EP0254161A1 - Push-button actuator for keyswitch - Google Patents

Abstract

The invention relates to a push button drive for push button switches with a restoring force loaded, longitudinally displaceable mushroom button (1). This mushroom button (1) is separated from the actuating plunger. This actuating plunger is spring-loaded in the switching direction and locked in the operating position by swivel lever (13). The locking is released by a relative movement between the mushroom button (1) and the actuating plunger (6) by sliding inclined surfaces (23) on the edges of the swivel levers (13), so that the actuating plunger is moved into the off position by the spring (20) . In the off position, the pivot levers (13) with the rear sides (19) are brought into engagement with the end faces (18) of the pivot levers.

Description

The invention relates to a push-button drive for pushbutton switches with a restoring force-loaded, longitudinally displaceable mushroom button which can be brought into operative connection with an actuating plunger for the switch contacts, the actuating plunger having detachable latching means in the insertion and removal.

In a known push-button drive (DE-GM 78 05 186), the operating detent groove is made so long that, if a switching operation cannot be carried out after detenting by spring force, the contacts can still be mechanically separated, the operating detent being retained. The operating rest is canceled there with a separate key, after which turning the mushroom button is only possible. In addition, the ball used there is not safe in every case, so that the ball can be lifted even if it is turned by force.

In a known push button drive for push button switches of the type mentioned above (DBP 30 02 169), deliberately outwitting the push button drive with regard to the power cut-off by turning the mushroom button in the rest position is impossible, but in the event of strong vibrations, a power cut-off cannot be avoided with certainty.

The invention is intended to create a simple push-button drive of the above-mentioned type, in which it is ensured that even in the event of strong vibrations Power cut-off by the push button switch, ie an emergency stop command is prevented. This is achieved in a simple manner in a push button drive of the above-mentioned type in that the actuating plunger is spring-loaded separately from the mushroom button against the switching direction and a relative movement between the mushroom button and the actuating plunger to cancel at least one detent is possible and the operative connection between the mushroom button and the actuating plunger is only in the end region of the mushroom button path is present. The actuating plunger can be equipped with a relatively small mass and, since the mushroom button and the actuating plunger are separated from one another, the mass of the mushroom button is no longer decisive for the actuation of the actuating plunger in the event of vibrations. In order to make the detent so stable that vibrations cannot be removed, it is advantageous if the detent is carried out by housing-fixed, spring-loaded latches which engage in recesses or behind projections in or on the actuating plunger and can be lifted out by inclined surfaces on the mushroom button. In order to facilitate the lifting of the latches for actuating the push button drive, an arrangement has proven to be advantageous if the latches consist of swivel levers which can be swiveled out by a slide bush which is fastened to the mushroom button and slides around the actuating plunger. In order to be able to use the same bolts for locking the actuating plunger in the operating and also in the switched-off position, it is also advantageous if the pivoting lever has locking recesses for engaging the front sides of the projections of the actuating plunger in the operating position and the end faces of the pivoting lever in such a way that Back of the projections are matched that the actuating plunger can be locked in the off position. In order to also avoid springback of the actuating plunger and thus possibly interrupted contacts, it is also advantageous if the end faces of the pivot levers and the rear sides the projections are corrugated transversely to the pivoting direction of the pivot levers. The pushbutton drive can be returned from the triggered position by correspondingly turning the mushroom pushbutton in the pressed-in state and turning the mushroom button back in the operating position, as is the case in principle with the arrangement according to DE-PS 30 02 169. However, it may also be desirable to only allow the reset by a specialist, for which it has proven to be advantageous if the mushroom button has an opening on the front through which the actuating plunger can be reached for switching on. The actuating plunger is then pulled back using a key or a special tool while the mushroom button is pressed. The opening on the front can also be used as a trigger indicator for the push button drive.

An exemplary embodiment according to the invention is described with reference to the drawing.

• Fig. 1 den Druckknopfantrieb, zum Teil im Schnitt, links von der Mittelachse in der Betriebsstellung und rechts von der Mittelachse in der ausgelösten Stellung und
• Fig. 2 die Stellung der Schwenkhebel im durch die Gleit­buchse ausgeschwenkten Zustand als Teildarstellung.

Show it:

• Fig. 1, the push button drive, partly in section, left of the central axis in the operating position and right of the central axis in the triggered position and
• Fig. 2 shows the position of the pivot lever in the pivoted out state by the sliding bush as a partial view.

