KR101351938B1 - P.C.M storage type cold store of Moving passable P.C.M small container having furnished. - Google Patents

Abstract

The present invention relates to a PCM cold storage cold storage with a portable PCM storage cold storage container, using a low-load light night power to operate the AC refrigeration system installed in the PCM cold storage cold storage is fixed to the ground condenser The refrigerant discharged from the air is circulated through the expansion valve installed inside the cold storage compartment connected to the AC chiller system to the refrigerant gas heat exchanger inside the cold storage tank where the low temperature latent heat PCM (Phase change material) is stored. The low temperature latent heat PCM (phase change material) of the phase change (liquid to solid) through the heat exchange (heat exchange) to cool the low-temperature thermal energy. In addition, after the cooling of the PCM stored in the cold storage tank installed in the cold storage compartment is completed, the refrigerant discharged from the condenser of the condenser unit of the AC refrigerator system is wheeled using a 3-way valve. Is circulated through the refrigerant gas evaporator inside the storage tank installed inside the compact storage container of the PCM storage container, which is movable and transfers the low temperature latent heat PCM (phase change material) inside the storage tank through heat exchange. Phase change (from liquid to solid) causes the low temperature thermal energy to cool down.

At this time, the compressor unit of the AC refrigerator system is equipped with a compressor and a condenser to perform the compression process and the condensation process during the refrigerating cycle. An expansion valve and an evaporator, which perform the expansion and evaporation processes, are installed so that the high-pressure pipe line where the medium and high-pressure refrigerant liquid that can be separated moves and the low-temperature and low-pressure refrigerant gas Connect the moving low pressure pipe line to the connector and disconnect the connector after the low temperature thermal energy is completed. When the PCM accumulator type container is not equipped with a compressor and condenser, When operating the compressor and condenser that consumes a lot of power that make up the condenser unit in the refrigerator system. It is possible to keep the inside of the loading box at the refrigerating or freezing temperature with only the cold storage energy of low temperature latent heat P.C.M where low temperature thermal energy is stored. In addition, the air inside the cargo box is circulated and cooled by the blower inside the storage tank for efficient use of the low temperature heat energy stored in the PCM inside the PCM storage cold storage and fixed PCM storage container. In installing the air circulation pipe so that the air inlet port and the air outlet port are connected, the air circulation pipe is attached to the concave portion of the rectangular shape of the front side of the cold storage tank, and the heat exchange area of the low temperature heat energy stored in the PCM and the air inside the storage box is increased. By installing a heat exchange coil with heating fins, the air inside the stacker passes through the heat exchanger coil and cools down after the heat exchange. Thereby cooling the inside of the loading compartment Or a P.C.M cold storage cold storage having a small P.C.M storage cold storage container capable of maintaining at a freezing temperature.

AC Refrigerator, Cold Storage Tank, Connector, Heat Exchange Coil, High Pressure Pipe Line, Low Pressure Pipe Line, Solenoid Valve, 3-way Valve, Air Circulation Pipe, PCM, Blower, DC Battery ( battery)

Description

P.C.M storage type cold store of Moving passable P.C.M small container having furnished.}

The present invention relates to a PCM cold storage cold storage having a portable PCM cold storage compact container, more specifically, AC low temperature cold storage in a PCM storage cold storage is installed on the ground using a low-cost light load midnight power. The refrigerant discharged from the condenser is circulated through the expansion valve installed inside the cold storage box connected to the AC refrigerator system to the refrigerant gas heat exchanger inside the storage tank where the low temperature latent heat PCM (Phase change material) is stored. In addition, the low temperature latent heat PCM (phase change material) inside the storage tank is phase-changed (from liquid to solid) through heat exchange to cool the low temperature heat energy. In addition, after the refrigeration of the PCM stored in the cold storage tank installed in the cold storage compartment is completed, the refrigerant discharged from the condenser constituting the condenser unit of the AC refrigerator system using a 3-way valve is used. Wheels are circulated in the refrigerating gas evaporator inside the refrigerating tank installed in the compact storage container of the mobile PCM storage container.The heat exchange is carried out for the low temperature latent heat PCM (phase change material) Through the phase change (liquid to solid), the low-temperature heat energy is cooled.

