SU1717911A1 - Domestic refrigerator - Google Patents

Abstract

The invention relates to refrigeration technology, namely to refrigerators with forced air circulation. The aim of the invention is to improve the storage conditions of products and reduce energy consumption. The chiller is turned on, the evaporator 8 is cooled. The cold air from the evaporator 8 is blown by the fan 11 into the freezer compartment 3, where gSSSSggSSSSJffiP part of the flow takes heat and moisture from the products of the chamber, and the heated air returns to the evaporator 8, where it is cooled again, and the cycle is repeated until the required air temperature in the freezer compartment 3. At the same time, another part of the air of the freezing chamber enters the air ducts of the screen 12 through the front zigzag channel 9, where it is heated due to the heat taken by the screen 12 from the air of the refrigerating chamber and through the back ridge Zagorobny channel 9 enters the evaporator 8, where it is cooled again, and the cycle is repeated until the required air temperature in the refrigerating chamber 4 is obtained. Moisture from the products in the refrigerating chamber 4 is deposited on the screen 12 and through the water collector 14 automatically cabinet. Temperature control in the freezing and refrigerating chambers is controlled by the temperature of the refrigerating chamber. If it is necessary to adjust the air temperature in each chamber, a damper is provided separately. 2 hp f-ly, 3 ill. W YO XI Y

Description

The invention relates to refrigeration engineering, in particular to household, commercial refrigerators with forced air circulation.

Constructions of household two-chamber refrigerators with forced air circulation, with horizontal and vertical evaporators are known. They have an air distribution system consisting of a fan located on the back wall of the cabinet, air ducts, and a channel with a gate for the passage of cold air into the refrigerating chamber.

A disadvantage of the air distribution system of such refrigerators is the entry of moist air from the refrigerating chamber to the evaporator, which contributes to a rapid buildup of frost on the heat exchange surface, impairs the heat transfer process from the air to the evaporator and increases the power consumption of the refrigerator, since longer compressor operation is required to obtain the required air temperatures in the refrigerator. With a known air distribution system, the smell of the refrigerating chamber spreads into the freezer, which deteriorates the hygienic condition of the refrigerator.

A two-chamber refrigerator with a modified design of channels for circulating cold air from an evaporator into a refrigerating chamber, which has an air distribution system consisting of a fan located in the middle part of the enclosure, a cold air duct and a freezing and refrigerating chambers, The cold air to the refrigerating chamber is made separately by a piece of thermal insulating material and is located in the corner of the freezing chamber.

A disadvantage of the air distribution system of the said refrigerator is the entry of moist air from the refrigerating chamber to the evaporator through a special duct located in the corner of the freezing chamber, which contributes to a rapid increase in the evaporator, impairs the heat transfer process from the air to the evaporator and increases the power consumption, and the special duct reduces the net volume of the freezer. With such an air distribution system, the smell of the refrigerator compartment is distributed to the freezer compartment, which deteriorates the hygienic condition of the refrigerator.

The closest to the proposed technical solution is household

a refrigerator comprising a case divided by a heat insulating partition into a refrigerating and freezing chambers, an evaporator and a fan located in the freezing chamber, the latter of which is placed in a channel formed between the back wall of the cabinet and a partition installed in front of it.

With such an air distribution system, the smell of the refrigerating chamber does not spread to the freezer.

The disadvantages of the known refrigerator are the use of a panel evaporator with a horizontal heat exchange surface of a certain area with the air of the refrigerating chamber, which does not provide optimal directional movement of air in the refrigerating chamber and does not allow changing the volume of the refrigerating chamber regardless of the volume of the freezing chamber; the possibility of quick freezing of the freezer compartment when the compressor is not operating due to the heat coming from the refrigerating compartment through the holes in the heat insulating wall, which increases the temperature of the freezer compartment products, impairs their quality, and also increases the power consumption of the refrigerator; large volume occupied by the air duct, heat insulating walls, panel evaporator, which reduces the useful volume of the refrigerator.

The purpose of the invention is to improve the storage conditions of the products and reduce the power consumption of the refrigerator.

1 shows a household refrigerator, a general view; 2 is a section A-A in FIG. one; in FIG. 3, node I in FIG. one.

The household refrigerator contains a heat-insulated case 1, divided by a heat-insulating partition 2 into a freezing chamber 3, a refrigerating chamber 4, a door 5, a refrigerating machine consisting of a compressor 6, a condenser 7, an evaporator 8, pipelines (not shown).

In the partition 2 in the areas near the door 5 and at the back of the cabinet, zigzag channels 9 are made for the passage of air from the freezing chamber to the evaporator 8, and in addition, a flap 10 is installed in the area near the cabinet door.

