SU785614A1 - Apparatus for automatic thawing of domestic refrigerator evaporator - Google Patents

Description

(54) DEVICE FOR AUTOMATIC DEFROSTING OF AN EVAPORATOR OF A HOUSEHOLD REFRIGERATOR The invention relates to refrigeration equipment and can be used in domestic refrigerators. A device for automatic defrosting the evaporator of a domestic cooler, containing an indicator of snow cover thickness, installed in the space between the evaporator and the refrigerator wall, the temperature control loop in the refrigerator chamber and the defrost control datum, and the relays included in the circuits. The thickness indicators of the snow coat of a known device are made in the form of needles mounted at a predetermined distance from the evaporator Ci. However, in the known device, the accuracy of determining the defrost torque of the evaporator is not ensured. The purpose of the invention is to improve the accuracy of determining the moment of defrost. Evaporate l. For this purpose, the snow cover thickness indicator of the device proposed is mounted for movement, connected with the refrigerator door and consists of xprpus, the wall of which, facing the evaporator, is made of spring material, two contours and placed on the inner wall of the case facing the evaporator, pusher for interacting with ksitaktami. In addition, normally open contacts of the snow cover thickness indicator are connected in parallel with the self-locking relay defrosting self-blocking contacts. The winding of the defrosting relay is connected in series with self-locking contacts and normally closed contacts of the defrosting control unit. The motile xitactus of the latter is kinematically associated with the ox-thawing sensor. Fig. 1 schematically shows the position of the indicator of the thickness of the snow PS in the space between the evaporator and the wall of the refrigerator in Fig. 1. 2 electrical scheme of the refrigerator. 378 The main elements of the proposed device for automatic defrosting the evaporator of a domestic refrigerator are located in the space between the wall 1 of the refrigerator cabinet and the evaporator 2 and contain a spring 3, a snow cover thickness indicator 4 5, a cover 6 and a pusher 7 for connecting the indicator to the refrigerator door S. The device also includes a temperature control loop in the refrigerator chamber and a defrost control circuit. Indicator 4, in turn, consists of body 9,. the wall 10 of which is facing the evaporator is made of rubber material mounted on the wall 10 of the pusher 11 and two normally open contacts 12 with which the current 11 interacts. In the defrost control mode, the defrost relay 13 with self-blocking contacts 14 and power crush contacts 15 in the temperature control loop - power switches 16 of the temperature control relay, the temperature control relay 17 itself. The circuit The defrost control circuit and the temperature control circuit are integral elements of the electrical circuit of the refrigerator. The latter includes the electric motor 18, as well as the sensor 19 of the window of the pan-tapping (gauge), spring 20 contact bar 21 and the temperature control pins 22. associated with the setter of the Gn temperature (not shown), the pusher 23 and 24 of the sensor 19 for defrosting, contacts 25 of the setter for the defrosting end and the contact strip 26 fitted with a spring 27. The contacts 25 of the dial for defrosting are normally locked and set to reset. f shanig PO arrow. A...Contacts 22 temperature monitor are normally open and installed with the ability to move along arrow B during normal operation of the refrigeration (prior to the start of thawing). The normally open contacts 12 of the snow cover thickness indicator are turned on in parallel with the self-blocking contacts 13 of the defrosting relay 13. The winding of the latter is successively connected with normally open contacts 14 of self-blocking and, with minimally closed contacts. 25 setting end defrosting. 4 Pins 25, as follows from the device diagram, are kinematically connected to the sensor 19 for the end of thawing (using the Pushers 23 and 24). The device works as follows. Before the refrigerator is first turned on, when the temperature inside it is room temperature and, consequently, the pressure in sensor 19 is high, the plunger 23 abuts against the plunger 24, the spring 27 is compressed. ; In this case, contact 25 is open. Contacts 12 are also closed with the kit 14 and contacts 16. In the closed position are the kit 15 and 22 (spring 20 is compressed). Thus, when the refrigerator is first turned on, only the temperature control relay 17 will operate, the alarm 16 will close, and the cold motor 18 will turn on. Dilnika As it works, the temperature in the evaporator will begin to decrease, and the pressure in sensor 19 will drop. The pusher 23 will begin to move from contact 25 in the opposite direction, with the result that category 24 and contact strip 26 pbd will also begin to move by the action of spring 27. At a certain temperature in the evaporator (defrosting temperature), contacts 25 are closed, but the defrosting relay 13 does not work, since contacts 12 and 14 are open. The motor 18 will continue to operate and the temperature in the evaporator will decrease. Along the gap between the pushers 23 and 24. With further mixing of the pusher 23, contacts 22 will remain closed, since the contact bar 21 will be preloaded with spring 20. Then the protrusion 28 on the pusher 23 will reach the contact plate 21 and then pull it down. The contacts 22 are open and break the power circuit of the temperature control relay 17,. A motor that will turn off engine 18, isolating its power circuit by contacts 16. A normal cycle will begin. operation of the refrigerator in maintaining temperature inside at a predetermined level. When the engine 18 is turned off, the evaporator temperature is up to 1F, the contacts 22 are closed again to start the electric motor. Evaporator cooling, etc. starts. Thus, closing and opening the contacts 22 will maintain the desired temperature in the refrigerator; ike, the value of which is set by the temperature setter. As the cooler works on the evaporator, the snow cover increases. 5. If its thickness is small (less than the distance from the evaporator 2 to the wall 1O of the indicator 4, then when you open the door 8 of the refrigerator 8, the indicator 4 under the action of the spring 3 goes out of the casing 6, but does not touch with snow cover and, therefore, no changes in the operation mode of the refrigerator will occur, closing

