DE1051951B - Push-button overcurrent switch - Google Patents

Description

GERMAN

The invention relates to one provided with a thermal and / or magnetic release Pushbutton-operated overcurrent switch, the pivoting contact bridge of which consists of a bimetallic strip thermal release is held in the switch-on position. It is an overcurrent switch of this type known, in which the bimetal strip is attached directly to the spring-loaded push button. In the On position of the overcurrent switch, the bimetallic strip engages behind one end with a retaining lug designed as a two-armed lever contact bridge and presses one arranged at its other end Contact against a fixed contact, creating the circuit within the overcurrent switch is closed. When an overcurrent occurs, the bimetal strip penetrates so far that his retaining lug releases the contact bridge so that it is pivoted under the action of a helical spring and thus the contact located on the contact bridge is lifted from the fixed contact and the circuit is interrupted within the overcurrent switch. As soon as the bimetal strip cools down and the Overcurrent has subsided, the push button is pressed, whereby the retaining lug of the bimetal strip the engages behind the corresponding end of the contact bridge, so that the contact bridge when the push button is released under the action of the push button spring swiveled and the circuit within the overcurrent switch is closed. This known overcurrent switch has the disadvantage that by pressing the push button in the switched-on position of the contact bridge, the circuit at the two contacts is opened can. When the push button is pressed in, the retaining lug of the bimetallic strip attached to the push button becomes moved downwards so that the helical spring can pivot the contact bridge, whereby the contact of the contact bridge stands out from the fixed contact and the circuit within the Overcurrent switch interrupts. Does it happen with this known overcurrent switch that for any Basically the push button is jammed in the pushed-in state, then the two contacts are separated, so that the overcurrent switch as such is ineffective. This major disadvantage of the known Overcurrent switch is eliminated according to the invention in that the designed as an angle lever Contact bridge on approaches of a push button under spring pressure over a switching rod The rigidly coupled switching bridge can be freely pivoted and moved in the axial direction of the switching rod is stored and that the contact bridge when switching off the approaches against an oblique stop pressed and taken along by a driver of the switching bridge at its stop when switched on

Push button operated overcurrent switch

Applicant:

Ellenberger & Poensgen GmbH,
Altdorf near Nuremberg,
Hersbrucker Str. 400

Jakob Ellenberger ₁ Altdorf near Nuremberg has been named as the inventor

and is brought to snap into place behind a retaining lug of the bimetal strip.
In the overcurrent switch according to the invention, nothing can be changed even by repeated actuation of the push button on the switch-on position of the contact bridge, because in the switch-on position the stop of the contact bridge is no longer in the effective range of the driver of the switching bridge due to its pivoting. In the switched-off position, the contact bridge is pressed against an inclined stop by the lugs of the switching bridge, so that the stop of the contact bridge is in the area of the driver of the switching bridge at the start of the switch-on process. Even if the pushbutton is stuck in the pressed-in position, the contact bridge still remains in the switched-on position, which has once been assumed.

Furthermore, the overcurrent switch according to the invention has the advantage that the known push button spring for Production of the contact pressure is fully utilized. When the known overcurrent switch mentioned is Although the push button spring is also used to produce the contact pressure, this contact pressure is used reduced by the force of the helical spring that lifts the contact de contact bridge from fixed contact.

In the case of the overcurrent switch according to the invention, the trip-free operation is carried out in a simple manner by a spring reached, which acts on the contact bridge and is supported on the switching bridge. Through this training of the overcurrent switch according to the invention, tripping is also made possible when off for some reason the push button is stuck in the depressed position. As the push button spring then if the push button is stuck in the pushed-in position, cannot take effect, is to Triggering of the switch in this case the itself

80Ϊ 768ß89

The spring supporting the switching bridge is provided, which can be displaced in the axial direction on the switching rod pushes the contact bridge in the switch-off position.

In a further embodiment of the invention, the bimetal strip with a heating coil for indirect Provided heating, which when using a simultaneously arranged electromagnetic release with the winding for the coil of the electromagnet is in series. Here, the electromagnet is used for triggering of the overcurrent switch in the event of a short circuit.

In order to be able to adjust the bimetal strip to different response currents, it has a Approach on which the cone of an adjusting screw acts, thereby adding one more to the bimetallic strip or to give less bias.

According to an advantageous development of the invention, the switching bridge has a contact spring, those in the switch-on position and / or in the switch-off position, each with a pair of contacts for connecting signaling devices, e.g. B. signal lamps, is in contact. For example, can colored lamps are switched on in the signal circuits so that in the switched-on position of the Overcurrent switch z. B. a red lamp and in the off position z. B. a green lamp lights up. If the contact spring is in an intermediate position, it is not in any of the contact pairs Connection so that neither the red nor the green lamp lights up. To such an intermediate position To create, the bimetallic strip in a further embodiment of the invention over the retaining lug a another retaining lug, which holds the contact bridge in an intermediate position in which the angled Legs of the contact bridge places with its contact against a projection of the housing. In this Position, the switching contacts are separated from each other.

