KR19990003687U - Load change counter of refrigerator - Google Patents

Abstract

The present invention relates to a load change countermeasure device of a refrigerator. In the related art, the amount of refrigerant in a device constituting a cooling cycle of the refrigerator is constant, and thus, the refrigerator may be deteriorated due to failure of timely removing the heat load caused by the load change when the refrigerator is overloaded. In order to solve this problem, a temperature sensor for detecting the temperature difference between the inlet and the outlet of the evaporator is installed, and the auxiliary refrigerant tank connected to the lower side of the accumulator on the upper side and connected to the low pressure side of the compressor and accommodating the refrigerant therein is installed. By installing a valve to selectively open the refrigerant pipe on the refrigerant pipe connecting the auxiliary refrigerant tank and the low pressure side of the compressor to determine the signal of the temperature sensor detected when the refrigerator overloads the control unit to determine the valve To supply additional refrigerant to the compressor and remove the overload It is a load change counter device of a refrigerator to recover the liquid refrigerant separated from the accumulator.

Description

Load change counter of refrigerator

The present invention relates to a refrigerant supply device for a refrigerator, and more particularly, to a load change countermeasure device for supplying a refrigerant to a compressor when the refrigerator is overloaded and recovering the liquid refrigerant separated in the accumulator after removing the heat load. .

In general, the refrigeration cycle apparatus for performing the cooling function of the refrigerator, as shown in Figure 1, discharged at a high temperature and high pressure by the compressor 10 and the compressor 10 for circulating the refrigerant by discharging the refrigerant at a high temperature and high pressure Capillary tube 30 and capillary tube 30 for supplying the refrigerant gas to the outside by releasing heat to the outside condensing and condensing the liquid refrigerant condensed by the condenser 20 to the evaporator easily While the refrigerant supplied through the capillary tube 30 is continuously evaporated, the evaporator 40 for heat exchange with the outside to cool the surroundings and the accumulator 50 for separating gas and liquid refrigerant introduced from the evaporator 40. It is composed.

In addition, the refrigerator by the refrigeration cycle device is determined the size and length of each device according to the practical, that is, the expected heat load of the refrigerator, and the amount of refrigerant is determined accordingly.

However, since the amount of refrigerant is determined based on the normal operation of the refrigerator, the devices constituting the cooling cycle of the refrigerator according to the amount of food stored in the refrigerator and the temperature of the food, ie, the heat load, operate the compressor 10. The refrigerant is circulated by the circulating coolant, but the heat load is much greater than the proper load, and if the overload is applied, deterioration of the refrigerator is caused.

The present invention was devised to improve the problems of the conventional refrigerator, and detects when the refrigerator is overloaded so that the refrigerant can be additionally supplied to the compressor and the amount of refrigerant can be recovered according to the load of the refrigerator so as to recover it when the overload is removed. The technical problem is to prevent deterioration of the refrigerator due to overload.

1 is a block diagram of a device constituting a refrigeration cycle of a conventional refrigerator,

2 is a block diagram of a device constituting a refrigeration cycle of a refrigerator according to the present invention,

3 is a main rear view of the refrigerator showing the machine room of the refrigerator according to the present invention;

Explanation of symbols on the main parts of the drawings

1: auxiliary refrigerant tank 3: sensor

5: valve 10: compressor

20 condenser 30 capillary tube

40: evaporator 50: accumulator

60: cooling fan 100: machine room

In order to achieve the above technical problem, the load change response device of the present invention refrigerator liquefies by discharging heat to a compressor that discharges the refrigerant at high temperature and high pressure to circulate the refrigerant, and the refrigerant gas discharged at high temperature and high pressure by the compressor to the outside. The capillary capillary tube 30 and the refrigerant supplied through the capillary tube 30 continuously supply the condensing condenser and the liquid refrigerant condensed by the condenser to the evaporator in an easy-to-evaporate state. In the refrigeration cycle device of the refrigerator consisting of an evaporator 40 for cooling the surroundings by heat exchange with the outside while accumulating the gas and liquid refrigerant introduced from the evaporator 40, the inlet side of the evaporator and The sensor detects the temperature difference or the pressure difference on the outlet side and applies it to the controller of the refrigerator as an electrical signal. Communication with the interior of the accumulator, and the lower the lower is configured to be connected via the valve to be opened and closed by the control unit and the low-pressure side of the comb puree standing auxiliary refrigerant tank is a refrigerant stored therein.

With reference to the accompanying drawings, the load fluctuation countermeasure of the refrigerator of the present invention configured as described above will be described in more detail.

