DE1147245B - Refrigerator thermostat with semi-automatic defrosting device - Google Patents

Description

Refrigerator thermostat with semi-automatic defrosting device. Defrosting devices for refrigerators are known in various designs. In addition to semi-automatic Facilities in which the defrosting process must be triggered by hand are also automatic defrosting devices known, which are usually a timer in the form of a synchronous motor own. The automatic defrosting devices, however, require more effort and are therefore used for some purposes, especially for smaller household refrigerators, less suitable. Semi-automatic defrosting devices are more suitable for this.

In the known refrigerator thermostats with semi-automatic defrosting device the mechanism is built into the thermostat housing, namely predominantly two control buttons are used, one of which is used to set the desired one Refrigerator temperature is used, while the other is used to initiate the defrosting process is provided. In known arrangements of this type in which the initiation of the The defrosting process is taking place without affecting the temperature setting the disadvantage that they take up a relatively large amount of space, which is the requirements contradicts the small construction. There are already refrigerator thermostats known, in which the initiation of the defrosting process and the setting of the switching temperature takes place with one and the same adjusting knob, but these thermostats in turn the disadvantage that the set temperature value for the purpose of initiating the defrosting process and must be set again later. Other known thermostats with one-button operation do not have this disadvantage, but they do have it a relatively complex and space-consuming mechanism.

There are also known thermostats in which the defrosting device can be switched on by a push button located in the axis of rotation of the temperature setting element is arranged. The temperature setting can also be used during the defrosting process be retained, however, the design of this thermostat is in the direction of the axis of the adjusting element is very expansive, as the pressure cell and the one with it cooperating mechanism levers are parallel to the axis of the adjustment member. The dimensions required for wall installation in refrigerators can therefore not be adhered to will.

The invention relates to a refrigerator thermostat of the last mentioned Type in which the semi-automatic defrosting device is independent of the temperature adjustment knob actuatable, arranged in the axis of rotation of the temperature setting knob, below Effect of a return spring standing push button can be switched on and switched on State in a locked position that can be unlocked by the thermal control element keeps the refrigerator motor switch open. Its purpose is the defrosting device To be carried out as simply and space-savingly as possible, and achieves this according to the invention in that the push button is guided in a setting of a pipe surrounding it is and even one under spring tension, from the thermal control element (Pressurized can) influenced slide leads. With this construction it is possible the pressurized can the operating push button for the semi-automatic defrosting device to be arranged opposite and the mechanism consisting of approximately parallel levers in a narrow space between the push button and the pressurized can in a plane perpendicular to the push button to install the axis. The push button is guided in the surrounding tube by a ball, on the one hand in the backdrop of the pipe and on the other hand in an annular groove of the push button shaft runs. The setting is in a helical line around the push button shaft led around, the upper and the lower end by an in the axial direction of the Push-button lying slit is connected. The lower part of the backdrop forms with one approach of the slide a switch for the ball, which is in the normal position of the slide in the depressed position of the push button behind the neck is being held. The lower edge points in the width of a sphere in front of the slide attachment the backdrop on a kink, from which it is with a ball-wide distance around the lower end of Slider base runs around and gradually becomes the upper one The edge approaches the width of a sphere again. The approach of the slide can from the slide track out into a slot running in the axial direction of the shaft of the push button surrounding pipe are inserted: The lower end of the slide is with a Provided mandrel, which is influenced by the thermal control element (pressure cell) Lever cooperates. The lower end of the push-button shaft acts on you a lever that can also be adjusted from the temperature adjustment knob.

The invention is explained in more detail with reference to the drawing.

. Fig. 1 shows the refrigerator thermostat in a schematic representation, while Fig.2 shows the operating mechanism for the defrosting device in detail.

The thermostat consists of a 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. A spring 6 acts on the control lever, the other end of which is supported against a lever 8 pivotable about an axis 7 fixed to the housing. The preload of the spring 6 can be adjusted with the aid of a screw 9 attached to the lever 8. The actual adjustment of the spring force, however, takes place by means of a cam disc 10 which is actuated by an adjusting knob 11. With the aid of the thermostat, a contact arrangement is controlled which consists of stationary contact pieces 12 and a contact bridge 13 attached to a pivotable contact lever 14. The contact lever 14 is mounted in a cutting edge 15 , and a snap spring 16 acts on it, the other end of which is attached to an intermediate lever 17. The intermediate lever is in turn mounted in a cutting edge 18 which is carried by the control lever 4 and can oscillate with its free end between two stops 19 and 20 attached to the contact lever 14. The contact opening path of the contact bridge 13 can be adjusted by means of an adjusting screw 21.

To initiate the defrosting process, a push button 22 is provided, which is arranged in the center of the setting button 11. The push button 22 is mounted in a sleeve 23 connecting the cam 10 to the setting button 11 and is under the action of a return spring 24. The push button is guided in the link with the aid of a ball 28 running in an annular groove 29 of its shaft. The link runs approximately helically around the push button shaft 25, and its upper end 27 a is connected to its lower end 27 b by a link part 27 c extending in the axial direction of the push button. The lower edge of the backdrop forms a kink 27d in its lower part and then runs in an arc around an approach of a slider 30 mounted axially in the shaft 25 of the push button and gradually approaches the upper edge to a distance that is the width of the Ball 28 corresponds. The slide 30 is under the action of a spring 31 (see FIG. 1) which presses it against a fixed stop 32 in the shaft of the push button. With his approach 30 a blocked: he blocked the normal path of the ball. However, it has such a distance from the lower edge of the backdrop that the ball has an alternative for a special switching case. The projection 30a can be pushed so far into a slot 33 of the tube 26 that the normal path of the ball 28 along the upper edge of the link can be released. The slide 30 has a mandrel 34 at its lower end, which cooperates with the control lever 4. The distance between mandrel 34 and lever 4 can be adjusted by means of an adjusting screw 35.