In a further embodiment of the overcurrent switch according to the invention, the driver and therefore the contact bridge supported at its approaches by the contact spring carried by the switching bridge electrically isolated in a simple manner by insulating bushes.

The overcurrent switch according to the invention has the further advantage that it is a space-saving construction allows, so that this overcurrent switch can be made very narrow. To this advantage The bimetallic strip between the magnetic coil for the electromagnetic coil can still be used Trigger and the contact bridge arranged. The magnetic core advantageously has at its end located outside of the coil has a slot in which a stored in the housing, the disengagement of the bimetallic strip causing angle lever is performed, on which a manually operable Release button can act. This arrangement makes it possible to trigger a trip in any case, to be achieved either electromagnetically or thermally or by hand.

A particularly simple assembly of the overcurrent switch results if, according to a further development of the invention in at least one of the halves of the longitudinally divided housing projections, strips and bores are formed, which serve as stops or guides for the individual switch parts.

The invention is illustrated in the drawing, for example. It shows

1 shows a switch with the housing half removed in the switched-off position,

Fig. 2 shows a section along the line II-II of Fig. 1, but with the complete housing,

3 shows a view according to FIG. 1, but in the switched-on position,

4 shows a view according to FIG. 1 in the neutral position,

Fig. 5 is a section along the line V-V of Fig. 4 with both housing halves,

6 shows a schematic representation of the switch ίο in the switched-on state,

7 shows a switch in use without electromagnets and

8 shows a housing half.

In Figs. 1 to 6, the inventive concept is shown on an automatic switch, which is in a flat Housing is housed and in which the triggering of the switching process on both electromagnetic as well as by thermal means.

The housing in which the switch is accommodated consists of the two parts 1 and 2. In the upper part 3 of the housing, the push button 4 is guided with its extension 5 in a bore 6. The switching rod 7 is surrounded by a spring 8 which tries to push the push button 4 into the off position. Via the switching rod 7 , the push button 4 is now connected to a switching bridge 9 made of insulating material, on which a driver part 10 is attached. The part 10 has on its two sides lugs 11, on the upper edge 12 of which an angle lever consisting of the two arms 13 and 14 is movably mounted. This angle lever has an extension 15 which, as FIG. 1 shows, can be taken along by the driver part 10 when the switching bridge 9 is pressed down.

The angle lever 13, 14 is under the action of a spring 16. The angle lever has the contact point 17, which cooperates with the counter- contact 18 , which is guided at 19 to the outside. Further, the conductive material composed of contact bridge 13, 14, a further contact point 20 with which they can lie down in the state shown in Fig. 3 is switched under the nose 21, which is attached to a bimetal strip 22 has. This bimetal strip has a further retaining lug 53 of the angle lever 13,14 which, as Fig. 4 shows the contact bridge holding in an intermediate position. Furthermore, a U- shaped contact spring 54 is provided on the insulated switching bridge which comes into contact with the contact pair 23 or with the contact pair 24 depending on the position of the switching bridge 9. These are led to the outside at 25 and 26, respectively. The bridge 9 and the contact spring 54 are each isolated by corresponding sockets 49, 50.

The bimetal strip 22 also has a heating winding 27 which, as FIG. 6 shows, merges into the winding 28 of a magnet system 29. The core 30 of the magnet system has a slot 31 at its upper end, into which a projection 32 of an angle lever 33 , which is mounted at 34, can engage. The release button 35 acts on a lateral tab 48 attached to the angle lever 33 . This angle lever 33 is coupled to the bimetal strip 22 , so that when it is moved, the bimetal strip is bent out in the same way as is the case with overcurrent heating. This ensures that the bimetallic strip is actuated both by the magnetic core and by the release button 35 .

In order to be able to set the response current in the simplest possible way, a projection 36 is also provided on the bimetallic strip 22 , onto which the tip of the cone

Claims (4)

