RU90018U1 - REFRIGERATING AND HEATING INSTALLATION OF A REFRIGERATOR AND HEATED CONTAINER - Google Patents

Abstract

1. Refrigeration and heating installation of a refrigerated and heated container, including a compressor, an air condenser, a receiver, a thermal expansion valve, an evaporator-air cooler and an automatic control unit, characterized in that it is equipped with a regenerative heat exchanger that provides heat exchange between the refrigerant vapor coming from the evaporator, and liquid refrigerant coming from the condenser, a filter drier and a moisture indicator, sequentially placed after the receiver, and the receiver with abzhen fusible link. ! 2. Refrigeration and heating installation, characterized in that the frame of the installation casing and its wall, which is both the internal power wall of the cargo volume of the container, are made of stainless steel.

Description

The utility model relates to refrigeration and heating equipment and can be used to provide the necessary temperature conditions in the cargo volume of the refrigerated and heated container used for transportation of goods by water, rail and road transport.

Known vapor compression refrigeration machine with air-cooled condenser used in the inhabited compartment of the vehicle. The chiller contains an evaporator with a thermostatic valve, a thermal relay with an air temperature sensor installed in the air stream at the inlet to the evaporator, a compressor, a condenser with a fan, and a receiver with an electric heater. The machine is equipped with a device for regulating the intensity of the heat sink in the form of blinds (see RF patent No. 2230265, 2004).

The closest analogue to the claimed utility model is a refrigeration-heating installation of a refrigerator, a container, including a compressor, an air condenser, a receiver, a thermal expansion valve, an evaporator-air cooler and an automatic control unit (see RF patent No. 2254242, 2005).

The known installation does not have sufficient means for monitoring the state of the refrigerant.

In addition, in a known installation, the housing is made of aluminum, which is susceptible to electrochemical corrosion and oxidation.

The objective of the proposed utility model is to increase the reliability of the installation and efficiency.

The problem is solved due to the fact that the refrigeration and heating installation of the refrigerator container, including a compressor, an air condenser, a receiver, a thermal expansion valve, an evaporator-air cooler and an automatic control unit, is equipped with a regenerative heat exchanger that provides heat exchange between the refrigerant vapor coming from the evaporator and liquid refrigerant coming from the condenser, filter drier and moisture indicator, sequentially placed after the receiver, and the receiver p is equipped with a fusible insert.

The utility model is illustrated using a drawing.

The refrigeration and heating installation of the refrigerator container includes a compressor 1 with a crankcase heater 2, an air condenser 3 with a fan 4, a receiver 5 equipped with a fusible insert 6, a filter drier 7, a moisture indicator 8, valve 9, a regenerative heat exchanger 10, a thermal expansion valve 11, an evaporator - air cooler 12 with fan 13, controlled throttling valve 14 and solenoid valve 15. For operation in heating and defrosting modes, the unit uses an electric air heater 16. The unit is equipped with a control unit leniya, sensors of temperature and pressure, and also regulating and shutoff valves. The moisture indicator 8 is a cylinder with a round transparent glass, which allows you to control the presence of refrigerant. By the number of bubbles in the refrigerant stream, it is possible to determine the lack of refrigerant in the circuit. In the center of the glass there is an indicator, depending on the color of which you can determine the degree of humidity of the refrigerant in the circuit. If the moisture content in the refrigerant exceeds the permissible value, it is necessary to regenerate the refrigerant. The evaporator is equipped with a pallet 17 with an electric heater 18. A drainage sleeve 19 for condensate drain is fitted to the pallet, equipped with a flexible electric heater 20.

The device operates as follows.

The compressor 1 compresses the gaseous refrigerant and pumps it into the condenser 3. In the condenser, the refrigerant condenses due to its cooling by the air pumped by the fan 4, and the resulting liquid is additionally cooled. Next, the liquid refrigerant enters the receiver 5, then the refrigerant passes through the filter drier 7, the moisture content indicator 8, which allows to determine the degree of drying, and valve 9. After that, the liquid refrigerant is additionally cooled in the regenerative heat exchanger 10 by the vapor leaving the evaporator 12. Then the refrigerant is throttled in the expansion valve 11 and enters the evaporator 12, where it boils, completely turning into steam and cooling the air supplied by the fan 13 into the cargo volume of the container. The refrigerant vapor, leaving the evaporator 12, cools the liquid refrigerant in the regenerative heat exchanger 10 and is sent to the compressor for suction. At the same time, in the section between the regenerative heat exchanger 10 and compressor 1, the refrigerant vapor passes through a controlled throttling valve 14, with which you can change the mass flow rate of the refrigerant flow, thereby regulating the cooling capacity of the installation. When the temperature of the receiver 5 reaches a critical value, the material of which the fusible insert 6 is made is melted, the receiver is depressurized, which prevents the possibility of rupture of the HFC circuit under high pressure. Under heating and defrosting modes, the electric heater 16, the electric heater 18 and the flexible electric heater 20 are turned on. Regulation of the installation is carried out using the control unit associated with the temperature and pressure sensors 21.

Claims (2)

1. Refrigeration and heating installation of a refrigerated and heated container, including a compressor, an air condenser, a receiver, a thermal expansion valve, an evaporator-air cooler and an automatic control unit, characterized in that it is equipped with a regenerative heat exchanger that provides heat exchange between the refrigerant vapor coming from the evaporator, and liquid refrigerant coming from the condenser, a filter drier and a moisture indicator, sequentially placed after the receiver, and the receiver with abzhen fusible link. 2. Refrigeration and heating installation, characterized in that the frame of the installation casing and its wall, which is both the internal power wall of the cargo volume of the container, are made of stainless steel.