At this time, the condenser unit of the AC refrigerator system is equipped with a compressor and a condenser to perform the compression process and the condensation process during the refrigeration cycle. An expansion valve and an evaporator, which perform the expansion and evaporation processes, are installed so that the high-pressure pipe line where the medium and high-pressure refrigerant liquid that can be separated moves and the low-temperature and low-pressure refrigerant gas Connect the moving low pressure pipe line to the connector and disconnect the connector after the low temperature thermal energy is completed. When the PCM storage type compact container is not equipped with a compressor and condenser, AC is used during the day. Low temperature heat energy is stored without operating compressors and condensers that consume a lot of power in the refrigerator system. It is possible to maintain the desired temperature inside the loading box only with the stored energy of the low temperature latent heat PCM. In addition, the air inside the cargo box is circulated and cooled by the blower inside the storage tank for efficient use of the low temperature heat energy stored in the PCM inside the PCM storage cold storage and fixed PCM storage container. In installing the air circulation pipe so that the air inlet port and the air outlet port are connected, the air circulation pipe is attached to the concave portion of the rectangular shape of the front side of the cold storage tank, and the heat exchange area of the low temperature heat energy stored in the PCM and the air inside the storage box is increased. By installing a heat exchange coil with heating fins, the air inside the stacker passes through the heat exchanger coil and cools down after the heat exchange. Thereby releasing the cooled air into the compartment to refrigerate or Appropriate within the PCM cold storage cold storage compartment and mobile PCM cold storage compact storage container, which are fixed on the ground using a single condenser unit consisting of a compressor and a condenser fixedly fixed to the cold storage. By supplying low temperature heat energy to maintain the temperature, freshly store and transport the products for pre-cooling the agricultural products harvesting and the storage of refrigerated and frozen storage where a certain temperature should be maintained, and installing a separate freezer system to operate the mobile low temperature container. reduced and the operation of the refrigerating machine cost as do not relate to fuel and structures of the PCM chuknaengsik low-temperature reservoir having a small container that can PCM chuknaengsik moved so as to improve the economical efficiency by reducing the jum CO ² emissions.

In general, a cold store is provided with a refrigeration system for supplying cold air for pre-cooling and storing agricultural products, and for storing cold and frozen foods. The refrigeration system circulates the refrigerant along the refrigeration cycle to cool the surrounding air and discharges the generated cold air into the loading compartment to maintain the proper temperature inside the loading compartment. This refrigeration cycle uses a compressor (compressor). When the low-temperature low-pressure gas refrigerant is converted into high-temperature high-pressure gas from the compressor and sent to the condenser (condenser, receiver dryer), the air takes heat away from the condenser and liquefies it into a medium- and high-pressure refrigerant liquid, and passes through an expansion valve. It lowers the pressure of the liquid and converts it into a low-temperature, low-pressure spray liquid that easily evaporates at room temperature, enters the evaporator, takes the heat from the surroundings, becomes a gas, and passes the air inside the loading box by a fan. By repeating blowing in the inside of the storage box, the inside of the storage box is kept at a refrigeration (0 ° C to + 5 ° C) or freezing (-15 ° C to -20 ° C) temperature.

Representative examples include [Document 1].

[Reference 1] KR 20-0266901, 2002.01.29

However, the compressor (compressor) of the refrigeration system repeats the ON / OFF cycle to cool the inside of the cold storage compartment to a cold (0 ° C to + 5 ° C) or freezing (-15 ° C to -20 ° C) temperature during high temperature days. As it is operated, it has a disadvantage in that it does not generate a lot of electric charges and reduce peak time power. In addition, in the case of a mobile low temperature container, as a separate refrigeration system is attached to the container and oil is used to operate the freezer, the cost of maintaining an appropriate temperature inside the loading box and the increase in the use of oil during transportation are increased. There is a disadvantage that the amount of CO ² generated increases.

Therefore, the present invention is expensive in cooling the inside of the cold storage box in the cold storage (0 ℃ ~ + 5 ℃) or freezing (-15 ℃ ~-20 ℃) temperature, which is a problem in power demand management, It is to provide a structure to solve the problem that the compressor (compressor) of the refrigeration system to be operated repeatedly and on and off during the daytime peak time.

The present invention is equipped with a separate refrigeration system for maintaining the inside of the storage box of the cold container that can be moved by using a transport such as a truck in the refrigeration (0 ℃ ~ + 5 ℃) or freezing (-15 ℃ ~-20 ℃) It is to provide a structure to solve the problem that must be operated using oil.

