DE460942C - Overcurrent quick disconnect switch with a switch lever that can be moved into the disconnected position by a tear-off magnet - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
June 9, 1928

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21c GROUP

Patented in the German Empire on January 22, 1927.

^{The subject matter of the invention is an overcurrent quick-release switch that} is under the action of a tear-off magnet and that interrupts the circuit to be protected particularly quickly in the event of a short circuit, while it switches off more slowly if the current increases less rapidly and overloads for a short time. This is achieved according to the invention in that the fulcrum of the switching lever which can be transferred into the switched-off position by the tear-off magnet is displaceable transversely to its longitudinal extension in the plane of oscillation of the switching lever. This arrangement enables a disconnection movement under the action of the tear-off magnet even if the shift lever is held by a mechanical or magnetic device at a point remote from its pivot point.

In the drawing, the subject matter of the invention is based on several exemplary embodiments explained schematically:

In the arrangement according to Fig. 1, which shows the switch in the open state, engages at the upper end of the shift lever 1 a switch-off spring 2 and at a slightly lower end Points of the shift lever with an elongated hole 4 a tear-off magnet 3, the coil 5 of which with the horn contacts 6, 7 formed interruption point of the main circuit is connected in series. Of the Shift lever 1 is provided with a mechanical retaining device at its lower end, by a pawl 9 under the action of a spring 8 and one of the spring 8 counteracting tripping magnets 11 which can be excited by a main current coil 10 is formed. The one between the point of application of the tear-off magnet 3 and the lower one Shift lever end lying pivot point 12 of the shift lever is not rigidly mounted, but designed so that it acts in the direction of arrow 13 by an attacking it Force counter to the action of a spring 14 in the direction of opening transversely to the longitudinal extension the shift lever can be moved in the plane of vibration. The spring 14 is dimensioned so that when the tear-off magnet 3 is not energized, it closes the force of the opening spring 2 overcome and able to bring the switch lever 1 into the closed position of the switch. Between the opening spring 2 and the tear-off magnet 3 on the one hand and the lower end of the shift lever 1 and the spring 14 on the other hand is still a solid, the Movement of the shift lever 1 limiting stop 15 or 16 attached.

The switch described works as follows: Should the shift lever 1 from the one shown

*) The patent seeker stated as the 'inventor':

Frit \ Rampacher in Berlin-Charloltenburg.

The open position can be converted into the position corresponding to the closed position of the switch, so one causes first by the force 13 such a tension of the spring 14 that the pawl 9, under the action of the spring 8, engages with the lower end of the shift lever 1 latches and thereby holds it in place. If the force 13 is now reduced, it is shortened the aforementioned spring 14 and pulls the shift lever 1 against the action of the Switch-off spring 2 in its switched-on position, the pivot point 12 of the switching lever moves against the direction of arrow 13. A concern of the shift lever 1 on one of the two stops 15, 16 takes place in the closed State of the switch does not take place.

If a current of normal strength flows through the switch, the coils 5 and 10, the tear-off magnet 3 and the release magnet 11 are excited, but without any movement the shift lever 1 to be able to bring about. Only when the current strength in the interrupted Circuits exceed the allowable value, the excitation of the trip coil 10 so strong that - possibly with one by any not shown Device of known type induced adjustable delay - the Latching is released, whereupon the switch is under the action of the opening spring 2 opens. The tear-off magnet 3 generally does not change its position. Only when a current of short-circuit strength occurs, he is so strongly excited by his coil 5 that he immediately and with the switch maximum speed opens. This quick disconnection effect is independent of whether the trip coil 10 has already worked and thereby the latching is canceled or not. If the shift lever 1 at the moment of the occurrence of a short-circuit current still held by the retaining device 8, 9, 10, 11, so has the combined effect of the tear-off magnet 3 and the opening spring 2 causing the switch to open Displacement of the pivot point 12 in the direction of arrow 13 and the tension of the Spring 14 result, which is omitted in the other case.

As long as the short circuit exists, the switch remains open under the action of the coil 5 of the tear-off magnet 3. Meanwhile, also dissolved under the influence of the trip coil 10, the latch, and dex Sehalthebel 1 now returns to the position shown in Fig. 1 the open position, in which it is pressed by the springs 2 and 14 against the stops 15 and 16.

