DE966597C - Bimetal strips for releases and relays - Google Patents

Description

In the case of bimetal strips, the deflection depends on the heating and the thickness. With increasing Thickness it decreases with the same heat, and that in the inverse proportion. on the other hand In the case of a bimetal strip, the time constant as a measure of the delay is proportional to Thickness. So if you want to have sufficiently large bends, then the thickness of the fabric and thus the time constant and delay time are limited.

ίο To increase the time constant and the tripping times use is made of indirect heating of the bimetal strip. This method However, it has the disadvantage that experience has shown that the short-circuit strength of the arrangement decreases, because at high currents the heat transfer from the heating coil to the bimetal is too slow going on.

Attempts have therefore been made with directly heated bimetal releases the ratio of heat capacity to heat dissipation by means of various Way of varying in order to arrive at a more useful time constant that way. A well-known one Means is the attachment of compensation metal. Another means is restriction

as the development of heat in certain zones by electrically bridging parts of the bimetal or the cross-section of the strip is different over its length.

The subject of the invention described below is a directly heated, angled bimetal strip, in which the last-mentioned means for improving the time constant is used. According to the invention, bridging and cross-sectional reduction are combined and at the same time applied in such a way, that the angled point of the Bimetal is electrically bridged and the free end of the current-carrying part in his Cross-section towards the end is reduced by increasing the width of the strip from the attachment point to the Tip, z. B. according to the laws for a body of the same strength, od in trapezoidal shape. Like., Reduced will. This creates the heat mainly at the extreme end of the bimetal strip, far from the deflection influencing the deflection. Since the bend, apart from Temperature and thickness, and also depends on the square of the length, is naturally the deflection such a section is relatively very small. The warmth must first be in the rest Part of the bimetallic strip step over, which takes into account the relatively poor thermal conductivity of the mostly used iron-nickel steels takes some time to complete. This effect is now significantly increased that by electrically bridging the angle ζ. B. by copper or brass strips there the heat development can be brought to zero.

The figure shows an angled bimetal strip i, through the adjusting screw 2 of the Associated auxiliary switch, not shown, of the relay is opened or the pawl is pushed away in the event of a trigger will. The power is supplied to the screw 3 and the discharge through the stranded wire 4. The bimetallic strip is trapezoidal and the kink 5 is made up of a strip 6 electrically conductive material, e.g. B. copper or brass, bridged so that the bimetal from the current heated only in the free end 7 and preferably in its upper part due to the trapezoidal design will.

Claims (1)

Claim Angled bimetal strip for release and relay, where for direct current heating only part of the bimetallic strip is provided, characterized in that an electrical bridging known per se of the strip is arranged at its bend and in addition that for the heat generation remaining part in a manner also known per se a decreasing towards the tip Has cross-section. Considered publications:
German patent specification No. 454817.
German patent applications ρ 556 D VIII b / 21 c, 86VIII