RU188391U1 - FRIDGE - Google Patents

Abstract

The utility model relates to the field of refrigeration equipment and is intended for storage of vaccines, bacteriophages, probiotics and other immunobiological drugs, in the temperature range from + 2 ° С ... + 8 ° С. The technical task of the claimed utility model is to create a refrigerator capable of maintaining temperature for 24 hours when the power is turned off. The technical result of the utility model is to maintain the temperature in the refrigerator in the range + 2 ° C ... + 8 ° C for at least 24 hours when the power is turned off The technical result is achieved in that the refrigerator comprises an inner chamber formed by a heat-insulated cabinet and a heat-insulated door, shelves installed in the chamber, an evaporator, an air duct, a fan, a casing, a condenser, a compressor, a microprocessor control unit, and the air duct is made with openings the front wall of the chamber, cooled by a foamed tubular evaporator, made in the form of a coil, mounted on the insulation side along the entire rear wall and displayed in the inner anstvo upper chamber compartment for summing each shelf for cooling placed on them cold accumulators.

Description

The utility model relates to the field of refrigeration equipment and is intended for storage of vaccines, bacteriophages, probiotics and other immunobiological drugs, in the temperature range from + 2 ° С ... + 8 ° С.

A refrigerator is known (RF patent for utility model No. 39690, published on 08/10/2004) 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 cabinet volume with insulated air, in the upper part of the cabinet there is a fan installed parallel to the upper wall of the cabinet with the flow direction to the door closed by a casing, shelves with cartridges are installed inside the cabinet, four on each shelf, made with a separate cells, condenser and compressor. The refrigerator also contains a microprocessor control unit and a tangential type fan.

A refrigerator is known (RF patent for utility model No. 40447, published September 10, 2004), comprising 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 closed by a casing, a condenser, a compressor, a microprocessor control unit, and transparent panels are mounted on the hinges along the door in the chamber, so that the duct has a U-shaped design with openings on the front and side walls of the chamber, cooled by a foam tube evaporator, in made in the form of a coil from a tube mounted on the insulation side along the entire rear wall, and the casing is made of one part with holes located on the front wall.

Famous refrigerators do not provide for temperature maintenance during an emergency power outage, and, as you know, the mismatch of storage conditions, in particular temperature conditions, can adversely affect vaccines and other immunobiological drugs.

The technical task of the claimed utility model is to create a refrigerator capable of maintaining temperature for 24 hours when a power outage occurs.

The technical result of the utility model is to maintain the temperature in the refrigerator in the range + 2 ° C ... + 8 ° C for at least 24 hours during a power outage.

The technical result is achieved in that the refrigerator contains an inner chamber formed by a thermally insulated cabinet and a thermally insulated door, shelves installed in the chamber, an evaporator, an air duct, a fan closed by a casing, a condenser, a compressor, a microprocessor control unit, and the air duct is made with openings on the front the wall of the chamber, cooled by a foamed tubular evaporator, made in the form of a coil, mounted on the insulation side along the entire rear wall and displayed in the inner space into the upper chamber compartment for summing each shelf for cooling placed on them cold accumulators.

The proposed utility model is illustrated by drawings:

figure 1 shows a front view of the refrigerator with the door open;

figure 2 shows a side view in section;

figure 3 shows a sectional view of the stand of the refrigerator;

figure 4, figure 5 shows the layout of the coil under the shelves of the upper compartment.

The refrigerator (figure 1, figure 2) contains an inner chamber 1 formed by a thermally insulated metal cabinet 2 and a thermally insulated metal door 3, equipped with a locking device and a stand 4.

The refrigerator is mounted on four swivel wheels 5 to facilitate movement.

The chamber 1 is made of aluminum tape, divided into four compartments by shelves 6.

In this case, the upper compartment 7 is a closed space due to the presence of an additional door 8. In the compartment 7 of the camera shelves 9 are made with the cold accumulators 10 placed on them.

The inner chamber 1 is surrounded by a layer of thermal insulation 11 made of polyurethane foam.

In the upper part of the chamber 1 under the upper shelf 6 there is a tangential fan 12, separated from the cooled space by a casing 13.

