RU39690U1 - REFRIGERATOR - Google Patents

Abstract

A refrigerator containing a foamed cabinet, doors with insulation, an air duct is located on the rear wall that separates a flat evaporator installed with gaps between the air duct and the rear inner wall of the cabinet from the volume of the cabinet with insulated air, a fan installed in the upper part of the cabinet installed parallel to the upper wall of the cabinet with the flow direction to the door, closed by a casing, shelves with cassettes are installed inside the cabinet, four on each shelf, made with separate cells, a condenser and compressor, characterized in which has a microprocessor control unit, a tangential-type fan, and the casing has openings arranged in such a way that they divide the flow of cooled air into four flows, distributing it throughout the entire cabinet, the ratio of the area of the openings on the plane of the duct to the area of the openings on the other two planes of the casing is 0.3-0.4.

Description

The proposed utility model relates to the field of refrigeration equipment and is intended for storing blood components, drugs, vaccines, reagents and samples.

There is a refrigerator consisting of a foamed cabinet with an internal cabinet made of plastic, an insulated door, an evaporator installed parallel to the rear wall inside the cabinet, an air duct with a casing and a fan, a condenser, an indication unit and an electromechanical temperature controller, as well as a compressor. The refrigerator has forced air circulation. The insulated air with a fan moves from the bottom of the cabinet through the hole formed by the back wall of the inner cabinet and the air duct and, blowing the evaporator from both sides, it exchanges heat, cools and then enters the upper part of the cabinet through the opening in the casing (see the Operation Manual section 7, fig. 2, p. 7, p. 5.10, 5.11).

The existing refrigerator has the following disadvantages:

1. The difficulty is setting and maintaining a certain temperature inside the cabinet necessary for the high-quality storage of blood components, drugs and vaccines, since the refrigerator is controlled. the handle of the electromechanical temperature controller within the control range from min to max.

2. It is not possible to ensure uniform temperature distribution inside the cabinet, as the flow of chilled air by an axial fan is directed to the upper front part inside the cabinet and then moves to the lower part of the cabinet along the door panel, while the flow of cooled air is insignificant in the depth of the cabinet, due to the existing design housing, so the air temperature differs significantly from the temperature near the door.

The aim of the proposed technical solution is to expand the operational capabilities of the refrigerator and ensure uniform temperature distribution throughout the volume inside the cabinet. This goal is achieved in that the refrigerator has a microprocessor control unit, a tangential type fan, and the casing has openings arranged in such a way that they divide the flow of cooled air into four streams, distributing it throughout the entire cabinet, moreover

the ratio of the area of the holes on the plane of the duct to the area of the holes on the other two planes of the casing is 0.3-0.4.

The proposed utility model is illustrated in figure 1, figure 2, figure 3, figure 4.

Figure 1 shows a side view in section,

figure 2 shows a front view,

figure 3 and figure 4 shows the direction of the distributed chilled air.

The refrigerator (Fig. 1) contains a foamed cabinet (1), doors with insulation (2), an air duct (3) is located on the rear wall that separates the flat evaporator (4) installed with gaps between the air duct and the rear inner wall of the cabinet from the volume a cabinet with insulated air, a tangential fan (5) is installed in the upper part of the cabinet, installed parallel to the upper wall of the cabinet with the flow direction to the door, closed by a casing (6) representing, from two ends, flat surfaces (11), with single groove hole (12) and the lower part is made in the form of three planes - a plane (13) located near the duct, a plane (14) located in the central part of the cabinet, a plane (15) located in the front of the cabinet, interconnected and located at different angles relative to the horizontal surface, inside the cabinet there are installed shelves with cartridges (7), four on each shelf, for storing blood components made with separate cells for an individual capacity with blood components, a condenser (8), a compressor (9) and a microprocessor unit to control (10) (figure 2) installed on the front panel of the cabinet, which allows you to set and maintain a certain temperature inside the refrigerator cabinet in a given range, display the temperature inside the cabinet, on the LED indicator, also has an alarm, both sound and light, in case the temperature goes beyond the specified range.

The refrigerator operates as follows. During operation of the refrigerator, the insulated air from the cabinet through the hole formed by the rear wall of the inner cabinet and the duct enters the channel (16) is cooled. Next, the cooled air from the evaporator through a tangential fan enters the zone (17) formed by the casing, and from here through the holes (18) of the plane (13) it enters the back of the cabinet, through the holes (19) of the plane (14) and the holes (20) of the plane ( 15) enters the front of the cabinet and through the holes (12) of the planes (11) enters along the side walls of the cabinet, while the products on the shelves are washed with cooled air both from the sides and from above, and the ratio of the area of the holes (18) to the area of the holes ( 19) and (20)

is 0.3-0.4, since when the ratio is less than 0.3, the temperature in the rear part relative to the temperature in the rest of the cabinet is higher due to the insufficient flow of cooled air passing through the holes (18), and when the ratio is greater than 0 , 4, on the contrary, lower, i.e. it is not possible to obtain a uniform temperature distribution throughout the entire cabinet.

The proposed technical solution is industrially applicable, since it can be manufactured industrially, efficiently, feasibly and reproducibly, meets the patentability condition "industrial applicability".

Claims (1)

A refrigerator containing a foamed cabinet, doors with insulation, an air duct is located on the rear wall that separates a flat evaporator installed with gaps between the air duct and the rear inner wall of the cabinet from the volume of the cabinet with insulated air, a fan installed in the upper part of the cabinet installed parallel to the upper wall of the cabinet with the flow direction to the door, closed by a casing, shelves with cassettes are installed inside the cabinet, four on each shelf, made with separate cells, a condenser and compressor, characterized in which has a microprocessor control unit, a tangential-type fan, and the casing has openings arranged in such a way that they divide the flow of cooled air into four flows, distributing it throughout the entire cabinet, the ratio of the area of the openings on the plane of the duct to the area of the openings on the other two planes of the casing is 0.3-0.4.