In Fig. 2 there is a slightly different type of magnetic release of the retaining device Illustrates, with the rest of the same design of the switch, This is where it works the pawl 17 engaging spring 18 a Holding coil 19 opposite, the circuit of which is interrupted by a hopper 20 as soon as whose magnet winding 21 is traversed by an overcurrent.

In Fig. 3, in contrast to the previously described ones, there is a purely magnetic retaining device shown. In this, the magnet 23 provided with a holding coil 22 is designed so that it has one at the end of the shift lever 24 articulated armature 25 is able to hold until the occurrence of Overcurrent. In the release coil 27, the circuit of the holding coil 22 through the hopper 26 is interrupted.

A slightly different one, also provided with a purely magnetic retaining device Exemplary embodiment of the subject matter of the invention is illustrated by Figs. 4 and 5, namely Fig. 4 shows the switch in the closed position, Fig. 5 in the open position, it being assumed that the Disconnection not by a short-circuit type, but by an ordinary, d. H. slowly increasing overcurrent has been brought about. In Figs. 4 and 5 means 31 the movable switching lever, 32 the opening spring, 33 the core, 34 the armature and 35 the release coil of the tear-off magnet through which the main current flows, and also 36 the core, 37 the armature and 38 the coil of the holding magnet, which is fed from a battery 39 and 40 one located in its excitation circuit, from a main current release coil 41 influenced hoppers, 42 those acting in the movable pivot point of the shift lever 31 Spring and 43, 44 the two stops limiting the movement of the shift lever. Of these, the stop 44 is designed to be movable and rigidly connected to a piston 46 displaceable in a cylinder 45, against the pressure of a spring 47 by means of an opening 48 in the cover of the cylinder 45 incoming compressed air can be controlled. The armature 34 of the tear-off magnet is provided with an extension 49, which takes effect when the switch is open a spring 50 is supported against a stop 51 and two in the excitation circuits of the Holding coil 38 lying contacts 52, 53 bridged. Be in a corresponding manner by an extension 54 of the holding magnet armature 37 two with the contact pair 52, 53 Contacts 55, 56 lying in series are bridged when the armature 37 is attracted. Another, connected in parallel to the two in series contact pairs 52, 53 and 55, 56 Interruption point 57, 58 can be bridged by a contact 59, which is connected to the as Movable piston rod

4 (W)

Beat 44 is attached "." "" It should be noted that the point of application of the spring 42 on Switch lever 31 and the with the switch open (Fig. 5) against the movable stop applied pivot point of the switch 31 is not in reality, as shown in Fig. 4 and 5, one above the other, but lie next to one another or coincide in a horizontal plane. The different representation has only been chosen for the sake of greater clarity.

Are all parts of the described optical switch in the one shown in Fig. 4 Position in which the horn contacts 60 and 61 touch, so flows in the main circuit a current in the sense of the arrows, which, as long as it does not exceed the normal strength, the coils 35 and 41 only so weakly excited that the anchor 34 and the hopper 40 do not change their position. A second Current flows from the battery 39 via the holding coil 38 ,. the contact pairs 55, 56 and 52, 53 and via the interruption point that can be bridged by the hopper 40 and stops the anchor 37 of the retaining device 36 in the position shown. Now step in Main circuits an excessively strong, but not short-circuit-like current, so will the hopper 40 is raised, so the circuit of the holding coil 38 is de-energized. Under the action of the spring 32 and 42, therefore, the switching lever 31 goes into the opening position shown over, wherein the circuit of the holding coil 38 in the contacts 55, 56 is interrupted will. At the same time, the hopper 40 returns, since its release coil 41 has become de-energized is back to its rest position. To close switch 60, compressed air is which passes through the opening 48 of the cylinder 45 behind the piston 46, the stop 44 moved so that the switching lever 31 together with the armature 37 of the holding magnet and its extension 54 reaches the position shown in Fig. 4 again. There is a corresponding Tension of springs 32 and 47 takes place. If a short-circuit-like overcurrent occurs, the tripping coil 35 of the tear-off magnet becomes so strongly excited that it attracts its armature 34 at great speed and thereby opens the switch, still before the retaining device has time to release the lower end of the shift lever 31. This only happens as a result of the response of the hopper 40 or as a result of the movement of the armature 34 at the contacts 52, 53 caused a current investigation in the holding circuit. The switch now remains open under the action of springs 32 and 42, even if the short circuit has meanwhile existed has stopped. The holding circuit remains even after the holding magnetizer is reapplied 37 interrupted until when the switch is closed by application By means of compressed air, the contact 59 attached to the movable stop 44 is the point of interruption 57, 58 bridged. This bridging is only canceled again when the shift lever 31 is in the position shown in FIG Closed position.

