An electrical connection box includes a housing and a connector assembly coupled to the housing. The connector assembly includes sockets for receiving plugs from a motor vehicle. The housing is formed to include a cavity that is designed to house electronic circuitry. The connector assembly includes at least one socket and at least one connector positioned within the socket. The connector is configured to create an electrical connection with an electrical plug that is received in the socket to electrically couple components of the vehicle with the electronic circuitry and minimize a voltage loss across the electrical connection.

A connector comprises a first housing, a cam member, and an operation lever. The first housing has a mating portion configured to mate with a second housing of a second connector. The cam member has a cam groove configured to mate with a cam pin provided on the second housing. The cam member causes the second housing to mate with the first housing by sliding in a lateral direction intersecting with a direction of mating to draw the cam pin into the cam groove. The operation lever slides the cam member according to a turning operation. A nipping portion of the connector nips the cam pin in the cam groove when the cam member slides up to a mating completion position at which mating of the second housing with the first housing is completed.

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 hereby 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 surface 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 connector includes a housing receiving a mating connector in a mating direction, a slide movable with respect to the housing between a latched position and a released position, and a mating assistance assembly. The slide automatically moves from the latched position to the released position upon insertion of the mating connector to a partially mated position in the housing. The mating assistance assembly imparts a mating assistance force on the mating connector as the slide moves from the latched position to the released position. The mating assistance force moves the mating connector further into the housing along the mating direction from the partially mated position to a fully mated position.

A header power connector includes a header housing assembly including an outer housing having an outer wall forming a cavity configured to receive upper and lower busbars. The header housing assembly includes an inner housing received in the cavity having a terminal channel holding a terminal assembly including a plurality of terminals arranged in a terminal stack. Each terminal includes upper and lower sockets at upper and lower mating ends configured to receive the upper and lower busbars, respectively. The header power connector includes a choke received in the cavity having a chock body with an opening therethrough receiving the terminal assembly. The header power connector includes a choke positioner in the cavity interfacing with the choke to position the choke relative to the outer housing.

A connector assembly (1) including a first connector unit (2) and a second connector unit (3) interconnectable with respect to each other. The first connector unit (2) includes at least one connector (5) arranged at least partially inside a plug housing (4). The at least one connector (5) is operatively connected to the plug housing (4) by a latching mechanism (7) which provides an engaged configuration in which the at least one connector (5) is latched with respect to the plug housing (4) and a disengaged configuration in which the at least one connector (5) is disengaged from the plug housing (4).

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.

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.

A communication system includes a first circuit card assembly having a first PCB and a first electrical connector having a receptacle housing and a mating housing received in the receptacle housing and being movable in the receptacle housing in a connector mating direction along a connector mating axis. The second circuit card assembly includes a second PCB and a second electrical connector having a header housing holding second contacts. The first PCB and/or the second PCB includes a slot receiving the other PCB in a board loading direction. The receptacle housing is coupled to the header housing in the board loading direction and the mating housing is movable within the receptacle housing toward the header housing in a connector mating direction generally perpendicular to the board loading direction.

The present invention provides a high-speed transmission connector and application device thereof. The application device comprises an outer shell that is provided at a bottom end thereof with an OcuLink device connector conforming to an OcuLink transmission specification, and provided at an inside thereof with an application module connected to the OcuLink device connector. The OcuLink device connector can be inserted into an OcuLink board connector disposed on a motherboard, a computer system, or a circuit board. The application device further comprises an engagement element capable of engaging with a fixed element of the OcuLink board connector. The application device is directly electrically connected to the motherboard without the use of the transmission line, it will not only improve the heat dissipation of the motherboar, but also increase the stability of the OcuLink device connector in the insertion.