KR20060032355A - Method for controlling of running refrigerator - Google Patents

Abstract

The present invention relates to a method for controlling the operation of a refrigerator, the refrigerator being able to vary the cooling capacity by varying the compression capacity of the compressor of the refrigerator in multiple stages, the consumption by reducing the number of compressor interruptions when operating the compressor in a small capacity in the storage mode This is to reduce power.

The present invention has a temperature sensor for measuring the temperature in the high temperature, and a cooling cycle using a variable capacity compressor that can vary the compression capacity in multiple stages, by selecting any one of the compressor capacity, the high temperature in the high In the refrigerator to operate the compressor at the selected compression capacity when the control temperature range is greater than or equal to the predetermined control temperature range, and to stop the compressor operation and to maintain the internal temperature in the predetermined temperature range when the compressor temperature is below the predetermined control temperature range, It provides a method for controlling operation of a refrigerator, characterized in that the control temperature range is large.

Refrigerator, compressor, variable capacity

Description

Method for controlling of running refrigerator

1 is a graph showing a compressor operation control mode of a conventional refrigerator

2 is a diagram schematically showing the configuration of a refrigerator according to the present invention;

3 is a graph showing a compressor operation control mode of the refrigerator according to the present invention.

Explanation of symbols on the main parts of the drawings

1: compressor 2: condenser

3: expansion valve 4: evaporator

5: control unit 6: temperature sensor

Tu ₁ : Upper limit of storage temperature for small volume operation

Tu ₀ : Upper limit of storage temperature in large capacity operation

Td: Lower limit of storage temperature

The present invention relates to a method of controlling the operation of the refrigerator, and particularly to a refrigerator capable of varying the cooling capacity by varying the compression capacity of the compressor in multiple stages, reducing the power consumption by reducing the number of interruptions of the compressor operation in the storage mode. It relates to a method of controlling the operation of a refrigerator.

In general, a refrigerator is a device that keeps food fresh for a certain period of time by lowering the temperature in a refrigerator as the refrigerant (working fluid) repeats a refrigeration cycle of compression, condensation, expansion, and evaporation.

Such a refrigerator includes a compressor for raising / heating a low temperature / low pressure gas refrigerant to a high temperature / high pressure gas refrigerant, a condenser for condensing the refrigerant introduced from the compressor by outside air, and a narrow diameter compared to the diameter of other parts. It consists of an expansion valve for reducing the refrigerant introduced from the condenser, and the evaporator which absorbs the heat in the refrigerator as the refrigerant passing through the expansion valve in a low pressure state as a basic component constitutes a refrigeration cycle.

The cooling performance of the refrigeration cycle of the refrigerator is determined by the compression capacity of the compressor, and the compression capacity of such a compressor is called cold power.

Recently, it has been developed that the cooling according to the situation by varying the cooling power of the compressor can be achieved, for example, when the user opens the door of the refrigerator for a long time or frequently, or frequently opens food, the temperature in the refrigerator suddenly rises, Is operated with a large compression capacity to rapidly drop the temperature inside the refrigerator to a set refrigeration or freezing storage temperature, and then the compressor is switched to a smaller compression capacity to maintain the interior of the refrigerator within a predetermined set temperature range.

However, in the conventional refrigerator using a variable capacity compressor having a variable cold power as described above, since the storage temperature range is the same in both the small capacity and the large capacity in the storage mode for storing food within a predetermined temperature range, as described above, When the compressor is operated in a small capacity in the storage mode, the compressor operation time is longer as compared to when the compressor is operated in a large capacity as shown in FIG. 1, thus increasing the number of ON / OFF times of the compressor and increasing power consumption. Therefore, there is a problem of reducing the effect of using the variable capacity compressor.

Accordingly, the present invention has been made to solve the above problems, in a refrigerator capable of varying the cooling capacity by varying the compression capacity of the compressor of the refrigerator in multiple stages, the compressor intermittent recovery when operating the compressor in a small capacity in the storage mode It provides a method of controlling the operation of the refrigerator to reduce the power consumption by reducing the.

The present invention for achieving the above object is provided with a temperature sensor for measuring the temperature in the high temperature, and a cooling cycle using a variable capacity compressor that can vary the compression capacity in multiple stages, and select the compressor as any compression capacity The refrigerator is configured to operate the compressor at a selected compression capacity when the temperature in the refrigerator is higher than or equal to a predetermined control temperature range, and to maintain the temperature in the refrigerator within a predetermined temperature range while stopping the compressor operation when the temperature is lower than the predetermined control temperature range. The smaller the compression capacity of the provides a control method of operation of the refrigerator, characterized in that the control temperature range is larger.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the operation control method of the refrigerator according to the present invention will be described in detail.

