DE1095379B - Thermal overcurrent release - Google Patents

Description

It is known or it has already been proposed, in the case of a bimetal release, for the purpose of temperature compensation Resistors with positive or negative temperature coefficients in series or in parallel to switch to the thermal element. Used in series with the thermal. Link switched Resistance with positive temperature coefficient the resistor is heated by the ambient temperature, so the current flowing through the resistor and the thermal element decreases accordingly. The heating of the thermal element by the current therefore takes place at a higher room temperature in to a lesser extent.

With a resistor with a negative temperature coefficient connected in parallel to the thermal element When the resistor is heated, the current flowing through the thermal element also decreases away.

Furthermore, a relay is known in which a magnetic circuit when heated by the Electricity lies in the body completely or partially losing its magnetic properties. The mode of action this relay is such that an armature is rotatably mounted on a central limb of the electromagnet is attracted by the other two legs according to a contact closure or opening will. Between one of these legs and the armature, a resistance piece is arranged Permeability drops sharply with increasing temperature. This resistor piece is used by the secondary current a current transformer flowed through. When the resistor is heated, the magnetic one predominates Induction of the second leg, which now causes the anchor to be attracted to this leg.

The invention relates to a thermal overcurrent release with one of the secondary current of a converter heated trigger element. Such an arrangement serves, among other things, the tripping time due to the lower secondary current at a primary current of higher amperage. If the core of the converter consists entirely or partially of a heat alloy, it can be achieved be that the magnetic influence decreases sharply at increased room temperature, which in turn leads to a decrease in the secondary current. According to the invention, the heating current is the thermal Element (secondary current) through complete or partial formation of the transformer core a magnetic heat alloy changed so that the same at different room temperatures Trigger times result.

The measure to achieve temperature compensation in a converter for a thermal Overcurrent release differs fundamentally from thermal overcurrent release

Applicant:

Continental electrical industry

Corporation

Voigt & Haeffner,

Frankfurt / M., Hanauer Landstr. 142-172

Hans Schuchardt, Frankfurt / M.,
has been named as the inventor

of the known measure in a relay, in which, as described, in a magnetic circuit one that completely or partially loses its magnetic properties when heated by the current Body lies. While in the known relay the heat alloy is heated up by the current, in the case of the subject matter of the invention, only the room temperature that is present acts on the heat alloy one that normally changes within a correspondingly smaller range. While in the opposed arrangement due to the influence of heat on the resistance piece A sudden switchover of the armature occurs after a certain time, only occurs according to the invention secondary current (heating current) corresponding to the respective room temperature.

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

The release 1 is connected to the secondary winding 8 of a converter. The primary winding is denoted by 9 and the core of the converter is denoted by 10. If the core 10 is made of siliconized iron sheet or sheet metal made of a nickel-iron alloy, as is the case in a known manner, a different room temperature has no or no significant influence on the secondary current I ₂ flowing through the release 1 . According to the invention, the core 10 is now wholly or partially from a

4-5 heat alloy built up. This heat alloy has the property that, with unchanged excitation, the magnetic flux is strong with increasing temperature decreases. There are heat alloys that act like magnetic irons at a temperature of around 20 ° C However, temperatures above 60 to 90 ° C are non-magnetic, d. H. act practically like air. The induced At such a temperature, the current in the secondary winding is equal to a value that results if no converter core at all, then only

009 679/417

Air, would be present. In practice, however, it should never be necessary to manufacture the entire converter core from a thermal alloy. It will generally be sufficient if some of the sheets consist of such a heat alloy. The secondary current I ₂ induced by the primary current I ₁ in a transformer core 10 designed according to the invention is therefore highly temperature-dependent, so that the heating of the release takes place less strongly at a higher room temperature. It is also possible that only one leg of the core 10 can consist of a heat alloy.

Claims (1)

Claim: Thermal overcurrent release with a release element heated by the secondary current of a transformer, characterized in that the heating current of the thermal element (1) (secondary current) by completely or partially forming the converter core (10) from a magnetic one Heat alloy is changed so that the same at different room temperatures Trigger times result. Considered publications: German Patent Nos. 837 726, 588 171, 937, 477 630, 438 121; French additional patent specification No. 45 597 (addition to French patent specification No. 760 728). Legacy Patents Considered:
German Patent No. 1,053,641. 1 sheet of drawings 1 009 679M17 12.60