DE1121689B - Temperature-dependent, electrical switch with pressure cell - Google Patents

Description

Temperature-dependent, electrical switch with pressure cell Temperature-dependent, electrical switches are often known as "thermostats". at the known refrigerator thermostats, the temperature is controlled with the help of a Pressure cell that is connected to a temperature sensor via a capillary tube. Changes in temperature are converted into path changes by the pressure cell in turn are used to actuate a contact. To set a special temperature value, a counterforce is required by one in their Stress variable spring is generated. The coupling of the return spring and the pressure cell With the switching mechanism of the thermostat can be done in very diverse ways. Only one well-known, very advantageous principle should be mentioned here, to which the present invention constitutes. With this principle, one is controlled Switching contact by a mechanism that consists of a knee joint There is a pair of levers, of which one lever interacts as a control lever of the pressure cell is influenced by the return spring, while the other lever is used as an intermediate lever a contact lever forms a snap system. The contact lever carries the stationary Contacts working together contact bridge and thus controls a circuit for a refrigerator motor.

In a known embodiment of thermostats of this type, the pressure cell and the counter spring each act on a lever arm of an additional lever, which in turn acts on the control lever. The counter spring is tensioned between this lever and an adjusting lever which can be pivoted by a cam disk of an adjusting element. In a further embodiment of known thermostats, the pressure cell and the adjustable counter-spring act on the control lever directly from opposite sides. In any case, the counter-pressure spring is provided outside of the snap mechanism. This known design with the snap mechanism, the counter spring and the pressure cell arranged one behind the other is disadvantageous because, on the one hand, the space required is not fully utilized and, on the other hand, complicated transmission links are required between the pressure cell and the additional lever mentioned. In addition, a permanent switch-off position can only be achieved using additional intermediate parts. It is felt to be particularly disadvantageous that its dimensions no longer meet today's requirements. Since refrigerator thermostats are usually built into a side wall of the refrigerator, it is necessary that the dimensions in the direction of the axis of the setting element are not greater than the thickness of the side wall. Lately, because of the better insulating materials, the refrigerator walls have become thinner and thinner, so that it is difficult to accommodate the thermostat described in a side wall of the refrigerator. Efforts are underway to produce smaller thermostats which are also cheaper than the known thermostats in terms of their switching capacity and their complexity.

The invention relates to a temperature-dependent electrical switch with pressurized cell, in which a snap-action mechanism is arranged between the pressurized cell and adjusting member is operated by a control lever on which the pressure cell and the adjustable Attack the counter-pressure spring directly from opposite sides. The mentioned Disadvantages in the known designs are avoided according to the invention by that the counter-pressure spring is formed in the area between the legs of the U-shaped Control lever, the intermediate lever and the contact lever of a known toggle lever snap system, whose lever is approximately parallel next to each other, is arranged and on the one hand on the control lever and, on the other hand, on an auxiliary lever that can be actuated by the setting member supports.

Due to the arrangement of the counter pressure spring, the snap system and the Pressurized can is a particularly flat, compact design when using a toggle lever snap system achievable with an intermediate lever, the pressure cell and the adjusting member in known, advantageously opposite each other and the position of the adjusting member is relatively freely selectable.

The invention will be explained in more detail with reference to the drawing, which shows the thermostat in section in FIG. 1 in the switched-off position and in FIG. 2 in the switched-on position.

The thermostat according to the invention consists of a rectangular housing 1 in which a pressure cell 2 is arranged, which is connected via a capillary tube 3 to a temperature sensor (not shown). The pressure cell acts on a control lever 4 which can be pivoted about an axis 5 fixed to the housing. Its cross-section is roughly U-shaped and takes up almost the entire depth of the thennostat housing. At its free end, the lateral bends run out in tabs 6 , which are used to support an axle 7 . An intermediate lever 8, which is approximately fork-shaped, is located on the axis 7 between the tabs 6. The fork ends are mounted on the axis 7. With the free end of the intermediate lever engages in a recess 9 of a bend 10 of a contact lever 11 . The approximately frame-shaped contact lever is pivotably arranged in a blade bearing 12 formed by the housing. It is connected to the intermediate lever by tension springs 13 , which are suspended on the one hand in tabs 8a of the intermediate lever and on the other hand on the longitudinal sides of the contact lever in a manner not shown. A contact bridge 14, which interacts with counter-contacts 15 , is attached to the free end of the contact lever. The contact lever also carries an adjusting screw 16 which is used to determine the pivoting path of the intermediate lever in the recess 9 . To set a specific temperature value, an adjusting member 17 is provided which is rotatable in a sleeve 18 connected to the housing. The setting element is secured against displacement in the axial direction by a snap ring 19 which engages in a groove in the setting element. Its upper remote end is used to accommodate an adjusting knob, not shown. Its end protruding into the thermostat housing is designed as a cam disk 20 which terminates in a cam 21 at one point. The cam acts on an auxiliary lever 22 which braces a counter spring 23 with the control lever 4 with a shoulder 22 a. With a shoulder 22 b it includes the counter spring and acts in a manner to be described on the control lever. The counter spring is covered at both ends by plate-like disks on which the projection 22a or an adjusting screw 24 carried by the control lever 4 acts.

