RU9053U1 - TEMPERATURE SUPPORT DEVICE IN THE REFRIGERATOR - Google Patents

Abstract

1. The device for maintaining the temperature in the refrigerator, containing a freezer and at least one refrigerating chamber, a closed circulation circuit with sequentially placed evaporators in the freezing and refrigerating chambers, a temperature sensor installed in the freezer and connected to the unit for turning on and off the refrigerant supply, characterized in that the device is equipped with a fan and an additional temperature sensor, while the fan is located in the freezer, and the additional sensor is installed in cold pressure chamber and is connected to the unit for turning off the refrigerant supply, and an additional temperature sensor is connected to the unit for turning on and off the refrigerant supply through the parameter processing unit. 2. The device according to claim 1, characterized in that it is equipped with a second additional temperature sensor, which is mounted on the surface of the refrigerator. The device according to PP. 1 and 2, characterized in that the fan is located near the evaporator.

Description

The unit maintains the temperature in the refrigerator

The proposal relates to low-temperature technology, in particular to devices for maintaining the temperature in the refrigerator.

A device for maintaining temperature in a refrigerator is known, comprising

closed freezer and at least one refrigerator, closed

a circulation circuit with sequentially placed evaporators in the freezer and refrigerator, a valve for shutting off the refrigerator's evaporator, a temperature sensor installed in the freezer and connected to the units for turning on and off the refrigerant supply (see Uzhansky BC et al. “Refrigeration automation. Food industry, M., 1971, p. 240).

A disadvantage of the known device is the placement of a liquid separator after the evaporator of the freezer to eliminate the ingress of refrigerant into the compressor.

The technical result of this device is to increase the efficiency of the evaporators of the refrigerator chambers, reduce the time to reach the set temperature in the refrigeration and freezer chambers, increase the accuracy of temperature control in all temperature zones at any temperature in the room, and reduce energy consumption due to this.

The technical result is achieved by the fact that the device for maintaining the temperature in the refrigerator contains a freezer and at least one refrigerator, a closed circulation circuit with sequentially placed evaporators in the freezer and refrigerator, a temperature sensor installed in the freezer and connected to the power unit and off the refrigerant, the device is equipped with a fan and an additional temperature sensor, while the fan is located in the freezer, and an additional sensor installed in a refrigerator and connected to the unit for turning on and off the refrigerant supply. The device is equipped with a second additional temperature sensor, which is mounted on the surface of the refrigerator. Temperature sensors are connected to the unit for turning on and off the refrigerant supply through the parameter processing unit. The fan is located near the evaporator.

The drawing shows a device for maintaining the temperature in the refrigerator.

The device comprises a freezer 1, a refrigerator 2, a closed circulation circuit 3 with sequentially placed evaporators 4 and 5, respectively, of the freezer and refrigerator. In the freezer 1, there is a temperature sensor 6 and a fan 7. Additional temperature sensors 8 and 9 are installed respectively in the refrigerator 2 and on the surface of the refrigerator. The device is equipped with a unit for switching on and off the supply of refrigerant 10 and a processing unit for parameters 11. The refrigerant circuit 3 contains a compressor 12.

The device operates as follows. The refrigerant is fed to the evaporator 4 of the freezer 1, then to the evaporator 5 of the refrigerating chamber 2 connected with it. The temperature is monitored in the freezing and refrigerating chambers. Given the decrease and increase of the set limit temperature values in one of the chambers, respectively, stop or resume the supply of refrigerant to the evaporator 4. The termination or renewal of the refrigerant supply is carried out taking into account the set limit temperature values determined

in the refrigerator 2. When raising the upper temperature setpoint in the freezer 1, periodic forced

air circulation in it by means of a fan 7. Air circulation in the freezer 1 is periodically stopped when the lower temperature value is reached in it.

In accordance with this proposal, temperature sensors are installed as follows: a sensor 8 is installed in one of the ns points of the volume of cold 1m of the chamber 2, a sensor 6 is installed in one of the ns points of the volume of the cold chamber 1.

The control value is set corresponding to the upper and lower temperature values in the refrigerating chamber 2, at which, using the parameter processing unit 11 and the on and off unit 10, the refrigerant is supplied by turning the compressor on or off. And also the value of the control signal corresponding to the upper temperature in the freezer 1, at which the compressor 12 and the all-ntilator 7 of the freezer 1 are turned on.

When the set temperature in the freezer is reached from the sensor 6, through the processing unit 11, a signal is issued to turn off the valve 7 of the freezer 1. If there is no air movement through the evaporator 4, it takes less heat from the freezer 1 and the temperature of the evaporator 4 drops to the boiling point of the refrigerant . This reduces the rate of boiling of the refrigerant in the evaporator 4 and more of the non-evaporated refrigerant with a lower temperature will enter the evaporator 5 of the refrigerating chamber 2, where, evaporating, it will more intensively take the heat out of the refrigerating chamber 2. When the fan 7 of the evaporator 4 of the freezing chamber 1 is turned off, it increases the efficiency of the evaporator 5 of the refrigerator 2, while the evaporator 4 of the freezer 1 does not turn off, the convective flow of cold air from the evaporator 4 into the freezer 1 prevents w temperature in it. The evaporator 4 of the freezer 1 remains in operation, which eliminates the need for a digger to ensure the reliability of the compressor, and ensures the efficient use of all the cold produced by the refrigeration unit in the chambers of the refrigerator.

