The present invention is directed to a resilient force clamping connection (2) for a terminal block (1), in particular a connection terminal or connecting terminal, so as to electrically connect at least one conductor, said resilient force clamping element comprising a busbar (3), and a clamping spring (4) having a support limb (40), a resilient bend (41) that adjoins the support limb (40), and a clamping limb (42) that adjoins the resilient bend (41), wherein the clamping limb (42) comprises at a free end (420) that is remote from the resilient bend (41) a clamping section (421) so as to form a conductor clamping site (K) between the clamping section (421) and the busbar (3) so as to electrically connect a conductor (L) to the resilient force clamping connection (2). At least one actuating limb (43) extends from the clamping limb (42) between the resilient bend (41) and the free end (420) in a direction away from the support limb (40), wherein the actuating limb (43) comprises an actuating section (430) in order to cooperate with a release element (5) so as to open the conductor clamping site (K). The present invention is further directed to a terminal block (1) so as to electrically connect at least one conductor, said terminal block comprising an insulated housing (6) and at least one resilient force clamping connection (2) according to the present invention and being received at least in part by the insulated housing (6).

A tool-less terminal block includes an insulated base, a turning part, a conductive terminal and a spring clamp. The insulated base has a cavity and a slot communicating to the cavity; the turning part is pivotally coupled to the insulated base; the conductive terminal is fixed to the bottom of the slot; the spring clamp is accommodated in the cavity and disposed at the top of the conductive terminal, and the spring clamp has a movable elastic arm pressing the conductive terminal to seal the slot, and the movable elastic arm has a link rod fixed to the turning part and operable together with the turning part. When the turning part is turned to a released position, the link rod is pulled by the turning part to drive the movable elastic arm away from the conductive terminal to open the slot, so as to provide a convenient use.

A wiring terminal includes a housing, a clamping and connecting piece, and a pressing piece. The housing is provided with a mounting channel and an insertion hole communicating with the mounting channel. The clamping and connecting piece is provided with a curved spring plate for clamping a conducting wire and a conductive sheet. The spring plate has a natural state in which the conducting wire placed in the mounting channel is clamped between the spring plate and the conductive sheet through elastic abutment, and a pressed state in which the spring plate is controlled by external force to deform in a direction distal from a clamped conducting wire. The pressing piece is capable of triggering the spring plate to switch between the natural state and the pressed state to unclamp the conducting wire.

A conductor terminal for connecting at least one electrical conductor. The conductor terminal has a base module which includes mounting rail fastening elements for fastening the conductor terminal to a mounting rail. The base module includes a housing, which extends in its longitudinal direction up to two end areas of the housing. A central area of the housing is provided between the two end areas, with the central area projecting beyond the two end areas in a direction facing away from the mounting rail fastening elements. The base module also includes at least one receptacle arrangement being disposed on the base module in each of the two end areas, each for accommodating a conductor connecting module. The conductor connecting modules each include at least one conductor terminal connection designed to connect an electric conductor.

A spring force terminal such as a direct plug-in terminal for connecting a flexible stranded conductor includes a housing having a chamber and a plug-in channel for the conductor into the chamber. A busbar or a clamping cage are provided and a clamping spring arranged in the chamber acts as a compression spring for fixing the electrical conductor on the busbar or the clamping cage in the region of a clamping point. The clamping spring has a clamping leg pivotable around a pivot axis, which is adjustable from a latching state in which it is latched in a latching position into a clamping state in which it is unlatched from the latching position and presses the electrical conductor against the busbar or the clamping cage. The latching state is produced by pressing on the clamping leg in the conductor insertion direction using a pusher wherein the clamping leg is releasable from the latching state using two different actuatable adjustment devices. The second release element is designed to release the pusher from the latching position to release the clamping leg from the latching state. The release element is arranged and formed laterally in relation to the pusher in the chamber in such a way that it acts on the pusher essentially perpendicularly to the conductor insertion direction to release the pusher from the latching position.

A wire connection device includes a housing, a conductor, and a lever. The conductor is located inside the housing and has a leaf spring, a conductive member and a push-back block, and the lever is provided with a push-back notch and an actuating cam, and the lever is movably assembled in the housing so that the lever may swing against the housing so that the leaf spring is squeezed by the lever for generating a deformation. When the lever swings to an actuate position, the touch surface of the cam that touch the conductor will be changed so that the lever can be moved in a straight line against the housing simultaneously. Therefore, the push-back block can be inserted into the inside of the push-back notch. In this way, when the push-back block is positioned inside the push-back notch, the lever is kept stay so that the leaf spring is kept in a state of deformation by the lever, and the wire can insert into the wire connection device without push the leaf spring, so that the wire connection device won't be damaged easily.

A spring terminal, in particular a direct plug-in terminal, for connecting a conductor such as a flexible stranded conductor includes a housing with a chamber and an insertion channel for inserting the conductor into the chamber. A busbar and/or a clamping cage are arranged in the housing and a clamping spring is arranged in the chamber and acts as a pressure spring. The clamping spring includes a clamping limb, said clamping limb releasable out of a latching state by a pusher having a latching edge on which the pusher can be latched in the interior of the housing on a latching hook of the busbar or another element arranged in the housing in a latching state. The pusher holds the clamping spring in a latched manner in the open position, wherein the latching edge of the pusher can be released from the latching state by an opposite movement.

A cable connector for electrically connecting at least one first electrical conductor to at least one second electrical conductor. The cable connector includes an insulating-material housing, which has at least one first conductor insertion opening and at least one second conductor insertion opening. The second conductor insertion opening is opposite the first conductor insertion opening. The cable connector has at least one electrical contact in the insulating-material housing. The least one electrical contact is electrically contacted by a first electrical conductor via the first conductor insertion opening and by a second electrical conductor via the second conductor insertion opening. The first electrical conductor is loaded against the electrical contact via a first clamping spring and the second electrical conductor is loaded against the electrical contact via a second clamping spring such that the first electrical conductor is electrically connected to the second electrical conductor by means of the electrical contact.

A conductor terminal for connecting an electrical conductor by means of spring force clamping, the conductor terminal being configured for mounting on a busbar, the terminal conductor including at least one spring force clamping connection having a clamping spring for clamping the electrical conductor, a housing, which at least partially surrounds the spring force clamping connection and has a conductor insertion opening and a pivotably supported actuation lever, which is configured to actuate at least one part of the clamping spring, a receiving space for receiving at least one section of the busbar onto which the conductor terminal may be mounted, being present in the housing.

A terminal for connecting an electrical conductor includes a housing, a current bar arranged in the housing, a clamping spring arranged in the housing for clamping the conductor to be connected against the current bar in a conductor connection space formed between the current bar and the clamping spring, and an actuation element, which is displaceably mounted in the housing, wherein a clamping leg of the clamping spring can be actuated by means of the actuation element in order to transfer the clamping leg from a clamping position into an open position. The clamping leg has at least one skid, which with at least one pressure face formed on the actuating element, interacts during the transfer of the clamping leg from the clamping position into the open position in such a way that the clamping leg slides along the at least one pressure face with the at least one skid.