NO813825L - SCRIPTURE CLIPS - Google Patents

Description

The invention relates to a screwless connection clamp for electrical cables, provided with a contact spring which is arranged in a spring housing, and which is tensioned before the cable is inserted, and clamps the cable firmly after insertion.

With a known clamp of the above-mentioned kind, it is necessary either to press the wire into the spring clamp with relatively great force (DE-AS 1 251 399) or to open it with relatively great force using a tool, e.g. a screwdriver, to be able to insert the wire (DE-GM 1 898 970). This is in any case necessary when thin wires or lacing wire are to be attached to the clamp. Clamps are also known where an opening for inserting the wires can be caused by relatively strong pressure on special pushers. However, all these clamps can only be used with difficulty in electrical switching devices; because in hard-to-reach places, e.g. when connecting auxiliary contactors which are arranged in large numbers on a carrier plate, it is not practically possible to simultaneously exert a relatively high pressure to open the spring clamp and to thread the wire. The significant power consumption leads, at least in the case of new installations, to fatigue problems for the assembly staff.

The invention is thus based on the task of making a clamp that is even easier to operate, especially when connecting for the first time, without requiring high material consumption or a large assembly effort. This is achieved in a simple way with a clamp of the above-mentioned type in that there is a clamping device which is not loaded with spring force when the clamp is closed, and which on the one hand rests against the spring housing and on the other hand against the contact spring and keeps this tensioned when the clamp is open, and which has two defined outer positions and can at least be moved from the outside of the spring housing so that the contact spring is relieved. Thereby, it is possible to deliver the clamp in an open state from the factory, so that the customer does not have to use force to open the clamp when connecting cables. It is thus relatively easy to connect a wire. The wire must only be pushed in and the clamp released, i.e. no coordination is needed between the insertion of the wire and the pressure on the clamp. A shiftable bearing wedge has

proved to be a simple and cheap tensioning device. The use of a wedge opens up the possibility of combining the release of tension

the arrangement of the introduction of the wire, namely that a projection on the wedge comes into contact with the wire's insulation and triggers the clamp when the wire is fully inserted. The direction of release of the tensioning device and the direction of insertion of the cable thus coincide. In this case, however, care must be taken that the cable's insulation has a certain rigidity. In the case of devices where the direction of insertion and the direction of release are, for example, to lie at a 90° angle to each other, it would be advantageous for the tensioning device to be a piston that can be displaced in the springing direction of the contact spring and locked in its extreme positions. One can achieve locking of the piston without particular difficulty if this is equipped with a locking cam which, when the piston is turned, engages with the spring housing when the spring is tensioned, i.e. the clamp is open. In order to make the condition of the clamp visible and to achieve simple operation with ordinary tools in an uncomplicated way, it would be advantageous if the piston is equipped with a screwdriver slot that also shows the condition of the clamp. To ensure that the clamp remains open during transport from factory to customer, it would be advantageous if the clamping device could be locked with the clamp in an open state. In order to further rationalize the connection technique in the case of devices with many clamps, it may be advantageous to let the clamping device operate several contact springs at the same time.

With reference to the drawing, embodiments of the invention will be described and the mode of operation explained in more detail. Fig. 1 shows a section of a clamp with a wedge according to the invention. Fig. 2 shows a cross-section of a clamp according to the invention where a piston which can be moved in the direction of suspension and rotatably supported with a locking option is used.

Fig. 3 illustrates a possibility of locking the piston

according to fig. 2.

Fig. 4 and 5 show the possible positions of the rotatable piston, fig. 4 with closed clamp and inserted wire, and fig. 5 with open clamp and wire inserted, and

fig. 6 shows a cross-section of a clamp according to the invention where a displaceable piston guided in the spring direction is used with a locking mechanism based on the elasticity of the plastic material.

In the embodiment in fig. 1 is a spring clamp known per se

3 inserted in an opening 1 in a device capsule 2, which e.g. may be

the capsule of an electromagnetic switching device. The spring clamp's contact rail 4 can e.g. be the fixed contact of an electromagnetic switching device. The leaf spring 5 of the spring clamp is bent into a hairpin shape and encloses with a recess 6 the bent end 7 of the contact rail 4 and simultaneously functions as an insertion opening

for the stripped end 8 of the wire 9. In the opening 1 is a displaceable wedge 10 as in the one in fig. The position shown in 1 keeps the leaf spring 5 tensioned. A rounded recess 11 serves to lock the wedge in the position in fig. 1 in that a corresponding bulge of the leaf spring 5 engages in the recess 11. An angular projection 12 on the wedge 10 serves to push the wedge backwards to the position indicated by the dotted line to release the leaf spring 5, so that the stripped end 8 is clamped firmly in the opening 6. When inserting the wire 9, the wedge can be pushed in automatically by means of the edge of its insulation. A slot 13 in the wedge 10 makes it possible to displace the wedge through the opening 14 by means of a screwdriver or a machine during the manufacture of the apparatus. To trigger the clamp, it is only necessary to set e.g. a screwdriver into the opening 14 to press the wedge down in the direction indicated by the arrow 15, so that the insertion opening 6 opens completely and

the stripped end 8 can be pulled out. It is thus not necessary to displace the wedge to disconnect or connect individual wires.