37 acts of a screw 38, which is guided at 39 and can be operated from the outside. The winding 28 is led to the outside at 40 and is in series with the heating winding 27 of the bimetallic strip 22 and the contact bridge 13, 14. The connections 25, 26 are used to connect signal devices such. B. of lamps. In the embodiment shown in FIG. 7, only the electromagnetic release 28, 29 is missing. Otherwise, the design is the same as in FIGS. 1 to 6. The effect of the switch is as follows: In the one shown in FIGS In the switched-on position, the current flows from the connection 19 via the contacts 18, 17, the contact bridge 13, 14, the nose 21, the bimetallic strip 22, the heating winding 27 and the magnetic coil winding 28 to the connection point 40. Not applicable, as shown in FIG. the magnetic part of the switch, the connection is made at point 40 '. In this case, as indicated in phantom in FIG. 6, the bimetallic strip 22 can be heated directly. In this switched-on state, the two contacts 24 are also connected to one another via the contact spring 54, so that a signal circuit applied to the terminals 26 is closed. If a small overcurrent flows through the switch, the bimetallic strip 22 responds in a known manner. The nose 21 slips off the contact point 20. Under the action of the spring 8, the switching bridge 9 snaps upwards into the position shown in FIG. 1. The contact bridge 13, 14 swings around the support points 12 into the position shown in FIG. 1, the upper part 13 resting against the inclined surface 41. The two contacts 17, 18 are also lifted from one another, so that there is a double interruption. The same process occurs when the magnet system 28, 29 responds in the event of sudden overcurrents. When the armature 30 is tightened, the angle lever 33 is pivoted and bends the bimetallic strip 22 via the driver part 42 in exactly the same way as would be the case under the effect of the overcurrent flowing through the heating winding 27. In this way, too, the switch comes to the position shown in FIG. 1. In the switch-off position, the contacts 23 are connected to one another via the bridge 54, so that a signal circuit connected to the terminals 25 is made to respond. In the signal circuits z. B. colored lamps are switched on, so that in the switched-on position of the overcurrent switch z. B. a red lamp and in the off position z. B. a green lamp lights up. If the contact bridge 13, 14 is held by the retaining lug 53 of the bimetal strip 22 in an intermediate position in which the contact spring 54 is not connected to either of the two contact pairs 25 or 26, then neither the red nor the green lamp lights up. If the overcurrent switch was triggered either electromagnetically or thermally, the green lamp lights up, which indicates to the person operating the system that the switch has responded. As a sign that the operator is responding, i. H. has recognized the release of the switch contacts, he pushes the push button 4 into the housing until the upper edge of the projection 5 intersects with the upper edge 6. Through this movement, with the help of the driver part 10, the contact bridge 13, 14 is carried along at its stop 15 so far that its contact 20 passes the retaining lug 53, so that after releasing the push button 4, the spring 9 tries to push the push button 4 up. This movement is stopped by the fact that the contact 20 lies against the retaining lug 53 of the bimetallic strip 22, which has since cooled down, and the lugs 11 of the driver part 10 move the contact bridge 13, 14 from the inclined position shown in FIG. 1 into the position shown in FIG pivot about the retaining lug 53, which acts as a pivot point for the contact bridge 13, 14. In this position according to FIG. 4, the contact 17 rests on the projection 43 of the housing. As already mentioned above, the bracket 54 assumes a central position between the contacts 23, 24 in which the signal circuits are open and neither the green nor the red lamp lights up. As a result, the person monitoring the switchgear is made aware that the switch has responded, but that this response has already been recognized by the operator of the switchgear. Since the circuit within the overcurrent switch is open in this intermediate position of the contact bridge 13, 14 according to FIG. 4, pivoting of the bimetallic strip 22 cannot be achieved by magnetic or thermal tripping. The contact bridge 13, 14 blocked by the retaining lug 53 can only be released by actuating the release button 35. If it happens that the push button 4 is jammed in the depressed position, then the push button spring 8 is ineffective by this jamming. In this case, when the bimetal strip 22 is bent and the contact bridge 13, 14 is released, the spring 16 pushes the contact bridge 13, 14 into the switched-off position, whereby the circuit within the overcurrent switch is interrupted. PATENT CLAIMS: 1. With a thermal and / or magnetic release provided pushbutton-operated overcurrent switch, the pivotable contact bridge of the bimetallic strip of the tibermischen release is held in the switched-on position, characterized in that the contact bridge designed as an angle lever (13,14) on lugs (11) one with the spring-loaded push button (4) via a switching rod (7) rigidly coupled switching bridge (9) is freely pivotable and displaceable in the axial direction of the switching rod (7) and that the contact bridge (13, 14) when switched off from the lugs (11) against a Sohrägelschlag (41) pressed and. when switching on bucket drivers (IO) of the switching bridge (9) is carried along at its stop (15) and is brought to engage behind a retaining lug (21) of the bimetallic strip (22) . 2. Overcurrent switch according to claim 1, characterized in that the contact bridge (13, 14) is under the action of a spring (16) which is supported on the switching bridge (9) . 3. Übercomsohalter according to claim 1 and 2, characterized in that the bimetallic strip (22) is provided with a heating winding (27) for indirect heating, which when using a simultaneously arranged electromagnetic release with the winding for the coil (28) of the electromagnet ( 29) is in series. 4. Overcurrent switch according to claim 1 to 3, characterized in that the bimetal strip (22) has an approach (36) on which the cone