KR100942339B1 - Control method for dehumidification air conditioner - Google Patents

Abstract

In the control method of the dehumidifying air conditioner for noise reduction according to the present invention, when the initial operation time is t1, the time at which the cycle is stabilized is t2, and the time for reaching the set dehumidification is t3, the time elapsed from t3 to t4,

linearly increasing the frequency of the inverter for driving the compressor until t1 and thereafter maintaining the inverter frequency until t2; maintaining the indoor unit air volume in a strong wind until t2; adjusting the frequency of the inverter and the air volume of the indoor unit to reach a set dehumidification from t2 to t3; gradually decreasing the inverter frequency after t3; After maintaining the air volume of the indoor unit from t3 to t4 to the mid-air, after t4 characterized in that it comprises a step of maintaining a weak wind.

The control method of the dehumidifying air conditioner for noise reduction according to the present invention can reduce the refrigerant sound generated in the indoor expander by controlling the indoor air volume and the frequency of the inverter for driving the compressor.

Therefore, the user has an advantage of lowering the degree of discomfort due to noise.

Description

Control method for dehumidification air conditioner for dehumidification

1 is a structural diagram schematically showing a conventional dehumidification air conditioner.

Figure 2 is a state diagram showing a control state of the dehumidifying air conditioner for reducing noise according to an embodiment of the present invention.

Figure 3 is a flow chart showing in detail the control method of such a dehumidification air conditioner.

Figure 4 is a state diagram showing a control state of the dehumidification air conditioner for reducing noise according to another embodiment of the present invention.

Figure 5 is a flow chart showing in detail the control method of such a dehumidification air conditioner.

<Description of the symbols for the main parts of the drawings>

10 ... compressor 11 ... compressor

12 ... 4-way valve 20 ... Outdoor heat exchanger

21 ... condenser 22, 35 ... fan

30 ... indoor heat exchanger 31 ... first heat exchanger

32 ... 2nd heat exchanger 33 ... indoor expander

34 ... 2nd valve 40 ... Expansion part

41 ... Inflator 42 ... 1st valve

The present invention relates to a control method of a dehumidifying air conditioner for reducing noise, and more particularly, to a dehumidifying air conditioner capable of reducing noise generated by an expander in an indoor heat exchanger used during dehumidification operation.

The dehumidifying air conditioner refers to an air conditioner centered on removing moisture by arranging a heat exchanger serving as a condenser and a heat exchanger serving as an evaporator, respectively, in an indoor heat exchanger located indoors.

1 is a structural diagram schematically showing a conventional dehumidification air conditioner.

Referring to the drawings, a conventional dehumidification air conditioner and a compression unit 10 is compressed refrigerant; An outdoor heat exchanger (20) provided with a heat exchanger (21) and a fan (22) to exchange heat between the refrigerant and outdoor air; The first heat exchanger (31), the second heat exchanger (32), and the indoor expansion portions (33, 34) located between the first and second heat exchangers (31, 32) are provided. An indoor heat exchanger (30); The expansion unit 40 is positioned between the outdoor heat exchanger 20 and the indoor heat exchanger 30.

In more detail, the compression unit 10 includes a compressor 11 for converting a low temperature low pressure gas refrigerant output from the outdoor heat exchange unit 20 or an indoor heat exchange unit 30 into a high temperature high pressure gas refrigerant; It is provided with a four-way valve 12 for determining the discharge direction of the compressor 11, the four-way valve 12 is to switch the suction and discharge piping of the compressor 11 to cool the room The indoor heat exchanger 30 is operated as an evaporator, and when the room is to be heated, the indoor heat exchanger 30 is operated as a condenser. Of course, the outdoor heat exchanger 20 is operated as a condenser and an evaporator, respectively. However, since the main purpose of the present invention is to use the dehumidifier, it is assumed that the outdoor heat exchanger 20 is operated as a condenser and the indoor heat exchanger 30 is operated as an evaporator.

The outdoor heat exchanger 20 is a means for converting the high temperature and high pressure gas refrigerant generated by the compression unit 10 into a medium temperature and high pressure liquid refrigerant. A condenser 21 and a fan 22 are provided for this purpose.

The expansion portion 40 is a means for converting the medium-temperature high-pressure liquid refrigerant output from the outdoor heat exchanger 20 into a low-temperature low-pressure liquid refrigerant, and consists of a capillary tube 41, in parallel with the first valve 42 ), The first valve 42 determines whether the capillary tube 41 passes. As such, the control of the passage of the capillary tube 41 is not to be performed in the expansion part 40 when the capillary tube 41 is used as a dehumidifier. In this case, the first valve 42 is opened to allow the refrigerant to pass through the first valve. Pass through (42) to prevent expansion.

