DE102009008933B4 - Electrical connection terminal - Google Patents

Abstract

Electrical connection terminal, in particular terminal block, with a spring force element (10) for clamping an inserted conductor (32) and with a terminal housing (14) having a receiving space (12) receiving the spring force element (10), the spring force element (10) acting as an abutment for the clamping of the conductor (32) serving abutment legs (16) and a clamping force applying clamping legs (18), wherein for applying the clamping force of the clamping legs (18) against the spring force by means of an actuating element (20) is movable, wherein the actuating element (20 ), wherein the actuating element (20) has an inner contour which has a recess (22) adapted to the shape of the spring force element (10), wherein by means of the inner contour of the clamping legs (18) of the spring force element (10) against the spring force movable is, wherein the spring force element (10) as a bent spring steel strip with a substantially halbkre is formed between clamping leg (18) and bearing limb (16), characterized in that the shape of the recess (22) in the inner contour of the actuating element (20) is adapted to the shape of the bending region (28), so that in clamped state of the inserted conductor (32), the inner contour of the actuating element (20) against the spring force element (10).

Description

The invention relates to an electrical connection terminal, in particular terminal block, with a spring force element for clamping an inserted conductor and with a terminal housing with a spring force receiving receiving space, wherein the spring force element serving as an abutment for the clamping of the conductor support leg and a clamping force applying clamping legs, wherein for applying the clamping force of the clamping legs against the spring force by means of an actuating element is movable.

Such terminals are for example from the DE 10 2006 018 129 B4 . JP 2001 - 307789 A . JP H09-035775 A US 4 978 315 A . FR 2 656 164 A1 . DE 10 2005 050 399 B3 . DE 81 37 617 U1 and DE 20 2004 000 418 U1 known.

The DE 10 2006 018 129 B4 describes a spring clamp with a leg spring arranged in a housing, wherein the leg spring is actuated via an actuating element. For this purpose, the leg spring has an actuating leg arranged in one piece on a clamping leg, via which the leg spring can be actuated with the actuating element.

From the DE 198 38 008 B4 is an electrical terminal, in particular for use on printed circuit boards, known, with a spring force element in the form of a box spring inserted into a box spring, from the wall at least a resilient clamping leg is cut free, which is inflected into the box interior in the direction of an opposite abutment and which has a free terminal end between which and the abutment, an electrical conductor is clamped, wherein in the box spring in the longitudinal direction of the clamping leg to the clamping end towards slidable actuating member is arranged. The operating part protrudes from a located on the Anlenkseite of the clamping leg opening of the box spring with a pusher end and pushes when pressed with its inner end as a wedge between the abutment and the clamping legs under the lifting of the abutment, wherein the actuating member has a passage for the passage of the conductor having. The passageway of the operating part extends from a Leitereinführöffnung at the pusher end to a conductor outlet opening at the inner end of the actuating part. The actuating part is held on laterally arranged locking pieces slidably in limiting openings of the box spring, so that the box spring and the actuating part are formed as a structural unit. The actuating part acts in this case in the form of a wedge with the clamping leg of the box spring. However, such a terminal has a very complicated structure, in which case the box spring is attached directly to the actuation part and the terminal housing is fixed independently of the actuating part in the terminal.

It is therefore an object of the invention to provide an electrical terminal, in particular terminal block, which is characterized by a simple structure with a few parts construction by means of a simple pinching of the conductor is possible.

The electrical terminal according to the invention, in particular terminal, has a spring force element for clamping an inserted conductor and a terminal housing with a spring force receiving receiving space, wherein the spring force element serving as an abutment for the clamping of the conductor support leg and a clamping force applying clamping legs, wherein Application of the clamping force of the clamping legs against the spring force by means of an actuating element is movable. The actuating element is in the form of a box, wherein the actuating element has an inner contour, which has a recess adapted to the shape of the spring force element, wherein by means of the inner contour of the clamping leg of the spring force element against the spring force is movable. The spring force element is designed as a bent spring steel strip with a substantially semicircular bending region between the clamping leg and bearing limb, wherein the shape of the recess in the inner contour of the actuating element is adapted to the shape of the bending region, so that in the clamped state of the inserted conductor, the inner contour of the actuating element on the Spring force element abuts.

