RU2014145108A - HYBRID REFRIGERATOR USING TWO-STAGE COOLING - Google Patents

Abstract

1. A hybrid cold production system comprising: a first structure having one or more elements located therein, the first structure comprising: a pre-cooling system for lowering the temperature of one or more elements from the first temperature to a predetermined threshold temperature, wherein the preliminary system cooling operates according to the first operating mode, which provides a cooling process selected from the group consisting of: active cooling by evaporation, passive cooling evaporation, thermoelectric cooling, cooling by means of a dual evaporator, cooling by means of a source of natural free energy, and cooling by means of a pipeline leading from an air-conditioned environment, and a second structure, comprising: means of rapid cooling to further lower the temperature of one or more elements from a given threshold temperature to the final desired temperature, while the means of rapid cooling operates according to the second operating mode. 2. The system of claim 1, wherein the first operating mode is provided by active cooling by evaporation, including using a combination of air, water, a pump and an evaporation plate to pre-cool one or more elements, while the pump delivers water to the plate, air passes through the plate and reaches one or more elements, lowering the first temperature to achieve a predetermined threshold temperature, while the evaporation plate is configured to be installed and removed during cooling through

Claims (19)

1. A hybrid cold production system comprising: the first structure having one or more elements located in it, while the first structure contains: a pre-cooling system for lowering the temperature of one or more elements from the first temperature to a predetermined threshold temperature, while the pre-cooling system operates according to the first operating mode, which provides a cooling process selected from the group consisting of: active cooling by evaporation, passive cooling by evaporation, thermoelectric cooling dual evaporator cooling cooling through a source of natural free energy, and cooling by means of a conduit leading from an air-conditioned environment, and a second structure containing: rapid cooling means for further lowering the temperature of one or more elements from a predetermined threshold temperature to the final desired temperature, while the rapid cooling means operates according to the second operating mode. 2. The system according to claim 1, in which the first operating mode is provided by active cooling by evaporation, including the use of a combination of air, water, a pump and an evaporation plate to pre-cool one or more elements, while the pump delivers water to the plate, air passes through the plate and reaches one or more elements, lowering the first temperature to achieve a given threshold temperature, while the evaporation plate is configured to install and remove during cooling Niya through the cartridge. 3. The system of claim 1, wherein the first operating mode is provided by passive cooling by evaporation, including using a combination of air, water and an absorption plate to pre-cool one or more elements, while the absorption plate absorbs water due to capillary action, air passes through plate and reaches one or several elements, reducing the first temperature to a predetermined threshold temperature, while the absorbing plate is configured to be installed and removed during cooling by means of a cartridge. 4. The system of claim 1, wherein the second operating mode is provided by a cooling process selected from the group consisting of: thermoelectric cooling micro / minicompressors of direct current, and AC compressor. 5. The system according to claim 4, in which the first operating mode is provided by active cooling by evaporation, while the second operating mode is provided by thermoelectric cooling, while the hot side during thermoelectric cooling receives air as a result of the process of active cooling by evaporation, and the air reduces hot side temperature. 6. The system of claim 1, wherein the second structure comprises a cold preservation mechanism provided by easily changing the phase of the material, while the mechanism maintains a temperature in the second structure. 7. The system of claim 1, further comprising a controller for reporting completion of a first stage cooling mode when the temperature of one or more elements is detected by a temperature sensor to achieve a predetermined threshold temperature. 8. The system of claim 1, wherein the second structure further comprises: a cold preservation mechanism for maintaining the temperature in the second structure, provided by easily changing the phase of the material, and a controller for reporting completion of the cooling mode of the first stage when the temperature of one or more elements is detected by a temperature sensor to achieve a predetermined threshold temperature. 9. The system of claim 8, wherein the first operating mode is provided by a cooling process selected from the group consisting of: active cooling by evaporation, passive cooling by evaporation, thermoelectric cooling dual evaporator cooling cooling by means of an easy phase-changing material, cooling through a source of natural free energy, and cooling by means of a pipeline leading from a medium with air conditioned. 10. The system according to claim 9, in which the first operating mode is provided by an active cooling process by evaporation, including using a combination of air, water, a pump and an evaporation plate to pre-cool one or more elements, while the pump delivers water to the plate, air passes through plate and reaches one or more elements, reducing the first temperature to a predetermined threshold temperature, and the evaporation plate is configured to install and remove during cooling TV cartridge. 11. The system of claim 9, wherein the first operating mode is provided by a passive cooling process by evaporation, including using a combination of air, water and an absorption plate to pre-cool one or more elements, while the absorption plate absorbs water due to capillary action, the air passes through the plate and reaches one or more elements, lowering the first temperature to a predetermined threshold temperature, and the absorbing plate is configured to be installed and removed in Processes cooling through the cartridge. 12. The system of claim 9, wherein the second cooling mode is provided by a cooling process selected from the group consisting of the following: thermoelectric cooling micro / minicompressors of direct current, and AC compressor. 13. The system according to p. 12, in which the first operating mode is provided by active cooling by evaporation, while the second operating mode is provided by thermoelectric cooling, while the hot side during thermoelectric cooling receives air as a result of the active cooling by evaporation, and the air reduces hot side temperature. 14. A method of cooling in a refrigeration unit containing a first structure and a second structure, configured to accommodate one or more elements, and a temperature sensor configured to detect the temperature of one or more elements, the method comprising the steps of: cooling one or more elements during the first operating mode to reduce the temperature of one or more elements from the first temperature to a predetermined threshold temperature, determining a predetermined threshold temperature of one or more elements by means of a temperature sensor, transferring one or more elements from the first structure to the second structure when the temperature is determined to achieve a predetermined threshold temperature, and cooling one or more elements as part of the second stage of the cooling mode in the second structure, by means of the second operating mode, to reduce the temperature of one or more elements from a given threshold temperature to a final desired temperature. 15. The method according to p. 14, in which cooling is provided by a cooling process selected from the group consisting of: active cooling by evaporation, passive cooling by evaporation, thermoelectric cooling dual evaporator cooling cooling by means of an easy phase-changing material, cooling through a source of natural free energy, and cooling by piping from an air-conditioned environment. 16. The method according to p. 15, in which the process of active cooling by evaporation involves using a combination of air, water, a pump and an evaporation plate to pre-cool one or more elements, while the pump delivers water to the plate, air passes through the plate and reaches one or more elements, reducing the first temperature to a predetermined threshold temperature, and the evaporation plate is configured to be installed and removed during cooling by means of a cartridge. 17. The method according to p. 15, in which the process of passive cooling by evaporation involves using a combination of air, water and an absorption plate to pre-cool one or more elements, while the absorption plate absorbs water due to capillary action, air passes through the plate and reaches one or several elements, reducing the first temperature to a predetermined threshold temperature, and the absorbing plate is configured to be installed and removed during cooling by means of a cartridge. 18. The method according to p. 15, in which cooling by means of a second operating mode provide through a cooling process selected from the group consisting of: thermoelectric cooling micro / minicompressors of direct current, and AC compressor. 19. The method according to p. 18, in which the first operating mode is provided by active cooling by evaporation, while the second operating mode is provided by thermoelectric cooling, while the hot side during thermoelectric cooling receives air as a result of active cooling by evaporation, and the air reduces hot side temperature.