SU1013711A1 - Cooling cabinet - Google Patents

Abstract

1. A REFRIGERATED CABINET containing a heat-insulated casing, the internal volume of which is divided into sections by two vertical parallel walls with openings in the upper and lower parts, a fan and an evaporator, mounted respectively in the upper and central zones of the middle section, -. u so that, in order to ensure uniform temperature in the cabinet volume and reduce energy consumption by intensifying heat exchange in the evaporator, additional holes are made in the middle of the walls, the ratio of the area to the total area of the holes made in the upper and lower parts of the walls is from 1/3 to 1/2, while the ratio of the equivalent diameter of the tube of the evaporator to the distance between the horizontal axis of the additional holes and the lower edge of the evaporator is from 1/30 to 1/50. . one, about t l and ch and y (L y and and with the fact that the openings executed on one wall are displaced from, - P of the relative openings executed on other wall. with

Description

The invention relates to refrigeration equipment, namely to hollow multi-compartment cabinets used in trade and public catering.

A refrigerated cabinet with forced air circulation is known, which includes a heat-insulated casing, an evaporator, a partition wall separated from the cooled chamber, a centrifugal fan with air ducts and air-10

Distribution box 1.

However, in this refrigerator, the location of the suction and delivery channels and the considerable extent of the evaporator along the engine, does not allow getting air intake. organized circulation of air flow in a cooled volume.

The closest to the proposed invention 20 in its technical essence and the achieved result is a refrigerated cabinet containing a heat-insulated case, the internal volume of which is divided into sections by two vertical parallel walls with openings in the upper and lower parts, the fan and evaporator, mounted respectively in the upper and central zones of the middle section 2.

The disadvantage of this refrigerator is the uneven temperature of the floor in the volume of the cabinet and insufficient heat exchange from the air in the evaporator due to the low temperature. 35 temperature head in its upper part. .

The purpose of the invention is to provide a uniform temperature field in 40 cabinet volume and reduce energy consumption by intensifying heat exchange in the evaporator.

This is achieved by the fact that in a refrigerator, containing a heat insulated casing, the internal volume of which is divided into sections by two vertical parallel walls with openings in the upper and lower parts, the fan and the evaporator eaten, mounted respectively in the upper and central zones In the middle section, in the middle part of the walls, additional holes are made, the ratio of the area of which to the total area of the holes made in the upper and lower parts of the walls is from 1/3 to 1/2, with the ratio the equivalent diameter of the evaporator tube to the distance between the horizontal axis of the additional holes and the lower edge of the evaporator is from 1/30 to 1/50.

The holes made on one wall are swept away with respect to the holes made on the other wall,, 65

Fig, 1 schematically shows the proposed refrigerator, a general view; in fig. 2 - the same plan view; in fig. 3 is a view, and in FIG. 2 in FIG. 4 is a view B in FIG. 2; Fig. 5 shows the graphical dependence of the evaporator temperature variation on its relative depth.

The cooling cabinet consists of a heat-insulated case 1, the internal volume of which is divided into cooled sections 2 and 3 and an air-cooling section 4 placed between them by means of walls 5. In the upper zone of the middle section 4 a fan “6” is mounted, and in the central zone - an evaporator 7. B The walls 5 at the top and bottom have through holes 8 and 9 for the circulation of air, and these holes, made on one of the walls 5, are displaced relative to the holes on the other wall 5. In environments | Ney. parts of the walls 5 are made with additional holes 10, the ratio of the area of which to the total area of the main holes 8 and 9 is 1/3 to 1/2, and the ratio of the equivalent diameter d of the evaporator tube to the distance between the horizontal axis of the additional holes 10 and the bottom The cells of the evaporator 7 are between 1/30 and 1/50. All .8-10 openings for air circulation have an oval cross-section.

The operation of the refrigerator cabinet is as follows.

The air from the cooled sections 2 and 3 through the openings 9 in the walls 5 is sucked in by the fan 6 in the middle of the middle section 4. When moving through the lower part of the evaporator 7, the air is cooled. At the same time, an additional portion of air is sucked through the holes 10 and the total air flow is cooled down by the subsequent part of the evaporator 7, the air velocity increases and the heat exchange rate increases in the upper zone of the evaporator 7, in addition, the average integral temperature head increases throughout the depth of the evaporator 7, which It is shown in FIG. 5, but here the dashed line shows the characteristic for a conventional distributor circuit, when up to 60% of the relative depth L / d. evaporator 7 operates with a reduced temperature head. Further, the cooled air through the upper openings 8 in the walls 5 is guided in sections 2 and 3.

Offset of the holes 8 and 9 on one of the walls 5 relative to the holes 8 and 9 on the other wall 5 provides the best blowing of the evaporator 7 and the uniform distribution of air in the cooled sections. 2 and 3.

Thanks to proper air circulation. the volume of the proposed refrigerated cabinet increases the average temperature head in isp. on the air side, the heat transfer coefficient increases by approximately 25-30%. At the same time, the coefficient (the working time of the refrigeration system and, accordingly, the average daily races, the course of electric power is reduced by 5-10%.

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Claims (2)

1. REFRIGERATING CABINET, containing a thermally insulated case, the internal volume of which is divided into sections by two vertical parallel-mounted walls with holes in the upper and lower parts, a fan and an evaporator, mounted respectively in the upper and central ¹ zones of the middle section, about t and h and u - .. u and i so that, in order to ensure a uniform temperature field in the cabinet volume and reduce energy consumption by intensifying heat transfer in the evaporator, additional openings are made in the middle part of the walls, relative whose area to the total area of the holes made in the upper and lower parts of the walls is from 1/3 to 1/2, while the ratio of the equivalent diameter of the evaporator tube to the distance between the horizontal axis of the additional holes and the bottom edge of the evaporator is equal to 1/30 to 1/50 2. Cabinet by π. 1, characterized in that the holes made on one wall are offset relative to the holes made on another wall. FIG!