EP0333790A1

EP0333790A1 - Release mechanism for protective switches

Info

Publication number: EP0333790A1
Application number: EP88907595A
Authority: EP
Inventors: Herbert Wirth
Original assignee: Weber AG
Current assignee: Weber AG
Priority date: 1987-09-29
Filing date: 1988-09-20
Publication date: 1989-09-27
Also published as: WO1989003116A1; US4973931A; AU611951B2; AU2328288A

Abstract

Es wird eine Auslöseeinrichtung (1) für Schutzschalter mit einem thermisch beeinflussbaren, drahtförmigen Auslöseelement (4) vorgestellt, dessen eines Ende mit einem unter Federkraft stehenden, drehbar gelagerten Auslösehebel (3) befestigt, und dessen anderes Ende ortsfest fixiert ist. Die thermisch beeinflusste, laterale Bewegung am einen Ende des Auslöseelementes (4) bewirkt die Entriegelung des Schutzschalters. Am freien Ende des Auslösehebels (3) ist ein Verriegelungselement (11) vorgesehen, das mit einem Nocken (10) eines unter Federkraft stehenden Kontakthebels (2) derart in Eingriff steht, dass der Schutzschalter sowohl bei Kontraktion als bei Ausdehnung des Auslöseelementes (4) ausgeschaltet wird. Abstract A release mechanism (1) for protective switches has a temperature-sensitive release element (4) in the form of a wire, one end of which is fastened to a spring-loaded pivoting release lever (3), the other end being immovably fastened. The temperature-induced lateral movement at one end of release element (4) unlocks the protective switch. A locking element (11) at the free end of the release lever (3) engages with a catch (10) on a spring-loaded contact lever (2) in such a way that the protective switch is switched off when the release element (4) contacts as well as when it expands.A tripping device (1) for circuit breakers with a thermally influenceable, wire-shaped tripping element (4) is presented, one end of which is fastened with a spring-mounted, rotatably mounted tripping lever (3), and the other end of which is fixed in place. The thermally influenced, lateral movement at one end of the tripping element (4) unlocks the circuit breaker. At the free end of the release lever (3) there is a locking element (11) which engages with a cam (10) of a spring-loaded contact lever (2) in such a way that the circuit breaker both in contraction and when the release element (4) expands is turned off. Abstract A release mechanism (1) for protective switches has a temperature-sensitive release element (4) in the form of a wire, one end of which is fastened to a spring-loaded pivoting release lever (3), the other end being immovably fastened. The temperature-induced lateral movement at one end of release element (4) unlocks the protective switch. A locking element (11) at the free end of the release lever (3) engages with a catch (10) on a spring-loaded contact lever (2) in such a way that the protective switch is switched off when the release element ( 4) contacts as well as when it expands.

Description

Tripping device for circuit breakers

The invention relates to a tripping device for circuit breakers according to the preamble of claim 1. Such a tripping device is, for. B. known from CH-A-616270. There, a thermoelectric switch with a trigger element made of a shape memory alloy with a two-way effect is known. The switch has at least one tensioning device which interacts with the release element and whose force acting on the release element serves to determine the temperature of the switching operation. The trigger element takes on the double function of slowly and quickly responding trigger elements. In a special embodiment, the trigger element is a wire made of shape memory alloy (FIG. 7). The actual contact of the switch is operated via a complicated switching mechanism with several tension and compression springs.

The invention is based on the object of providing a tripping device for circuit breakers of the type mentioned above, the switching mechanism being particularly simple and the tripping element being able to be both a wire made of a shape memory alloy and a wire made of a thermally expanding metal. It should also be irrelevant whether a shape memory alloy is used after the one-way or two-way effect.