In the embodiment in fig. 2, a piston-16 is used as tension arrangement. The piston 16 can be displaced lengthwise in the opening 1. A projection 17 in the spring housing 2 works together with a cam 18 on the piston 16 and locks it in the position shown, i.e. with the leaf spring 5 tensioned so that the stripped end 8 of the wire 9 can be guided in. The direction of insertion is indicated by the arrow 19. The piston 16 has the shape of a screw with a screwdriver slot 20, so that it is possible to cancel the locking between the cam 18 and projection 17 by pressing the piston down slightly and turning it with a screwdriver so that the piston is released and the leaf spring 5 is relieved and the wire 9 is clamped in the usual way after insertion. In the projection 17 there are - as shown in fig. 3 - a notch 21 for

locking of the pin-shaped cam 18 in the one in fig. 2 shown position, i.e. with open terminal. This means a safeguard against

the clamp comes out of position during transport.

Figures 4 and 5 show the position of the screwdriver slot 20

in relation to the longitudinal direction of the wire, i.e. the direction of the current.

Fig. 4 suggests that the current path is free, i.e. that the clamp is closed, and Fig. 5, where the screwdriver slot 20 is across the wire, suggests that the clamp remains to be closed. Fig. 6 shows a variant of the embodiment in fig. 2. The piston 16 can here be displaced longitudinally in an opening in the spring housing 22. The wall 23 forms, thanks to a designed hollow 24, an elastically springy part and serves as a locking projection for the locking cam 25 on the piston 16. On the wall 23 there is a shoulder 26 which grips around the piston 16 and ends in an operating opening 27. By pressing down the projection 26 in the direction of the arrow 28, the wall 23 is bent away from the piston and the locking is lifted, so the leaf spring 5 is released and clamps the inserted wire 9 firmly.

To open the clamp or in preparation for delivery, the leaf spring 5 is tensioned by the piston, e.g. with a screwdriver, pushed in the direction of the arrow 29 until locking against the wall 23 takes place.

The clamp according to the invention enables the use of normal, commercially available contact springs and is simply made with the help of a simple additional part which costs practically nothing, and which cannot take up any spring pressure in normal operating conditions, into a spring clamp which can delivered in open condition.

Claims (10)

1.S screwless connection or connection clamp for electrical cables, provided with a contact spring which is arranged in a spring housing, and which is tensioned before the cable is inserted, and clamps the cable firmly after insertion, characterized in that there is a tensioning device (10, 16 ) which is not loaded with spring force when the clamp is closed, and which on the one hand rests against the spring housing (2) and on the other hand against the contact spring (leaf spring 5) and keeps this tensioned when the clamp is open, and which has two defined extreme positions and from the outer side (14) of the spring housing (2) can at least be displaced so that the contact spring is relieved. 2. Clamp according to claim 1, characterized in that the clamping device is a displaceably stored wedge (10). 3. Clamp according to claim 2, characterized in that an angle projection (12) on the wedge (10) when inserting the wire (9) comes into contact with its insulation, so that the wedge is pushed in and the contact spring (leaf spring 5) is relieved. 4. Clamp according to claim 1, characterized in that the clamping device is a piston (16) displaceable in the springing direction of the contact spring (leaf spring 5) which can be locked in two extreme positions. 5. Clamp according to claim A, characterized in that the piston has a locking cam (protrusion 18) which, after rotation of the piston (16), engages with an undercut (17) in the spring housing in the tensioned state of the contact spring (leaf spring 5) and in the open state of the clamp. 6. Clamp according to claim 4 or 5, characterized in that the piston (16) is equipped with a screwdriver slot (20) whose position shows the condition of the clamp. 7. Clamp according to one of the preceding claims, characterized in that the clamping device (10, 16) can be locked with the clamp in the open state. 8. Clamp according to claim 7, characterized in that the locking is effected by an elastic projection (wall 23) in the spring housing which is displaceable across the direction of movement of the clamping device (16). 9. Clamp according to claim 8, characterized in that a shoulder (26) on the projection (wall 23) in the spring housing encloses ter the clamping device's piston (16) and ends in an operating opening (27) in the capsule (2). 10. Clamp according to one of the preceding claims, characterized in that the clamping device (10, 16) operates several contact springs (leaf springs 5) at the same time.