DE1056713B - Circuit breaker with thermal release - Google Patents

Description

GERMAN

If self-switches are provided with a thermal release, they have thermal releases if they for small response currents. are set up, a heating coil on the bimetal strip. the end For manufacturing reasons, one end of the heating coil is connected to the bimetallic strip in a conductive manner. The bimetal strip is therefore used to conduct electricity. By fastening of the heating coil on the bimetal strip is primarily the position of the heating coil on the bimetal strip secured.

Until now it was considered necessary - the bimetallic strip opposite the drive mechanism for the Isolate switching element. The free end of the bimetallic strip was attached to the drive mechanism acts on an insulating body. Furthermore, the bimetal strip was attached to it for itself Isolation base of the switch. If the isolating base of the switch is not made of ceramic but made of molded insulating material, so disturbances can occur on the bimetallic strip due to the great heat of the bimetallic strip caused on the insulating material.

The invention achieves a significant simplification in the structure of the circuit breaker. the Invention is particularly suitable for circuit breakers for low voltage. According to the invention is on automatic switches with thermal release in which a heating coil is arranged on the bimetal strip and one end of the heating coil is conductively connected to the bimetallic strip, the bimetallic " strip conductively connected to the drive mechanism of the Schaitorgans. Furthermore, through his mechanical action influenced point of the drive mechanism, possibly one in between applied compensation bimetal strip, the same electrical potential as its attachment point on the drive mechanism. Through the invention the direct attachment of the bimetallic strip to the drive mechanism is given, any particular Insulating body as a carrier for the bimetal strip, which is otherwise necessary in switches held is avoided. There is also an intermediate insulation on the drive mechanism or on the bimetal strip avoided. The parts of the drive mechanism can be made entirely of metal.

An advantageous development of the invention takes place in that the conductive connection between the bimetal strip and the drive mechanism to a particularly simple circuit inside the Switch is used when a test contact is arranged on the outside of the circuit breaker with this in the case of an integrated circuit breaker by applying a test current electrical triggering of the self-switch

Circuit breaker with thermal release

Applicant:
Siemens-Schuckertwerke
Stock corporation,
Berlin and Erlangen,
Erlangen, Werner-von-Siemens-Str. 50

Wilhelm Ebner, Regensburg, v
has been named as the inventor

respectively. According to the invention, a test contact accessible from the outside of the automatic switch is conductively connected to the drive mechanism and an ao trigger, in particular quick release, of the automatic switch is electrically connected so that a test current brought to the test contact via the drive mechanism flows to the trigger. to speak brings. This significantly simplifies the internal circuit of the automatic switch when using a test contact.

An exemplary embodiment of the invention is shown in the drawing. The drawing shows the Automatic switch with the cover plate removed.

The circuit breaker according to the invention has a flat, elongated housing 1, which also serves as an insulating base for the switch parts. The housing 1 is preferably made of Isolierpreß material and has the shape of a low shell, in the interior of which the individual parts of the switch are held by projections not shown. The manual control element 2, which is used to switch the switch on and off, is located on one end face. On the opposite end face, flag-shaped connection devices 3, -4 are provided for the lines. A switching rod 5, the contact bridge 6 of which interacts with the stationary contact parts 7, 8 , is used as the switching element. The shift rod 5 is controlled by a drive mechanism 9. Of the links of the drive mechanism, the lever 10, which acts on the shift rod 5 , and a ratchet lever 11 are visible. The movable members of the drive mechanism are mounted in a stationary bearing body 12.

The circuit breaker according to the invention has a thermal release which is formed by the bimetallic strip 13. The bimetallic strip 13 carries a heating winding 14, one winding end 15 of which is conductively connected to the bimetallic strip. aside from that

909 509/350

Claims (2)

The automatic switch has a quick release 16. The quick release 16 acts with its magnetic coil 17 on the armature 18. The iron yoke 19 of the quick release is attached to the bearing body 12 of the drive mechanism "of the drive mechanism acts, the action of the bimetallic strip 13 takes place indirectly via a compensation bimetallic strip 20 which is attached to the ratchet lever 11. The compensation bimetallic strip 20 serves to equalize the room temperature when the bimetallic strip 13 is working. According to the invention, the bimetallic strip 13 is conductively connected to the drive mechanism 9 of the switching element 5. It acts without intermediate insulation: on the drive mechanism via the compensation bimetal strip 20 Location of the drive mechanism, in the exemplary embodiment the location of the compensation bimetal strip attached in between, which is mechanically influenced by the bimetal strip, has the same electrical potential as the attachment point of the bimetal strip to the drive mechanism. This is preferably achieved by the metallic carrier 21 of the bimetal strip without interconnection an insulation is attached to the yoke 19 of the quick release 16, which.; Again conductively with the drive mechanism 9 in connection clock provided in order to cause an electrical triggering of the automatic switch by bringing a test current source to the test contact when the automatic switch is built into the system. According to the invention, this test contact is conductively connected to the stationary drive mechanism 9. The test contact s j can be formed by a metal part inserted into the housing. It is preferably formed by the bearing body 12 of the drive mechanism itself at the point 24. According to the invention, the internal circuit of the self-switch is also designed so that a release, in particular the quick release 16, of the self-switch triggers when the test current is applied by the test current via '. the drive mechanism 9 flows. In the circuit breaker shown in the drawing, this is done in such a way that the test current from the bearing body 12 of the drive mechanism 9 via the Jqch 19 of the quick release, the carrier 21 of the bimetallic strip 13, the heating coil 14, the line 22, the magnetic coil 17, the line 23, the contacts 8, 6, 7 to the connecting device 3 flows. If the test current causes the self-switch to switch off, the self-switch is functional. Apart from the existing lines for the release and quick release, no additional lines are required for the passage of the test current within the circuit breaker. Patent claims: 1. Self-switch with thermal release, in which a heating coil is arranged on the bimetal strip and one end of the heating coil is conductively connected to the bimetal strip for flow guidance via the bimetal strip, characterized in that the bimetal strip (13) with the drive mechanism (9) - of the switching element (5) is conductively connected by fastening on one of its stationary parts and the point of the drive mechanism influenced by its mechanical action, possibly a compensation bimetallic strip (20) attached in between, has the same electrical potential as its fastening point on the drive mechanism: -. 2. Automatic switch according to claim 1, characterized in that one of the outside of the ^j self-switch accessible test contact (20) is conductively connected to the drive mechanism (10) and a release (16), in particular a quick release, of the * self-switch is electrically connected so that a to the test contact (24) -j lead Test current flowing through the drive mechanism (9) causes the trigger to respond. brings. _____ Considered publications:
United States Patent No.'2 6_7 186. 1 sheet of drawings © 909 509/350 4.59