This object is achieved in a triggering device of the type mentioned above by the features of patent claim 1. The triggering device according to the invention has the great advantage that the triggering mechanism is particularly simple and enables triggering upon contraction as well as upon expansion of the wire-shaped triggering element. In a special embodiment according to claim 2, a compression spring is arranged between the release lever and a housing rib. As a result, the wire-shaped trigger element is always stretched. If, according to claim 3, a thermally expanding wire is used, then due to the reversible and reproducible thermal effect of the wire, a precisely determined thermally dependent length is specified. Even if a shape memory alloy - in particular with a branch effect - is used according to claim 4, the length depending on the temperature is always known. If in the above If the wire breaks due to careless handling, the circuit breaker is also triggered. If wires made of shape memory alloy are used as a trip element after the one-way effect, and if the circuit breaker is required to be switched on again after a fault, a stop in the housing is required. So that triggering in the event of wire breakage is nevertheless ensured, the intermediate lever with an additional compression spring according to claim 5 or the transmission element according to one of claims 6, 7 or 8 are provided.

Further advantages of the invention result from the following description. There, the invention is explained in more detail using an exemplary embodiment shown in the drawing. It shows:

1 shows a particularly simple embodiment of a tripping device for circuit breakers,

2 shows a release device with an intermediate lever and an additional compression spring,

3 shows a triggering device with a first variant of a transmission element, and

4 shows a triggering device with a second variant of a transmission element.

In the figures, the same reference numbers are used for the same elements.

In Fig. 1, the triggering device 1 of a circuit breaker is shown in detail. The structure of such a circuit breaker is known per se and can, for. B. from Swiss patent application No. 03 147 / 87-0. The triggering device 1 consists of a contact lever 2, a spring-loaded triggering lever 3 and a wire-shaped triggering element 4. The triggering element 4 is fixed in place with its end (not shown) and fastened to the triggering lever 3 with its other end. The trigger lever 3 is rotatably mounted on a connecting piece (only partially visible). A leaf spring 6 is fixedly connected to the connecting piece 5 and forms the actual contact of the circuit breaker with its other end. In the housing wall 7 of the circuit breaker a housing rib 8 in the form of an open rectangle (U-shape) attached. A compression spring 9 is arranged between the housing rib 8 and the release lever 3. The end of the contact lever 2 is bent at an angle and has a cam 10 on the back (shown in dashed lines). At the free end of the release lever 3, a locking element 11 is provided, which is formed by a projecting piece 12 of a bent part of the end (also shown in broken lines). The wire-shaped trigger element 4 can now be a thermally expanding metal wire, for. B., or a wire of a shape memory alloy, such as. B. is known from CH-A-616270.

The operation of the trigger device above is now as follows:

1. If the trigger element is a heat-expanding wire, the wire is heated by an overcurrent or a part thereof and expands. The locking element 11 slides with its projecting piece 12 from the cam 10, and the contact lever 2 jumps up due to the spring loading of the leaf spring 6: the contacts open.

2. If the trigger element is a wire of a shape memory alloy, the wire contracts in the event of an overcurrent (or part thereof) and the contact lever 2 is released again. The compression spring 9 is calculated so that there is a deformation of the wire 4 in the cold state. For this purpose, it is desirable to provide a stop (not shown here) in the housing on the right of the release lever 3. The force of the compression spring 9 is small enough that the contraction of the wire 4 is ensured when heated.

2 shows a triggering device 1 with an intermediate lever 13 and an additional compression spring 14, which is dimensioned weaker than the compression spring 9. The intermediate lever 13 is U-shaped and also rotatably mounted in the connecting piece 5 with one leg. The shoulder of the intermediate lever 13 is extended downward and is under the spring force of the compression spring 9 against a square stop 15 the housing wall 7. The other leg of the intermediate lever 13 stands on the release lever 3. The additional compression spring 14 is arranged between the shoulder of the intermediate lever 13 and the release lever 3. So that the greatest power transmission is given, the compression spring 14 is close to the other leg of the intermediate lever 13. It goes without saying that it can also be attached at another location.

This embodiment of the trigger device 1 is provided for wires of a shape memory alloy. In the event of an overcurrent, the mode of operation is the same as described above. Now breaks the wire due to careless handling of the circuit breaker - e.g. Drop - so the additional compression spring 14 pushes the release lever 3 to the right and the contact lever 2 is released.

