SU1070399A1 - Device for controlling process of defrosting refrigerator evaporator - Google Patents

Abstract

CONTROL PROCESS THAWING EVAPORATOR refrigerator including dial thickness snow coats, mode switch, double-arm lever with a return elastic element, the contact elements of the switch mode enclosed in a sealed housing mounted on one lever arm, the other arm of which is kinematically associated with the refrigerator door, wherein the fact that, in order to simplify the design and increase reliability in operation, the hermetic housing for the contact elements is located from the surface of the evaporator At a distance equal to the maximum value of the snow coat, and is made of an elastic material, and the return elastic element is a torsion spring mounted along the axis of the lever. (L oo with so

Description

The invention relates to a refrigeration appliance, namely, devices for controlling the defrosting process of refrigeration appliances. A device is known for. controlling the defrosting process of the cooling unit of the refrigerator, comprising a spring-loaded lever with a sensor for determining the thickness of the layer, a mode switch consisting of a time relay and an amplifier, and an electromagnet interacting with the lever, the mode switch and the electromagnet are electrically interconnected 1. Disadvantages of the device are the complexity and unreliability of work due to the significant number of structural elements and the connections between them. It is also known a device for controlling the defrosting process of a refrigerator of a refrigerator, comprising a snow thickness control unit, a mode switch, a double-arm lever with a returnable elastic element, mode switch contact elements enclosed in a sealed case mounted on one lever arm, the other arm of which is kinematically connected with a door the fridge. The device contains an elastic sensor cantilever attached to the lever, button 2 is placed between the lever and the door. The disadvantage of this device is low reliability of operation, since an increase in the other between the elastic sensor and the lever may cause the system to fail. In addition, the spring in this device works in tension and compression. Under conditions of frost formation, such a spring operation is not reliable enough (frost formation or ice formation between turns is possible, which will lead to device failure). It is also possible that the button connecting the lever to the door freezes. In this case, the spring force may not be sufficient to operate the device. The purpose of the invention is to increase reliability in operation and simplify the design of the device. To achieve the goal in the control unit of the process of defrosting the evaporator of the refrigerator, which contains the unit for the thickness of the snow tooth, mode switch, double-arm lever with a possible elastic element, contact elements of the mode switch enclosed in a hermetic case mounted on one arm of the lever, the other arm of which is kinematically Zano with the door of the refrigerator, a sealed enclosure for the contact elements is located from the surface of the evaporator at a distance equal to the maximum size of the snow split and ene of elastic material, and the resilient return member is a torsion spring mounted on the lever axis. In the proposed device, the inhibition on the mode switch does not affect the operability, since due to the elasticity of the switch case, the contacts inside it are closed even if there is no ice or ice on the surface (under the force of the spring, the elastic case the evaporator is progressed and the contacts are closed). The spring, which provides the closure of the contacts, works on twisting (and not on tension-compression, as in the prototype), and, consequently, the formation of ine or even ice between the turns of the spring cannot disturb its normal operation. FIG. 1 shows a device for controlling the defrosting process of a refrigerator of a refrigerator, top view in section; in fig. 2 is a view A of FIG. 1. The device includes a double-arm lever 1 mode switch, inside the sealed elastic body 2 of which electrical contacts 3 are installed, an adjusting screw 4 serving as a unit for the thickness of the snow split, a return elastic element which is a torsion spring 5 mounted along the axis 6 of the lever. The device is installed in a freezing chamber including an evaporator 7, a housing 8, a door 9. A housing 2 for contact elements 3 is disposed from the surface of the evaporator 7 at a distance equal to the maximum size of the snow splint. The device works as follows. Before turning on the refrigerator, the device with the adjusting screw 4 is set to trigger at the calculated thickness of the snow-split. For this, the adjusting screw 4 is set in such a position that, with the freezer door 9 open, between the mode switch case 2 and the clean surface of the evaporator 7 there is a gap equal to the calculated thickness of the snow split. After adjustment, the door 9 is closed, while it depresses the spring-loaded lever 1, which, turning around axis 6, moves away from the surface of the evaporator 7. At the same time, the lever 1 is under the force of spring 5. If the thickness of the snow tooth has reached the set value, then when opening the door 9 under the action of the spring 5, the lever 1 turns and presses the mode switch to the surface of the layer. Since the case 2 of the mode switch is made of elastic material (for example, vacuum rubber), it bends, the electrical contacts 3 are closed and the refrigerator switches to the defrost mode. If the thickness is not less than the set value, then when opening the door 9, the lever 1, rotated under the action of the spring 5, rests against the adjusting screw 4 and, since the body 2 of the contact switch does not reach the surface of the ine, the contacts 3 do not close. Since during the defrosting process the door 9 remains open, the contacts 3 will be closed until the thickness is reduced to the set value. In order that the started defrosting process should not stop when the contacts are opened, the latter are bridged by the contacts of the control circuit of the actuator (not shown). Such an embodiment of the apparatus for controlling the defrosting process of the cooling unit of the refrigerator simplifies its design and increases the reliability of operation. Simplification of the structure is associated with a decrease in the number of elements included in the device (hence, its implementation is simplified). Improving the reliability of the device is due to the fact that its operation is not affected by the formation of heat on the switch body 2 (since under the influence of the force of the spring 5, the elastic body is still deformed and the contacts are closed). In addition, in the proposed device, the spring of the lever works for twisting, which, under conditions of frost formation, when frost can fill the space between the turns, ensures sufficient reliability of operation.

Claims (1)

DEVICE MANAGEMENT PROCESS OF THE REFRIGERATOR OF A REFRIGERATOR VAPOR THRESHOLD, containing a gauge for the thickness of a snow coat, a mode switch, a two-arm lever with a return elastic element, contact elements of the mode switch enclosed in a sealed housing mounted on one arm of the lever, the other arm of which is kinematically connected with the door characterized in that, in order to simplify the design and increase reliability in operation, a sealed housing for contact elements is located from the surface of the evaporator on p Normal distance equal to the maximum value of the snow coat, and is made of resilient material and the resilient return element is a torsion spring mounted on the lever axis.