Figure 2 is a block diagram showing a refrigeration cycle of the refrigerator according to the present invention, Figure 3 is a main rear view of the refrigerator showing the machine room, the compressor 10, the condenser 20, the capillary tube 30, the evaporator (40) In the refrigerator in which the accumulator (50) is sequentially connected by a refrigerant pipe to form a cooling cycle, the present invention provides a sensor (3) for detecting a temperature difference or a pressure difference between an inlet side and an outlet side of the evaporator 40. ) Is installed to transmit the detected value to the control unit (not shown) of the refrigerator as an electrical signal.

In addition, as shown in FIG. 3, an auxiliary refrigerant tank 1 having refrigerant stored therein is installed at one side wall of the machine room 100, and the auxiliary refrigerant tank 1 has an upper side separate from the lower side of the accumulator 50. It communicates with the refrigerant pipe and the lower side is connected to the low pressure side of the compressor 10 separately from the suction pipe through a separate refrigerant pipe.

In addition, on the refrigerant pipe connecting the auxiliary refrigerant tank (1) and the compressor (10) is provided with a valve (5) which is controlled by the control unit of the refrigerator.

The load change response device of the present invention refrigerator configured as described above is the same as the conventional method because the control unit closes the valve 5 installed on the refrigerant pipe connecting the auxiliary refrigerant tank 1 and the compressor 10 in the normal load state of the refrigerator. The cooling cycle apparatus is operated with a constant amount of refrigerant.

On the other hand, if an overload is caused by inflow of food or warmth stored in the refrigerator, the temperature of the inside of the refrigerator is increased and the compressor 10 is operated by the control unit that senses the heat exchange in the evaporator 40. All refrigerants evaporate, resulting in a refrigerant shortage condition.

Thus, the temperature difference and the pressure difference between the inlet and the outlet of the evaporator 40 become large.

Therefore, in the present invention, the sensor 3 installed in the evaporator 40 may be either a temperature sensor or a pressure sensor.

The temperature difference and the pressure difference sensed by the sensor are sent to the control unit, and if the control unit determines that the refrigerator is overloaded, the control unit opens the valve installed in the conduit between the auxiliary refrigerant tank 1 and the compressor 10 to supply the auxiliary refrigerant. The refrigerant in the tank flows into the low pressure side of the compressor 10.

Therefore, the amount of refrigerant circulating in the refrigerating cycle apparatus is increased, the amount of refrigerant discharged by the compressor is increased, and at the same time, the amount of refrigerant evaporated in the evaporator 40 is increased, thereby improving the heat exchange rate of the evaporator and increasing the amount of cold air supplied into the refrigerator. It removes heat load.

On the other hand, after the heat load is removed, the refrigerant vaporization rate in the evaporator 40 decreases, so that the amount of liquid refrigerant is increased in the accumulator, and the liquid refrigerant that is excessively supplied to the refrigerant storage tank 1 is returned, and the inlet and outlet of the evaporator 40 are returned. Since the pressure difference and the temperature difference on the side become smaller, the control unit closes the valve 5 according to the signal of the sensor 3, so that the amount of refrigerant in the apparatus constituting the refrigeration cycle is adjusted to the normal state.

As described above in detail, the load change countermeasure of the refrigerator according to the present invention includes a sensor for detecting a pressure difference or a temperature difference between the inlet side and the outlet side, and a separate auxiliary refrigerant tank installed in the evaporator. By connecting to the low pressure side, and installing a valve that is opened and closed by the control unit between the compressor and the auxiliary refrigerant tank, by supplying additional refrigerant when the refrigerator is overloaded, it is cooled quickly and recovered again after the overload is removed to ensure proper cooling of the refrigerator It is possible to prevent the deterioration of the refrigerator and further improve the cooling performance to provide a high-performance refrigerator.

Claims (2)

The compressor 10 for circulating the refrigerant by discharging the refrigerant at high temperature and high pressure, and the condenser 20 and the condenser 20 for liquefying and condensing the refrigerant gas discharged by the compressor 10 at high temperature and high pressure to the outside. Capillary tube 30 for supplying the liquid refrigerant condensed by the evaporator to the evaporator in an easy-to-evaporate state and the refrigerant supplied through the capillary tube 30 are continuously vaporized and exchanged with the outside. Apparatus for changing loads of a refrigerator, characterized by comprising an evaporator (40) for cooling the surroundings and an accumulator (50) for separating gas and liquid refrigerant introduced from the evaporator (40). The apparatus of claim 1, wherein the sensor (3) is a pressure sensor or a temperature sensor.