KR101369453B1 - Refrigerator and method for control cool air of refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator and a refrigerator cold air control method, wherein a plurality of rooms are formed, at least two or more rooms 1 and 2 of the plurality of rooms are indirect cooling, and the room 2 includes The cold air is introduced by the intercooled evaporator and the blower fan. According to the above structure, the intercooled room and the direct cooled room can be combined with a single refrigerator, and can be used for various purposes. By cooling by using one evaporator and a blower fan, it is possible to increase the cooling efficiency.

Description

Refrigerator and method for control cool air of refrigerator}

The present invention relates to a refrigerator and a refrigerator cold air control method for increasing cooling efficiency.

In general, the compressor is configured to form a refrigeration cycle together with a condenser and an evaporator, and is widely used in conventional refrigerators and kimchi refrigerators that are actively used recently.

Such, kimchi refrigerator is formed at least one storage compartment in the upper portion and the lower portion is separated from the storage compartment is formed a machine room for the operation of the kimchi refrigerator. A plurality of storage containers are stored in the storage room to store food, and a compressor, a condenser, a cooling fan, and the like are installed inside the machine room. Of the devices installed in the machine room, the compressor is usually installed on the bottom of the machine room, by compressing the refrigerant at high temperature and high pressure to supply to each device installed in the kimchi refrigerator to perform the cooling operation according to the refrigeration cycle. A general refrigerator is provided with a storage compartment such as a freezer compartment or a refrigerating compartment, and is configured to freeze food stored in the storage compartment by using cold air generated by a freezing cycle or to store it for a long time at a low temperature.

Typically, refrigerators are classified into direct cooling (hereinafter, referred to as direct cooling) and indirect cooling (hereinafter, referred to as intercooling) according to a method of cooling air in a storage compartment.

Direct-cooling refrigerators install an evaporator in the storage compartment to directly cool the air in the storage compartment through the evaporator.In the cold-cooled refrigerator, an evaporator and a blower fan are installed in the storage compartment to force the air in the storage compartment to circulate to the evaporator by the operation of the blower fan. To indirectly cool the air.

The intercooled refrigerator typically has an evaporator and a blower fan installed in a freezer compartment. When the external power is applied to the refrigerator configured as described above, the refrigerant gas is compressed to a high temperature and high pressure by a drive of a compressor to be sent to the condenser, and the condenser drops the temperature of the gas refrigerant, which is a high temperature and high pressure, into an appropriate level. Passing through the capillary tube is a low temperature low pressure state, evaporated in the evaporator to cool the surroundings to generate cold air. At this time, the refrigeration load stored in the freezer compartment is frozen by forcibly circulating the cold air generated in the evaporator to the freezer compartment by driving a blower fan. Refrigerated loads can be stored for a long time while maintaining their freshness at low temperatures.

As described above, the direct-cooling refrigerator is preferably used for the purpose of minimizing the evaporation of the water load of the refrigeration load, for example, the kimchi refrigerator, and the inter-cooling refrigerator is preferably applied to the home refrigerator.

However, the technology of home refrigerators and kimchi refrigerators is currently divided into two parts, making it difficult to use for multipurpose purposes.

The present invention has been made to solve the above-mentioned problems, and the object of the present invention is to provide a refrigerator and a refrigerator cold air control method that can be used for various purposes and can increase the cooling efficiency.

According to the present invention, a plurality of rooms are formed, and at least two or more rooms 1 and 2 of the plurality of rooms are indirectly cooled, and in the room 2, cold air is introduced by the intercooled evaporator of the room 1 and a blower fan. It is characterized by.

In the above, the duct is preferably equipped with a damper for opening and closing the duct.

In the above, it is preferable that each of the rooms is provided with a high temperature sensor for controlling on / off of the compressor and / or opening and closing of the damper.

On the other hand, in the present invention, a plurality of rooms are formed, at least two or more of the plurality of rooms are indirect cooling, the other one or more of the direct cooling, the room of the indirect cooling is one evaporator It characterized in that the cooling control by.

In the above, the indirect cooling room is located at the top, the direct cooling room is located at the bottom, the door of the indirect cooling room is a structure for opening and closing the front, the room of the direct cooling method The door is preferably of a drawer type structure.

On the other hand, the present invention (a) step of measuring the internal temperature of each room; And (b) determining whether to transmit cool air of an evaporator disposed in one room 1 to another room 2 according to the internal temperature of each room measured in step (a).

In the step (b), if it is determined in step (b) to transmit the cold air of the evaporator disposed in the room 1 to the room 2, (c) opening a damper for communicating the room 1 and the room 2; It is preferable to further include.

According to the refrigerator and the refrigerator cold air control method of the present invention, the following effects are obtained.

The intercooled room and the direct cooled room can be combined with a single refrigerator for multi-purpose use. In particular, two intercooled rooms can be connected to each other through a duct and cooled by using one evaporator and a blower fan to increase cooling efficiency.

Further, by arranging the intercooled room at the top and the direct cooled room at the bottom, the cool air of the direct cooled room can be transferred to the intercooled room, thereby further increasing the cooling efficiency.

Furthermore, by installing a high temperature sensor in each room, it is possible to control and use each room independently in accordance with the high temperature of each room can further increase the user's convenience.

1 is a conceptual diagram illustrating a refrigerator according to a preferred embodiment of the present invention.
2 is a perspective view illustrating a refrigerator according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

As shown in FIG. 1, the refrigerator of the present embodiment includes a plurality of rooms R1, R2, R3, and R4, and at least two or more rooms R1 and R2 of the plurality of rooms are indirectly cooled. The remaining at least one room (R3, R4) is a direct cooling method.