The purpose of the present invention as described above is to operate the AC refrigerator system installed in the PCM low-temperature cold storage that is fixed to the ground by using a low-cost late-night power, inexpensive condensation unit (AC unit) of the AC chiller system Through the expansion valve installed inside the cold storage compartment and the low temperature latent heat PCM (phase change) inside the cold storage tank is circulated to the refrigerant gas heat exchanger (Evaporator) in the cold storage tank where the low temperature latent heat PCM (Phase change material) is stored. The material is phase-changed (liquid to solid) through heat exchange to cool the low-temperature heat energy. In addition, after the PCM stored in the cold storage tank installed inside the cold storage compartment is completed, the refrigerant discharged from the condenser, which is a component of the condenser unit, of the AC refrigerator system is wheeled using a 3-way valve. A wheel is installed to circulate the refrigerant gas inside the refrigerating tank installed inside the small storage container that can be moved.The heat exchange of low temperature latent heat PCM (phase change material) inside the refrigerating tank is carried out. Phase change (from liquid to solid) through) to cool the low temperature heat energy.

At this time, the condenser unit of the AC refrigeration system is equipped with a compressor and a condenser that perform compression and condensation processes among four refrigeration cycles as main components, and are equipped with a portable PCM storage-type small container that can be moved. An expansion valve and an refrigerant evaporator, which perform expansion and evaporation, are installed in the inside of the storage cooling tank, and the high-pressure piping line to which the medium / high pressure refrigerant liquid, which can be separated, is moved. Connect the low pressure pipe line where the low temperature low pressure refrigerant gas moves to the connector. After the low temperature heat energy has been accumulated, the connector is disconnected. A compressor and a condenser are not installed in the PCM low pressure type container. Without the refrigeration system running during the day without cooling, only the cold storage energy of low temperature latent heat PCM It is being able to maintain the desired temperature inside the charger on the go. In addition, for the efficient use of the low-temperature heat energy stored in the PCM inside the PCM storage cold storage and mobile PCM storage cold storage container that is fixed on the ground, the air inside the storage box can be circulated and cooled by the blower inside the storage cooling tank. In installing the air circulation pipe so that the air inlet and the air outlet are connected, the air circulation pipe is attached to the rectangular concave portion of the front side of the cold storage tank and increases the heat exchange area of low temperature heat energy stored in the PCM with the air inside the storage box. By installing a heat exchanger coil with heating fins, the air inside the stacker passes through the heat exchanger coil and cools down after the heat exchange, and attaches a blower to the air outlet so that it can be discharged into the stacker. Operation to vent cool air into the compartment to refrigerate or By using a single condenser unit consisting of a compressor and a condenser fixedly fixed to the cold storage cold storage, the PCM cold storage cold storage box is fixed on the ground by using low-cost light-loaded midnight power. PCM Storage-type small container It is a structure that supplies low-temperature heat energy to keep the inside of the storage box at the refrigeration or freezing temperature.It is a power consumption freezing for 24 hours a day including the weekly peak time period to maintain the inside of the loading container at the refrigeration or freezing temperature. By changing the system's compressor (compressor) to operate on and off repeatedly, to reduce the power bill and improve the efficiency of power demand management, and to maintain the refrigeration or freezing temperature inside the storage box of the existing mobile low temperature container Changing the way of installing and operating, the ground Uses and uses condensation unit of PCM regenerative cold storage, which is fixedly installed, and saves low-temperature heat energy for maintaining refrigeration or freezing temperature inside the loading box to use additional refrigeration system installation cost and oil when operating the freezer. It is a very useful invention that can reduce operating costs and CO ² by not doing so.

According to the configuration of the present invention as described above, by using an inexpensive light-load late-night electric power to operate the AC refrigerator system installed in the PCM storage cold storage is fixed to the ground to cool the refrigerant discharged from the condenser connected to the AC refrigerator system low temperature Heat exchanges the low-temperature latent heat phase change material (PCM) in the cold storage tank by circulating it in the refrigerant gas heat exchanger (Evaporator) in the low-temperature latent heat PCM (Phase change material) installed inside the storage compartment. Through phase change (from liquid to solid), the low-temperature heat energy is cooled. In addition, after the cooling of the PCM stored in the cold storage tank installed in the cold storage compartment is completed, the refrigerant discharged from the condenser among the components of the condenser unit of the AC refrigerator system is wheeled using a 3-way valve. PCM is a small container that can be installed and moved to a small container, and it is circulated through a refrigerant gas heat exchanger inside the storage tank to heat exchange the low temperature latent heat PCM (phase change material) inside the storage tank. Through phase change (from liquid to solid), the low-temperature heat energy is cooled.