I n iiOBbiiiieHHH tempera I ur1 to m ir oinjii.iii) H chamber B1. value through the processing unit of the paramegres 11 block 10 will turn on the compresgch-2

and fan 7 of freezer 1, when the set temperature in the freezer reaches the sensor 6 through block 11 and block 10 give a signal to turn off fan 7, the compressor remains in operation if temperature adjustment in the refrigerator is required.

If the temperature in the refrigerator rises above the upper set value, the unit 10 will turn on the compressor 12, and the fan 7 of the freezer 1 will be turned on only if the temperature in the freezer is higher than its shutdown temperature, that is, the temperature of the freezer must be adjusted ..

The temperature in the refrigerator is regulated by the temperature setting of the sensor 8, which is installed and measures the temperature at one of the points in the volume of the refrigerator 2. The heat influx entering the refrigerator or the freezer through the insulation leads to the fact that at all points of the volume of the camera at any time .

The temperature difference between the place of installation of the temperature sensor and the center of the chamber in each particular refrigerator model depends only on the place of installation of the sensor. Therefore, the temperature setting of the sensor 8 using block 11 is determined as the sum of the values of the required temperature in the center of the chamber and the temperature difference at the installation location of the sensor Viv in the center of the chamber.

Using the block 11, a correction is introduced into the temperature set point of the sensor 8, the value of which corresponds to the ambient temperature measured by the sensor 9. The correction value can change as continuously with a change

the value of the ambient temperature is discrete, that is, by a certain amount with a certain change in the value of the ambient temperature.

With increasing temperature in the room, heat inflows increase through thermal insulation into the refrigerator chamber, therefore the temperature difference increases at the place of installation of the temperature sensor and in the middle of the chamber. An electronic circuit that monitors the temperature in the room using block 11 increases the control setpoint by introducing a higher correction. The compressor turns on and off at higher temperatures and thus ensures constant temperature maintenance in the middle of the chamber.

As the room temperature decreases, heat gain through thermal insulation into the refrigerator chamber decreases, the temperature difference in the MCUIC of the temperature sensor in the middle of the chamber also decreases. An electronic circuit that monitors the temperature in the room using unit 11 reduces the correction to the value of the control setpoint, thereby reducing the control set point. The compressor turns on and off at lower temperatures and thus ensures constant temperature in the middle of the chamber.

Thus, with a constant temperature control setting, a change in the correction value corresponding to a change in the room temperature prevents both an excessive decrease in the temperature in the chamber with increasing temperature in the room, and an excessive increase in temperature in the chamber when the temperature in the chamber decreases to a value of the same order as the set temperature in refrigerator compartment.

In block 11, several programs are introduced to control the temperature in the refrigerator in accordance with the temperature setting of the sensors that measure the temperature in the refrigerator chambers. Using one of the elements of the electric circuit of the refrigerator, for example, a connecting harness for processing parameters 11, a signal corresponding to this model of the refrigerator is introduced. By this signal, unit 11 selects a program for controlling the temperature in the refrigerator chambers corresponding to this model of the refrigerator. According to the selected program, block 11 selects the control settings, the control sequence of actuators. The signal corresponding to the model of the refrigerator is introduced into the block 11 either continuously, or at each voltage supply.

Thus, the use of the proposed invention allows to increase the efficiency of evaporators of refrigerator chambers, to reduce the time to reach a predetermined temperature in the refrigeration and freezer, to increase the accuracy of temperature control in all temperature zones at

any temperature in the room, and thereby reduce energy consumption and increase the reliability of the refrigerator by reducing the number of elements of the control circuit.

/

Claims (3)

1. The device for maintaining the temperature in the refrigerator, containing a freezer and at least one refrigerating chamber, a closed circulation circuit with sequentially placed evaporators in the freezing and refrigerating chambers, a temperature sensor installed in the freezer and connected to the unit for turning on and off the refrigerant supply, characterized in that the device is equipped with a fan and an additional temperature sensor, while the fan is located in the freezer, and the additional sensor is installed in cold a pressure chamber and is connected to the unit for turning off the refrigerant supply, and an additional temperature sensor is connected to the unit for turning on and off the refrigerant supply through the parameter processing unit.  2. The device according to claim 1, characterized in that it is equipped with a second additional temperature sensor, which is mounted on the surface of the refrigerator. 3. The device according to paragraphs. 1 and 2, characterized in that the fan is located near the evaporator.