The spring force element is preferably designed as a spiral spring, wherein the inserted conductor between the clamping leg and an inserted into the terminal current bar is clamped. The terminal housing preferably has a box-shaped structure with five side surfaces and a receiving space, which is formed by the side surfaces in which the spring force element and the inserted current bar are arranged. At the top, the terminal box is open. Closed at the top, the terminal housing is closed by the actuating element, which is also box-shaped with five side surfaces and is open at the bottom, so that the actuating element and the terminal housing can be connected to each other such that the actuating element Preferably, the entire upper side surface of the terminal housing covers by the two box-shaped components can be inserted into one another such that they provide a hollow interior, which includes the receiving space. By means of the actuating element according to the invention thus two purposes can be met, that actuation of the clamping leg of the spring force element and the closing of the terminal housing, so that no additional cover element is required. The operation of the clamping leg can be done without much design effort by the actuator has an inner contour which has a matched to the shape of the spring force element recess, wherein by means of the inner contour of the clamping leg of the spring force element against the spring force is movable. The recess is preferably adapted to the shape of the clamping leg of the spring force element, so that in particular by the shape of the recess of the clamping leg is movable. Additional actuating means are thus not required in the terminal according to the invention, so that the terminal is characterized by a simple construction with a few parts construction, by means of a simple pinching a eineklemmenten conductor is possible.

In order to simplify the actuation of the clamping leg, the inner contour of the actuating element according to an advantageous embodiment of the invention, a sliding element which can rest on the clamping leg and over which a force opposite to the spring force can be applied. The sliding element is preferably a part of the inner contour, wherein the sliding element preferably inserts dimensionally stable in the inner contour of the actuating element and preferably in the unclamped state of the conductor as well as in the clamped state of the conductor rests against the surface of the clamping leg of the spring force element, so that the movement of the clamping leg controlled by means of the sliding element can be performed. To move the clamping leg against the spring force, the actuating element is moved such that the sliding element presses on the clamping leg and is guided along the surface of the clamping leg to move the clamping legs against a force as uniform as possible against the spring force. The sliding element may be formed substantially wedge-shaped, wherein an edge of the wedge may rest on the surface of the clamping leg.

The spring force element is designed as a bent spring steel strip with a substantially semicircular bending region between the clamping leg and bearing limb, wherein the shape of the recess in the inner contour of the actuating element is adapted to the shape of the bending region, so that in the clamped state of the inserted conductor, the inner contour of the actuating element on the Spring force element abuts. The recess thus represents at least in the bending region of the spring force element is a partial region of a negative form of the spring force element. The recess preferably has the same curvature as the bending region, so that preferably in the clamped state of the inserted conductor, the inner contour of the actuating element can rest against the spring force element. Characterized in that the recess is adapted to the shape of the bending region of the spring force element, the spring force element can be optimally guided by means of the actuating element in its movement. When the recess abuts on the spring force element, the spring force element is supported by the recess and thereby by the actuating element and the tension acting on the spring force element can be reduced by delivering it to the adjoining actuating element.

The actuating element is arranged directly on the terminal housing, wherein according to a preferred embodiment of the invention, the actuating element is slidably mounted on the terminal housing. The actuating element is preferably attached to at least two of its side surfaces on two corresponding side surfaces of the terminal housing slidably. The displacement movement of the actuating element is preferably carried out in the direction of the insertion of the conductor in the receiving space of the terminal housing. Characterized in that the actuating element is slidably mounted directly on the terminal housing, no additional guidance of the actuating element is necessary.

In order to allow a controlled movement of the actuating element, the actuating element according to a further preferred embodiment of the invention, two locking elements and the terminal housing on two recesses, wherein the locking elements are arranged movable within the recesses. The locking elements are guided within the recesses, so that the movement of the actuating element is predetermined by the interaction between the recess and locking element. The latching elements are preferably formed on the outside of two opposite side surfaces of the actuating element. The recesses are provided on two corresponding side surfaces of the terminal housing. In the unclamped state, the locking elements are preferably at the upper edge of the recesses. If the clamping leg for clamping a conductor against the spring force to be actuated, the actuating element is moved as far down until the locking elements on the abut lower edge of the recesses, so that the conductor can be guided into the receiving space of the terminal housing. To clamp the conductor, the actuator may again move slightly upward in response to the thickness of the conductor until the conductor is firmly clamped. With the terminal according to the invention, it is thus possible to securely clamp conductors with different diameters.

In order to achieve the most compact possible structure, the Leitereinführöffnung for insertion of the conductor is integrated in the terminal in the actuator and not in the terminal housing. If the inserted conductor is designed to be kink-resistant, the actuating element can already be moved by inserting the conductor by moving the clamping leg counter to the spring force without the aid of an additional actuating tool being applied to the actuating element Force must be exercised. This makes a particularly quick and easy clamping of a conductor possible.

The actuating element may further comprise, according to a further embodiment, a recess into which an actuating tool for actuating the actuating element can be inserted, by means of which force can be exerted on the actuating element. The recess may be configured in the form of a deeper groove, in which a screwdriver is inserted as an operating tool. The recess is preferably arranged on the same side surface of the actuating element, on which the Leitereinführöffnung is arranged.