At this time, the condenser unit of the AC refrigerator system is equipped with a compressor and a condenser to perform the compression process and the condensation process during the refrigeration cycle. An expansion valve and an evaporator are installed to perform the expansion process and the evaporation process. Connect the low pressure pipe line to the connector and disconnect the connector after the low-temperature heat energy has been cooled.The PCM low-pressure container is not equipped with a compressor or condenser that consumes a lot of power. Do not operate the AC refrigerator system during the day in the state, but only the cold storage energy of the low temperature latent heat PCM where low temperature heat energy is stored. It can be used to keep the inside of the loading box at refrigerating or freezing temperature while moving. In addition, the air inside the cargo box is circulated and cooled by the blower inside the storage tank for efficient use of the low temperature heat energy stored in the PCM inside the PCM storage cold storage and fixed PCM storage container. In installing the air circulation pipe so that the air inlet and the air outlet are connected, the air circulation pipe is attached to the concave portion of the front rectangular shape of the refrigerating tank, and the heat exchange area of the low temperature heat energy stored in the PCM and the air inside the storage box is increased. By installing a heat exchanger coil with heating fins, the air inside the stacker passes through the heat exchanger coil and cools down after the heat exchange, and attaches a blower to the air outlet so that it can be discharged into the stacker. By operating, blow the cooled air into the inside of the loading box to obtain the proper temperature inside the loading box. To reduce power bills and improve power demand management efficiency, and to reduce the cost of installing a separate condenser unit consisting of a compressor and a condenser in a small PCM storage container It is a very useful invention that can reduce operating costs and CO ² .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view of a P.C.M. 17 cold storage 6 having a movable P.C.M 17 storage type compact container 7 according to the present invention;

2 is a schematic diagram of a condensation unit (Unit) combination refrigeration system consisting of a compressor (4) and a condenser (5) using a connector (10) according to the present invention.

That is, the present invention is installed in the PCM (17) cold storage cold storage (6) that is fixed to the ground containing the temperature control control box 13, using low-cost mid-night power without using oil or daytime power Low temperature latent heat PCM (Phase change material) through the expansion valve (2) installed inside the storage box of the cold storage (6) connected to the AC refrigerator (1) by operating the AC refrigerator (1) system (17) is circulated to the refrigerant gas heat exchanger (Evaporator) 3 inside the storage tank 14, the low temperature latent heat PCM (phase change material) inside the storage tank 14 heat exchange (Heat Exchange) 17) through the phase change (liquid to solid) to cool the low-temperature thermal energy. At this time, the PCM (17) stored in the cold storage (6) storage tank 14 is operated by the AC refrigerator (1) system to reduce the amount of cold storage completed within 7 to 9 hours of 10 hours of light load power available time. Save it. In addition, after the cold storage of the PCM 17 stored in the cold storage tank 14 installed in the cold storage compartment 6 is completed, a condenser (Condensor), which is a component of the condensation unit (Unit) of the AC refrigerator 1 system ( 5) Wheels are installed using the 3-way valve 21 installed in the refrigerant pipe which is controlled by the control box 13 after completing heat exchange with the refrigerant discharged from the compressor 4. Refrigerant gas heat exchanger (3) inside the refrigerating tank (14) installed inside the storage box of the movable PCM (17), the low-temperature storage system (6) ) Phase change of the latent latent heat phase change material (PCM) 17, in which the amount of cold storage can be completed for the remaining time after the PCM 17 stored in the cold storage tank 14 inside the loading box is completed, through heat exchange. (From liquid to solid) to cool the low temperature thermal energy .

