WO2008148231A1 - Screwless connector clamp - Google Patents

Abstract

The invention relates to a screwless connector clamp (10) having a clamping spring (25) disposed in an insulating housing (11), said spring being designed in the manner of a cage tension spring and being movable against a spring tension of the clamping spring (25) by means of a manually activated activation element (21) also disposed in the housing (11) from a first position, in which a cable (31) to be connected is held in a clamped fashion, to a second position, in which the cable (31) may be inserted into the connector clamp (10) or removed from the connector clamp (10). In a connector clamp of this type, a particular simplicity is attained in structure and mounting along with problem-free activation in that the activation element (21) is mounted in the housing (11) such that it is pivotable about a pivot axis (33) and is pivoted about the pivot axis (33) upon activation, and in that means (22) are provided on the activation element (21) for attaching a tool appropriate for activation.

Description

 Screwless connection terminal

FIELD OF THE INVENTION

The present invention relates to the field of electrical connection technology. It relates to a screwless terminal according to the preamble of claim 1.

BACKGROUND OF THE INVENTION

Screwless terminals, which work with spring clamps in the manner of a cage tension spring, are known in various embodiments from the prior art. Differences arise mainly in the way in which the cage tension spring is actuated, i. is moved against the spring tension of the clamping position in the open position. This can either be done directly with a tool such as a screwdriver, or via various types of built-in actuators.

From DE-T2-694 15 091 a spring clamp with a cage tension spring is known in which for actuating the spring in the housing, an actuating element (8) is provided in the form of a rocker arm, which is mounted freely in a chamber of the housing. Difficulties arise here in particular during assembly and by the insufficient fixation of the actuating element.

From DE-C2-196 41 206, a terminal for electrical conductors is known in which the cage clamp is operated directly by a plug-in in a push channel plug-screwdriver. The blade tip of the screwdriver is guided by a molded-on insulating material insulating guide tabs (16). By inserting the screwdriver in the insertion is - especially at large spring forces - a significant force exerted on the underlying mounting rail, which is usually undesirable. A comparable solution is known from DE-Al-196 29 565 and DE-AI-44 13 151 known.

From DE-LJI -298 07 956 a terminal with a toggle mechanism for actuating the cage tension is known. Such a configuration should allow greater manufacturing tolerances and function reliably even in long-term operation, but has the disadvantage that it is relatively complicated to construct and correspondingly complex to manufacture and difficult to assemble.

From DE-C2-30 44 134 a screwless clamp is known, in which the cage tension spring is actuated by a displaceable wedge or by a rotatably mounted plunger. Also in this case, production and assembly are associated with considerable effort.

From DE-Al-37 28 316 a lamp holder for an explosion- or flame-proof lamp is known in which cage tension springs are actuated by the secant surface of a pin, which is displaceable and pivotable by means of a lever. Again, a very complex structure and a complicated assembly are given.

Further, DE-Al-196 1 1 762 discloses a screwless terminal with a mounted in an insulating housing clamping spring, which is designed in the manner of a cage clamp and by means of a manually operable, also mounted in the housing actuating element against a spring tension of the clamping spring from a first position in which a cable to be connected is clamped, can be brought into a second position in which the cable in the terminal can be inserted or pulled out of the terminal, wherein the actuating element is pivotally mounted in the housing about a pivot axis and in its actuation about the pivot axis is pivoted, wherein the terminal has a bus bar, which lies with their broad sides parallel to the pivot axis and the clamping spring is arranged on a wide side of the bus bar such that they in the clamping first position the conductor of the connected cable on the opposite broad side against the busbar presses

PRESENTATION OF THE INVENTION

It is therefore an object of the invention to provide a screwless terminal, which avoids the disadvantages of known terminals and is characterized in particular by a simplified structure, a simple assembly, a small number of parts and a force on actuation of the clamping spring, which the load of adjacent devices keeps low by the operating forces.

The object is solved by the entirety of the features of claim 1. It is essential for the invention that the busbar forms a part of a pivot bearing with a bearing arc formed on it, in which the actuating element is pivotally mounted about the pivot axis.

An embodiment of the inventive terminal is characterized in that the actuating element is integrally formed and consists of an insulating material. This results in a good mechanical stability and a safe electrical separation between the tool and clamping spring with a simple design.

According to another embodiment of the invention, the means for applying the tool comprise an engaging hole extending in the radial direction into the interior of the actuating element. As a result, construction and assembly are further simplified and achieved overall a particularly compact design. Preferably, the engagement hole for receiving the blade of a screwdriver is formed.

