KR20120011716A - Method for controlling an operation of refrigerator - Google Patents

Abstract

PURPOSE: An operation control method of a refrigerator is provided to improve operational performance for a refrigerator, to reduce noises by varying a frequency, and to variously apply an operation control method according to a specialized operation mode for cooling power or a specialized operation mode for the efficiency. CONSTITUTION: An operation control method of a refrigerator is as follows. A compressor is driven by using a set frequency and a set stroke. The ambient noise is sensed(S16). A silent mode operation is performed when the ambient noise is quieter than a set noise(S20). A value of the compressor operation frequency in a silent mode operation is varied to be lower than a value of the set frequency in a normal mode operation.

Description

Method for controlling an operation of refrigerator

The present invention relates to a method for controlling operation of a refrigerator.

Recently, with increasing environmental concern, the demand for low noise refrigerators is increasing. In order to satisfy such consumer demands, a control method for reducing the noise level itself of the refrigerator or adjusting the cooling power of the refrigerator according to the day and night has been applied to the refrigerator.

In particular, a refrigerator equipped with a linear compressor, which is a kind of reciprocating compressor, has recently been released. Currently, a linear compressor applied to a refrigerator is controlled to perform load response operation only through a stroke variable with a fixed frequency. Here, the frequency selection of the compressor is a very important factor. The frequency is determined by comprehensively determining the mechanical characteristics including the spring mounted inside the linear compressor, the required freezing capacity, the optimization of the efficiency, and the noise characteristics.

Since the linear compressor produces optimum efficiency at the resonance frequency, the linear compressor is controlled to match the operating frequency of the compressor to the resonance frequency. Then, in order to adjust the flow rate of the refrigerant to match the cooling force corresponding to the load of the refrigerator, it was controlled to increase the stroke of the piston while approaching the operating frequency to match the resonance frequency.

Here, the resonant frequency is the elastic modulus of the mechanical spring inside the compressor; An elastic modulus of the injected gas spring; It is determined by the mass of the piston reciprocating linearly and the member connected thereto. Here, the gas spring means that the refrigerant in the compression space acts as a gas spring by its elastic force to elastically support the compressor piston, so that the compressed refrigerant can be viewed as one spring.

In general, when a compressor is manufactured, the resonance frequency of the target compressor, that is, the frequency at which the efficiency is maximum is determined. In addition, the frequency at which noise is optimal is also determined. In addition, one or more of these resonant frequencies and noise optimum frequencies may be determined.

However, although the operating frequency of the compressor is a very important factor in terms of noise, the frequency chosen for the overall performance of the compressor may not be optimal in terms of noise. In particular, the linear compressor has a very large proportion of the springs in the parts and it is very difficult to match the resonance region of each spring, so care must be taken in selecting the frequency.

The present invention provides a refrigerator control operation method of improving a noise characteristic by improving a single frequency operation of a conventional linear compressor, that is, an operation method of varying a stroke only in a fixed frequency. It aims to do it.

According to an aspect of the present invention, there is provided a driving control method of a refrigerator, comprising: a normal mode driving step of driving a compressor at a set frequency (f1) and a set stroke in a refrigerator having a reciprocating compressor; Detecting ambient noise; And a quiet mode operation step performed when the ambient noise is less than the set noise, wherein the operating frequency f2 of the compressor in the quiet mode operation step is smaller than the set frequency f1 in the normal mode operation step. Characterized in that the value is variable.

According to the refrigerator operation control method according to an embodiment of the present invention, there is an effect that the problems caused by the existing linear compressor control operating at a single frequency is improved.

Specifically, since the selected operating frequency may be optimal in terms of the performance of the compressor, but may not be optimal in terms of noise, the frequency is varied according to the case where the performance aspect is important and the noise aspect is important, thereby improving the refrigerator operation performance and noise reduction effect. At the same time there is an advantage.

In addition, in addition to the noise, there is an advantage that can be variously applied to the operation control method according to the operation mode specialized in cold power, or the operation mode specialized in efficiency.

1 is a flowchart illustrating a method for controlling operation of a refrigerator according to an embodiment of the present invention.

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

1 is a flowchart illustrating an operation control method of a refrigerator according to an embodiment of the present invention.

Referring to FIG. 1, the operation control method of the refrigerator according to the embodiment of the present invention is characterized in that both the frequency and the stroke of the compressor are varied in the normal operation mode and the quiet operation mode.

According to the control method according to the embodiment of the present invention, first, the room temperature is measured through a temperature sensor mounted in the refrigerator (S11). Then, it is determined whether the ambient temperature is equal to or greater than the set temperature T1 (S12), and when the ambient temperature is higher than the set temperature T1, the compressor is controlled to operate at a top dead center (TDC) (S13). . Here, the top dead center operation of the compressor means that the piston of the compressor reciprocates in the stroke St between the top and bottom of the cylinder (BDC), which means that the compression ratio is maximum. . In the top dead center operation mode, the compressor operates at a frequency f1 near the resonance frequency. When the ambient temperature is lower than the set temperature T1, the compressor is controlled to operate under a condition different from the top dead center operation condition, depending on the internal temperature and the use state. The set temperature T1 may be set to 35 ° C.

In detail, when the ambient temperature is lower than the set temperature T1, the internal temperature Ts is measured through a temperature sensor mounted in the refrigerator compartment, and the use state or the use condition of the refrigerator is sensed (S14). Here, the state of use of the refrigerator may include whether the door of the refrigerator is opened, whether food has been added after opening the door, whether the defrosting operation is being performed, or whether the defrosting operation is immediately finished, or the like. Can be.