3 shows another variant of the triggering device 1 with a transmission element 16 without an additional compression spring (cf. above). The transmission element 16 is also U-shaped, but here it lies under the pressure of the compression spring 9 on the release lever 3. The shoulder of the transmission element 16 is extended in half downwards with a bent guide part 17, which with the adjacent leg of the transmission element 16 is a pin 18 engages in the housing wall 7. In the event of overcurrent - or in the event of a short circuit - the transmission element 16 is connected as one piece to the release lever 3. The pin 18 serves as a guide for the transmission element 16. If the wire 4 made of a shape memory alloy breaks, the pin 18 is now the fulcrum for the transmission element 16, which rotates clockwise under the pressure of the compression spring 9, and the release lever 3 to the right presses. The contact lever 2 is thus released again.

4 shows another variant of the transmission element 16 of the triggering device 1. For the sake of simplicity, the contact lever 2 is omitted here. The transmission element 16 is essentially a rod-shaped plate, the upper end 19 of which is bent to the right and lies in a wide opening 20 (shown in broken lines) of the release lever 3. This opening 20 prevents the transmission element 16 from moving upward (ie from the Out of the drawing plane). The lower end of the transmission element 16 is provided with a guide cam 21 which projects into the plane of the drawing and which is guided in a guide slot 22 in the housing wall 7. The guide slot 22 is closed on the right with a stop pin 23. The width of the guide cam 21 is substantially smaller than the width of the guide slot 22, as a result of which the guide cam 21 can be rotated to a limited extent in the guide slot 22.

The operation of the trigger device 1 is as before. If the wire 4 now breaks, the transmission element 16 is rotated to the right by the pressure of the compression spring 9 about the stop pin 23, as a result of which the upper end 19 also rotates the release lever 3 to the right and the circuit breaker is triggered.

Claims

1. tripping device (1) for circuit breakers with a thermally influenceable, wire-shaped tripping element (4), one end of which is fastened with a spring-loaded, rotatably mounted tripping lever (3),

characterized in that

- The other end of the trigger element (4) is fixed in place and the thermally influenced, lateral movement at one end of the trigger element (4) causes the unlocking of the circuit breaker, and

- At the free end of the release lever (3) a locking element (11) is provided, which is in engagement with a cam (10) of a spring-loaded contact lever (2) in such a way that the circuit breaker both in contraction and when the release element (4 ) is switched off.

2. Tripping device (1) for circuit breaker according to claim 1, characterized in that a compression spring (9) between a housing rib (8) and the release lever (3) is arranged, which always stretches the release element (4), and that one end of the release element (4) is attached to the free end of the release lever (3).

3. tripping device (1) for circuit breaker according to claim 2, characterized in that the tripping element (4) is a thermally expanding wire or a fuse wire.

4. tripping device (1) for circuit breaker according to claim 2, characterized in that the tripping element (4) is a wire made of a shape memory alloy.

5. tripping device (1) for circuit breaker according to claim 4, characterized in that between the compression spring (9) and the release lever (3) a U-shaped intermediate lever (13) is provided, one leg of which is mounted near the release lever (3) and the other leg of which is on the release lever (3), that a stop (15) is provided in the housing, on which the intermediate lever (13) is supported with an extended part of its shoulder, and that an additional compression spring (14) between the intermediate lever (13) and the trigger lever (3) is arranged.

6. tripping device (1) for circuit breakers according to claim 4, characterized in that a transmission element (16) between the compression spring (9) and the trigger lever (3) is provided, which is supported against the trigger lever (3) and one-sided in the housing wall (7) is guided, and that a pin (18, 23) is provided which normally serves as a stop and which, in the event of a breakage of the trigger element (4), enables the transmission element (16) to rotate.

7. tripping device (1) for circuit breaker according to claim 6, characterized in that the transmission element (16) is U-shaped and its shoulder is extended in the region of the pin (18) with a bent guide part (17).