DE1042311B - Device for drives, especially actuators for throttle flaps, valves, locks and the like. like - Google Patents

Description

Device for drives, in particular actuators for throttle valves, Valves, locks and the like. The drive of actuators, for example of Drives for throttle flaps, valves, locks and the like, should be exceeded if a certain force exerted on the drive, i.e. when one is exceeded torque output by the motor, are switched off, so in the entire system no parts are damaged if the consumer, for example the valve flap, occasionally gets stuck. Monitoring the torque delivered by the engine is often done by a so-called evasive worm, i.e. by a worm drive, in which the worm counteracts when a certain torque is exceeded can evade a restoring force to one side or the other. The evasion the screw then forms the criterion for switching off the drive motor.

With these drives, especially with those all the torque is relatively low, it is undesirable that after switching off the engine whose kinetic energy is still transferred to the consumer. It is therefore it has already been proposed to disengage the drive at the same time as it is switched off, so that it can coast to a halt without losing its kinetic energy is transmitted.

The invention relates to a device for drives, in particular Actuators for throttle flaps, valves, locks and the like, consisting of one Drive motor, which is driven by a friction clutch, preferably a multi-disc clutch, and a worm drive on the output works in such a way that when exceeded a predetermined torque by the wandering of the worm, the clutch is released and the engine is switched off. The invention is characterized in that between the spring-loaded ones guided out of the coupling half in the radial direction End plates an axially immovable stop engages and the coupling half wears a ring between the end lamellas, which when the with the Coupling half places on the shaft connected worm against one of the end plates and disengages the clutch by moving the worm further.

For certain drive shafts it is essential that the coupling also is not resolved in the event of overload. In order to record this operational case, the Stop designed according to a development of the invention so that it off the area of the end lamellas, e.g. B. by an electromagnet, is removable. This ensures that, in the event of an overload, the worm migrates, the clutch but is able to follow this movement without moving out. This operational case can be given, for example, if the organ to be moved is stuck in an end position is that it is only exaggerated by using one, even if it is only effective for a short time Moments can be removed from this location. The operation of removing the stop Electromagnet can be done by controlling travel-dependent limit switches. In in this case only the. anyway provided motor protection switch against the motor Protect overload.

Details of the invention and their functional relationship are explained using the exemplary embodiment shown in the drawing: The locking slide 1, which via the bevel gear 2 of the worm gear 3 and the clutch 4 is driven by the motor 5, actuated in its end positions the two limit switches 6 and 7. These limit switches each switch in one direction of rotation the motor from the mains, so that it is, for example, with the slide closed 1 it is no longer possible to switch on the motor in the sense of a further »close« movement. The worm 3, which is firmly attached to the shaft 8, is via this shaft 8 with loaded on the springs 9 and 10, which keep them in the central position. When exceeded a certain torque, the force of the springs is overcome, so that the worm 3 can emigrate in one direction or another. By emigrating the The limit switches 11 and 12 are actuated by worm 3 and thus also of shaft 8 and the clutch 4 released. The clutch 4 consists of one with the drive shaft 8 rigidly connected housing 13, in the guide cylinder 14 of which the outer lamellae 15 of the clutch 4 are performed. Engages in the housing 13 the drive shaft 16 with the inner clutch plates 17. The one for the transmission of a torque The necessary pressure on the lamellae 15 and 17 is provided by the springs 18 and 19 upset. These springs engage axially movable springs with a force fit with the cylinder 14 connected thrust washers 20 and 21. The pressure washers 20 and 21 are with the End lamellae 22 elongated in the radial direction are rigidly connected. In the area between the end lamellas 22, a rigidly fastened ring 23 is arranged on the cylinder 44. Furthermore, a stop 24 engaging between the pressure disks 20 and 21 is provided.

Fig. 2 shows the same arrangement with the only difference that the stops 24 are connected to an electromagnet 25. Becomes this electromagnet 25 is excited, the associated stop 24 is removed from the area between the thrust washers 20 and 21 deducted. The excitation of the electromagnet can be done arbitrarily to be operated switch, but it can also be done depending on the location the organ to be moved, e.g. B. can be controlled by limit switches.

Fig. 3 shows the coupling 4 in a section. Same parts are provided with the same reference numerals. It can be seen that the outer lamellae 15 engage with nose-shaped projections in slots of the guide cylinder 14, so that the slats can be moved in the axial direction, but against each other are not able to exert any rotational movement. The end lamellas are extended radially, so that they protrude beyond the ring 23.

The operation of the device according to the invention results as follows: In the position shown in FIG. 1, the springs 18 and 19 the lamellae 15 and 17 pressed together, so that there is a power flow from the motor 5 via the shaft 16, the clutch 4, the worm gear 3 and the bevel gear 2 on a locking slide 1 results. If the gate valve runs into its end position, the motor is switched off by one of the limit switches 6 or 7. Because the engine still has a certain kinetic energy, it will continue to rotate in the running direction and against an increased torque given by the end position of the slide start up. To prevent overstressing of the device, the shaft is 8 mounted movably in the axial direction. The shaft is due to the rotary motion of the motor now in one direction or the other against the force of the springs 9 or 10 postponed. With the shaft 8, however, the clutch 4 is also in the axial direction postponed. Since the stops 24 remain rigid in the room, after one relatively short distance either the disc 20 or the disc 21 against the stop 24 run. Because one of the two discs is now held back while the clutch housing If you emigrate even further, the lamellae 15 and 17 are detached from each other, the drive 5 so separated from the output. However, the clutch is not released completely, but zero in a corresponding to the torque to be transmitted Dimensions. The clutch plates are therefore usually when the Motor 5 to transmit a certain torque in the opposite direction capital. If this torque is not sufficient, turn slide 1 in the opposite direction to move, as indicated in Fig. 2, the stop 24 can be removed will. After the stop 24 is withdrawn, the clutch is available for the transmission of the full torque available. As already indicated, peeling off the Stops 24 controlled automatically with the aid of corresponding limit switches 11 and 12 will.

The invention can be modified in various ways. So is it is also possible, for example, to additionally engage a locking device on the shaft 8 to leave, so that this can not evade in certain operating cases and thus the clutch is not released.

Claims (2)

PATENT CLAIMS: 1. Device for drives, in particular actuators for throttle flaps, valves, locks, etc., ordering from a drive motor, the tiber has a friction clutch, preferably a multi-disc clutch, and a worm drive on the output works in such a way that when overreach part of a predetermined torque the clutch is released and the motor is switched off when the worm migrates, characterized in that between the in the radial direction from the coupling half (13) brought out.i spring-loaded end lamellas (22) an axially non-movable Stop (24) engages and the coupling half (13) between the end plates (22) carries a ring (23), which is attached to the coupling half (13) when the via the shaft (8) connected screw (3) against one of the end lamellae (22) and the clutch (4) disengages as the worm (3) moves further. 2. Device according to claim 1, characterized in that the stop (24) in the radial direction preferably by exciting an electromagnet (25) from the area of the end lamellas (22) or their associated pressure disks (20, 21) - can be removed. Into consideration Drawn pamphlets: German patents No. 296 827, 326 861, 528 107, 615 141, 620 564, 644 598; Swiss patent specification 291 299.