In addition, it is determined whether the refrigerator is currently in a stabilized state based on the obtained internal temperature Ts information of the refrigerator and information on the use state or the use condition (S15). That is, whether the refrigerator door is opened and external air is introduced into the refrigerator to increase the load in the refrigerator, or whether food having a high temperature is fed into the refrigerator, and whether the load in a specific area or the whole of the refrigerator has increased, or the defrosting operation is finished. Immediately afterwards, it is determined whether the inside of the refrigerator is in a stabilized state or in an unstable state according to whether or not hot air flows from the evaporation chamber into the refrigerator.

On the other hand, if it is determined that the in-state state is in an unstable state, the compressor operating frequency f1 remains the same as in the case of the top dead center operation mode, but the stroke Su of the compressor piston is lower than the top dead center stroke St. It is controlled to switch to the driving instability mode (S17). The unstable mode refers to a mode in which the ambient temperature is lower than the set temperature T1 but the load in the high air is increased to drive the refrigeration cycle. In other words, the unstable mode is performed in a state in which the ambient temperature is lower than the set temperature T1 and thus does not significantly affect the heat exchange efficiency of the condenser, and the load in the high load is increased due to the door opening or food input.

On the other hand, if it is determined that the state inside the stabilization state, the ambient noise is detected through the noise detection means mounted to the outside of the refrigerator (S16). Then, by determining whether the ambient noise is less than the reference noise (S18), it is determined whether the refrigerator operates in the quiet mode (noise mode) (S20), or in the stable mode (S19).

For example, when the ambient noise is detected relatively high due to late night time, but the frequency of use of the refrigerator is low, it is necessary to set it to a quiet mode in which the cold power of the refrigerator is lowered so as not to disturb the sleep of the user. In the case of the night time because the use frequency of the refrigerator is not high, even if yielding the operation rate of the refrigerator has a small effect on the food in the refrigerator, there is an advantage that can reduce the power consumption. In the quiet mode, when the required load of the refrigerator is low at night or when the ambient temperature is low, the ambient noise when the refrigerator is stopped is measured, and the compressor is operated so that the noise during the operation of the refrigerator is equal to or less than the perceived threshold (3 dB) based on the ambient noise. Lowers the cold power. When the noise of the compressor falls below the perceived threshold, the refrigerator noise is no longer heard due to the influence of the ambient noise. On the contrary, when the refrigerator noise is greater than 10 dB above the ambient noise, the ambient noise does not affect the refrigerator noise. That is, the ambient noise is buried by the compressor noise.

The stable mode operation means a case in which the compressor frequency is maintained at the same resonance frequency f1 as in the top dead center operation, but operates under a condition that the stroke Sg of the compressor is smaller than in the unstable mode operation. The stable mode refers to a condition in which the refrigeration cycle is driven by a natural increase in the internal temperature of the refrigerator without causing an increase in load such as a door opening or food input. Therefore, in the stable mode, the performance of the refrigerator is stably exhibited, and a reliable sound comes from the compressor. In other words, no abnormal noise is generated from the compressor.

On the other hand, when the ambient noise is lower than the reference noise and it is necessary to operate in the quiet mode, the frequency of the compressor is changed to the frequency f2 lower than the frequency f1 in the top dead center operation, and the stroke is also the stroke in the stable mode ( It is variable to the stroke Sc lower than Sg). That is, since the quiet mode is mainly performed at night when the ambient temperature is low, the required load of the refrigerator is small as described above. Therefore, in the quiet mode, the compressor Sc can be set lower than the resonance frequency f1 for maximum efficiency while lowering the stroke Sc in order to lower the cooling power of the compressor. Here, it should be noted that the stroke Sg in the stable mode may be set equal to the stroke Sc in the quiet mode. Then, depending on whether the refrigerator power is off (S21), the previous algorithm is repeatedly performed or terminated.

 According to the refrigerator operation control method according to an embodiment of the present invention, there is an effect that the problems caused by the existing linear compressor control operating at a single frequency is improved.

Specifically, since the selected operating frequency may be optimal in terms of the performance of the compressor, but may not be optimal in terms of noise, the frequency is varied according to the case where the performance aspect is important and the noise aspect is important, thereby improving the refrigerator operation performance and noise reduction effect. At the same time there is an advantage.

In addition, in addition to the noise, there is an advantage that can be variously applied to the operation control method according to the operation mode specialized in cold power, or the operation mode specialized in efficiency.

Claims (5)

In the operation control method of a refrigerator equipped with a reciprocating compressor,
A normal mode operation step in which the compressor is driven at the set frequency f1 and the set stroke;
Detecting ambient noise; And
A quiet mode driving step performed when the ambient noise is less than the set noise,
The operation frequency f2 of the compressor in the quiet mode operation step is variable to a value smaller than the set frequency f1 in the normal mode operation step. The method of claim 1,
The normal mode operation step,
A top dead center (TDC) operating mode performed when the ambient temperature RT is higher than the set temperature T1;
Unstable mode performed when the ambient temperature (RT) is lower than the set temperature (T1), and the in-state state is unstable and
The operation control method of the refrigerator including any one or more of the stable mode that is performed when the ambient temperature (RT) is lower than the set temperature (T1), the state in the high temperature is stable, and the ambient noise is higher than the reference noise. The method of claim 2,
The stroke St of the compressor in the top dead center operation mode is larger than the compressor stroke Su in the unstable mode and the compressor stroke Sg in the stable mode. The method of claim 2,
The compressor stroke (Su) in the unstable mode is larger than the compressor stroke (Sg) in the stable mode. The method of claim 2,
The compressor stroke (Sg) in the stable mode is greater than or equal to the compressor stroke (Sc) in the quiet mode.

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