An operable wire connector comprises an insulating housing (1), an operating handle (2) rotatably mounted inside the insulating housing (1), a transmitting piece (3), an electric conductor (4), an elastic clamping piece (5) with a fixed portion (51) connected to the electric conductor (4) and an elastic free portion (52) resisted by the transmitting piece (3), and a cover (6) assembled with the insulating housing (1); an adjustable gap is formed between the elastic free portion (52) and the electric conductor (4) for receiving a wire, and the gap will continuously be present due to the action of a rotation limiting portion (12). The operating handle (2) is pulled reversely, so that the wire comes into contact with the electric conductor (4); when the user pulls and turns up the operating handle (2) again, there is no need to continuously use force, and the wire will be take out easily.

It is aimed to provide a combination terminal capable of saving assembly time by preventing an increase in the number of components at the time of assembly. A combination terminal is provided with a plurality of terminals (10A, 10B, 10C) to be stacked on each other. Each of the plurality of terminals (10A, 10B, 10C) includes a plate-like base portion (11), a plate-like guided portion (12) projecting from the base portion (11) and a locking portion (13) formed on the guided portion (12). Further, out of the terminals adjacent in a stacking direction, one (10A, 10C) of the terminals includes a guide portion (14L) to be arranged along the guided portion (12U) of the other terminal (10A, 10B, 10C) and a resiliently deformable resilient locking portion (27L) to be locked to the locking portion (13U) of the other terminal (10A, 10B, 10C).

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.

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 connection terminal includes a housing; an insertion opening, which is arranged on the housing and into which a conductor can be inserted in an insertion direction; a contact element, which is arranged on the housing and with which the conductor can be brought into contact by insertion into the insertion opening; a spring element, which is arranged on the housing, is held on the housing by a spring body, and has a resiliently movable spring leg extending from the spring body, wherein the spring leg clamps the conductor inserted into the insertion opening to the contact element in a clamping position; and an actuating element, which is arranged on the housing and can be actuated in an actuation direction to move the spring leg out of the clamping position, wherein the actuating element can be locked to the housing in an open position.

A terminal for electrically connecting at least one conductor comprises an insulating material housing, a contact body with a contact frame and a contact spring, and an operating element. The operating element has a bearing region for rotatably mounting the operating element in the insulating material housing about a rotation axis, and at least one operating structure, which is at a radial distance from the bearing region and extends in the direction of the rotation axis, for moving the clamping limb between the conductor clamping position and the conductor release position in the event of a rotational movement of the operating element about its rotation axis. The insulating material housing has a supporting region which axially extends between the rotation axis and the operating structure to support the operating structure on the supporting region at least in the conductor release position.

A spring loaded direct plug-in terminal with a direct plug-in connector for the connection of a conductor includes a housing with a chamber and a plug-in channel for plugging the conductor into the chamber. The terminal also includes a busbar, a clamping spring arranged in the chamber and acting as a compression spring for fixing the electrical conductor on the busbar in the area of a clamping site. The clamping spring includes a pivotable clamping arm which can be adjusted from a locked state in a locked position into a clamping state in which it is unlocked from the locked state and presses the electrical conductor against the busbar. An actuation element which is movable in the housing is provided which, together with the clamping arm of the clamping spring, can be locked in the locked state. The mobility of the actuation element in the housing in the locked state can be arrested by a locking element which is movable at an angle relative to the movement direction of the actuation element.

A connection box with reliable and yet inexpensive contacts for solar panels to enable the use of multiple types of passive and active covers for different functionalities in the junction box built into the panel.

A banana plug including a body, a male portion, a female portion, and a lever. The male portion is configured to extend from the body to electrically connect with a receptacle. In one example, the receptacle is a piece of audio/video (AV) equipment. The female portion is configured to receive a wire and/or other electrical component. The lever is configured to actuate between an open position and a closed position. In the open position, the lever is configured to actuate an internal spring to receive a wire. In the closed position, the lever is configured to release the internal spring to secure and/or retain the wire via a compression force.