KR100511973B1 - A control method of direct-type refrigerator - Google Patents

Abstract

The present invention relates to a method of controlling a direct-cooling refrigerator having high energy efficiency as well as minimizing a temperature difference in a storage compartment by circulating cold air in a storage compartment during a compressor off.

The present invention includes a first step of operating the compressor on / off in accordance with the load of the storage compartment; And a second step of operating the blower motor for rotating the blower fan for cold air circulation in the storage compartment during the first step of the compressor off, the temperature difference that can be formed in the storage compartment when the compressor is off Minimize, reduce the power consumption of the blower motor and has the advantage of extending its life.

Description

A control method of direct-type refrigerator

The present invention relates to a direct-cooling refrigerator, and more particularly, to a control method of a direct-cooling refrigerator capable of minimizing the difference in temperature of the inside of the storage compartment by repeating on / off of the blower motor for rotating the cooling fan circulation fan while the compressor is off. .

In general, the direct-cooling refrigerator maintains the inside of the storage compartment at a low temperature by using a refrigeration cycle of the refrigerant. The heat exchange is performed by heat conduction between the refrigerant flowing through the evaporation pipe and the storage compartment, and the internal convection inside the storage compartment. Is kept at low temperature.

In the direct-cooling refrigerator, when the load in the storage compartment is increased, the compressor is turned on to absorb heat through the evaporation pipe, and when the load in the storage compartment is reduced, the compressor is turned off to reduce power consumption of the compressor.

On the other hand, recently Kimchi refrigerator has been developed to keep only kimchi or vegetables at low temperature for a long time, such a kimchi refrigerator needs to maintain the temperature of kimchi or vegetables for a long time, and also to reduce the temperature difference of the storage room, cold air inside the storage room When the blower fan and the blower motor for circulating the cooling air inside the storage compartment is circulated up and down, the internal temperature of the storage compartment can be maintained to be uniform throughout.

However, the direct-cooling refrigerator according to the prior art may increase power consumption and shorten the life of the blower motor when the blower motor is continuously driven, and thus, it is necessary to control the blower motor more efficiently.

The present invention has been made to solve the above-mentioned problems of the prior art, it is possible to minimize the temperature difference in the storage compartment by circulating the cold air in the storage compartment during the compressor off, as well as to control the energy-efficient direct cooling refrigerator. The purpose is to provide.

In the control method of the direct-cooling refrigerator according to the present invention for solving the above problems is a control method of a direct-cooling refrigerator to operate the compressor on / off according to the load of the storage compartment, during the off of the compressor, for cold air circulation in the storage compartment The blower motor for rotating the blower fan is turned on for a first set time and then turned off for a second set time, and the blower motor is turned off while the compressor is on.

The control method of the direct-cooling refrigerator is characterized in that the blowing motor is repeatedly turned on / off while the compressor is turned off.

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram showing an example of a direct-cooling refrigerator according to the present invention, Figure 2 is a control block diagram of a direct-cooling refrigerator according to the present invention.

Direct cooling refrigerator according to the present invention, as shown in Figure 1 and 2,

As shown in FIG. 1, the direct-cooling refrigerator according to the present embodiment has a heat insulating material between the outer casing 2 forming the exterior and the inner casing 6 forming the storage compartment 4 in which the storage container 3 is accommodated. A main body (8) is disposed and an evaporation pipe (10) through which refrigerant flows on the outer surface of the inner casing (6) is embedded in the heat insulating material (8), and the compressor (12), a condensation pipe and an expansion mechanism are mounted thereon. (1), a door 20 rotatably mounted to the main body 1 to open and close the storage compartment 4, and a blowing fan mounted to the main body 1 to circulate cold air in the storage compartment 4. (32) and the blower motor 34, the temperature sensor 40 mounted on one side of the outer surface of the inner casing 4 and the detected temperature detected by the temperature sensor to determine the load by the compressor 12 and the blower It is configured to include a control unit 50 for controlling the motor (34).

On the other hand, the direct-cooling refrigerator is further disposed in the inner lower portion of the inner casing (2) is further provided with a flow path guide (60) formed with the air passage passage of the cold air is raised to the storage container 3 and blown by the blowing fan (36). It is configured to include.

Here, the ventilation passage is preferably formed such that the central side cold air of the storage compartment 4 is raised and the edge side cold air of the storage compartment 4 is lowered.

On the other hand, the present invention is not limited to the above embodiment, the blower fan 36, the blower motor 34 and the flow path guide 60 is also possible to be mounted to the door 20, of course.

Referring to the control method and operation of the direct-cooling refrigerator in the present invention configured as described above are as follows.

3 is a flow chart illustrating a control method of the direct-cooling refrigerator according to the present invention, Figure 4 is a flow chart illustrating a blowing motor control method of the direct-cooling refrigerator according to the present invention, Figure 5 is a compressor of the direct-cooling refrigerator according to the present invention; A graph showing on / off of the blower motor.

