DE1266391B - Trip device for switches and relays - Google Patents

Description

Trip device for switches and relays The invention relates to on a trip device for switches and relays that counteract the action of return springs are locked in a switching position. They are tripping devices for switches and relays of the type specified are known in several embodiments, which are common is that the release force acts directly on the lock to the in the Usually designed as a lever locking member out of its locking position. For such a direct effect on the lock, one is proportionate great force is required because the lock is under the influence of its part The return spring of the switch or relay is at a standstill. Therefore organs are used for the release needed, which are able to develop a relatively great force.

Such powerful triggering means are generally insensitive. They also require a lot of effort, which is often not immediately is available. One has therefore primarily when using magnets for the implementation of the tripping special circuits applied to either the To use mains current for the excitation of the magnets, or to use an available weak one Amplify electricity. The difficulties that come with the use of powerful releasers are connected, experience an increase in the fact that one is in restoration the lock, d. H. when returning the switch or relay to the locked Switch position must overcome the counteraction of the triggering means. The invention on the other hand strives for a higher sensitivity of the release without making the Restoration of the locked switch position, whereby the triggering effect Force despite the initiation of the release by means of a weak release force practical can be chosen as large as desired.

The peculiarity of the release device according to the invention consists in that the movable release armature is a sensitive release organ less Performance and a constantly effective trigger magnet with greater force in the Assigned manner that the trip anchor is normally in sufficient Distance from the release magnet located so as not to be moved, however is in the effective range of the sensitive triggering organ that the The tripping armature approaches the tripping magnet.

The movable trip anchor can be used as a single or double lever or also be designed as a displaceable or pivotable member. As sensitive The trigger organ can be a heat-sensitive organ, e.g. B. a bimetal strip or a thermostat, can be used. It is also possible to use a sensitive to use weak electromagnets. The constantly effective tripping magnet can be an electromagnet. But you can also be completely independent of electricity and create tension by using a permanent magnet as a trip magnet. Permanent magnets are available as powerful magnets with small dimensions.

The movable trip anchor is expediently loaded by a spring, which counteracts the release forces acting on the release armature. Such Spring loading makes the release device against operational vibrations or shocks insensitive.

The device according to the invention is distinguished from known ones Arrangements characterized in that the triggering process in two consecutive times Processes is broken down, namely the initiation of the triggering with the aid of a sensitive small force and the termination of the trip using a of greater power by itself.

The trip device according to the invention can be thanks to its training perfect as an indirectly acting release device in that it is equipped with a Lock is combined, which automatically moves into the bolt position after each release tends to return and which by an actuated organ during the switching process is supplemented, which acts on the release device in such a way that the automatic Return of the lock in the locking position is enabled.

The invention accordingly recommends in its further training that the interlock, which interacts with the release device, consists of a or relay mechanism hinged ventilation lever, which the trigger armature after Once the release has taken place, it leads away from the powerful release magnet, and a left-hand lever mechanism consists, which is under the influence of springs in the locking position strives back and the ventilation lever serves as an abutment.

Such a design of the lock is expedient in the Form that the ventilation lever can be displaced transversely to the direction of movement of the release armature is and is equipped with a pox-shaped driver head, which is the trigger element displaced in terms of ventilation.

The subject matter of the invention will be explained in more detail using the exemplary embodiment shown in the drawing. In the drawing, F i g. 1 shows the schematic representation of a switch with the lock according to the invention in the closed state, FIG. 2 the switch according to FIG. 1 in the open state, FIG. 3 the locking and release mechanism in an intermediate position which is passed through during the transition from the closing position to the opening position, FIG. 4 shows a plan view of the locking and release device in the position according to FIG. 1, Fig. 5 is a plan view of the locking and release device at the moment of release. The switch according to FIG. 1 and 2 are in the current path leading from terminal 1 to terminal 2. The opening and closing of the flow path takes place with the help of a contact rocker 3, which - rests on the web 4 and can be pivoted with the help of the rocker switch 5. The rocker switch contains a spring 6 which acts on a ball 7 which in turn transmits the actuating force to the rocker contact 3. The rocker switch 5 is four-pivotable about the axis 8 provided with a sideways arm 9 on which the compression spring 10 acts so that it pushes the rocker switch 3 into the open switch position, or seeks to hold it in the same. The actuation of the rocker switch 5 when switching on takes place with the aid of a rocker arm 11, which sits on the axis 12. On the flank of the rocker arm 11 at 13 on the one hand a tension spring 14, the end of which is fixed at 15, and on the other hand a sickle-shaped lever 16 is connected. The lever 16 is connected at 17 to the arm 18 of a double lever pivotably mounted at 19, the other arm 20 of which carries a driver pin 21.