In this embodiment, the room of the indirect cooling method (hereinafter referred to as intercooling) is composed of two rooms R1 and R2, and the room of the direct cooling method (hereinafter referred to as direct cooling) is two rooms (R3 and R4). It will be described as consisting of, but this is only one embodiment, the number of the intercooled room and the direct-cooled room can be variously changed according to the embodiment.

Moreover, although the intercooling rooms R1 and R2 and the direct cooling rooms R3 and R4 are provided, only the intercooling rooms may be provided according to an embodiment.

The intercooled rooms 1 (R1) and 2 (R2) are arranged to face each other and are located at the top of the refrigerator.

The intercooled evaporator 10 and the blowing fan 15 are arranged in the intercooled room 1 (R1), and the intercooled room 1 (R1) and the intercooled room 2 (R2) communicate with each other through a duct 20. The damper 25 which opens and closes the duct 20 is attached to the duct 20.

That is, the cooling room 1 (R1) and the room 2 (R2) are communicated with each other by the duct 20, and the inside of the room is cooled by using one intercooling evaporator 10 and the blowing fan 15.

It is preferable that the door 100 of the intercooling room 1 (R1) and the door 200 of the room 2 (R2) are doors which open and close the front of a room as shown in FIG. In addition, a plurality of shelves 150 and 250 may be provided in the interior of the room 1 (R1) and the room 2 (R2) to partition the space and to place food and containers.

The direct-cooling rooms 3 (R3) and 4 (R4) are arranged perpendicularly to the lower part of the room 1 (R1), the room 2 (R2), and are located at the lower part of the refrigerator.

On the inner wall surfaces of the room 3 (R3) and the room 4 (R4), direct cooling evaporators 30 and 40 are respectively provided as shown in FIG. That is, the direct cooling evaporators 30 and 40 are provided in the direct cooling rooms R3 and R4 to cool the inside of the room.

It is preferable that the door 300 of the room 3 (R3) and the door 400 of the room 4 (R4) are a drawer type door, as shown in FIG.

Temperature control of the room 1 (R1), room 2 (R2), room 3 (R3), room 4 (R4) configured as described above may be performed as follows.

Each room (R1, R2, R3, R4) is equipped with a high temperature sensor (not shown) for measuring the temperature inside the high temperature, and according to the temperature measured by the high temperature sensor, the compressor ON / OFF (ON / OFF) By controlling or removing opening and closing of the damper 25, the internal temperature of each room can be controlled independently.

As described above, the intercooled rooms (R1, R2) and direct-cooled rooms (R3, R4) can be combined with one refrigerator for multipurpose use, and in particular, the two intercooled rooms (R1, R2) can be connected to the duct (20). By cooling by using one evaporator 10 and the blowing fan 15, it is possible to increase the cooling efficiency.

In addition, by arranging the intercooled rooms R1 and R2 at the top and the direct cooled rooms R3 and R4 at the bottom, the cool air of the direct cooled rooms R3 and R4 is transferred to the intercooled rooms R1 and R2 to provide cooling efficiency. Can be further increased.

Furthermore, by installing a high temperature sensor in each of the rooms (R1, R2, R3, R4), it is possible to control each room independently according to the internal temperature of each room, thereby further increasing the user's convenience.

On the other hand, the refrigerator cold air control method according to a preferred embodiment of the present invention consists of the following steps.

First, a large number of rooms are provided, and each room is provided with a high temperature sensor, and measures the internal temperature of each room. (step a)

Next, it is determined whether the cold air of the evaporator disposed in one room 1 is transferred to the other room 2 according to the internal temperature of each room measured in step (a). (step b)

Next, when it is determined in step (b) that the cold air of the evaporator disposed in the room 1 is transmitted to the room 2, the damper for communicating the room 1 and the room 2 is opened. (Step c)

In this way, when the damper for communicating the room 1 and the room 2 is opened, the cold air of the evaporator arranged in the room 1 can be forcedly circulated to the room 2 by using a blower fan to cool the room 2.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

R1: Room 1 R2: Room 2
R3: Room 3 R4: Room 4
10: intercooled evaporator 15: blower fan
20: duct 25: damper
30,40: Direct cooling evaporator 100,200: Front opening door
150,250: Shelf 300,400: Drawer door

Claims (7)

There are a number of rooms,
At least two or more rooms 1 and 2 of the plurality of rooms are in duct communication.
Room 1 is provided with an intercooled evaporator and a blowing fan,
In the room 2, the cold air is introduced through the duct by the intercooling evaporator and the blowing fan of the room 1,
And the room 1 and the room 2 are indirect cooling. The method of claim 1,
Refrigerator, characterized in that the duct is equipped with a damper for opening and closing the duct. 3. The method of claim 2,
And each of the rooms is provided with a high temperature sensor for controlling the on and off of the compressor or for controlling the opening and closing of the damper. There are a number of rooms,
At least two or more of the plurality of rooms are indirect cooling,
One or more rooms are direct cooled,
And the indirect cooling room is cooled by one evaporator. 5. The method of claim 4,
The indirect cooling room is located at the top,
The direct cooling room is located at the bottom,
The door of the room of the indirect cooling method has a structure for opening and closing the front,
And a door of the direct cooling room has a drawer structure. (A) measuring the internal temperature of each room;
And (b) determining whether to transfer cool air of an evaporator disposed in one room 1 to another room 2 according to the room temperature measured in step (a). The method according to claim 6,
If it is determined in step (b) to transmit the cold air of the evaporator disposed in the room 1 to the room 2, the step (c) opening the damper for communicating the room 1 and the room 2; Refrigerator cold air control method characterized in that.

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