The push button drive shown in the drawing consists of the actual mushroom button 1, which is assembled from the head part 2 and the guide part 3 via screws 4. On the head part 2, a sliding bush 5 is formed, which engages around an actuating plunger 6 as a sliding guide. The part which is fixed to the housing and which holds the push-button drive in the control panel 7 or a housing consists of the lower part 8 and the upper part 9 joined to it, which is cylindrical is formed and serves as a guide for the guide part 3. On the guide part 3 on the one hand and on the upper part 9 on the other hand, a compression spring 10 is supported, which presses the mushroom button 1 against a stop 12 formed by a nut 11 screwed onto the upper part 9 into the operating position. In the upper part 9 pivot levers 13 are also pivotally mounted about an axis 14, which are pressed in the direction of the actuating plunger 6 by springs 15, which are supported on the one hand on the pivot levers 13 and on the other hand on the upper part 19. You work here with the projections 25 on the actuating plunger 6. The pivot levers have recesses 16, in which the projections 25 - left side of FIG. 1 - engage in the operating position and thus hold the actuating plunger in the upper position. The front sides 17 of the projections 25 rest against the edge of the recess 16. End faces 18 of the pivot levers 13 come into contact with the rear sides 19 of the projections 25 in the other position. In the lower part 18, which is firmly connected to the control panel 7 in a known manner, a further spring 20 is supported, which on the other hand rests on a plunger extension 21, which is connected to the actuating plunger 6 by a screw 22. This spring 20 normally causes the actuation of the switching element, not shown, via the plunger extension 21 as soon as the actuating plunger 6 has been released by the pivot levers 13. The switch-off process cannot be stopped when the compression spring 20 is intact and the contacts are not welded.

The following must be carried out for the function: In the left part of FIG. 1 the push button drive is shown in the operating position. If the mushroom button 1 is now moved towards the control panel, the inclined surfaces 23 of the sliding bush 5 come into contact with the pivot levers 13 and press them out of engagement with the projections 25 against the force of the springs 15, as can be seen in FIG. 2 . Here causes the spring 20 to advance the actuating plunger 6 in the switch-off direction, as a result of which the switch is actuated in normal operation. After reaching the position visible from the right side of FIG. 1, the pivot levers 13 are pivoted again in the direction of the actuating plunger 6, the end faces 18 of which come into engagement with the rear sides 19 of the projections 25, so that the actuating plunger cannot swing back. The mushroom button 1 then comes back into the position shown in FIG. 1. The guidance of the actuating plunger 6 in the mushroom button 1 is such that, if the spring 20 should be defective, the positive actuation is further ensured by appropriate stops. For this purpose, a cam 24 can be used, for example, which slides in a slot 26 of the actuating plunger 6 and, provided that the actuating plunger is not automatically capable of carrying out the switching, this cam 24 comes to rest against the edge 27 of the slot 26 and thus causes the switch-off. A lateral extension 28 of the slot can be used, for example, to return the actuating plunger 6 after turning the mushroom button relative to the actuating plunger 6, if this is desired. Otherwise, the actuating plunger can be retracted into the position shown in FIG. 1, left side, through the opening 29, which can also serve as a display opening for the push button drive, after the pivot levers have been brought into the position shown in FIG. 2 , ie mushroom button 1 and actuating plunger 6 are then returned equally.

Claims (6)

1. Push-button drive for pushbutton switches with a restoring force-loaded, longitudinally displaceable mushroom button, which can be brought into operative connection with an actuating plunger for the switch contacts, the actuating plunger having detachable locking means in the insertion and removal, characterized in that the actuating plunger (6) from the mushroom button ( 1) is spring-loaded (20) separately in the switching direction and a relative movement between the mushroom button (1) and the actuating plunger (6) to cancel at least one detent (16, 17) is possible and the operative connection between the mushroom button (1) and the actuating plunger (9) is only possible is present in the end area of the mushroom button path. 2. Push button drive according to claim 1, characterized in that the detent (16, 17) by housing-fixed, spring-loaded latch (13) which engage in recesses (16) or behind projections (17) in or on the actuating plunger (6) and through Inclined surfaces (23) on the mushroom button (1) can be lifted out. 3. Push button drive according to claim 2, characterized in that the bolts consist of swivel levers (13) which can be swung out by a sliding bushing (5) which engages around the mushroom button (1) and slides around the actuating plunger (6). 4. push-button drive after drive 3, characterized in that the pivot levers (13) have locking recesses (16) for engaging the front sides (17) of the projections (20) of the actuating plunger (6) in the operating position and the end faces (18) of the pivot levers ( 13) on the back (19) of the Projections (25) are coordinated so that the actuating plunger (6) can be locked in the off position. 5. Push button drive according to one of the preceding claims, characterized in that the end faces (18) of the pivot lever (13) and the rear sides (19) of the projections (25) are corrugated transversely to the pivoting direction of the pivot lever (13). 6. Push button drive according to one of the preceding claims, characterized in that the mushroom button (1) has an opening (29) on the front through which the actuating plunger (6) can be reached for switching on.

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