DE824562C - Thermal release with indirectly heated bimetal strips - Google Patents

Description

The indirect heating of the bimetal strips of thermal releases has the disadvantage that the distance between the bimetal strip and the heat source changes continuously during the release process. The setting accuracy suffers as a result; because the greater the distance with increasing warming, the worse it is the heat transfer, so that at higher currents, i.e. when the tripping process Usually should take place, a large part of the heat is uselessly lost. The bimetal strip is no longer as sensitive in this area, like that that during the actual release process only small movements and small forces be available. These conditions are particularly unfavorable when the Thermal release should be adjusted in relatively large current ranges.

The object of the present invention is to overcome these disadvantages to prevent bimetal strips on two opposite sides of the heat source are arranged, of which the one on one side of the heat source during the triggering process lying bimetal strips move away from the heat source, while those on the bimetal strips arranged on the other side approach the heat source. Act here the bimetallic strips in the same direction on a transmission link that triggers a switch, for example.

In the figure, an embodiment of the invention is schematically shown.

Here a means the heat source. This can e.g. B. from a current flowing through it Resistance exist or be heated in a current-dependent manner in some other way. According to the invention are on two opposite sides of the heat source a, the bimetallic strips b and c arranged. The upper bimetallic strip of these is located b as close as possible to the heat source when cold, while the lower bimetal strip c is turned down. Both bimetal strips can, for. B. by the rivet d be rigidly connected to each other. Both bimetal strips move when heated in the illustration shown upwards and solve via the transmission link e the contact f or act z. B. on a release pawl. Through the set screw g can be the desired degree of deflection of the strips and thus the strength of the the heat source a heating current can be set, in which the triggering of the described facility should take place.

The mode of operation of the arrangement is now as follows: If the heat source a heats up to approximately the strength of an electric current flowing through the heating coil of this heat source, the heat source initially acts much more strongly on the strip b than on the strip c, because the latter is bent through its bending is further from the heat source than the strip b. At low currents, the bimetallic strip b will initially act on the transmission element e and thus on the contact f , while the strip c will initially hardly move. If the release is to be set to low currents, the screw g will be turned down as far as possible so that the contact f is triggered by the bimetallic strip b before the strip c even comes into effect.

At medium currents, the effect of the heat source on the Strip b gradually and finally a point can be reached at which the distances of strips b and c from the heat source are equal to each other. If the screw g is set to this point, the trigger will be at a trigger medium amperage.

If the current rises even higher, then the strip b leaves as with the hitherto usual constructions in its effectiveness, while against it now the strip c has moved closer and closer to the heat source. This is how she reacts Overall order even with high currents on small current differences. For In this case, the screw g is largely turned upwards, so that large distances of the ends of the bimetallic strips with the transmission member e are made possible.

The described arrangement achieves with simple means that also indirectly heated bimetal releases adjust themselves in wide current ranges without affecting the accuracy of the response.

Claims (2)

PATEN TA NS PR CC11E: i. Thermal release with indirectly heated bimetallic strips, characterized in that bimetallic strips (b, c) are arranged on two opposite sides of the heat source (a) , of which the bimetallic strip (b) on one side of the heat source (a) differs from one another during the tripping process the heat source (a) away, while the bimetal strip (c) arranged on the other side approaches the heat source. 2. Thermal release according to claim z, characterized in that the bimetal strips (b, c) act in the same direction on the transmission element (e).