Particularly favorable geometric conditions arise when, according to a development, the engagement hole extends substantially perpendicular to the insertion direction into the interior of the actuating element.

Another embodiment of the invention is characterized in that the terminal has a passing in the insertion direction through the housing busbar, which lies with their broad sides parallel to the pivot axis, that the clamping spring is mounted on a broad side of the busbar such that they are in the clamping first position presses the conductor of a connected cable on the opposite broad side against the busbar, and that the busbar forms a part of a pivot bearing with a bearing arc formed on it, in which the actuating element is pivotally mounted about the pivot axis. The fact that the mechanically stable busbar forms part of the pivot bearing has the consequence that the forces occurring in the bearing during the actuation of the clamping spring can be safely absorbed and introduced into the housing without difficulty.

Preferably, a cylindrical axis is formed on the actuating element to simplify the construction, wherein the actuating element with the axis in a housing formed on the, approximately semi-cylindrical bearing shell, and the bearing shell forms the pivot bearing together with the bearing arc of the busbar.

In particular, a passage opening is provided on the actuating element for forming the cylindrical axis through which the busbar extends with its bearing arc. BRIEF DESCRIPTION OF THE FIGURES

The invention will be explained in more detail with reference to embodiments in conjunction with the drawings. Show it

Fig. 1 in the sectional view of an embodiment of the invention, wherein only a half-shell of the housing is shown;

Fig. 2 is a side perspective view of the embodiment of Fig. 1;

Fig. 3, the clamping position of the device of Fig. 1 in the for actuating a

Screwdriver is attached with its blade; and

Fig. 4 reached by tilting the screwdriver of Fig. 3 position of the device in which a cable can be inserted or pulled out.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

In Fig. 1 and 2, an embodiment of a screwless terminal according to the invention is shown in a sectional view and in a perspective side view. The terminal 10 is housed in a rectangular housing 1 1, which consists of an insulating material and is composed of two half-shells, of which only one is shown. In the housing 1 1, a plurality of recesses 12, .., 16 are provided, in which a longitudinally extending through the housing, stable busbar 17, formed as a cage tension spring clamping spring 25 and a pivotally mounted actuating element 21 are housed. One of the recesses, namely the recess 1 5, serves as an insertion opening for a cable to be connected (31 in Fig. 4). The terminal 10 comprises with complete housing 1 1 in total only five items (2 housing halves, the busbar, the Cage tension spring and the actuator), so that there is a very simple and easy to install device.

The busbar 17 is largely fixed by the slot-shaped horizontal recesses 1 2 and 14 in the vertical direction. Between the two narrow recesses 12 and 14, it passes through a larger recess 1 3, in the same time the actuating element 21 and the Käfigzugfeder or clamping spring 25 are arranged behind and arranged one above the other. The actuating element 21 extends in the longitudinal direction of a pivot bearing 18, 34 to the highest part of the clamping spring 25, where it rests on the clamping spring 25. The pivot bearing 18, 34 is formed by a lower semi-cylindrical bearing shell 34 which is formed in the housing 1 1, and by an upper semicircular bearing arc 18 which is formed in the busbar 17. The busbar 17 thus forms with its bearing bow 18, the upper end of the pivot bearing. In the pivot bearing about a transverse to the insertion direction (35 in Fig. 4) oriented, horizontal pivot axis 33 is pivotally mounted, the actuating element 21 with a cylindrical axis 24 which is formed on the one-piece actuator 21 due to a corresponding passage opening 23. Through the through hole 23, the bus bar 17 is performed with the bearing sheet 18 and holds the actuator 21 in the pivot bearing. When the operating member 21 presses the arm (in FIG. 1 to the right) on the clamping spring 17 when the clamping spring 25 is actuated to open it for insertion of a cable (FIG. 4), the axis 24 of the operating member 21 presses with a counterforce up against the bearing bow 18 of the pivot bearing. The stable busbar 17 can then initiate this force without problems in the housing 1 1, where it is safely absorbed.

The clamping spring 25 is arranged in a following on the bearing sheet 18 horizontal contact portion 19 on the upper broad side of the busbar 17 so that the busbar passes through the clamping opening 26 of the clamping spring 25. After this Traversing the clamping opening 26, the busbar 17 is in a stepped upwardly bent end portion 20, which allows unhindered insertion of the cable into the insertion opening 15 below. For clamping the following on the clamping opening 26 end portion 27 of the clamping spring 25 which dips into the underlying recess 16 upon actuation of the clamping spring 25.

