DE956140C - Circuit breakers, especially miniature circuit breakers with thermal and magnetic overcurrent release - Google Patents

Description

There are air circuit breakers known in which the kinetic energy of the magnet armature and the force exerted on the armature by the blowing coil will be used to open contacts. The anchors are, as is known, hinged anchors educated. The switch locks of the 'mentioned switches are relatively complex. :

According to the invention, the magnet armature is designed as a toggle joint, the two legs of which are drawn into the magnetic field of the coil while changing their direction to one another. This armature, designed as a toggle joint, is mounted in a slider that can be shifted four times in the switch. The slider is arranged in one or between two magnetic coils. The ones forming the magnetic tanker. Legs of the toggle lever are differently sized. The pivotable part, which is preferably mounted at the top of the slider, has a greater mass, so that when the toggle joint is stretched, as a result of the increased passage through the magnet coil, a downward-facing, d. H. from the bearing point of one leg of the toggle lever to the field of the magnetic coil force is exerted on the slider. The resilient means supporting the slide are relieved by this force at the moment of switching

prevented. At the same time, when the toggle joint is stretched the other leg pushed down through an opening provided in the slider and hits the contact bridge 5 or a lever linked to this in the sense of contact opening. That forming the magnet armature Toggle joint is used when the magnet coils have no effect on the magnet armature is, by. a spring, possibly in connection dung with a movable suspension, pulled into its bent position, in which it is when pushed down of the slider by means of the actuating knob under the latching of the contact bridge takes effect directly or indirectly.

The contacts are in a manner known per se on the free sides of the magnet coil or the Magnietspuleoi arranged that this at the same time as Blow coils work and for the Koraitaktinterruptstellen two separate arc chambers are provided.

The switch is divided into five adjacent: chambers, of which the outer the Contain contacts, the merges to the center adjoining the magnet coils and the middle Chamber the slider and, if necessary, auxiliary equipment. Those forming the arc chambers Rooms in the switch housing can preferably be expanded around the circumference to the middle of the switch, by the dimensions of the spaces surrounding the solenoid coils to the extent of the Solenoid coils are limited.

The invention is explained using an exemplary embodiment shown in the drawing. Fig. Ι shows the spatial division of the circuit breaker; in

Fig. 2 shows the slide with its individual parts; the end

Fig. 3 shows an embodiment of the switching axis with the contacts and levers. On both sides of a slide. 1 there is a blowing coil 2 or 3 with cores 8 and 9. Two partition walls 4 and 5 delimit the two arc chambers 6 and 7 towards the coils. In the arcing spaces are the fixed contacts 10 and 11 and the moving contacts 12 and 13, which are actuated by the switching axis 14, arranged.

Fig. 2 shows the sliding piece 1, which is guided by the pins 15, 16 and 17 and by the spring 18 is pushed up. With increased current passage through the coils 2 and 3, the Levers 19 and 20 made of magnetic material are drawn between the magnetic cores 8 and 9 and thus the toggle joint, which is formed from parts 19 and 20, stretched. This will make the Lever 21 guided down. Lever 23 slows down liniks and lever 22 slides off the lever 23. The lever 21 until then by the hinged to him Lever 22 was held, is pulled down by the spring 24, this movement of the lever 21 by the impact of dam forming a leg of the toggle joint Lever 20 is supported. Open the contacts. The slider 1 is up to the stop on the Guide pins 17, 15 by the spring 18 upwards pressed.

The switching axis 14 with its levers is shown in FIG. 3 specially shown. The levers 12 and 13 form Contacts and, like the lever 21, are fixed with the switching axis 14 connected. The axle 14 is made of conductive material and forms together with the contact pieces 12 and 13, the contact bridge.

When the switch is turned on, the button is pressed down and thereby the slider also moved down. The lever 22 latches against the slider by the spring 2 5 pressed, behind the lever 23. When the button 26 is released, the lever 22 goes up with it, unid the contacts close again. When the bimetallic strip 27 is heated by the heating coil 28 the bimetallic strip deflects to the right, and the lever 22 is pushed away from the ratchet lever 23. The lever 21 is pulled down by the spring 24 and the contacts open.