First, the configuration of the refrigerator will be described with reference to FIG. 2. The refrigerator of the present invention uses a compressor (1) for compressing a refrigerant, a condenser (2) for condensing the compressed refrigerant, an expansion valve (3) for lowering the pressure of the refrigerant, and cool air by using latent heat of evaporation. A refrigeration cycle composed of an evaporator (4); It is configured to include a temperature sensor (6) for measuring the temperature in the refrigerator and transmitting to the control unit (5) for controlling the operation of the compressor (1).

Here, the compressor (1) is a variable capacity compressor that can vary the compression capacity to a large capacity and a small capacity, the compression capacity at the time of large capacity is about 30% larger than the compression capacity at the time of small capacity, the cooling power ratio between such a large capacity and a small capacity There is no limit.

In addition, the compressor 1 uses a conventional inverter compressor, which is well known to be able to vary the cooling power, or double-opened in Korean Patent Application Publication No. 2003-0010841 (published Feb. 6, 2003) filed and developed by the present applicant. Any variable displacement compressor capable of varying the compression capacity according to a refrigeration load, such as a capacity compressor or a rotary compressor of Korean Patent Application No. 2003-30161 (filed May 13, 2003), may be used.

The rotary compressor includes a cylinder having a plurality of refrigerant suction openings having a predetermined phase difference and a refrigerant discharge opening, and an eccentric roller for compressing the refrigerant while eccentrically rotating along the inner circumferential surface of the rotary compressor, where the refrigerant is sucked in accordance with the rotational direction of the eccentric roller. The compression capacity is variable while the location of the refrigerant intake is determined.

On the other hand, the operation of the refrigerator of the present invention configured as described above is made as follows.

When the user opens the refrigerator door for a long time or introduces new food into the refrigerator and the temperature change occurs in the refrigerator, the temperature sensor 6 detects and transmits the temperature to the controller 5, and the controller 5 controls the temperature sensor ( If the temperature sensed by 6) exceeds the preset temperature, operate the compressor in large capacity and drop it to the lower limit of the set storage temperature.

Of course, the compressor operates in a large capacity even when the refrigerator is turned off and then on again and needs to be started.

When the compressor operates at a large capacity and the temperature inside the refrigerator reaches the storage temperature lower limit Td, the compressor is stopped. Then, the compressor is selected to enter a storage mode in which the compressor is kept in the predetermined storage temperature range.

At this time, the storage temperature range is changed according to the capacity of the selected compressor during the storage mode operation, as shown in Figure 3 when the variable capacity of the compressor in the storage mode to operate in a small capacity than when selecting a large capacity operation The upper limit Tu _{1 of} the storage temperature range is set high to increase the storage temperature range Td to Tu ₁ .

In this way, during the storage mode operation, the time it takes for the internal temperature to rise from the storage mode lower limit value Td to the storage temperature upper limit value Tu ₁ , that is, the compressor operation stop time Δt2 is the existing storage temperature range Td to Tu. _Since it becomes longer than the compressor operation stop time (DELTA t1) (refer FIG. 1) at the time of using ₀ , as a result, the number of interruptions of a compressor operation can be reduced.

Of course, as the storage temperature range increases, the time it takes for the internal temperature to fall from the upper storage temperature upper limit (Tu ₁ ) to the lower limit (Td), i.e., the compressor operation time is slightly increased, but the increase at this time is at It is very short compared to the time taken to rise to the upper limit, and as a result, it does not have a great influence on achieving the effect of reducing the number of interruptions.

On the other hand, when the storage operation is performed without changing the capacity of the compressor as it is, the storage temperature range set for the storage operation is different because the time for reaching the lower limit Td from the storage temperature upper limit Tu ₀ is relatively short. Similarly, it is preferable to set the temperature range as small as compared to the small capacity operation.

As described above, according to the present invention, when the variable capacity compressor is selected as a small capacity, the operation time of the compressor is longer than that of the conventional one, and thus the number of compressor interruptions is reduced, thereby reducing the power consumption.

Claims (2)

A temperature sensor for measuring the temperature in the refrigerator and a cooling cycle using a variable capacity compressor capable of varying the compression capacity in multiple stages, wherein the compressor is selected as one of the compression capacities, and the temperature in the refrigerator is higher than a predetermined control temperature range. In a refrigerator operating the compressor at a selected compression capacity and below the predetermined control temperature range, the compressor operation is stopped and the internal temperature is maintained within the predetermined temperature range. And the smaller the compression capacity of the selected compressor, the greater the control temperature range. The method of claim 1, wherein the upper limit is set as the control temperature range is smaller as the compression capacity is smaller.

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