As such, the refrigerant having a medium temperature and high pressure is introduced into the indoor heat exchanger 30 without undergoing the expansion process. The indoor heat exchanger 30 includes the first heat exchanger 31, the second heat exchanger 32, and the same. Consists of the indoor expansion (33, 34) between, the first heat exchanger (31) takes place once more condensation action, the expansion of the indoor expansion unit 33 of the indoor expansion is made. By the expansion process, the medium-temperature high-pressure liquid refrigerant is converted into a low-temperature low-pressure liquid refrigerant, and the second heat exchanger 32 absorbs and evaporates the surrounding heat to convert it into a low-temperature low-pressure gas refrigerant, and then the compression unit. Flows into (10). If it operates as a cooler rather than a dehumidifier, an expansion process is performed in the expansion part 40, and the first heat exchanger 31 also operates as an evaporator like the second heat exchanger 32. Of course, at this time, the second valve 34 of the indoor expansion part should be opened so that the indoor expander 33 does not operate.

Looking briefly at the operation of the conventional dehumidifying air conditioner having such a configuration, in the second heat exchanger 32, the temperature is lowered due to evaporation of the refrigerant and condensation of the surrounding moisture is caused. It becomes dehumidification by doing so. Of course, the temperature of the room is also cooled in this process, so that the first heat exchanger 31 is operated as a condenser in order to prevent the temperature from being balanced.

However, as the refrigerant passing through the first heat exchanger of the indoor heat exchanger flows into the indoor expander in an ideal flow state in the dehumidification air conditioner having such a configuration, noise caused by the refrigerant flow noise is generated.

In particular, since the cycle is not stabilized at the initial stage of the dehumidification operation, the refrigerant sound is more seriously generated. Such a refrigerant sound is irregular and gives a great discomfort to the user.

The present invention has been made to improve the above problems, and an object of the present invention is to provide a control method of a dehumidifying air conditioner for noise reduction that can reduce the refrigerant sound generated in the indoor expander.

In order to achieve the above object, the control method of the dehumidification air conditioner for noise reduction according to the present invention has elapsed a predetermined time from t1 and t3 to an initial operation time t1, a time for stabilizing a cycle, and a time for reaching a set dehumidification. If the time is t4,

linearly increasing the frequency of the inverter for driving the compressor until t1 and thereafter maintaining the inverter frequency until t2; maintaining the indoor unit air volume in a strong wind until t2; adjusting the frequency of the inverter and the air volume of the indoor unit to reach a set dehumidification from t2 to t3; gradually decreasing the inverter frequency after t3; After maintaining the air volume of the indoor unit from t3 to t4 to the mid-air, after t4 characterized in that it comprises a step of maintaining a weak wind.

In the case where the initial operation time is t1, the time for stabilization of the cycle is t2, the time for reaching the set dehumidification is t3, t3 and a predetermined elapsed time is t4, and the air volume of the indoor unit is fixed to light or heavy wind.

linearly slowly increasing the frequency of the inverter for driving the compressor until t1 and thereafter maintaining the inverter frequency until t2; adjusting the frequency of the inverter to reach a set dehumidification from t2 to t3; and gradually decreasing the inverter frequency after t3.

As described above, the control method of the dehumidifying air conditioner for noise reduction according to the present invention can reduce the refrigerant sound noise of the indoor expander by controlling the inverter frequency and the indoor air volume for driving the compressor.

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

2 is a state diagram illustrating a control state of a dehumidifying air conditioner for noise reduction according to an exemplary embodiment of the present invention.

Referring to FIG. 2, it can be seen that the control method of the dehumidifying air conditioner according to the present embodiment simultaneously controls the indoor air volume and the frequency of the inverter for driving the compressor.

In more detail, during the initial operation time t1, the inverter frequency was gradually increased so that the indoor expander was also gradually pressurized. In addition, the coolant sound generated even though the pressurized air was gradually pressed by the strong wind volume of the indoor unit was Get on the fan noise.

After that, the inverter frequency and the indoor unit air volume are controlled until the set dehumidification is satisfied (t3). After that, the indoor unit air volume corresponds to the weak wind, and the inverter frequency is gradually reduced to reduce the noise caused by the refrigerant sound and the fan noise. Minimize.

Fig. 3 is a flow chart showing the control method of the dehumidification air conditioner in detail. The initial operation time is t1, the cycle is stabilized at t2, and the time at which the set dehumidification is reached at t3 and t3 is t4. If set, linearly increasing the frequency of the inverter for driving the compressor until t1 and then maintaining the inverter frequency until t2; maintaining the indoor unit air volume in a strong wind until t2; adjusting the frequency of the inverter and the air volume of the indoor unit to reach a set dehumidification from t2 to t3; gradually reducing the inverter frequency after t3; It can be seen that after the t4 to t4 to maintain the indoor unit air volume in the mid-wind after maintaining the low wind.

