DE875681C - Automatic switch with manual switching and overcurrent release - Google Patents

Description

Automatic switch with manual switching and overcurrent release The invention relates to an automatic switch with manual switching and overcurrent release, which characterized by an extremely flat structure of the Schaltiriechanismus. The auto switch has a knee joint that has a snap on one end and a snap on the other End is hinged to a switching element. According to the invention is the knee of the knee joint in an elongated hole of a slide which can be moved transversely to the direction of extension of the knee joint out, which is under the action of a switching spring and by an automatic triggering device is lockable. The push button is in its subscript in a manner known per se contrary to the action of a lifting spring by one that can be controlled by hand or the slider Latch held. The switching mechanism is suitable due to its flat design according to the invention for the training of the self-switch. as a series automatic switch, which are arranged close to one another in large numbers with the greatest possible utilization of space.

An exemplary embodiment of the invention is shown in the drawing.

Fig. I shows a side view of the circuit breaker; Fig. -2 to -1 show the mechanism disclosed in three different switching positions; Figures - and 6 show further details.

With r, 2 are two flat insulating plates, z. B. made of molded material, referred to, which are placed close together and z. B. by hollow rivets 3 together are connected. The individual parts of the switch are located between the insulating plates inserted. For this purpose, the insulating panels are equipped with a huge Number of recesses 4 provided in which the individual parts of the switch are stationary stored or slidably guided (Fig. 5). On the narrow face of the The switch-on pushbutton 5 is located in the switching chamber so that it is slidable 6, which is provided with exhaust ducts 7 leading to the outside, is located the movable Schaltorgän 8, which acts as a contact bridge with the resilient stationary Counter contacts 9, io cooperates. Between the push button 5 and the movable one Contact bridge 8 two knee joints i i, 12 arranged parallel to one another are provided, by articulating their ends with the push button 5 and the: movable contact bridge 8 are connected. The push button 5 is under the action of a strong lifting spring 13, which is supported on the stationary part 14. At the knee of the knee joint is a slide 15 is articulated, which is movable transversely to the extension direction of the knee joints is. The knee of the knee joint is guided in elongated holes 16 of the slide 15. Of the The slide is under the action of a switching spring 17 which is supported on the part 18 and weaker than the lifting spring 13. ig is a three-armed resilient latch, one arm 2o with a projection 2i of the push button 5, the other arm 22 with the release rod 23 and its third arm 24 with a surface 25 of the slide 15 interact.

The slide 15 is operated by an automatic triggering element bent bimetallic strip 26 held in its locking position. Appropriate the bimetallic strip (Fig. 6) is provided with a resilient angled tongue 27. The bimetallic strip 26 is by an adjusting screw 28 on a certain Trigger value adjustable. It is indirectly heated by a heating cartridge 29. the The heating cartridge 29 is from the narrow face on which the push button 5 is located, in. the bimetallic strip can be used. For closing the insert opening and securing it the position of the heating cartridge in the bimetal strip is one on the narrow side the screw cap located 3o of the insulating material. The heating cartridge 29 is in the main circuit. This main circuit runs from the connection point 31 over the line 32, -. the contacts 9, 8, io, the line 33, the heating cartridge 29, .the Line 33 'to connection point 34.

In addition to the main switch, which is formed by the contacts 8, 9, io, an auxiliary switch is provided in the automatic switch. This auxiliary switch is located in the switching chamber 35 and has a movable contact 36 and two stationary mating contacts 37, 3-8. The contacts 36, 37, 38 include connection points 36 ', 37', 38 '. The movable contact 36 of the auxiliary switch is controlled by a movable Isol.ierstofftrennwand 39, which is located between the stationary contacts 9, 1o of the main switch and interacts with the movable contact bridge 8 of the main switch. The Isoliers.tofftrennwand 39 at the same time prevents the arcs from striking the stationary contacts 9, io of the main switch when switching. The circuit breaker according to the invention has the following mode of operation: In FIG. 2, the circuit breaker is shown in the off position. The lifting spring 13 let the push button 5 emerge from the insulating material and brought the two knee joints ii, i 2 into the extended position. The switching spring 17 is compressed. The slide 15 is supported on the angled resilient tongue 27 of the bimetallic strip. As a result, the path for the slide 15 is blocked. The movable contact bridge 8 of the main switch is not in contact with the stationary mating contacts g, io. The movable contact part 36 of the auxiliary switch touches the stationary mating contact 37 and indicates the switched-off state of the automatic switch via a control line.