Along the rear wall of the cabinet 2, a tubular aluminum evaporator in the form of a coil (not shown) is foamed along the entire height from the side of the insulation, and along the rear wall of the chamber 1 there is an air duct 14 with holes 15 on the front wall of the air duct. The channel formed between the duct 14 and the rear wall of the cabinet 2, through openings on the front wall in its upper part is in communication with the tangential fan 12.

A part of the tubular evaporator 16 is brought into the inner space of the upper compartment with a supply to each shelf 9 and its execution in the form of a coil (Fig. 4).

A temperature sensor (not shown in FIG.) Is mounted on the rear wall of the chamber 1.

In the lower part of the refrigerator formed by the stand 4 there is a compressor 17, a condenser 18 with a fan 19, a microprocessor control unit with a control panel 20 displayed on the front surface of the stand, designed to set, maintain a given temperature, display the temperature in the working chamber 1.

The frame of the inner chamber 1 and the panel of the door 2 of the refrigerator are made of polymer materials with an antimicrobial coating, which eliminates unpleasant odors associated with the life of microorganisms in the refrigerator chamber, and the air in the refrigerator chamber becomes sterile.

Cooling in the refrigerator is carried out by a hermetic compressor type 17 unit. A small amount contains refrigerant R600a, which is natural gas that does not pollute the environment.

Sealing the doorway of the refrigerator is carried out by an elastic sealant with a magnetic insert.

The refrigerator operates as follows.

The compressor 17 pumps the refrigerant vapor from the evaporator and pumps them into the condenser 18. In the condenser 18, the refrigerant vapor is cooled and condensed. Next, the liquid refrigerant through the filter dryer 21 and the capillary pipe enters the evaporator. At the inlet of the refrigerant to the evaporator, the pressure drops from the condensing pressure to the boiling pressure. In this case, the refrigerant boils, entering the channels of the evaporator the refrigerant boils, the energy necessary for boiling in the form of heat is taken from the surface of the evaporator, cooling the air in the refrigerator, including in the upper compartment 7. After passing through the evaporator, the liquid refrigerant turns into steam, which is pumped out by compressor 12.

When the refrigerator is operating, the heated air from the chamber 1 enters the zone of the fan 12, then through the fan the air enters the rear wall of the cabinet 2 cooled by the evaporator, into the space between the air duct 14 and the rear wall of the cabinet 2, after which the air enters through the openings 15 on the front wall of the air duct 14 in the volume of chamber 1, while containers / ampoules placed on shelves in chamber 1 are washed with chilled air. Since the back wall is cooled over its entire height, the air, cooling, enters all parts of the chamber 1 evenly cooled. The placement of the evaporator 16 under each shelf 9 of the upper compartment 7 provides freezing of the coolants 10 placed on them.

Equipping the refrigerator with a microprocessor control unit allows you to set, maintain a given temperature in the range from + 2 ° C ... + 8 ° C, display the actual temperature in the working chamber on the panel of the control unit 20.

Cold accumulators 10 accumulate cold during the operation of the refrigerator. When a power outage occurs, the cold accumulators 10 return the accumulated cold, thereby allowing the set temperature to be maintained for a long time (at least 24 hours) from +2 to +8 ° C in the refrigerator compartment.

When the temperature deviates from the set interval, the alarm sound and light (screen blinking) are triggered.

The advantages of the claimed utility model:

the ability to maintain temperature during a power outage for 24 hours due to the presence of cold batteries;

the presence of a heat-insulating metal door with a lock to prevent unauthorized access;

the ability to automatically maintain the temperature in the chamber;

the presence of an alarm when deviating from a given temperature range;

temperature display on the control panel display;

the presence of a forced air circulation system;

the presence of environmentally friendly ozone-safe isobutane refrigerant (R600a), which provides a reduction in energy consumption and noise during compressor operation;

antibacterial coating of the inner cabinet and door panel.

Claims (1)

A refrigerator containing an inner chamber formed by a heat-insulated cabinet and a heat-insulated door, shelves installed in the chamber, an evaporator, an air duct, a fan enclosed by a casing, a condenser, a compressor, a microprocessor control unit, the air duct being made with openings on the front wall of the chamber cooled by a foam tube an evaporator made in the form of a coil and installed on the insulation side along the entire rear wall, characterized in that the tubular evaporator is brought into the inner space of the upper compartment chamber with summing to each shelf for cooling placed on them cold accumulators.

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