In the actuating element 21, an engagement hole 22 extending in the radial direction into the interior of the actuating element 21 is provided, which is designed to receive the blade 30 of a screwdriver 29 (FIGS. 3, 4). The engagement hole 22 extends substantially perpendicular to the insertion direction 35 of the terminal 10 into the interior of the actuating element 21 into it. If, according to FIG. 3, a screwdriver 29 is inserted with its blade 30 into the engagement hole 22 and then pivoted to the right (FIG. 3 -> FIG. 4), the actuating element 21 pivots clockwise about the pivot axis 33 and presses the clamping spring downwardly, FIG. until the clamping opening 26 on the underside of the busbar 17 is free for insertion of the conductor 32 of a cable 31 (Fig. 4). When the screwdriver is swiveled back, the clamping spring 25 clamps the conductor 32 by means of its spring force and presses it against the lower broad side of the busbar 17 to release the cable 31. The clamping spring 25 can be reopened in the same way to release the clamped conductor 32 to give. The introduced by the screwdriver 29 in the terminal 10 forces are thereby significantly taken up by the stable busbar 17 and introduced into the housing 1 1, that the loads for outside the terminal 10 located parts and devices or apparatus are low.

Overall, with the invention results in a simple design and easy to mount terminal that requires only a few parts and exerts only minor mechanical stress on the environment when operating. Reference number list

10 connection terminal (screwless)

1 1 housing

12 .... 16 recess

17 busbar

18 bearing arch

19 contact section (busbar)

20 end section

21 actuating element (pivotable)

22 engagement hole

23 passage opening

24 axis

25 clamping spring

26 clamping opening

27 end section (clamping spring)

28 basic section

29 screwdrivers

30 blade

31 cables

32 conductors

33 pivot axis

34 bearing shell

35 insertion direction

Claims

1 screwless terminal (10) with a in an insulating housing (1 1) mounted clamping spring (25) which is designed in the manner of a cage tension spring and by means of a manually operable, also in the housing (1 1) mounted Actuating element (21) against a spring tension of the clamping spring (25) from a first position in which a cable to be connected (31) is clamped, can be brought into a second position in which the cable (31) in the terminal (10) can be inserted or from the terminal (10) is pulled out, wherein the actuating element (21) in the housing (1 1) about a pivot axis (33) is pivotally mounted and pivoted in its actuation about the pivot axis (33), wherein the terminal (10 ) has a bus bar (17) which lies with its broad sides parallel to the pivot axis (33) and the clamping spring (25) on a broad side of the bus bar (17) is arranged such that in the clamping first position the conductor (32 ) of the connected cable (31) on the opposite broad side against the busbar (17) presses, characterized in that the busbar (17) with a formed at her storage arch (18) a n part of a pivot bearing (18, 34) forms, in which the actuating element (21) about the pivot axis (33) is pivotally mounted. 2 screwless terminal according to claim 1, characterized in that on the actuating element (21) means (22) for applying a suitable for the operation of the tool (29, 30) are provided. 3 screwless terminal according to claim 2, characterized in that the means for attaching the tool in a radial direction in the interior of the actuating element (21) extending into engaging hole (22). 4 screwless terminal according to claim 3, characterized in that the engagement hole (22) for receiving the blade (30) of a screwdriver (29) is formed. A screwless terminal according to claim 3 or 4, characterized in that the engagement hole (22) extends substantially perpendicular to the insertion direction (35) into the interior of the actuating element (21). 6 screwless terminal according to one of claims 1 to 5, characterized in that the actuating element (21) is integrally formed and consists of an insulating material. 7 screwless terminal according to one of claims 1 to 6, characterized in that the busbar (17) of the terminal (10) as in the insertion direction of the conductor (32) through the housing (1 1) passing busbar (17) is formed. 8 screwless terminal according to one of claims 1 to 7, characterized in that on the actuating element (21) has a cylindrical axis (24) is arranged, that the actuating element (21) with the axis (24) in one of the housing (1 1) formed , in approximately semi-cylindrical bearing shell (34), and that the bearing shell (34) together with the bearing arc (18) of the busbar (17) forms the pivot bearing (18, 34). 9 screwless terminal according to claim 7, characterized in that on the actuating element (21) for arranging the cylindrical axis (24) has a through hole (23) is provided, through which extends the busbar (17) with its bearing arc (18).