SU1116279A1 - Cooling chamber - Google Patents

Abstract

1. A REFRIGERATION CAMERA containing a heat insulation barrier, cooling devices with a tray to collect melt water, a melt water removal pipeline, external barriers installed with a gap relative to the heat insulation barrier, outdoor air fans between the barriers and a control system differing from that, in order to reduce heat leakage and reduce power consumption in hot climates, it is equipped with a collection of melt water and humidifiers installed on the discharge side of the fan The control system contains temperature sensors installed respectively in the gap between the ceiling fences, outside on the solar and shadow side, and connected to the drive of the pump and fans. 2. The chamber according to claim 1, characterized in that in order to reduce the heat influx in conditions of high humidity of the outside air, it additionally contains air-cooled condensers with swivel shutters installed before humidify (LL mi, and the control system additionally has a temperature sensor air from the condenser and connected to the louver drive.

Description

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The invention relates to refrigeration, equipment, in particular to refrigeration facilities for long-term storage of food products (distribution refrigerators, fruit storages, etc.), mainly located in areas with significant solar radiation, and to refrigeration systems for removal of heat leakages in the refrigerator.

A refrigerating chamber is known that is equipped with a refrigeration unit with refrigeration devices using outside air that moves in a gap formed by the outer fence of the refrigerator and the outer fence 1.

The disadvantage of this installation is that with the forced ventilation of the outside air due to the insignificant heating of the air (no more than 4-5 ° C), its considerable expenses are necessary, which prevents a significant energy consumption for the fan drive; when air is pre-cooled in the air cooler, it is necessary to expend energy to produce cold in the refrigeration unit.

The closest to the proposed technical essence and the achieved result is a refrigerating chamber containing a heat insulation barrier, cooling appliances with a tray to collect melt water, a melt water removal pipeline, external barriers installed with a gap relative to the heat insulation barrier, outdoor supply fans air between fences and control system 2.

A disadvantage of the known chamber is that with natural convection of air, the use of outside air does not provide for sufficient removal of heat influxes from solar radiation.

..The purpose of the invention is to reduce heat, inflows and reduce power consumption in hot climates and in conditions of increased humidity of the outside air.

The unallocated goal is achieved by the fact that a refrigeration chamber containing a heat insulation barrier, cooling devices with a tray to collect melt water, a melt water removal pipeline, external barriers installed with a gap relative to the heat insulation barrier, outdoor air supply fans between the barriers and the control system , equipped with a collection of melt water and humidifiers installed on the discharge side of the fans and connected via a pump to the collection of melt water, the control system contains dates temperature switches, installed respectively in the gap between the ceiling fences, outside on the sunny and shady side, and are connected with the drive of the pump and fans.

In addition, it additionally contains air condensers with swivel shutters installed in front of the humidifiers, and the control system additionally

5 has an air temperature sensor at the outlet of the condenser and is connected to a blind actuator.

FIG. 1 is given the scheme of the refrigerating chamber; in fig. 2 - top view; in fig. 3 is a diagram of a refrigerating chamber designed for conditions of increased humidity; in fig. 4 - view from above.

The refrigerating chamber includes a heat-insulated barrier 1, cooling devices 2 installed in the chamber, a system for collecting melt water, containing a tray 3, a pipeline 4 and a collection of 5 melt water, a pump 6 for supplying water, a distribution water pipeline 7, a fan 8 with an electric motor, and humidifiers 9, nozzles

0 10. Regarding the thermally insulated enclosure 1 of the fridge chamber, there are external side 11 and 12 ceiling enclosures with a gap. Humidifiers 9 are connected to gaps between the barriers. The line control system 13 is connected to air temperature sensors 14-16, installed respectively in the gap between the fences, in the sun and in the shade, and connected to the electric motors of the fans 8 and the pump 6. Refrigeration of the chamber can be performed any known building structure, including with the use of prefabricated panels “sandwich.

A refrigerating chamber operating under conditions of high humidity of the air up to 5% contains air condensers 17, equipped with rotating blinds 18, controlled by electric motors 19. Humidifiers 9 are equipped with nozzles 10 and are installed directly behind condensers 17. A link control system 13 is connected to sensors 14, 15. 16 and 20 air temperatures set respectively in the gap between the exposures, the sun, in the shade, and the air outlet from the condenser; and with electric motors of fans 8 and pump 6.

Refrigerating chamber works as follows.

In the process of defrosting cooling devices 2, the water is collected in the pan 3 and through the pipeline 4 flows into the collection 5 thawed

0 water. When a mismatch occurs in the temperature sensor 14, 15 and 16, the control system 13 gives a command to the fan motor or motor 19 controlling the louver 18. Air is supplied from air condensers 17 or (according to Fig. 1) without them humidifiers 9, and the pump 6 delivers moisture to the nozzles 10. Cooled and containing fine moisture

air from humidifiers 9 enters the gaps between the fences, removes heat from solar radiation and is released into the environment. Sensor 14 measures the air temperature in the gap between the barriers. Depending on changes in the external conditions, the mass flow rate of air and water can be regulated, for example, by using multi-speed motors of humidifiers and pump fans.

In the absence of a difference in the readings of the temperature sensors 15 and 20, the control system 13 stops the pump 6 motor and places the control louvers 18 in a position that provides air supply after the capacitors 17 to the environment.

The use of the proposed refrigerating chamber makes it possible to reduce the total external heat influx into the refrigerated premises by reducing (or eliminating) the heat inflows from solar radiation by using air cooling and external air processes and saturating it with water beds and fine B.youx blunt air: obtained during defrost of cooling devices; reduce shrinkage of stored products as a result of reduction of external heat inflows; reduce the total energy consumption in the refrigerator per 1 ton of stored product; to regenerate the cold by using water for humidifying the air, which is removed during defrosting of cooling iriborov; to eliminate the harmful effects of salts dropping from evaporated water droplets on the external and external fencing enclosures (especially if they are made of metal sheets and sandwich panels), as distilled tallah is introduced into the air; to provide more equal to the dimensional load on the refrigeration compressors during the day, which reduces the wear of the component, leu co-compressors, increases their durability and reduces the cost of repair of compressors.

Claims (2)

1. REFRIGERATING CAMERA, comprising a heat-insulating fence, cooling devices with a tray for collecting melt water, a pipe for draining melt water, external barriers installed with a clearance relative to the heat-insulating fence, outdoor air supply fans between the barriers and a control system, characterized in that, for the purpose of reduce heat influx and reduce energy consumption in hot climates, it is equipped with a melt water collector and humidifiers installed on the discharge side of the fans and connected through a pump to a collection of hot water, the control system contains temperature sensors installed respectively in the gap between the ceiling fences, outside on the sunny and shadow sides, and is connected to the drive of the pump and fans. 2. Camera by π. 1, characterized in that in order to reduce heat leakage in conditions of high humidity of the outdoor air, it further comprises air condensers with rotary shutters installed in front of the humidifiers, and the control system further has an air temperature sensor at the outlet of the condenser and is connected to the blinds drive.