In Fig. 1 the thermostat is in its off position, i. H. the contact bridge 14 is lifted from the stationary contacts 15. The adjusting element presses with its cam 21 the projection 22 b against the control lever and blocks it with it. A pressure cell expansion cannot take effect on the control lever in this position of the setting member. The thermostat is in its idle state. 17 of the projection 22 b is released from the cam 21 by rotation of the adjusting member, the auxiliary lever is pivoted by the return spring upwards and rests against the cam disc 20 (Fig. 2). The end of the projection 22 b is thereby lifted from the control lever 4 so that it can now pivot freely upwards. The control lever is deflected depending on the pressure prevailing in the pressurized cell and, in the process, lifts the intermediate lever 8 . Is the pressure prevailing in the pressure can pressure is high enough, so the control lever swings from the position shown in Fig. 1 position by the expansion of the can upward thereby lifting the on axis 7 supported end of the intermediate lever so far that due to the stress by the tension springs 13 a tilting of the contact lever occurs in the contact closed position. The intermediate lever detaches itself with its end mounted in the recess 9 from the adjusting screw 16 and rests against the lower stop of the recess of the contact lever. When the pressure drops, the pressure cell contracts and the control lever follows this movement, so that the "intermediate lever-contact lever" snap system returns to the position shown in FIG. 1 , although the setting lever maintains the position of FIG. The game repeats itself continuously until the control lever is blocked again by the one-way element.

The arrangement according to the invention is particularly advantageous because of the available space is used very appropriately. By the return spring no additional space is required because it is built into the mechanism been. In addition, the construction is very simple and with a minimum of details has been achieved. Additional transmission links are not required, and also for permanent switch-off no special part is needed. The accommodation of the mechanism is very small Space possible.

Claims (2)

PATENT CLAIMS. 1. Temperature-dependent, electrical switch with pressure cell, in which a snap-action mechanism arranged between the pressure cell and setting member is operated by a control lever, on which the pressure cell and the adjustable counter-pressure spring act directly from opposite sides, characterized in that the counter-pressure spring (23) is in the area between the legs of the U-shaped control lever (4), the intermediate lever ( 8) and the contact lever (11) of a known toggle lever snap system, the levers of which are approximately parallel next to each other, and located on the one hand on the control lever (4) and on the other is supported on an auxiliary lever (22) which can be actuated by the setting element (20, 21). 2. Switch according to claim 1, characterized in that the auxiliary lever (22, 22a), which rests on a cam disc (20) of the adjusting member, has a shoulder (22b) running parallel to the counter spring (23) , the length of which is dimensioned so that it blocks the control lever (4) at a certain position of the setting member. 3. Switch according to claim 1 and 2, characterized in that on the control lever (4) pivotably mounted at one end, the pressure cell in the vicinity of the bearing point (5) and the counter spring at the other end (24) in a manner known per se the opposite side attacks. 4. Switch according to claim 1 to 3, characterized in that the approximately fork-shaped intermediate lever (8) on the spring-side end of the control lever (4) with its fork ends is pivotably mounted in a known manner (7) and with its free end in a by means of an adjusting screw (16) adjustable cutout (9) of a bend (10) of the approximately frame-like contact lever (11) engages. 5. Switch according to claim 1 to 4, characterized in that the contact lever (11) is pivotably arranged in the vicinity of the point of application of the intermediate lever in a stationary blade bearing (12), at its free end a contact bridge (14 ) cooperating with mating contacts (15) ) and is braced with an intermediate lever (8) by tension springs (13) arranged on both sides of the same. Documents considered: German Patent No. 676 629; German Auslegeschrift No. 1076 231; German utility model No. 1731570; U.S. Patent No. 2,529,785.