A ventilation lever 23 is articulated to the arm 9 in the joint 22. On the lever 23 there is a pock-shaped nose 24 with which the driver pin 21 of the double lever 18, 20 cooperates.

From the switch-off position according to FIG. 2, the switch is transferred to the on position according to Fi g.1 by pivoting the rocker arm 11 clockwise. The spring 14 is tensioned and the double lever 18, 20 is pivoted slightly in the clockwise direction. As a result, the driver 21 presses the lever 23 downwards, so that the rocker switch 5 is pivoted clockwise, the spring 10 is compressed and the rocker contact 3 is brought into the switched-on position.

The lever 23 is supported on its side facing away from the actuating mechanism by a lever 25 which is mounted at 26 and is under the influence of a helical or leg spring 27 acting in a clockwise direction. The lever 25 forms a locking mechanism with the lever 28. The lever 28 is mounted at 29 and is under the influence of a helical or leg spring 30 which tends to pivot it counterclockwise.

The release of the locking mechanism and thus the release of the switch takes place in that the lever 28 is pivoted clockwise. Lt releases the lever 25 so that the return springs 10 and 14 come into effect and can cause the switch to be switched off.

For tripping, i. H. for pivoting the lever 28 clockwise, a release device is attached, which essentially consists of a at 31 mounted and under the influence of a tension spring 32 double lever 33, a Electromagnet 34 of comparatively low: .Power and a powerful Permanent magnet 35 is made. The arrangement is made so that in the rest position according to FIG. 4 the air gap between lever 33 and permanent magnet 35 is so large that the magnet 35 is unable to pivot the lever 33 in the sense of triggering. In this rest state, the magnet 34 is ineffective, since its winding is not of Electricity flows through it. But when the magnet 34 is excited, it assists the until then insufficient effect of the magnet 35 and approaches the lever 33 Magnet 35. This increases the effectiveness of the latter, so that the lever 33 pivoted and the release is effected.

When the switch is subsequently switched over, the lever 23, which is equipped with a pock-shaped driver head 36, is shifted upward and penetrates through a window 37 provided on the lever 33. During this upward movement, the lever 23 is supported by the lever 25, see above that he is able to lift the lever 33 from the magnet 35 and the locking mechanism 25, 28 can take up its locking position again.

The next time the switch is switched on again, the Lever 23 moved downwards. Since the lever is now through the locking mechanism 28, 25 is rigidly supported, the pox-shaped head 36 causes an additional Pivoting and guiding the lever 33 away from the magnet 35, d. H. Restoration the starting position according to FIG. 4th

Claims (6)

Claims: 1. Trip device for switches and relays, the are locked against the action of return springs in a switching position, d a d u r c h g e - indicates that the movable trip armature (33) is a sensitive Trip device (34) low power and a constantly effective trip magnet (35) greater force are assigned in such a way that the release armature (33) normally at a sufficient distance from the release magnet (35), in order not to be moved, on the other hand in the effective area of the sensitive triggering element (34) is located, which when excited, the release armature (33) to the release magnet (35) approaching. 2. tripping device according to claim 1 :, characterized in that the Trip anchor (33) is under the influence of a spring (32), which is on the trip anchor (33) counteracts attacking triggering forces. 3. Release device according to claim 1 or 2, characterized in that the powerful release magnet (35) consists of a permanent magnet. 4. Trip device according to one of the claims 1 to 3, characterized in that the sensitive Aulöseorgan from a weak There is an electromagnet. 5. tripping device according to one of claims 1 to 4, characterized in that its locking consists of one to the switching or relay mechanism hinged release lever (23), which the release anchor (33) after release away from the powerful release magnet (35), and a ratchet lever mechanism (25, 28), which under the influence of springs (27, 30) in the locking position strives back and the ventilation lever (23) serves as an abutment. 6. Release device according to claim 5, characterized in that the release lever (23) is displaceable transversely to the direction of movement of the release armature (33) and is equipped with a cam-shaped driver head (36) which displaces the release armature (33) in the sense of ventilation. Documents considered: German Auslegeschrift No. 1037 567; German utility model No. 1776 083; Swiss Patent No. 123 584; Austrian Patent No. 166 860; British Patent Nos. 699 220, 606 055.