The thermostat is in the switch position shown in FIG. 1 in its on position, d. that is, the contact bridge 13 is on the stationary Contacts 12, so that a circuit for a refrigerator motor, not shown closed is.

The cold generated in the refrigerator as a result of the running engine the pressure in the pressure cell 2 drops, d. i.e., the can contracts, the The control lever follows this movement, as a result of which the cutter bearing 18 also moves downwards will. When the intermediate lever 17 has reached the height of the snap spring 16, takes place a snapping of the intermediate lever 17, which thereby over the spring 16 the contact lever 14 and the contacts 12, 13 opens. The pressure in the pressurized can gradually increases on again, and after a certain time the Contacts 12, 13. The game repeats itself, i. i.e. the temperature in the refrigerator oscillates around a value set by the cam disc 10. When changing the Cam disc position is changed the force of the spring 6 on the pressure cell, so that the switching on and off also at other pressure values of the pressure cell, d. H. at other temperatures in the refrigerator.

The commissioning of the defrosting device takes place in such a way that the push button 22 is depressed, whereby the ball 28 in the part 27 c of the backdrop of the tube 26 moves downwards and after passing through its lowest position at the point 27 b on the upper edge of the backdrop the approach 30a of the slide 30 is locked. The shaft 25 of the push button acts with its lower end on the lever 8 of the thermostat and presses the pressure cell so far together via the spring 6 that the contact lever 14 passes into its off position. The spring 6 thus serves both to set the switch-on and switch-off point during normal control play and to adjust the switch-on point during the defrosting process. As a result of the cooling machine being switched off, the temperature in the refrigerator and thus the pressure in the pressure cell 2 rise. The pressure cell expands more and swings the control lever 4 so far that it strikes with its adjusting screw 35 against the mandrel 34 of the slide 30. The slide 30 is moved upwards, whereby the projection 30 a is pushed into the slot 33. If the projection 30a is sufficiently immersed in the slot 33, the ball can slide past the projection 30a and be guided in its sliding path to the starting position 27a. The distance between the mandrel and the control lever is set in such a way that it is switched on again only when the temperature is high enough to guarantee that the defrosting process has actually ended. The thermostat then continues to work with the temperature value set by the setting knob 11, unaffected by the defrosting device, and ensures that the selected temperature is restored in the refrigerator. If the defrosting process, if it has just been initiated, is to be reversed, this is done by depressing the push button 22 again. The ball locked in front of the projection 30a then slides away under the projection 30a and thereby releases the push button so that it can be returned to the starting position under the action of the return spring 24.

Claims (9)

PATENT CLAIMS: 1. Refrigerator thermostat with semi-automatic defrosting device, which can be actuated independently of the temperature setting button in the axis of rotation of the temperature adjustment button, standing under the action of a return spring Push-button can be switched on and in the switched-on state in a locked, the switch for the unlockable position by the thermal control element Keeps refrigerator motor open, characterized in that the push button in a A backdrop of a pipe surrounding it is performed and even one under spring tension standing, from the thermal control element (pressure cell) influenced slide leads. 2. Arrangement according to claim 1, characterized in that the guide of the push button takes place in the surrounding pipe by a ball, which on the one hand in the backdrop of the Tube and on the other hand runs in an annular groove of the push button shaft. 3. Arrangement according to claim 1 and 2, characterized in that the link is in a helical line runs, the upper and lower ends of which by an in the axial direction of the push button lying slot is connected, the backdrop in its lower part with a Approach of the slide guided by the push button a switch for the normal position of the slide forms blocked ball by the approach. 4. Arrangement according to claim 1 to 3, characterized in that the approach of the slide in an axial direction extending from the upper edge of the backdrop slot of the shaft of the push button surrounding tube can be inserted. 5. Arrangement according to claim 1 to 4, characterized in that the lower edge of the backdrop is the width of a sphere has a kink in front of the slide approach, from which the edge with one of the Ball width corresponding distance around the lower end of the slider approach and gradually approaches the upper edge again to the width of a sphere. 6. Arrangement according to claim 1 to 5, characterized in that the lower end of the slide with a mandrel with a lever influenced by the thermal control element (pressure cell) cooperates. 7. Arrangement according to claim 1 to 6, characterized in that the Distance between mandrel and lever by means of an adjusting screw attached to the lever is adjustable. B. Arrangement according to Claims 1 to 7, characterized in that the lower end of the push-button shaft with one also of the temperature setting button adjustable lever cooperates. 9. Arrangement according to claim 1 to 8, characterized in that that both for setting the switch-on and switch-off point with normal control play as well as for setting the restart point after the defrosting process and the same pen is used. Publications considered: Deutsches Utility model no.1816 730.