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.

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.

A spring clip includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam from a relaxed position distal from the first beam to a compressed position proximal to the first beam. The second beam has a spring latch extending toward the first beam. The spring latch engages the first beam to secure the second beam in the compressed position. The clip may be positioned in a housing having a rotatable cover formed to compress the clip against a conductor when moved to a closed position.

A spring clip includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam from a relaxed position distal from the first beam to a compressed position proximal to the first beam. The second beam has a spring latch extending toward the first beam. The spring latch engages the first beam to secure the second beam in the compressed position. The clip may be positioned in a housing having a rotatable cover formed to compress the clip against a conductor when moved to a closed position.

The invention relates to a plug connection for transmitting electrical energy by releasable contact, said plug connection comprising at least one plug contact pin and at least one contact socket, the at least one contact socket being received in a plug connector housing and the plug connector housing interacting with a slider which is movable relative thereto, so that the plug connection partners are housed in an inserted and secondarily locked contacting position. At least one detent and support geometry is integrated into the plug contact pin and interacts with the plug connector housing, so that the contacting partners are disconnected from one another when the positions thereof relative to one another are outside the secondary locking position.

The invention relates to a plug connection for transmitting electrical energy by releasable contact, said plug connection comprising at least one plug contact pin and at least one contact socket, the at least one contact socket being received in a plug connector housing and the plug connector housing interacting with a slider which is movable relative thereto, so that the plug connection partners are housed in an inserted and secondarily locked contacting position. At least one detent and support geometry is integrated into the plug contact pin and interacts with the plug connector housing, so that the contacting partners are disconnected from one another when the positions thereof relative to one another are outside the secondary locking position.

The present invention relates to a reusable mains-power electrical connector. The connector includes a connector body for receiving cables and fasteners. One or more protectors are located within the body to protect the received cables when the fasteners engage with the protectors to fasten the cables within the body. The connector also includes relieving means for relieving the cables of the protectors when releasing the fasteners to remove the cables. Advantageously, the connector may be re-used when the fasteners engage with the protectors to fasten new cables received within the body.

An axially resilient press-in contact pin includes a metal body and an electrically conductive, elastic element. The metal body includes a pin-shaped section and a press-in spring. The press-in spring is on a first end of the pin-shaped section. The elastic element surrounds at least portions of the pin-shaped section and extends beyond a second end (i.e., free end region) of the pin-shaped section.

An axially resilient press-in contact pin includes a metal body and an electrically conductive, elastic element. The metal body includes a pin-shaped section and a press-in spring. The press-in spring is on a first end of the pin-shaped section. The elastic element surrounds at least portions of the pin-shaped section and extends beyond a second end (i.e., free end region) of the pin-shaped section.

A power connector includes a terminal block holding terminals in terminal channels with terminating ends configured to be electrically coupled to corresponding wires at separable interfaces. The power connector includes a rear insert covering the terminating ends of the terminals having wire ports configured to receive the corresponding wires during a wire poke-in process. The power connector includes biasing members associated with the terminals each including a pusher configured to be biased against the wire to push the wire into direct physical contact with the separable interface of the corresponding terminal. The power connector includes a release mechanism includes a plurality of pusher release elements. The release mechanism is actuated to release the pushers of each of the biasing members from the corresponding wires.