DE500986C - Thermostatic regulation and control device in which a multi-metal spring acts on a switching element - Google Patents

Description

Thermostatic regulation and control devices have already been proposed, in which a preferably bimetallic spring has such a curved part, that it cannot be flattened and unrolled, for the purpose of a certain one Temperature cause a sudden change in position of part of the spring. At the part of the greatest change in position is then usually attached to the contact. Of the The contact path that can be reached with these institutions is relatively short and is not sufficient if higher services are required are switching.

It has also been proposed that a band-shaped switching element by a in its longitudinal direction when heated to affect expanding body. However, this facility is relatively insensitive, because very large changes in temperature are necessary to bring about the movement necessary for switching.

According to the invention you can use relatively large contact distances, without increasing the temperature range in which the switchover takes place, if a switching element is used which has two stable end positions and essentially consists of one on both of them There is a slightly curved ribbon spring mounted on the ends, at the middle part of which a ribbon-shaped multi-metal spring is attached.

The figures show exemplary embodiments of the invention. In Fig. 1, 1 is an on Glass tube melted off at both ends, 2 a leaf spring attached to the spacers 3 and 4 is stored. The spring has two stable end positions on both sides the line connecting their clamping points. In the middle of the spring is the multi-metal spring 5 attached, the ends of which are movable in the recesses 6 and 7 of the spacers 3 and 4, 8 is a on the multi-metal spring 5 attached contact piece, 9 the fixed counterpart, the one through the supply line 10 electricity can be supplied from the outside. The spring 2 can through the supply line 11 power can be supplied.

The device works in the following way: If the temperature of the multi-metal spring 5 increases, so it curves in the direction indicated by the arrows and lies down in the illustrated manner to the spacers 3 and 4. In doing so, she exerts pressure the spring 2 off. When this pressure is sufficiently large, the spring 2 snaps into the dashed position, where the contact is opened. The multi-metal spring then takes the also dashed

*) The patent holder has indicated as the inventor:

Dr. Werner Jiibit \ in Berlin-Siemensstadt,

marked location. When the multi-metal spring cools down, the curvature becomes smaller, and it seeks to move the leaf spring 2 to the right. Once the cool down has progressed sufficiently, the force of the multi-metal spring is sufficiently great to return the leaf spring 2 to its original position.

Fig. 2 shows another embodiment of the invention. 12 is a glass vessel in which the spacers 13 and 14 are arranged. Is on these spacers the leaf spring 15 and the multi-metal spring 16 mounted. Both feathers are through that elastic member (spring) 17 connected to each other. The contact piece 18 is at the Spring 15 attached; 19 is the fixed one Mating contact piece. 20 and 21 are lines that lead from the outside on the one hand to the contact piece 19, on the other hand lead via the spring 15 to the contact piece 18.

The device works in the following way: It is assumed that when the Temperature, the multi-metal spring bends in the direction indicated by the arrows. As a result, because its end points are fixed, the spring 17 is compressed for so long until the force is sufficient to move the spring 15 into the dashed position to cause. After this position has been reached, the spring 17 is stretched somewhat. Kick if there is a sufficient increase in temperature, the curvature of the spring 16 less, and the tension of the spring 17 increases until the spring 15 again returns to its original position.

If the current to be interrupted is passed through the multi-metal spring or through a Part of the same is the temperature of the environment at which the switching process occurs, depending on the strength of the current, because the heat of the current causes additional heating the multi-metal spring occurs. The temperature at which the switching process occurs can be regulated in a known manner Way to achieve that by surrounding the multi-metal spring with a radiator, either from the one to be interrupted Current itself or an auxiliary current is flowed through. The regulation of the The temperature can be easily adjusted by changing a parallel to the radiator or to achieve resistance connected in series.

The opening of the contacts in the device according to the invention is very sudden in front of you so that arcing is avoided. The contact spacing can also be selected to be so large that larger Services can be safely mastered.

Claims (3)

Patent claims: 1. Thermostatic regulation and control device with a multi-metal spring acts on a switching element which has two stable end positions and essentially consists of one at their slightly curved ribbon spring supported at both ends, characterized in that that the ribbon-shaped multi-metal spring is attached with its central part to the center of the switching element. 2. Device according to claim 1, characterized in that the ends of the Multi-metal springs are movable between stops. 3. Device according to claim 1, characterized in that the switching element is elastically connected to the multi-metal spring in the middle part. 1 sheet of drawings