If the switch-off button 29 is pressed when the contacts are closed, the lever 19 moves to the left and so that the lever 20 is pressed down and thereby brought about the opening of the contacts.

Claims (14)

PATENT CLAIMS: 1.Switches, in particular line circuit breakers, with thermal and magnetic over- Stromauislösung, characterized in that the triggering the magnetic overcurrent Magnetic armature is designed as a toggle joint, the two legs (19, 20) of which into the Magnetic field of the trip coil can be pulled. ioo 2. circuit breaker according to claim 1, characterized characterized in that the toggle joint: designed magnet armature (19, 20) is displaceable in one is mounted in the switch arranged slide (1). 3. Automatic switch according to claim 1 and 2, characterized in that the armature leading slide (1) arranged next to one or between two trip coils (2, 3) is. 4. Automatic switch according to claim 1 to 3, characterized in that the slider (1) with closed contacts by locking the contacts by means of the deflected toggle lever is held in a certain position against the pressure of a spring (18). 5. Automatic switch according to claim 1 to 4, characterized in that the armature forming legs of the toggle lever formed differently in terms of their dimensional relationships are by placing the top of the slider (1) pivotably mounted legs (19) of the The toggle joint has a stronger mass, so that it is when the armature is stretched forming toggle joint due to the increased passage of current through the coils (2, 3) equal one down, which is the slider (i) bearing spring (18) exerts counteracting force on the sliding piece (i). 6. circuit breaker according to claim ι to 5, characterized characterized in that the latching of the contacts when stretching the toggle joint is released and at the same time the leg (20) this knee joint by one in the Slider (1) provided opening with the kinetic energy of the toggle joint formed magnet armature on the contact bridge or a lever arranged on it (21) 'in Sense of contact opening suggests. 7. Automatic switch according to claim 1 to 6, characterized in that on the slider (1) an actuating button (26) is arranged, groove which the slider (1) is overcome the force of the spring (18) supporting it can be pushed down, so that the normal operating condition under the action of a spring in its curved position Pulled magnet armature into the 'latching lever linked to the contact bridge support (22) takes effect. 8. Automatic switch according to claim 7, characterized in that the latching lever (^ 2) is pressed under the action of a spring (25) into the detent of the magnet armature (19, 20).
9. Automatic switch according to claim 1 to 8, characterized in that a switch-off button (29) is provided, which counteracts the armature by overcoming a resilient force the action of the spring pulling it into its curved position. 10. Automatic switch according to claim 1 to 9, characterized characterized in that an elastic one on the contact bridge or on the contact bridge carrier Means, for example the spring (24), is hinged after releasing the latching of the contact bridge causes the contacts to open, the action of this spring when unlatched as a result of the increased current flow through the magnet coils (2, 3) through a Hit the magnetic tanker on the contact bridge or on the one attached to the contact bridge Lever (21) is supported. 11. circuit breaker according to claim 1 to 10, characterized characterized in that in a known manner in front of the free sides of the magnet coils (2, 3) the fixed contacts (10, 11) are arranged so that the magnet coils as Blow coils work. 12. Automatic switch according to claim 1 to 11, characterized characterized in that in a known manner for the contact interruption points two separate arc chamber η are provided. 13. Self-switch according to claim 1 to 12, characterized by a spatial division of the switch, known per se, into five adjacent chambers separated from one another by partition walls, of which the two outer chambers accommodate the contacts, the chambers adjoining the middle, the magnetic coils (2, 3 ) and the middle the slide with the magnet armature and possibly the Z ₀ release and Verldinkungseinrichitung. 14. Automatic switch according to claim 1 to 13, characterized characterized in that in a known manner the receiving the contacts. Chambers are expanded on the outer circumference towards the center of the switch by adding the coils (2, 3) containing chambers are adapted in size to the coil circumference. Considered publications:
German patent specification No. 623 237. 1 sheet of drawings © 609 549/385 T. (609 756 1. 57)