KR20110080356A - Refrigerator and Compressor Control Method and Kimchi Refrigerator Control Method - Google Patents

Abstract

PURPOSE: A refrigerator, a control method of a compressor, and a control method of a Kimchi refrigerator are provided to reduce power consumption by equipping with two compressors having different efficiencies and controlling effectively according to the temperature condition inside each refrigerator. CONSTITUTION: A control method of a compressor comprises the steps of: detecting a difference between the temperature inside a refrigerator and the control temperature(S5); if the difference between the temperature inside a refrigerator and the control temperature is above 15 degrees, operating all compressors having different efficiencies(S10); if the difference between the temperature inside a refrigerator and the control temperature is above 5 degrees or below 15 degrees, operating a high efficiency compressor and stopping a low efficiency compressor(S20); if the difference between the temperature inside a refrigerator and the control temperature is below 5 degrees, stopping a high efficiency compressor and operating a low efficiency compressor(S30).

Description

Refrigerator and Compressor Control Method and Kimchi Refrigerator Control Method {Refrigerator and Method of controlling for Compressor and Method of controlling for Kimchi Refrigerator}

The present invention relates to a refrigerator having a compressor having a different efficiency and driven according to a high internal temperature condition.

Conventional refrigerators or kimchi refrigerators by using a single compressor, the refrigerant pipe in the corresponding compartment is distributed, and the system was driven by controlling the system with a valve to control the cold air in the compartment. In such a system, the startup time depends on the cooling capacity or efficiency of the compressor in the process of distributing the refrigerant, which has a great influence on the power consumption.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and includes two compressors having different efficiencies, and an object thereof is to reduce power consumption by controlling efficiently according to temperature conditions in each chamber.

The refrigerator of the present invention includes a main body in which a reservoir is formed and a plurality of compressors installed in the main body, wherein the compressor includes different efficiency.

The compressor control method of the present invention includes detecting a difference between the internal temperature and the control temperature, and when the difference between the internal temperature and the control temperature is a predetermined value or more, driving all the plurality of compressors having different efficiency. .

In addition, when the difference between the high temperature and the control temperature is a predetermined value or more, the step of driving a high efficiency of the plurality of compressors, and stopping the low efficiency of the compressor.

The method may further include stopping the high efficiency compressor of the two compressors and driving the low efficiency compressor when the internal temperature is less than a predetermined value by following the control temperature.

The method may further include driving a high efficiency compressor at a constant duty while driving a low efficiency one of the two compressors.

The method may include determining whether the compressor is forcedly started or rapidly cooled, and driving both compressors having different efficiency when initial forced start or rapid cooling is required.

Kimchi refrigerator control method of the present invention includes the step of operating in the ripening mode, and the operation of changing the storage mode during the aging of the two compressors of different efficiency.

According to the present invention, by efficiently controlling and driving the compressor according to the internal temperature conditions, power consumption can be reduced by optimizing the internal temperature of the refrigerator. In addition, it can be configured as a highly efficient system by reducing unnecessary power consumption, and keep the storage fresh for a long time.

1 is a flowchart of a compressor control method according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, and the same parts as in the prior art will be referred to the related art, and detailed description thereof will be omitted.

1 is a flow chart of a compressor control method according to a preferred embodiment of the present invention.

The refrigerator of the present invention includes a main body in which a reservoir is formed and a plurality of compressors installed in the main body, wherein the compressor includes different efficiency.

The compressor is configured to have a high-efficiency compressor A, a low-efficiency compressor B, a compressor A of 70% efficiency, and a compressor B of 30% efficiency. In addition, it comprises a control unit for controlling the compressor by receiving a signal from a sensor for detecting the difference between the internal temperature and the control temperature.

When the temperature difference between the high temperature received from the sensor and the constant temperature stored in the controller is greater than a predetermined reference, the controller gives a signal for driving the compressor.

Compressor control method of the present invention is as follows.

The sensor detects the difference between the internal temperature and the control temperature.

If the difference between the internal temperature and the control temperature is a predetermined value or more (S10), both the compressors A and B are driven.

The temperature difference is preferably based on 15 degrees.

In addition, when the difference between the internal temperature and the control temperature is a predetermined value or more (S20), the compressor A is driven, and the compressor B is stopped. (S25)

It is preferable that the said temperature difference is based on 5 degrees or more and less than 15 degrees.

In addition, when the internal temperature is less than a predetermined value following the control temperature (S30), the compressor B is driven to stop the compressor A. (S35)

The temperature difference is preferably based on 5 degrees.

In addition, if necessary, while driving the low efficiency compressor B of the compressor, driving a high efficiency compressor A at a certain duty (S40).

The method may further include determining whether the compressor is forcedly started or rapidly cooled, and when the forced forced start or rapid cooling is required (S11), driving both the compressors A and B (S15).

In addition, the kimchi refrigerator control method of the present invention includes the step of operating in the ripening mode, and driving both compressors having different efficiency when changing to the storage mode during ripening.

The conditions for driving both the compressors A and B may be reversed.

That is, according to the present invention, the compressor can be efficiently controlled and driven according to the internal temperature conditions, thereby optimizing the internal temperature of the refrigerator to reduce power consumption. In addition, it can be configured as a highly efficient system by reducing unnecessary power consumption, and keep the storage fresh for a long time.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below. Or it may be modified.

The present invention can be applied to refrigeration appliances such as refrigerators and kimchi refrigerators.

S5: detecting the difference between the internal temperature and the control temperature.
S10: when the difference between the internal temperature and the control temperature is 15 degrees or more, driving the compressors A and B.
S20: When the difference between the high temperature and the control temperature is 5 degrees or more or 15 degrees or less, driving the compressor A and stopping the compressor B.
S30: when the difference between the high temperature and the control temperature is 5 degrees or less, driving the compressor B and stopping the compressor A.

Claims (7)

A body in which a reservoir is formed;
Including a plurality of compressors installed in the main body;
The compressor characterized in that the efficiency is different.
Detecting a difference between the inside temperature and the control temperature;
And driving all the plurality of compressors having different efficiencies when the difference between the internal temperature and the control temperature is equal to or greater than a predetermined value.
The method according to claim 2,
And driving a high efficiency compressor among a plurality of compressors and stopping a low efficiency compressor when a difference between the high temperature inside the control temperature is greater than or equal to a predetermined value.
The method according to claim 3,
And stopping the high efficiency of the two compressors and driving the low efficiency compressor when the internal temperature is less than a predetermined value by following the control temperature.
The method according to claim 2 or 3,
Compressor control method comprising the step of driving a high efficiency compressor at a constant duty while driving a low efficiency of the two compressors.
Determining whether the compressor is forcibly started or rapidly cooled;
And driving both compressors having different efficiency when initial forced start or rapid cooling is required.
Driving in a ripening mode;
Kimchi refrigerator control method comprising the; driving both compressors having different efficiency when changing to storage mode during aging.

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