rotation of the shaft into a movement of the catch between the open position and the locking position and the mechanism has a second slotted link for guiding the catch, wherein a link block of the second slotted link is formed by part of a connecting rod shaft on the catch side with which a connecting rod of the crank drive is coupled to the catch. The catch takes the form of a toggle lever. Furthermore, a connector device with the mechanism and a system consisting of a connector device with a mechanism and a mating connector device having at least one mating catch.

Disclosed is a connector assembly having a first connector part and a second connector part. The first connector part includes a lever mounted on a base body of the first connector part for pivotable movement about a pivot axis (C) between first and second positions relative to the base body. The connector assembly can be brought from a ready-to-mate state into a mated state by relative movement of the first and second connector parts towards each other along a connection axis and vice versa. At least one engaging portion of the lever interacts with at least one counter-engaging portion of the second connector part in such a way, that the connector assembly is forcibly brought from the mated to the ready-to-mate state by pivoting the lever from the first position into the second position when the connector assembly is in the mated state.

A housing assembly for an electrical connector includes a base element having an opening, a cover for covering the opening, and a locking mechanism. The locking mechanism has a slidable member movable into a locking position in which the locking mechanism locks the cover relative to the base element. The locking mechanism has a transmission element for transmitting force and movement onto the locking mechanism.

This invention discloses an information robot apparatus, comprising a robot body, a plug body, a socket body, a plug groove arranged in one end face of the socket body, a first sliding cavity communicated with the plug groove, a second sliding cavity communicated with the extending tail end of the first sliding cavity, a third sliding cavity arranged in the socket body. Wherein the tail end of the bottom of a rotating shaft extends into the third sliding cavity and is fixedly connected with the tail end of the top of an adjusting threaded rod. Therefore, it is convenient to quickly plug in and take out after disconnection with power; meanwhile, the automatic control of the power supply and the disconnection with power before taking out can be realized, so that the operation safety is greatly improved.