DE445526C - Thermostatic regulator - Google Patents

Description

Thermostatic regulator. The subject of the invention is a thermostatic Regulator, which consists of two curved resilient elements that are under the influence change their mutual position with a tilting movement of temperature changes and thereby close or open a circuit.

The figures show an exemplary embodiment of the invention, in which the two resilient elements are made from a single part by stamping are. Two cutouts z are punched out of the frame i so that in the middle of the frame creates a bridge extending in its longitudinal direction. the Bridge is slightly longer than the cutouts and accordingly has several Curvatures. The frame i is composed of metals that have different coefficients of expansion own, e.g. B. made of brass q. and 5 nickel steel alloy welded together, soldered or connected in any other way. Bridge 3 is here made of the same materials as the frame and must be used during the punching be stretched. The bridge can also be made of any other elastic material Making metal. To get the necessary length of the bridge, one can also the Shorten the frame, e.g. B. by the curvature; so that its effective overall length is a little less than that of the bridge. It is only essential that both the bridge as well as the frame are designed so that the #llmaterial with a higher coefficient of expansion is on the convex side of the bridge or frame if the thermostat is in the cold state or in its closing position.

The thermostat is on an insulating plate 8 by means of the insulating blocks g and ii, a bolt ia and a nut 13 attached. The bolt 12 serves at the same time as a terminal for the incoming line 1q .. The other end of the thermostat is located freely and can move within the limits imposed by the length of the adjustment screw 15 are given, move. The lower surface of the bridge is covered with a contact plate 17 made of silver, tungsten or any other material that counteracts the destructive effect electrical arcing is resistant, provided.

The outgoing line 21 is by means of the bolt i9 with a contact 18 connected, which is arranged so that the contact 17 him when changing position touches the bridge. The bolt i9 is provided with adjusting and safety nuts 22, with the help of which the distance between the contacts 17 and 18 within a small range can be changed so that the operating temperature of the thermostat is within can change some degree.

Usually the thermostat is located in the position shown in Fig. 2 Location. The contacts 17 and i8 are in contact with one another. The normal one However, the position can also be the open position by moving the contact arrangement in reverses with respect to the bridge. The movable contact 17 can be isolated from the bridge 3 when it is desirable that no electrical current pass the thermostat flows through itself. The bolt 15 is adjusted so that the center line of the frame i deviate only a few degrees from the horizontal and the greater part of the bridge 3 is below the center line of frame i. An increase in temperature of the thermostat causes the frame to stretch, causing it to strive is to take a position with opposite curvature, since that on the convex The material on the side expands more than that on the concave side located material. The change in shape of the frame does not need to suddenly but can be done gradually. By stretching the frame i, the Bridge 3 will lose its stable shape by being pushed upwards. she will now strive to resume the shape of a stable curve, i. H. in a to pass another position. If the bridge is made of the same materials as the Frame is made, the difference in the expansion of the metals of the bridge increases the stresses and accelerates the change in their position. The postponement the center line of the frame i with respect to the center of the bridge, that the bridge goes into the position shown in Fig. 3, with a rapid tilting movement. Changing the position of the bridge results in the removal the contacts 17 and 18 from each other and thereby to interrupt the circuit between ladders 14. and 21.

As the thermostat cools down, the frame slowly returns to the in the position illustrated in Fig.2, creating the opposite in the bridge Stresses occur as with stretching the frame. This is therefore in the in the position shown in Fig. 2 snap back and thereby close the circuit again. Tests have shown that a direct current of 6 amperes through the thermostat and 100 volts can be controlled with a setting accuracy of 0.5 ° C. Of the Thermostat is adjustable so that its operating range is within approximately 30 = C can be adjusted without changing the frame.

Claims (1)

PATI: `TAISPRIjCIIL: i. Thermostatic regulator, characterized in that that it consists of two curved resilient elements made of double metal, which at Change in temperature and change their mutual position with more of a tilting movement open or close a circuit. 7 ,. Thermostatic controller as required i, characterized in that the two resilient elements are punched out in one piece are. 3. Thermostatic regulator according to claim i, characterized in that on the side of the resilient elements that is convex in the rest position with the material higher coefficient of expansion. 4 .. Thermostatic controller according to . claim i to 3, characterized in that the resilient elements at their one Ends are firmly clamped, while the other end is adjustable within Limits in a riclitimg freely br @@ cgen can.