First, as shown in FIGS. 3 to 5, when the compressor 12 is turned on, the high temperature and high pressure gas refrigerant compressed by the compressor 12 is condensed through the condensation pipe and then evaporated through the expansion mechanism. It is easily expanded to low temperature low pressure refrigerant. The expanded refrigerant absorbs heat from the storage compartment 4 while passing through the evaporation pipe 10 and evaporates, and is circulated to the compressor 12 again (S1).

In addition, the temperature sensor 40 detects a temperature of the inner casing 6 and outputs a sensed temperature to the controller 50. (S2)

The internal temperature of the storage compartment 4 and the temperature of the inner casing 6 are lowered by the endothermic action of the evaporation pipe 10, and the controller 50 compares the detected temperature with a set temperature to the compressor 12. And it determines whether the blower motor 34 is on or off. (S3)

That is, if the detected temperature is less than or equal to the set temperature, the controller 50 determines that the load inside the storage compartment 4 is released, and turns off the compressor 12 and periodically turns on / off the blower motor 34. (S4)

As shown in FIG. 5, the on / off repetition of the blower motor 34 is performed after the first set time (S11) of the blower motor 34. For example, when 30 seconds have elapsed (S12), the blower motor 34 is turned off (S13), and the second set time after turning off the blower motor 34 ( For example, when 30 seconds elapse (S13), the blower motor 34 is turned on again (S14). (S4)

Here, the first set time ( ) And the second set time ( ) Is preferably set such that the internal temperature of the storage chamber 4 is a temperature similar to the continuous on of the blower motor 34.

While the on / off of the blower motor 34 is repeated as described above, the cold air inside the storage compartment 4 maintains a uniform temperature as the circulation and stagnation are repeated.

On the other hand, due to the compressor 12 is turned off, the internal temperature of the storage compartment 4 and the temperature of the inner casing 6 are gradually increased due to the opening of the door 20 or the heat penetration from the outside. Determining whether the compressor 12 and the blower motor 34 is on / off by comparing the sensed temperature detected by the temperature sensor 40 and the set temperature (S5).

The controller 50 determines that the load inside the storage compartment 4 is large when the detected temperature is greater than the set temperature, thereby turning on the compressor 12 and blowing the air so that the on / off repetition of the blower motor 34 is stopped. The motor 34 is turned off (S5).

Thereafter, the internal temperature of the storage compartment 4 and the temperature of the inner casing 6 are raised again, and the above process is repeated according to the temperature change of the storage compartment 4 and the inner casing 6.

The control method of the direct-cooling refrigerator according to the present invention configured as described above does not turn on the blower motor when the compressor is on, and operates the blower motor only when the compressor is off, so that the compressor may be formed in the storage compartment when the compressor is turned off. There is an advantage that can minimize the difference in temperature, reduce the power consumption of the blower motor and extend its life.

In addition, since the blower motor is turned on / off at a predetermined cycle, it is possible to reduce the power consumption of the blower motor and to extend the life of the blower motor as compared to the case where the blower motor is continuously turned on.

In addition, the direct-cooling refrigerator is turned off during the second set time after the blowing motor is turned on for the first set time, the first set time and the second set time is the internal temperature of the storage compartment and the continuous temperature of the blower motor When the temperature is set to be similar, there is an advantage that power consumption can be minimized while maintaining the upper and lower temperatures of the storage chamber uniformly.

1 is a schematic configuration diagram showing an example of a direct-cooling refrigerator according to the present invention;

2 is a control block diagram of a direct cooling refrigerator according to the present invention;

3 is a flow chart illustrating a control method of a direct-cooling refrigerator according to the present invention;

4 is a flow chart illustrating a blowing motor control method of a direct-cooling refrigerator according to the present invention;

5 is a graph illustrating on / off of the compressor and the blower motor of the direct-cooling refrigerator according to the present invention.

<Explanation of symbols on main parts of the drawings>

1: body 2: outer casing

3: storage container 4: storage room

6: inner casing 8: insulation

10: evaporation pipe 12: compressor

20: door 32: blowing fan

32: blown motor 40: temperature sensor

50: controller 60: euro guide

Claims (3)

In the control method of the direct-cooling refrigerator to operate the compressor on / off in accordance with the load of the storage compartment, While the compressor is turned off, the blower motor for rotating the blower fan for circulation of cold air in the storage compartment is turned on for a first set time and then turned off for a second set time, The blower motor is turned off while the compressor is on. Control method of direct cooling refrigerator. The method of claim 1, The control method of the direct-cooling refrigerator, the control method of the direct-cooling refrigerator characterized in that the on / off of the blower motor is repeated during the off of the compressor. delete