DE1122621B - Thermal and electromagnetic overcurrent release with current transformer enclosed in an insulating body - Google Patents

Description

Thermal and electromagnetic overcurrent release in one Current transformer enclosed in the insulation body, overcurrent releases form an important part Part of the automatic switches for low and high voltage. Your reliable function ensures the protection and disconnection of dangerous overcurrents and short circuits, which are to be expected in the circuits to be protected. With today's automatic Switches are mainly used with thermal and magnetic overcurrent releases.

The protective element of the thermal overcurrent release is a bimetal strip, this through its deflection either directly or indirectly (e.g. by means of a Energy storage device) causing the switching mechanism to trigger. So much for the bimetal strips are arranged in the main circuit of the switch, they set the short-circuit strength and breaking capacity, which is a considerable disadvantage of this solution.

For this reason, especially with switches for high currents, switches the bimetallic strips are inserted into the secondary circuit of a current transformer, with which the short-circuit strength and breaking capacity can be increased significantly. But knows this arrangement also has a number of disadvantages.

Current transformers of the usual design take due to the large dimensions the iron core and the necessary creepage and clearance distances between the poles take up a lot of space and thus have an unfavorable influence on the size of the switch. The arrangement of the tripping device with bimetal directly on the usual current transformer creates difficulties and continues to increase the size.

The use of a special iron core for the magnetic trigger also increases the dimensions. A significant simplification can be achieved if you have the iron core of the current transformer at the same time for the magnetic circuit of the magnetic release, this common iron core in cast resin can be poured. The iron cross-section is sometimes used to increase the stray field of the current transformer weakened by slots or holes, but this is disadvantageous because it has an unfavorable influence on the switch-off characteristic of the thermal release.

These disadvantages of the known solutions eliminated the execution of the Trigger according to the invention. The essence of the invention resides in the advantageous Arrangement of the thermal and magnetic system in two completely separable, functional but interdependent components, which can be seen from the illustration, for example are, with the release plunger of both systems directly in the insulation body of the Current transformer is performed and the first component 14 at the same time the support part for the second independent part 15 forms.

The first part 14 , which is cast in cast resin, contains the current transformer with the iron core 3, the primary connection terminals 16 and winding 1, the pole shoes 4 to increase the stray field and the guide for the trip plunger 10.

The arrangement of the pole pieces opposite the armature of the magnetic release enables the use of the enlarged stray field without any unfavorable influence the switch-off characteristic of the thermal release.

The second part 15 - contains the bimetal strip 6, indirectly heated by a heating coil 8 with the leads to the secondary winding 2 of the current transformer and the compensation bimetal strip 7 with the adjusting screw 12 and the washer 13 for setting the area of thermal protection, also the armature 5 of the magnetic trigger with the spiral spring 9, which is adjustable with the disc 11. This arrangement of the whole trip unit according to the invention with cast resin as the insulating housing of the first part and the support block for the second part allow surprisingly small dimensions with high short-circuit strength and favorably influence the weight and also the switching off ability of the automatic switch. In addition, extensive standardization of the parts is also made possible.

Claims (3)

PATENT CLAIMS: 1. Thermal and electromagnetic overcurrent release with a current transformer cast in an insulating body, characterized in that the trip plunger is guided in the insulation body of the current transformer which, with the recess for the plunger, forms the first independent component (14) , and that the bimetal (6 ) and the armature of the electromagnetic release (5) form the second independent component. 2. Thermal and electromagnetic overcurrent release according to claim 1, characterized in that the insulation body of the current transformer with the recess for the release plunger at the same time the support part of the other component (15) forms. 3. Thermal and electromagnetic overcurrent release according to claim 1 and 2, in which the armature of the electromagnetic release is actuated by the stray field of the current transformer, characterized in that the iron core of the current transformer is provided with pole pieces (4) which are opposite the movable armature (5 ) are arranged. Considered publications: German patent application p 9065 VIII b / 21c D (published on 9 B. 1951); German utility model No. 1720 548.