According to an advantageous embodiment of the invention, the actuating element is designed as a cover for the terminal housing. For this purpose, preferably engage four of the five side surfaces of the actuating element in four of the five side surfaces of the terminal housing, so that by means of the actuating element as complete and tight coverage of the terminal housing takes place. An additional cover is thus not required, whereby a component can be saved.

Within the receiving space of the terminal housing according to an advantageous embodiment of the invention, a receiving element is provided in which the spring force element and inserted into the terminal current bar are at least partially positioned, wherein the receiving element, the spring force element and the current bar arranged centered over a arranged in the terminal housing rib structure are, whereby the positioning of the individual elements can be specifically provided and it can also be avoided in a possible movement of the terminal slipping of the individual components within the terminal.

The invention will be explained in more detail below with reference to the accompanying drawings with reference to a preferred embodiment.

• 1 eine perspektivische schematische Schnittdarstellung einer erfindungsgemäßen elektrischen Anschlussklemme in einem ungeklemmten Zustand und
• 2 eine weitere perspektivische schematische Schnittdarstellung einer erfindungsgemäßen elektrischen Anschlussklemme in einem geklemmten Zustand eines eingeführten Leiters.

Show it:

• 1 a perspective schematic sectional view of an electrical terminal according to the invention in an unclamped state and
• 2 a further perspective schematic sectional view of an electrical terminal according to the invention in a clamped state of an inserted conductor.

In 1 is an inventive electrical terminal in an unclamped state, ie in which no conductor is clamped shown. The terminal has a spring force element 10 in the form of a spiral spring, which in a receiving space 12 a terminal housing 14 is arranged. The spring force element 10 has an abutment for the clamping of a, in 2 shown, conductor 32 serving investment thighs 16 and a clamping force applying clamping legs 18 on. The plant thigh 16 lies flat on a side surface of the terminal housing 14 or on a side surface of a receiving element provided in the terminal housing 30 at. For applying the clamping force of the clamping leg 18 is a box-shaped actuator 20 provided by means of which the clamping leg 18 is movable against the spring force. One, as in 2 shown, clamped ladder 32 is between the clamping leg 18 and one in the terminal box 14 introduced current bar 50 clamped.

The terminal housing 14 preferably also has a box-shaped structure with five the receiving space 12 surrounding side surfaces. The terminal housing can be closed 14 open. The terminal housing is closed 14 upwards through the actuator 20 , which is also box-shaped with five side surfaces and is open at the bottom, so that the actuating element 20 and the terminal housing 14 , as in 1 shown, can be connected to each other, that the actuating element 20 preferably the entire upper side surface of the terminal housing 14 covering by the two box-shaped components 14 . 20 be so interlocked that they provide a hollow interior, which the receiving space 12 includes. By means of the actuating element according to the invention 20 can thus have two purposes be satisfied that pressing the clamping leg 18 of the spring force element 10 and closing the terminal housing 14 so that no additional cover element is required. The operation of the clamping leg 18 can be done without great design effort by the actuator 20 has an inner contour, which one to the shape of the spring force element 10 adapted recess 22 having, wherein by means of the inner contour of the clamping legs 18 of the spring force element 10 is movable against the spring force. The recess 22 is preferably to the shape of the clamping leg 18 of the spring force element 10 customized.

To specifically a constant force as possible by means of the actuating element 20 on the clamping leg 18 to apply, has the actuator 20 a sliding element 24 on, which on the clamping leg 18 is applied. The sliding element 24 is preferably a part of the inner contour, being directly adjacent to the inner contour of the actuating element 20 is rigidly formed and preferably in the unclamped state of the conductor and in the clamped state of the conductor on the surface of the clamping leg 18 of the spring force element 10 abuts, so that the movement of the clamping leg 18 controlled by means of the sliding element 24 can be executed. To move the clamping leg 18 against the spring force is the actuator 20 such a procedure that the sliding element 24 on the clamping leg 18 pushes and along the surface of the clamping leg 18 is guided to the clamping leg 18 to move with as even force as possible against the spring force. The sliding element 24 can be wedge-shaped, with a flank 26 of the wedge on the surface of the clamping leg 18 is applied.

The spring force element 10 is as a bent spring steel strip with a substantially semi-circular bending area 28 between clamping legs 18 and plant thighs 16 formed, wherein the shape of the recess 22 in the inner contour of the actuating element 20 the shape of the bending area 28 is adjusted so that in the clamped state of an inserted conductor 32 like this in 2 it can be seen, the inner contour of the actuating element 20 or the recess 22 on the spring force element 10 can be present. The recess 22 thus provides at least in the bending area 28 of the spring force element 10 a portion of a negative form of the spring force element 10 dar. The recess 22 has the same curvature as the bending area 28 , so that in the clamped state of the inserted conductor 32 the inner contour of the actuating element 20 on the spring force element 10 is applied.

