A connection terminal for connecting at least one electrical conductor includes: a clamping element which is arranged on a receiving element so as to be able to pivot about a shaft between an open position and a clamping position, the clamping element forming, together with a contact element, a clamping point for the electrical conductor; and an actuating arm for receiving an actuating tool, a first free limb of the actuating arm being pivotally arranged on the clamping element so as to be spaced apart from the shaft thereof such that, by pivoting the actuating arm using the actuating tool, the clamping element is able to shift from the open position into the clamping position and vice versa. A second free limb of the actuating arm is movably guided over at least one cam.

An electrical connection terminal includes: a connection terminal housing having a conductor insertion opening; a busbar arranged in the connection terminal housing; a spring element rotatably mounted in the connection terminal housing and pivotable into an open position and into a closed position, a conductor inserted into the conductor insertion opening being clampable against the busbar by the spring element in the closed position; and an actuation element rotatably mounted in the connection terminal housing and by which the spring element can be actuated for transfer into the open position and into the closed position. The actuation element includes a base body, which has a tool insertion opening, and an actuation arm. The base body and the actuation arm are formed in two parts, the actuation arm being formed pivotally movable relative to the base body.

A device for connecting two conductive elements of a conductor rail is provided including a sliding contact surface, two connection tabs formed by one end of each of the two conductive elements, these connection tabs being arranged to be placed in respective parallel planes and offset with respect to the sliding contact surface of the rail, and a junction piece of the two connecting tabs having at least one contact surface placed level with the sliding contact surface of the conductors.

A single element connector includes a first cage-like structure configured to receive a wire. The first cage-like structure includes an insert end and a single contact tine coupled to a top wall of the first cage-like structure. The single contact tine extends downward from the top wall to a base of the single element connector and directs a wire inserted into the single element connector to the base of the single element connector.

A contacting device for bringing an electrical conductor into contact with an electrical conductor path includes a housing having a first opening for inserting the electrical conductor into a cavity in the housing and a second opening for inserting the electrical conductor path into the cavity in the housing, and a bow collector including a first portion, which is arranged in the cavity in the housing, and a second portion. The bow collector is designed such that the electrical conductor can be pressed against the electrical conductor path by the first portion of the bow collector after the electrical conductor and electrical conductor path have been inserted into the cavity in the housing, as a result of which the electrical conductor is retained on the electrical conductor path in a clamping position so as to be in contact with the electrical conductor path.

A holding and contacting device is disclosed. In an embodiment a holding and contacting device includes a cage defining a cable path through the cage and a spring element protruding into the cable path and configured to apply a clamping force onto a cable placed along the cable path, wherein the spring element and the cage comprise a metal.

A socket has a housing, which is composed of an electrically insulating material and an elongate plug-receiving region. A contact spring is arranged in the plug-receiving region. A lever loads the contact spring in the open position of the lever such that a dimension of the contact spring transverse to the longitudinal direction of the plug-receiving region is reduced and relaxes the contact spring in the closed position of the lever. A plug is provided for such a socket.

The invention relates to a push-in clamp retainer for an electric connector element with a lead wire receptacle which is at least partly encircled by a surrounding wall. In a lateral direction, a push-in clamp assembly includes such a push-in clamp retainer and a separate spring member having a first end and second end, The invention also relates to an electric connector element having a spring release member and a push-in clamp assembly. The invention involves the implementation of at least one receiving member into at least one contraction of the push-in clamp retainer, combining such a push-in clamp retainer with a spring member to form the push-in clamp assembly, and adding a spring release member to the push-in clamp assembly to obtain the electric connector element.

A conductor terminal includes at least one insulating-material housing, at least one contact insert arranged at least partially in the insulating-material housing that has at least one contact piece and at least one clamping spring. The contact piece with the clamping spring forms at least one conductor clamping point for an electrical conductor to be contacted by the conductor terminal, which electrical conductor can be acted upon by a spring force of the clamping spring. At least one actuating lever is pivotably supported in the insulating-material housing for actuating the clamping spring. The actuating lever can be pivoted from a closed position to an open position and vice versa in relation to the insulating-material housing and/or the contact piece. An electrical conductor inserted into the conductor terminal is not acted upon by the spring force of the clamping spring at the conductor clamping point at least in the open position.

A light cap electrical connection structure includes a driving board, a light cap body and a first electrode pin. The light cap body is a shell structure. One end of the first electrode pin is fixed on the light cap body and further including a socket. The socket is set on the driving board and includes a connection base and a first electrode. The first electrode is set on the connecting base and has a fixed end and a connecting end. The connecting end of the first electrode is an elastic structure. The other end of the first electrode pin is inserted into the light cap body and becomes an electrical connection in elastic contact with the connecting end of the first electrode. The light cap electrical connection structure has advantages of a simple structure and being easy to automate.