At this time, the compressor unit (Unit) of the AC refrigerator (1) system is provided with a compressor (4) and a condenser (5), which performs the compression process and the condensation process during the refrigeration cycle, and is movable PCM ( 17) An expansion valve (2) and a refrigerant gas heat exchanger (3), which perform expansion and evaporation, are installed in the storage tank 14 inside the storage box. After connecting the high pressure pipe line 8, which moves the medium and high pressure refrigerant liquid, and the low pressure pipe line 9, where the low temperature and low pressure refrigerant gas moves, to the connector 10, The connector (10) is removed and the PCM (17) small-sized refrigerated container (7) is not equipped with a high power consumption compressor (4) and condenser (5) during the day. Low temperature heat energy does not operate AC refrigerator (1) system Only the stored low temperature latent heat PCM (17) of the cold storage energy can be kept inside the loading box to move to the refrigeration or freezing temperature.
At this time, a solenoid valve 20 is attached to both sides of each pipe line connected to the connector 10 to prevent the refrigerant from leaking when connecting and disconnecting the pipe line. Nipple (12) is attached to the Nipple (12) to replenish refrigerant through nipple (12) when the performance of AC chiller (1) system decreases due to refrigerant leakage. PCM (17) Storage cold storage (6) and movable PCM (17) Storage-type small container (7) Inside the cold storage tank (14) insulated for efficient use of the low-temperature heat energy stored in the PCM (17) inside the storage box. In installing the air circulation pipe 11 so that the air inlet 18 and the air outlet 19 are connected so that the air in the stack circulates and is cooled by the blower 15 installed in the air outlet 19 to the furnace, Air circulation pipe 11 is the center portion of the front surface of the cold storage tank 14 insulated The heat storage area of the low temperature heat energy stored in the PCM 17 and the air inside the stacker are loaded in a concave portion that is not insulated in a rectangular shape so that the low temperature heat energy in the cold storage tank 14 can be effectively heat exchanged with the stored PCM 17. In order to install the heat exchange coil (Coil) 22 attached to the heat transfer fins, the air inside the storage box passes through the heat exchange coil (Coil) 22 and after the heat exchange is cooled, so that the discharge into the inside of the storage box, In attaching and operating the blower 15 to the air outlet 19, the blower 15 installed in the PCM 17 cold storage 6 is operated using AC power, and the PCM 17 cold storage small container ( The blower 15 installed in 7) discharges the cooled air to the inside of the storage box by using a separately installed DC battery 16 to refrigerate (0 ° C. to + 5 ° C.) or freeze (-15 ° C. to) -20 ℃) .

1 is an overall perspective view of a P.C.M (17) cold storage cold storage (6) having a movable P.C.M (17) cold storage small container (7) according to the present invention.

2 is a schematic diagram of a refrigeration system for a condensation unit unit comprising a compressor 4 and a condenser 5 using a connector 10 according to the present invention.

Figure 3 is a cross-sectional view showing the shape of the refrigerant circulation high-pressure pipe line 8 and the low-pressure pipe line (9) to be detachable using a connector (Connector) 10 according to the present invention.

4 is a perspective view showing the form of a cold storage tank 14 according to the present invention.

Figure 5 is an assembly view showing a coupling state of the heat exchange coil (Coil) 22 consisting of a heat storage fin 14 and a heat transfer fin according to the present invention.

Figure 6 is a side cross-sectional view showing a state in which the air inside the cargo box heat exchange and circulate.

Description of the Related Art

1. AC refrigerator 2. Expansion valve

3. Refrigerant Gas Heat Exchanger 4. Compressor

5. Condenser 6. Cold Storage

7. Small Container 8. High Pressure Piping Line

9. Low Pressure Piping Line 10. Connector

11.Air Circulation Tube 12.Nipple

13. Control box 14. Storage tank

15. Blower 16. DC battery

17.Phase Change Material (P.C.M)

18.Air intake port 19.Air exhaust port

20. Solenoid Valve

21. 3-way valve 22. Heat exchange coil

Claims (3)