The actuator 20 is on the terminal box 14 slidably attached. The actuator 20 is at least two of its side surfaces by means in the terminal housing 14 arranged recesses 34 engaging locking elements 36 on the terminal housing 14 slidably attached. The sliding movement of the actuating element 20 takes place in the direction of insertion of the conductor 32 in the recording room 12 of the terminal housing 14 , The locking elements 36 are inside the recesses 34 guided, so that the movement of the actuator 20 through the interaction between recess 34 and latching element 36 is predetermined. The locking elements 36 are on the outside of two opposite side surfaces 38 . 40 of the actuating element 20 educated. The recesses 34 are on two corresponding side surfaces 42 . 44 of the terminal housing 14 intended. In unclamped condition are the locking elements 36 , as in 1 shown at the upper edge of the recesses 34 at. If the clamping leg 18 for clamping a conductor 32 be actuated against the spring force, the actuating element 20 moved down as far as the locking elements 36 , as in 2 shown at the bottom edge of the recesses 34 abut, so that the conductor 32 in the recording room 12 of the terminal housing 14 can be performed. To the conductor 32 can clamp, the actuator can 20 depending on the thickness of the conductor 32 move back up a bit, until the ladder is up 32 is firmly clamped. With the terminal according to the invention, it is thus possible, ladder 32 securely clamped with different diameters.

The actuator 20 may further include a conductor insertion opening 46 for the introduction of the conductor to be clamped 32 and a recess 48 for actuating the actuating element 20 by means of an actuating tool.

Should a leader 32 can be clamped, the actuator 20 by means of an actuating tool or by means of a kink-resistant conductor 32 are moved downwards, so that by means of the actuating element 20 a force against the spring force on the clamping leg 18 of the spring force element 10 is exerted so that it releases a space within the terminal, in which the conductor 32 can be clamped. Should a clamped conductor 32 can be removed from the terminal, so by means of a tool, such as a screwdriver, the actuator 20 be moved so that the clamping leg 18 the clamped ladder 32 releases. For this, the tool is preferably between the locking element 36 and the upper edge of the recess 34 clamped, so that by means of the tool, the locking elements 36 and thus the actuating element 20 down towards the lower edge of the recess 34 be moved, causing the clamping leg 18 from the conductor 32 is moved away and releases it.

Claims (8)

Electrical connection terminal, in particular terminal block, with a spring force element (10) for clamping an inserted conductor (32) and with a terminal housing (14) having a receiving space (12) receiving the spring force element (10), the spring force element (10) acting as an abutment for the clamping of the conductor (32) serving abutment legs (16) and a clamping force applying clamping legs (18), wherein for applying the clamping force of the clamping legs (18) against the spring force by means of an actuating element (20) is movable, wherein the actuating element (20 ), wherein the actuating element (20) has an inner contour which has a recess (22) adapted to the shape of the spring force element (10), wherein by means of the inner contour of the clamping legs (18) of the spring force element (10) against the spring force movable is, wherein the spring force element (10) as a bent spring steel strip with a substantially halbkre is formed between clamping leg (18) and bearing limb (16), characterized in that the shape of the recess (22) in the inner contour of the actuating element (20) is adapted to the shape of the bending region (28), so that in clamped state of the inserted conductor (32), the inner contour of the actuating element (20) against the spring force element (10). Electrical connection terminal after Claim 1 , characterized in that the inner contour of the actuating element (20) has a sliding element (24) which can rest on the clamping leg (18) and via which a force opposite to the spring force can be applied. Electrical connection terminal after Claim 1 or 2 , characterized in that the actuating element (20) on the terminal housing (14) is slidably mounted. Electrical connection terminal after Claim 3 , characterized in that the actuating element (20) has two latching elements (36) and the terminal housing (14) has two recesses (34), wherein the latching elements (36) within the recesses (34) are arranged movable. Electrical connection terminal according to one of Claims 1 to 4 , characterized in that the actuating element (20) has a Leitereinführöffnung (46), via which the conductor (32) is insertable into the terminal. Electrical connection terminal according to one of Claims 1 to 5 , characterized in that the actuating element (20) has a recess (48) into which an actuating tool for actuating the actuating element (20) can be inserted. Electrical connection terminal according to one of Claims 1 to 6 , characterized in that the actuating element (20) is designed as a cover for the terminal housing (14). Electrical connection terminal according to one of Claims 1 to 4 , characterized in that within the receiving space (12) of the terminal housing (14) a receiving element (30) is provided in which the spring force element (10) and an inserted into the terminal current bar (50) are at least partially positioned, wherein the receiving element ( 30), the spring force element (10) and the current bar (50) are arranged centered over a rib structure arranged in the terminal housing (14).

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