RU171868U1 - COOLING DEVICE - Google Patents

Abstract

The utility model relates to cooling systems used to cool fuel devices. The technical result of the invention is to increase energy efficiency, reduce material consumption and increase temperature stability in the system of providing cold consumers. The technical result is achieved by the fact that the cooling device containing at least one refrigerator connected via a liquid circuit (fluid) to the battery in the form of a tank with heat transfer fluid - heat carrier, and cold consumers connected to the battery through a two-pipe line to which more than one consumer is connected liquid circuit, with a cold accumulator (including at least one tank - a tank), characterized by the fact that the battery contains closed cold storage s cells (the amount is less than the accumulator volume - liquid containers) with an agent, phase transition temperature (freezing and thawing) which is located in the operating temperature range (close to a predetermined temperature stabilization). The cold storage cells may be filled with a mixture containing glycol and water, or any eutectic mixture. The coolant contains water and glycol, and the freezing temperature of the coolant is lower than the freezing temperature of the mixture in the cells. The device may contain more than one two-pipe line, each of which is connected to more than one consumer, and at least one two-pipe line to which more than one refrigerator is connected. As a minimum of one refrigerator, an external heat exchanger can be used, which exchanges the heat carrier with the external atmosphere (heat recovery unit). EFFECT: increased energy efficiency is achieved by the possibility of accumulation of cold in colder time (for example, at night) and the use of accumulated cold in warmer (for example, daytime) time. The utility model can be successfully used for the production and operation of cooling devices in industry, including in breweries, in the production of ice cream, etc.

Description

The well-known "SYSTEM FOR COOLING THERMAL FUEL DEVICES AND MAINTENANCE OF THE BATTERY TEMPERATURE IN THE AIRCRAFT BELOW THE CABIN TEMPERATURE" RU 2374140 [2], containing a refrigeration unit, at least one refrigerant, is connected to the refrigeration system via a refrigerant system cold transfer, as well as an intermediate storage of refrigerant.

The disadvantage of this device is the low thermal stability due to the low heat capacity of the system with a changing intensity of cold consumption.

The closest technical solution is the "Ice Cream Factory" EP 2131667 [1], which contains at least one refrigerator connected via a liquid circuit to the battery in the form of a tank with heat transfer fluid - a coolant, and cold consumers connected to the battery via a two-pipe line to which connected to more than one consumer of the liquid circuit, with a cold accumulator in the form of a tank.

The device has increased thermal stability compared to [2] due to the presence of a cold accumulator in the form of a tank with heat transfer fluid.

The disadvantages are low energy efficiency, high material consumption and low temperature stability in the cold supply system to consumers.

The technical result of the invention is to increase energy efficiency, reduce material consumption and increase temperature stability in the system of providing cold consumers.

The technical result is achieved by the fact that the cooling device containing at least one refrigerator connected via a liquid circuit (fluid) to the battery in the form of a tank with heat transfer fluid - heat carrier, and cold consumers connected to the battery through a two-pipe line to which more than one consumer is connected liquid circuit, with a cold accumulator (including at least one tank - a tank), characterized by the fact that the battery contains closed cold storage s cells (the amount is less than the accumulator volume - liquid containers) with an agent, phase transition temperature (freezing and thawing) which is located in the operating temperature range (close to a predetermined temperature stabilization).

Cold storage cells can be filled with a mixture containing glycol and water, or any eutectic mixture that provides the necessary temperature range for the phase transition.

The coolant contains water and glycol, and the freezing temperature of the coolant is lower than the freezing temperature of the mixture in the cells. The indicated ratio of freezing temperatures is achieved by a higher concentration of glycol in the coolant.

The device may contain more than one two-pipe line, each of which is connected to more than one consumer, and at least one two-pipe line to which more than one refrigerator is connected. The presence of highways will save on pipe connections for refrigerators (cooling stations, refrigeration producers) and consumers of cold to the battery.

As a minimum of one refrigerator, an external heat exchanger can be used, which exchanges the heat carrier with the external atmosphere (heat recovery unit). At an external air temperature below the freezing temperature of the agent in the cells, it is possible to reduce the load on refrigerators with an electric drive of the compressor, which will achieve significant energy savings.

The device is schematically shown in FIG. 1 (schematic diagram of consumer cooling), where:

1 - refrigerators;

2 - cold consumer;

3 - cold accumulator with cold storage cells;

4 - highway consumers of cold;

5 - highway refrigerators.

The device operates as follows: refrigerators (cooling stations, refrigeration producers) 1 are connected to the cold accumulator 3 with cells through the refrigerator line 5. Cold consumers 2 are connected to the cold accumulator 3 by the cold consumers highway 4.

EFFECT : increased energy efficiency is achieved by the possibility of accumulation of cold in colder time (for example, at night) and the use of accumulated cold in warmer (for example, daytime) time. EFFECT: reduced material consumption is achieved by reducing the weight and volume of the battery, since when using cold storage cells with a phase transition (freezing and thawing of liquid in the cells), the specific heat of the agent significantly increases. EFFECT: increased temperature stability in a system for providing a cold to consumers is achieved by increasing the amount of transmitted and absorbed thermal energy while reducing the temperature range.

Industrial application. The utility model can be successfully used for the production and operation of cooling devices in industry, including in breweries, in the production of ice cream, etc.

Claims (7)

1. A cooling device comprising at least one refrigerator connected by means of a liquid circuit to an accumulator in the form of a container with a heat transfer fluid - coolant, and cold consumers connected to the battery via a two-pipe line to which more than one liquid circuit consumer is connected, with a cold accumulator, characterized the fact that inside the battery there are closed cold storage cells with an agent, the phase transition temperature of which is located in the operating range temperature. 2. The device according to claim 1, characterized in that the cold storage cells are filled with a mixture containing glycol and water. 3. The device according to p. 1, characterized in that the cold storage cells are filled with a eutectic mixture. 4. The device according to p. 1, characterized in that the coolant contains water and glycol, and the freezing temperature of the coolant is lower than the freezing temperature of the mixture in the cold storage cells. 5. The device according to p. 1, characterized in that it contains more than one two-pipe line, each of which is connected to at least one consumer. 6. The device according to claim 1, characterized in that it contains at least one two-pipe line to which more than one refrigerator is connected. 7. The device according to p. 1, characterized in that as a minimum of one refrigerator, an external heat exchanger is used, which exchanges the heat carrier with the external atmosphere.

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