The evaporator 8 is installed in the freezing chamber 3. The fan 11 located in the channel formed between the back wall of the cabinet and the partition in front of it is also placed here.

In the upper part of the refrigerating chamber under the partition 2 a screen 12 is installed

the corrugations made of material with high coefficient of heat conductivity. Air ducts 13 are formed between the screen 12 and the partition 2 for the passage of air from the freezing chamber 3 to the evaporator 8.

The screen 12 is fixed at an angle of 3-10 ° to the horizontal plane with a slope to the back wall of the refrigerator cabinet.

The screen 12 can be made of various profiles of highly heat-conducting material and, in particular, have a triangular cross section, the angle of which at the apex facing the cavity of the refrigerating chamber is 9-25-35 °, which ensures an optimal heat exchange surface with the air of the refrigerating chamber specified volume and rapid runoff of water from this surface. The refrigerator has a water trap 14.

Household refrigerator works as follows.

The chiller is turned on, the evaporator 8 is cooled. The cold air from the evaporator 8 is blown by the fan 11 into the freezer compartment 3, where part of the flow takes heat and moisture from the products of the chamber, and the heated air returns to the evaporator 8, where it cools again, and the cycle is repeated until the required air temperature in the freezer camera 3.

At the same time, another part of the air of the freezing chamber through the front zigzag channel 9 enters the air ducts 13 of the screen 12, where it is heated due to the heat taken by the screen 12 from the air of the refrigerating chamber, and through the rear zigzag channel 9 enters the evaporator 8, where it cools again, and the cycle repeats until the required air temperature in the refrigerating chamber 4 is obtained.

Moisture from the products in the refrigerating chamber 4 is deposited on the screen 12 and through the sump 14 is automatically taken out of the limits of the heat insulating cabinet 1.

Unlike the previously existing air cooling schemes, the moisture of the products of the refrigerating chamber 4 does not flow to the evaporator 8 and does not settle on its heat exchange surface, which contributes to the efficient operation of the evaporator and allows you to quickly obtain the required temperature in the refrigerating chamber , which reduces the power consumption of the refrigerator.

In the proposed air distribution system, the smell of the refrigerating chamber is not

spreads into the freezer, which increases the hygienic condition of the refrigerator.

Temperature control in the freezing and refrigerating chambers is controlled by the temperature of the refrigerating chamber.

If it is necessary to control the air temperature in each chamber, it is provided separately (Fig. 3) to install the shutter 10 in front of the front zigzag channel 9, which allows adjusting the amount of air supplied to the air ducts 13 depending on the air temperature of the refrigerating chamber. In this case, the air temperature in the freezer is controlled independently.

The screen 12 and the sump 14 are inclined at an angle a} equal to 3-10 ° to the back wall of the refrigerator cabinet, which contributes to the orderly, optimal, convective movement of air in the refrigerating chamber and leads to an increase in heat transfer coefficient from the screen 12 to the air of the refrigerating chamber.

By changing the heat transfer surface of the screen 12, it is possible to cool various volumes of the refrigerating chamber and maintain the desired air temperature in them.

Zigzag channels 9, when the fan 11 stops and the compressor is turned off, provide cold air in the ducts 13 and do not allow it to flow into the freezer 3, which ensures the preservation of the set freezer air temperature and contributes to the rapid screen defrosting process 12.

The use of a screen with corrugations of highly thermally conductive material with a slope towards the back wall of the refrigerator cabinet optimizes the cooling process of the refrigerating chamber air, improves the food storage conditions and, together with the zigzag channels that keep the temperature of the freezer compartment when the compressor is standing, reduces the power consumption of the refrigerator.

Claims (3)

Claims 1. A domestic refrigerator comprising a housing divided by a heat insulating partition into a refrigerating and freezing chambers located in the freezing chamber; an evaporator and a fan, the last of which is placed in a channel formed between the back wall of the cabinet and the partition installed in front of it, characterized in that improving food storage conditions and reducing energy consumption, the refrigerator is equipped with a screen made of a material with a high thermal conductivity, fixed in the upper part of the refrigerator at an angle of 3-10 ° to the horizontal plane with a slope to the back wall, while the screen is made with corrugations and installed under the partition with the formation of air ducts between them, and in the partition in zones 1 at the door and at the back wall of the cabinet are made zigzag 0 channels for the passage of air from the freezing chamber to the evaporator through the said air ducts. 2. The refrigerator according to claim 1, wherein the screen corrugations have a triangular shape in cross section, the angle of which at the apex facing the cavity of the refrigerating chamber is 25 ... 35 ° . 3. The refrigerator according to claim 1, which means that a damper is installed in a channel made in the heat insulation partition in the area near the cabinet door. 2 u WIG