RU40447U1 - REFRIGERATOR - Google Patents

Abstract

A refrigerator containing a chamber formed by a thermally insulated cabinet and a door with a lock, shelves installed in the chamber, an evaporator, an air duct, a fan mounted on top of the air duct and covered by a casing, a condenser, a compressor, characterized in that it has a microprocessor control unit, and along the door transparent panels are mounted on the hinges in the chamber, so that the duct has a U-shaped design with holes on the front and side walls of the chamber, cooled by a foamed tubular evaporator made in the form of a coil made of a tube mounted on the insulation side along the entire rear wall, and the casing is made of one piece with holes located on the front wall.

Description

The proposed utility model relates to the field of refrigeration equipment and is designed to store blood components, drugs, vaccines and samples.

A refrigerated cabinet is known, USSR author's certificate No. 1013711, priority date 21.12.81 (analogue), comprising a heat-insulating casing, 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 upper and central zones of the middle section.

The disadvantages of this technical solution are: low reliability and high cost due to the use of a tubular finned evaporator, which structurally has a large number of soldered joints.

The closest technical solution chosen as a prototype is a refrigerator, USSR copyright certificate No. 943501, priority 20.08.80, containing a heat-insulated chamber with shelves and a door, an evaporator, a fan, a panel with holes installed along one of the walls with the formation of a vertical channel for the passage of cooled air, along the wall opposite the panel, an additional panel with holes is installed with the formation of a channel for the passage of heated air in communication with the area of the evaporator . The main panel is installed along the rear wall of the refrigerator, an additional panel along the door and in it in the zone of the evaporator are made holes, and under it there is a rib to block air access directly from the chamber into the zone of the evaporator.

The disadvantages of this technical solution are:

1. insufficiently uniform temperature distribution by volume when used in the design of the refrigerator:

a) a transparent door with a double-glazed window, since in this case there is no channel for removing heated air from the chamber, formed by an additional panel with holes;

b) finned evaporator, since the cooled air entering the channel into the lower part of the chamber is insulated and enters the chamber with a higher temperature.

2-low reliability and high cost also due to the use, as in the previous technical solution, of a tubular finned evaporator, the design of which includes a large number of soldered joints, the evaporator is laborious to manufacture, and in the cabinet there is labor-intensive to manufacture and low-tech detail- rib consisting of several parts using a heat-insulating strip.

The aim of the proposed technical solution is to ensure uniform temperature distribution throughout the chamber volume and the expansion of operational capabilities. This goal is achieved through the use of a microprocessor control unit and transparent panels mounted in hinges, a U-shaped duct with holes on the front and side walls, and the duct is installed along the back wall of the chamber cooled by a foamed tubular evaporator made in the form of a coil made of tubes installed on the insulation side of the entire rear wall, and the casing is made of one part with holes located on the front wall.

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

Figure 1 shows a side view in section.

Figure 2 shows a front view without doors.

Figure 3 shows a section in cross section.

Figure 4 shows a view of the rear wall with an evaporator.

The refrigerator (figure 1) contains a chamber 1 formed by a thermally insulated cabinet 2 and a door 3 with a lock. Shelves 4 are installed in the chamber 1 for placing products, and in the upper part there is a tangential fan 5, separated from the cooled volume by a casing 6, which is an L-shaped part. A tubular evaporator 7 is foamed along the rear wall of the cabinet 2 along the entire height from the insulation side, and along the rear wall inside the chamber 1 there is an air duct 8 of a U-shaped design with holes 9 located on the front wall of the air duct and with holes 10 located on the side walls of the air duct 8 for passage air into the chamber 1. The vertical air channel 11 formed by the duct 8 and the rear wall of the cabinet 2 cooled by the evaporator 7 is in communication with the zone of placement of the tangential fan 5. Along the door 3 of the refrigerator in the chamber e 1 installed transparent panel 12 to form openings 13 between them.

The air channel 14, formed between the transparent panels 12 and the door 3, is connected with the area of the fan 5 through openings 15 made on the front wall of the casing 6. The refrigerator contains a condenser 16, a compressor 17, as well as a microprocessor control unit 18 (figure 2) installed on the front panel of the cabinet, which allows you to set and maintain a certain temperature inside the refrigerator compartment in a given range, display the temperature, inside the compartment, on the LED indicator, it also has an alarm, both sound and when the temperature goes beyond the specified range.

The refrigerator operates as follows. During operation of the refrigerator, the warmed air from the chamber 1 through the openings 13 formed by the transparent panels 12 passes into the channel 14, from where through the openings 15 made on the front wall of the casing 6, it enters the zone of the fan 5. Then, through the fan 5, it enters the rear, cooled by the evaporator 7 the cabinet wall 2 into the channel 11, and from here through the openings 9 and 10 and the lower opening of the channel 11 into the chamber 1 volume, while the products located on the shelves 4 are washed with cooled air, both from the sides and from above, and since the back wall is cooled by sun th altitude, the air cools, flows to all parts of the chamber are uniformly cooled.

The use of the proposed refrigerator with a glass door of the microprocessor control unit 18, transparent panels 12 forming a channel 14 for removing heated air from the chamber 1, foamed along the entire rear wall, of a tubular evaporator allows for uniform temperature distribution throughout the chamber and to expand the operational capabilities of the refrigerator using in the design of the refrigerator doors with insulation, as well as reduce heat transfer during operation of the refrigerator when opening the door. The use of a tubular evaporator coil without soldered joints, a casing consisting of one part, allows to increase reliability, reduce the cost of the refrigerator and simplify the design.

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 chamber formed by a thermally insulated cabinet and a door with a lock, shelves installed in the chamber, an evaporator, an air duct, a fan mounted on top of the air duct and covered by a casing, a condenser, a compressor, characterized in that it has a microprocessor control unit, and along the door transparent panels are mounted on the hinges in the chamber, so that the duct has a U-shaped design with holes on the front and side walls of the chamber, cooled by a foamed tubular evaporator made in the form of a coil made of a tube mounted on the insulation side along the entire rear wall, and the casing is made of one piece with holes located on the front wall.