DE3430155A1 - Indirectly heated bimetal - Google Patents

Abstract

Indirectly heated bimetal comprising supporting body and heating coil arranged in an insulated manner thereon. The invention provides that a dynamically flexible insulating layer (2) is applied to the supporting body (1) and a dynamically flexible layer (3) of resistor material on said insulating layer (2). <IMAGE>

Description

Indirectly heated bimetal

The invention relates to an indirectly heated bimetal Support body and insulated heating coil arranged on it.

Usually an insulated one is used in the case of indirectly heated bimetals Heating coil applied. The bimetal itself can also be used in a parallel path be flowed through. Such bimetals bend after appropriate heating off so that you can open a contact with a time delay and switch off a device.

Among other things, they are used in circuit breakers as thermal Trigger used, which unlatches the key switch, or also with motor protection switches.

As is well known, there are many other areas of application.

The insulation usually consists of several layers of a temperature-stable Material - mineral fiber tapes - because temperatures in the heating coil range from 600 to 700 0C can occur. Such a structure is very expensive to manufacture and yet there is a risk that the insulation when the heating coil is applied damaged. Also the winding and the inclusion of the heating winding in one electrical cable run, i.e. welding on, is technically complex.

The invention is based on the object of an indirectly heated bimetal to develop that can also be produced economically on an industrial scale and that achieves a high level of operational reliability.

The solution to the problem described is, according to the invention, that a flexible insulating layer is applied to the support body and then a flexible layer of resistance material. The layer The heating current is made from resistance material. Such a bimetal can bend slightly when heated.

The layer of resilient resistance material can provide the current passage extend between the connection points for the bimetal heating in the manner of a winding, when extending recesses are formed. In particular, the recesses leave a meander path.

Such an indirectly heated bimetal can easily be thereby produce that on the support body, the actual bimetal, with a plasma torch a 0.05 to 0.2 mm thick layer of electrically insulating material such as Al203, is sprayed on. On top of this you can put a layer of up to 0.2 mm of resistance material, z. B. metal oxides, apply with the plasma torch, in the known per se Measures incisions are made up to the insulating layer in such a way that between the connection points for the bimetal heating by a path extension gives the desired resistance value. One can draw on the experience with Use sheet resistors.

The invention is intended to be roughly schematic based on one in the drawing reproduced embodiment are explained in more detail: In Fig. 1 is an indirect heated bimetal reproduced in supervision.

In Fig. 2, the bimetal according to Fig. 1 is shown in side view.

The indirectly heated bimetal according to FIG. 1 consists essentially from a support body 1, the actual bimetallic strip, on which a flexible one Insulating layer 2 is applied. On top of this is a flexible layer 3 applied from resistance material. In the exemplary embodiment are in the layer 3 made of resistance material, the current passage path between the connection points 4 for the bimetallic heating lengthening recesses 6 formed in that the Let recesses stand a meander path. The recesses 6 can be made by grinding wheels or introduced by laser ablation.

The connection points 4 can be used as wide-area contacts be designed in a known manner. At a hole 5, the bimetal can be in one Device to be attached.

Such an indirectly heated bimetal can be produced by a 0.05 to 0.2 mm thick layer on a support body with a plasma torch made of Alu03 is sprayed on as an insulating material. With the plasma torch can then a thin layer of resistance material corresponding to the desired resistance value can be applied up to a thickness of 0.2 mm. The thickness is expedient chosen so that in connection with the power lengthening the passage way Sufficient bendability of the bimetal is achieved without Resistance material pops off. The recesses extending the current passage can be introduced in a manner known per se, for example also by etching processes will.

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Claims (4)

Claims 1. Indirectly heated bimetal from support body and insulated heating coil arranged on it, d u r c h e -k e n n n z e i c h n e t that an insulating layer (2) which is flexible in terms of movement is applied to the support body (1) is and thereupon a flexible layer (3) made of resistance material. 2. bimetal according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the layer (3) of resistance material the current passage path between the connection points (4) for the bimetallic heating lengthening recesses (6). 3. bimetal according to claim 2, d a d u r c h g e k e n nz e i c h n e t that the recesses (6) leave a meander path. 4. Process for the production of an indirectly heated bimetal according to Claim 1 or one of claims 1 to 3, d a d u r c h g e k e n n n z e i c h n e t that on the support body (1) with a plasma torch a 0.05 to about 0.2 mm thick layer of insulating material is sprayed on, up to about 0.2 mm thick layer of resistance material, in which by per se known measures Incisions are made up to the insulating layer in such a way that between the connection points (4) for the bimetal heater results in a path extension.