the door 8 under the action of the pusher 7 indicator 4 will take its original position. The increase in snow cover on the evaporator will continue. Since the indicator and its casing 6 are not in thermal contact with the evaporator 2, there will be no increase in snow cover on them. The presence of the casing 6 leads to the fact that the evaporation of vapor near that part of the evaporator, which is located near the skin - 20 contacts 22.: ha, becomes difficult and therefore saggy (L cover here practically does not get 4, although on other parts of the evaporator When the snow cover 5 on the evaporator 2 away from the casing 6 reaches a predetermined thickness, which is determined by the distance from the evaporator 2 to the wall 10, then the next time you open the refrigerator shzyr 8, the indicator under the action of the spring 3 will go beyond the casing 6 and come in contact with the snow cover, 5. Xxxx 12 is closed, the defrosting relay 1 will operate, which by its power contacts 15 will break the power supply circuit of the electric motor 18. At the same time, the self-blocking steps 14 will suck and hold the relay 13 in this state, the contacts 25 will not open. Thus, thawing of snow cover 5 from the surface will evaporate. L 2. At the same time, thawing will occur at any position of door 8 and even when the thickness of the snow cover is reduced and becomes less than the one at which thawing began. the knowledge. As the defrosting temperature rises and the evaporator temperature rises, the pressure in the defrost sensor 19 will increase. At the same time, the first fault 22 is closed and the relay 17 will operate. The electric motor 18 will not start, because the relay 13 will be energized, the contacts 15 will be open and the defrosting will: continue. The distance (Y between the sense of the body 23 and the pusher 24 will decrease. At the defrosting temperature (the whole, the length of which is set by the defrosting unit by moving the junction 25 78

nuts. This will not turn off the engine, since the defrosting relay 13 will still remain de-energized, since the self-blocking contacts 14 and the contacts 12 of the indicator 4 are open.

Claims (2)

When the evaporator cools down to the adjustment temperature, the system for maintaining the temperature at a given level will start working by closing and opening 146 according to arrow A) the distance & will become zero and contacts 25 open. The defrosting relay 13 is de-energized, the self-locking contacts 14 are open, and the power contacts 15 are closed. In this case, the defrosting of the fuse, the electric motor 18 will start working, the evaporator will cool 2. Then everything will work the same way as when you first turned on the refrigerator. After some time, the contacts 25 are locked Until the snow cover 5 is not as high as a given thickness at each opening of the door 8, the indicator 4 goes out of the casing 6 each time, but the closure of its contacts 12 will not occur and the refrigerator will not switch on ; thawing The proposed device does not require maintenance, which increases the reliability of the automatic defrosting system and the refrigerator as a whole. In addition, it allows automatic control of defrosting in refrigerators already produced by the industry, in six countries. The ratio of internal size to u is such that the useful use of the volume is very high. This is achieved by the fact that in order to place indications of the thickness of the snow cover, there is practically no need for volume, due to the smallness of its size. The main elements of the device are freely placed in the gap between the evaporator and the wall of the cabinet such as Minsk ZIL and others. The use of the proposed device in you already: started refrigerators allow you to automatically control the defrosting of snow. Apparatus of the invention for automatic defrosting of an evaporator of a cooler cooler containing an indicator of snow cover thickness, installed in the space between the evaporator and the cold wall, the temperature control circuit in the refrigerator amerge and the defrosting controller, which includes increase the accuracy of determining the defrosting moment of the evaporator, the indicator of the thickness of the snow cover is mounted for movement, is connected with the door of the refrigerator and consists of a body, the wall of which is 5, facing the evaporator, is made of spring material, two contacts and installed on the inner wall of the body, the pusher is facing the evaporator, it interacts with the pressure sensors, while the normally open contacts of the snow thickness indicator are turned ON in parallel to the pressure switches of the self-blocking defrosting relay , Which winding is connected in series with the contacts and latching normally closed ksshtaktami setpoint completion thawing movable ksitakty which is kinematically coupled with encoder termination thawing. Sources of information taken into account during the examination 1. USSR author's certificate No. 266786, class R 25P 21/00, 1968 (prototype). -.////////////////////one/: / 2 5 - -46 -four fi V / / 1  5 Yu 18 Phie.g