RU1784809C - Domestic refrigerator evaporator - Google Patents

Abstract

The invention relates to the field of refrigeration, in particular to large-capacity domestic freezers, and allows to reduce energy consumption during its operation by reducing the unevenness of the temperature field in the freezer chamber. The essence of the invention lies in the fact that on the evaporator of a domestic freezer, its upper sections, including the middle section, are solid and the lower sections are perforated. 1 ill.

Description

The invention relates to the field of refrigeration, in particular to large-capacity domestic freezers, and can reduce energy consumption during operation of the freezer by reducing the unevenness of the temperature field in its chamber.

Usually, the freezer evaporator consists of several series-connected sections-shelves located horizontally one above the other in the cabinet. The refrigerant is supplied from top to bottom. It is known from practice that such a construction has a rather large temperature non-uniformity over the cabinet height. It manifests itself more strongly in freezers with a large volume, since they also have a large height.

Conventional evaporator designs for domestic freezers are known which make it possible to increase the uniformity of the temperature field in the freezer cabinet, which leads to a reduction in energy consumption. it

This is explained by the fact that at a high average temperature in the cabinet the compressor of the freezer is turned off and, consequently, energy consumption is reduced due to the reduction in compressor operating time. However, if the evaporator is equipped with an additional shelf of a smaller area located between the main shelves to reduce the unevenness of the temperature field, this leads to an increase in the metal consumption of the structure. In addition, there are restrictions on the minimum distance between the shelves related to the size of the stored products.

In the evaporator closest to the proposed design, the reduction of temperature field unevenness is achieved by changing the supply scheme of the refrigerant through the evaporator sections. In this design, the evaporator consists of four sections. In this case, the refrigerant from the condenser first flows into

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the second section from the top of the evaporator, then to its lower section, then to the upper section and last to the second section from the bottom

The main disadvantages of this evaporator are the increase in the length of the tubes connecting the sections and the complexity of its design. Despite the complexity of the design, the unevenness of the temperature floor reaches 2.5 ° C. Obviously, in freezers with a large internal volume and, therefore, with a large number of sections, the design complexity and unevenness of the temperature floor will increase. This will lead to an increase in energy consumption.

The purpose of the invention is to reduce energy consumption by ensuring a uniform temperature field in the volume of the freezer.

This goal is achieved in that the upper sections of the evaporator, including the middle, are solid and the lower sections are perforated. This contributes to an even distribution of the temperature field in the freezer cabinet and is explained by the fact that the most loaded upper sections of the evaporator have a larger (compared to lower) heat transfer area, since they do not have openings. In addition, the absence of holes in the upper sections makes it difficult to exchange air between the compartments formed by these sections, helps seal the compartments, which also reduces the load on the upper sections

The drawing shows the design of the proposed evaporator

The evaporator consists of five sections.

The upper sections 1, 2 and 3 are solid, and the lower sections 4 and 5 have openings close to rectangular. Between each other sections are connected in series.

using tubes 6, the Liquid refrigerant enters the evaporator through the pipe 7, and the refrigerant vapor is sucked off by the compressor through the pipe 8. The use of this design of the evaporator in the experimental model of the freezer with a capacity of 200 dm3 allowed to reduce the unevenness of the temperature floor in the freezer cabinet from 5 to 2 ° C compared with the evaporator, where all sections of the evaporator were the same in design (with perforation).

Claims (1)

SUMMARY OF THE INVENTION A domestic freezer evaporator comprising horizontal coil sections placed one above the other and interconnected, characterized in that, in order to reduce the energy consumption by ensuring a uniform temperature field in the freezer volume, the upper evaporator sections, including the middle one, are solid and the lower sections are perforated 7