AC cooler (1) installed in PCM (17) storage-type cold storage (6) that is fixed on the ground including temperature control control box (13) using low-cost late-night power without using oil or daytime power (1) Low temperature installed in the cold storage compartment (6) and the small container (7) storage box connected to the AC refrigerator (1) system to cool the refrigerant discharged from the condenser (5), which is a component of the condenser unit. It is circulated through a refrigerant gas heat exchanger (3) inside the storage cold storage tank (14) in which a latent heat PCM (Phase change material) 17 is stored, and the low temperature latent heat PCM (phase change material) inside the storage cooling tank 14 is provided. (17) in a phase change (liquid to solid) phase through heat exchange to accumulate low temperature thermal energy; The PCM (17) stored in the cold storage tank (14) of the cold storage (6) operates the AC refrigerator (1) system and loads the AC refrigerator (1) system without the AC cooler (1) system during the day during 10 hours of light load late night power available time. It can be maintained for more than 10 hours at the refrigerating temperature (0 ℃ ~ +5 ℃) or the freezing temperature (-15 ℃ ~ -20 ℃), and the amount of the cold storage is completed within 7 hours to 9 hours is stored; After the cold storage of the P.C.M 17 stored in the cold storage tank 14 installed inside the cold storage 6 loading box is completed; 3-way valve installed in each refrigerant pipe which is controlled electronically by the control box 13 after the heat exchange with the refrigerant discharged from the condenser 5 of the AC refrigerator 1 system and the refrigerant recovered by the compressor 4 Using 21; Circulating through a refrigerant gas heat exchanger (3) inside a storage tank (14) installed inside a storage box of a P.C.M (17) storage-type small container (7) which is equipped with a wheel and is movable; Low temperature storage during 10 hours of late-night power available time inside the cold storage tank 14 After the cold storage of the PCM (17) stored in the internal cold storage tank 14 is completed, the low temperature latent heat PCM (stored in the remaining time can be completed) The phase change material (17) is phase-changed (from liquid to solid) through heat exchange to cool the low temperature thermal energy. At this time, the condenser unit installed in the cold storage 6 of the AC refrigerator 1 system has a compressor 4 and a condenser 5 which perform the compression process and the condensation process during the refrigeration cycle. Is installed; The PCM (17) that can be moved is a refrigerated small container (7) inside the storage section of the cold storage tank (14), the expansion valve (Expansion valve) to perform the expansion process and the evaporation process (2) and the refrigerant gas heat exchanger (Evaporator) (3) ) Is installed; Connecting the high pressure pipe line 8 through which the medium and high pressure refrigerant liquid which can be separated moves to the low pressure pipe line 9 through which the refrigerant gas of low temperature and low pressure move through the connector 10; After the low-temperature heat energy has been cooled, the connector 10 is disconnected, and the compressor 4 and the condenser 5 are not installed in the PCM 17 storage-type small container 7. In the daytime without running the power consuming compressor 4 and the condenser 5 which are the condensing unit components of the AC refrigerator 1 system; With only the cold storage energy of low temperature latent heat P.C.M (17) where low temperature thermal energy is stored, the inside of the loading box can be kept at a refrigerating temperature (0 ° C to + 5 ° C) or a freezing temperature (-15 ° C to -20 ° C). In addition, for the efficient use of the low-temperature heat energy stored in the P.C.M (17) storage cold storage (6) and the movable P.C.M (17) cold storage small container (7) inside the storage box fixed to the ground; The air circulation is connected to the air inlet port 18 and the air outlet port 19 so that the air in the storage box is circulated and cooled by the blower 15 installed in the air outlet port 19 inside the heat storage cold storage tank 14. In installing the tube 11; The air circulation pipe 11 has three rectangular concave surfaces that are not insulated in a rectangular shape so as to effectively exchange heat with the PCM 17 in which the low temperature heat energy inside the heat storage cold storage tank 14 is stored in the center of the front surface of the insulated storage cold storage tank 14. To increase the heat exchange area of the low temperature thermal energy stored in the PCM 17 with the air inside the loading box (back, left side, right side); It is installed by attaching a heat exchange coil 22 with heat transfer fins, and the air inside the stacker passes through the heat exchange coil 22 and cools down after the heat exchange. In attaching and operating the blower 15 to the outlet 19; The blower 15 installed in the PCM 17 cold storage 6 is operated using AC power, and the blower 15 installed in the PCM 17 small storage 7 is installed separately from the DC battery ( 16) is used to discharge the cooled air into the inside of the loading compartment to maintain the inside of the loading compartment at the refrigerating temperature (0 ℃ ~ + 5 ℃) or freezing temperature (-15 ℃ ~ -20 ℃) A PCM (17) cold storage cold storage (6) having a PCM (17) cold storage small container (7). In claim 1, in the PCM (Phase Cooled Small Container 7) storage box, the PCM (Phase Change Material) 17 stored in the internal storage cold storage tank 14 is connected to the high pressure pipe line 8 and the low pressure for connection during the cold storage and for separation after cold storage. When connecting the piping line (9) to the connector (10); The solenoid valve 20 is attached to both sides of each pipe line connected to the connector 10 so that the refrigerant does not leak when connecting and disconnecting the pipe line. ) PCM (17) cold storage (6) with a small storage container (7). Nipple (12) is attached to the connector (10) in claim 2 to replenish the refrigerant through the nipple (12) when the performance of the AC refrigerator (1) system due to refrigerant leakage A PCM (17) cold storage cold storage (6) provided with a movable PCM (17) cold storage small container (7).

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