It is of course not necessary to place the pivot point of the shift lever 31 between the point of application of the armature 34 of the tear-off magnet and that of the armature 37 of the retaining device. He could e.g. B. also above the point of application of the armature 34-lie. It has been shown, however, that the embodiment shown in FIGS. 4 and 5 with a pivot point in the middle results in ^{a particularly advantageous overall arrangement 1.}

When measuring the tensile force of the spring you have it in your hand, this in such a way Relation to the attraction of the holding magnet to bring that the spring the holding magnet armature either when energized or able to tear off only when the holding coil 38 is de-energized. As particularly functional and reliable the last-mentioned embodiment has proven itself.

Claims (11)

90 claims: 1. Overcurrent - quick switch with a breakaway magnet in the "Switch-off position transferable switch lever, characterized in that the switch lever pivot point (12) is in the plane of oscillation of the shift lever (1) is displaceable transversely to its longitudinal extension. 2. Overcurrent quick disconnect switch according to claim r, characterized by an am Shift lever (1) at its pivot point (12) engaging spring (14), which is in a displacement taking place in the same direction as the action of the tear-off magnet (3) of the shift lever pivot point is tensioned. 3. Overcurrent quick disconnector according to claim 1 or 2, characterized in that that part of the shift lever (1) in the on position by a mechanical (8, 9) or magnetic (17, 19 or 23, 25) device that is only under tension of the spring acting on the shift lever pivot point (12) (14) in their position corresponding to the closed position of the switch is. 4. Overcurrent quick disconnector according to claim 3 with magnetic retaining device, characterized by such a ratio of attraction 'of the holding magnet (23) to the tensile force of the in the shift lever pivot point (12) engaging spring (14) that this spring also at strong tension is not able to tear off the armature of the holding magnet as long as the holding solenoid is carrying current. 5. Overcurrent quick disconnector after Claim 3, characterized in that the retaining device by a below ίο the influence of a release magnet (11) standing, resilient pawl (9) is formed, which at a predetermined strength of the current to be interrupted releases the switch lever (1). 6. Overcurrent quick disconnector according to claim 3 to 5, characterized in that that the retaining device contains a voltage coil whose Strpmkreis when an overcurrent occurs in the main circuit - e.g. B. by a hopper (40) - is automatically interrupted. 7. Overcurrent quick disconnect switch according to claim 6, characterized in that the circuit of the voltage coil via an auxiliary contact pair (52, 53) that can be bridged by the armature of the breakaway magnet is led. 8. Overcurrent quick disconnector after Claim 7, characterized in that parallel to that by the armature of the tear-off magnet bridgeable auxiliary contact pair (52j 53) has an interruption point (57, 58), which is caused by a Transferring the switching lever into the position corresponding to the closed position of the retaining device and moving the contact (59) can be bridged. 9. Overcurrent quick disconnect switch according to claim 7 or 8, characterized in that that with the armature of the tear-off magnet associated auxiliary contact pair (52, 53) another armature of the Holding device associated auxiliary contact pair (55, 56) connected in series is. 10. Overcurrent quick disconnect switch according to claim 1 to 9, characterized in that that the movable pivot point of the shift lever between the points of application of the tear-off magnet armature and the Retaining device lies. ' 11. Overcurrent quick disconnector after Claims 1 to 10, characterized by one acting on the shift lever, in the same direction opening spring (2 or 32) acting with the breakaway magnet. 1 sheet of drawings.