If the push button 5 is pressed in, the lifting spring is pressed 13 together. The resilient pawl i9 engages with its arm 20 behind the projection 21 of the push button. Since the slide 15 continues to be on the tongue 27 of the bimetallic strip if it wears off, it remains unchanged in its position. The knee joints are under @ maintaining their extended position in the elongated holes 16 of the slide 1s moved until the stationary Mating contacts 9, io are closed by the contact bridge B. This is the main switch switched on. The movable contact bridge 8 has at the same time by the displaceable Isolierstofftrennwand 3g against the movable contact part 36 of the auxiliary switch the stationary mating contact 38 is pressed. This way it becomes the power-on state of the self-switch is indicated by a control line: The switch-on status of the Automatic switch can be seen in FIG. 3.

If an overcurrent occurs, the bimetallic strip speaks as a result of it Heating by the heating cartridge 29 on. The resilient tongue 27 of the bimetal strip moves to the side and releases the slide 15, which moves under the action of Switching spring 17 - moved in the direction of the heating cartridge. This will make the two Knee joints i i, 12 kinked. This has the consequence that the movable contact bridge 8 of the main switch is brought into the off position (Fig. 4). By moving of the slide 15 in the direction of the heating cartridge, the surface 25 pushes against the arm 24 of the resilient pawl and releases the latch between the resilient pawl i9 and the push button, so that the push button is under the action of the lifting spring 13 can move out. During this movement of the push button, the knee joints will i i, 12 stretched again and the slide 15 is guided into its blocking position. Should when the slide 15 returns, the bimetallic strips cool down a little, so it does not hinder the return of the slide due to its resilient tongue 27 in the locked position.

In order to switch off the automatic switch manually, it is necessary to switch the Press release rod 23. If this is moved downwards, the pawl slides ig with her arm 2o from the projection 21 of the push button s. This allows the push button under the action of the lifting spring 13, the movable Contact bridge 8 lead into the switch-off position without the slide 15 executing a movement.

The switching mechanism according to the invention has the advantage that its Items can be arranged essentially in one plane, so that a very flat structure is created. As a result, it is particularly suitable for automatic switches, which are arranged close to one another as a series automatic switch with the greatest possible use of space will.

Claims (1)

PATENT CLAIMS: i. The hinged at one end to a push button and at the other end to a switching element wherein the push button is held in its lower position against the action of a high-lift spring by a latch, characterized in Dall - Auto switch with manual transmission and LTberstromauslösung and a knee joint to the knee of the knee joint (1i, 12) is guided in an elongated hole (i6) of a slide (i5) which is movable transversely to the extension direction of the knee joint and which is under the action of a switching spring (i7) and can be locked by an automatic triggering element (26). a. Automatic switch according to claim i, characterized in that the switching element (8) of the main switch, which is designed as a contact bridge, moves a longitudinally displaceable insulating partition wall (39) which is arranged between the stationary mating contacts (9, io) and which controls an auxiliary switch which, in addition to the switching chamber ( 6) is arranged in a special chamber (35). 3. Automatic switch according to claim i, characterized in that on the slide (i5) a on a bimetal strip (26) attached resilient tongue (z7) acts, which blocks the path of the slide (1 5) below the tripping current of the bimetal strip and above the Release current strength releases the path and does not hinder the return of the slide in its blocking position when the bimetallic strip gets cold.