RU2174657C2 - Refrigerator - Google Patents

Abstract

FIELD: storage of food stuff, biological and other products at low temperature. SUBSTANCE: refrigerator has heat-insulated shell, air cooler mounted on its wall and provided with cold source, compartments for products, plates made from low heat- conducting material forming air-circulating passages and fans mounted in upper portions of plates above air cooler. Compartments for products are located in height of each plate forming central air passage between adjacent compartments. Plates have holes for communicating each compartment with air-circulating passages. EFFECT: protected storage of products without impairment of their quality; simplified construction; enhanced economical efficiency.

Description

 The invention relates to the field of refrigeration and relates to the design of devices for storing food, biological and other products at low temperatures.

 Also known is a refrigerator for storing food at low temperatures (as USSR AS N 629416, class F 25 D 13/00, 10/25/1978).

 It contains a heat-insulated casing with an air cooler installed in it on the casing wall with a cooling source and a compartment for placing products, a system of one-way ventilation of the compartment. At the same time, the temperature in the compartment is maintained at the same level, depending on ineffective cooling and unregulated air circulation through it. In addition, there is no reduction in heat gain from outside.

 A refrigerator is known, including a thermally insulated casing, plates placed at the side walls of the casing with the formation of channels for air circulation, two air coolers with a cooling source and compartments for placing products (SU 1781521 A1, F 25 D 17/06, 12/15/1992). This invention is the closest to the described technical essence and the achieved result.

 In a known technical solution, air coolers are connected in parallel and each of them is connected to its channel for air circulation. The refrigerator has fans installed with the possibility of changing the position along the height of the channel, but not above the air cooler. Therefore, the air heated from the fans can pass through the channels. Each air supply channel is formed between a solid partition and the chamber wall, and a perforated wall is placed in front of the solid partition, which introduces an additional part into the device and creates additional resistance to air flow and increases the energy consumption for air circulation in the refrigerator, and also complicates the design and increases the mass of the device (which is especially important for the device of transported refrigerators).

 Also, the known refrigerator contains a special duct made in the form of a perforated pipe installed in the cargo volume, which clutters the structure, creates additional weight and resistance to the circulating air flow.

 This invention is aimed at achieving a technical result, which consists in simplifying the design, reducing heat gain, increasing efficiency in manufacturing and operation.

 To achieve this technical result, the refrigerator, including a thermally insulated body, plates placed from the side walls of the body with the formation of channels for air circulation, an air cooler with a cooling source and compartments for placing products, is characterized in that the air cooler is installed on the wall of the body and in the upper sections of each plate made of low-conductive material, fans with air ducts are placed above the air cooler, while compartments for accommodating products are placed wife height of each plate to form between adjacent compartments of the central passage, and plates provided with holes for communicating the cavity of each compartment directly with channels for air circulation.

 The invention is illustrated in the drawing, which schematically shows a refrigerator.

 The refrigerator contains a thermally insulated casing 1 with an air cooler 3 installed on it on the wall 2 of the casing 1 with a cooling source 4, for example, a refrigerant circuit 5. There are compartments 6 for placing products.

 The refrigerator is equipped with plates 7.8 mounted at the side walls of the housing 1, made of low-conductive material, such as fiberglass, and fans 9, 10 with air ducts 11, 12. The plates 7, 8 are placed at the side walls 13, 14 of the housing 1 with the formation of channels 15, 16 for air circulation. Fans 9, 10 with air ducts 11, 12 are located in the upper sections 17, 18 of each plate 7, 8 above the air cooler 3. Compartments 6, 19 for placing products are located along the height of each plate 7, 8 with the formation of a central passage between adjacent compartments 6 and 19 20, and holes 21 are made in the plates 7, 8 for communicating the cavity 22 of each compartment 6, 19 with channels 15, 16 for air circulation.

 The refrigerator works as follows.

 The refrigerant, for example liquefied propane, is fed into the refrigerant circuit 5 of the air cooler 3, where the liquid propane evaporates, taking heat from the walls of the air cooler 3 and the air in contact with it, pumped by the fans 9, 10 through the ducts 11, 12. The cooled air from the air cooler 3 enters through passage 20 into compartments 6, 19, where it cools and moisturizes the products placed there. From compartments 6, 19, air enters through openings 21 into channels 15, 16. When passing through channels 15, 16, air, in contact with the walls 13, 14 of housing 1, removes heat gain penetrating from the outside and enters the input to fans 9, 10. The intensity of air circulation in compartments 6, 19 is regulated by turning on one or two fans 9, 10. At the same time, when one fan 9 is turned on, air will circulate with greater intensity through compartments 6, and when only one fan 10 is turned on, through compartments 19. In addition, the intensity of The air circulation is controlled by increasing (decreasing) the number of revolutions of the fans 9, 10. The implementation of the plates 7, 8 from a low-heat-conducting material, for example fiberglass, allows to reduce heat influx from the outside to a minimum.

 Thus, the inclusion of plates 7, 8 of low-heat-conducting material in the refrigerator, the installation of fans 9, 10 in their upper sections 17, 18 and the formation of channels 15, 16 for air circulation inside the refrigerator with the possibility of regulating the intensity of air circulation through the refrigerator compartments, ensures a long storage of products while maintaining their required quality, which allows you to complete the task.

 The presence of one air cooler mounted on top, and supplying a stream of cold air from above through a central passage formed essentially by the adjacent compartments themselves, provides simplicity of design and economy in manufacturing and operation. The location of the fans above the air cooler provides an increase in the cooling efficiency of the circulating air flow due to the fact that only at the outlet of the channels 15, 16 the circulating air flow passing through the compartments and channels is in contact with the mass of the design of fans having heat from the engines that heat the air. Moreover, it is essential that this occurs at the end of its working path immediately before entering the air cooler, when the heat received by the air is removed when passing through the air cooler, and the cooled air, having a minimum temperature, spends cold in its way only to cool the products and remove heat influx from outside.

 The use of a refrigerator, for example, on board space orbital stations for storing food products, medicines, and the like, will make it possible to give a significant economic effect by ensuring efficient cooling of products and controlled air circulation through the refrigerator compartments, which, in turn, ensures the preservation of the required quality of products during their long storage on board the station during orbital flight.

Claims (1)

 A refrigerator including a thermally insulated casing, plates placed at the side walls of the casing with the formation of channels for air circulation, an air cooler with a cooling source and compartments for placing products, characterized in that the air cooler is installed on the wall of the casing and in the upper sections of each plate made of low heat-conducting material, fans with air ducts are placed above the air cooler, while the compartments for placing products are located along the height of each plate with the formation m between adjacent compartments of the central passage, and holes are made in the plates for communication of the cavity of each compartment with channels for air circulation.