Looking first at the control of the inverter frequency, the initial inverter frequency is increased linearly to prevent the generation of noise due to the sudden increase in pressure by gradually increasing the pressure applied to the indoor expander. The inverter frequency is then maintained at t1 until the cycle is stabilized, after which time t3 is appropriately controlled for the dehumidification operation.

When the set dehumidification is satisfied by the operation up to t3, the inverter frequency is linearly lowered afterwards to reduce the noise, and the frequency of the inverter and the indoor air volume are adjusted to achieve the set dehumidification. It operates at a relatively small operating frequency.

The air volume of the indoor unit is a strong wind until the time t2 when the cycle is stabilized so that the refrigerant sound generated in the indoor expander is buried by the fan noise of the strong wind. The reason why this is effective is that although the fan noise of the strong wind is greater than the noise caused by the refrigerant sound, the fan noise is a continuous noise, and thus the size of the fan wind is relatively small but does not cause discomfort to the user rather than randomly generated refrigerant sound.

After maintaining the air volume according to the normal dehumidification operation for reaching the set dehumidification until t3, if the set dehumidification is satisfied, after that a predetermined time elapsed to t4 after a predetermined time to maintain the weak wind. This is because, as the operating frequency of the inverter decreases after t4, the pressure of the compressor is lowered, so that the refrigerant noise generated in the indoor expander is reduced, so as to reduce not only the refrigerant noise but also the fan noise.

In other words, even when the indoor air volume is a mild wind, the refrigerant sound of the indoor expander generated at the reduced operating frequency is buried. Of course, the degree of weak air should be selected to the appropriate amount of air to the buried refrigerant sound.

Figure 4 is a state diagram showing a control state of the dehumidifying air conditioner for reducing noise according to another embodiment of the present invention, the indoor expander only by controlling the frequency of the inverter for driving the compressor in a state in which the air volume of the indoor unit is fixed to mild wind or medium wind It can be seen that the generation of refrigerant sound is reduced.

Looking in more detail, this embodiment is a state in which the indoor unit air volume is fixed, which is set by the user's selection. For example, in the case of the embodiment of FIG. 2, it may be assumed that the mode is operated when the automatic dehumidification operation button is selected. In this embodiment, it may be assumed that the user selects a dehumidification operation after selecting a preferred air volume. There will be.

Therefore, in the present embodiment, the indoor unit air volume is reduced by the frequency control of the inverter in the state of being fixed in the mild wind or moderate wind (possible strong winds), so as to reduce the noise generation.

The inverter expands gradually during the initial operation time t1 to gradually pressurize the indoor expander, and then controls the inverter frequency until the set dehumidification is satisfied (t3), after which the inverter frequency is gradually decreased to increase the refrigerant. Minimized noise caused by sound and fan.

Fig. 5 is a flow chart showing the control method of the dehumidification air conditioner in detail, in which the initial operation time is t1, the cycle stabilization time is t2, and the time for reaching the set dehumidification is t3, t3 is the time elapsed from t3. If set, linearly and slowly increasing the frequency of the inverter for driving the compressor until t1 and then maintaining the inverter frequency until t2; adjusting the frequency of the inverter to reach a set dehumidification from t2 to t3; It can be seen that after t3, the inverter frequency is gradually decreased.

At this time, the air volume of the indoor unit is fixed to light or medium wind, and the frequency control of the inverter is the same as the description of FIG.

As described above, the control method of the dehumidifying air conditioner for noise reduction according to the present invention can reduce the refrigerant sound generated in the indoor expander by controlling the indoor air volume and the frequency of the inverter for driving the compressor.

Therefore, the user has an advantage of lowering the degree of discomfort due to noise.

Claims (2)

When the initial operation time is t1, the time at which the cycle is stabilized is t2, and the time for reaching the set dehumidification is t3 and t3 is the time elapsed by the predetermined time t4. linearly increasing the frequency of the inverter for driving the compressor until t1 and thereafter maintaining the inverter frequency until t2; maintaining the indoor unit air volume in a strong wind until t2; adjusting the frequency of the inverter and the air volume of the indoor unit to reach a set dehumidification from t2 to t3; gradually decreasing the inverter frequency after t3; Maintaining the air volume of the indoor unit from t3 to t4 as the mid-air, and then maintaining the mild air after t4. Control method of a dehumidifying air conditioner for noise reduction comprising a. When the initial operation time is set to t1, the time for stabilizing the cycle to t2, the time to reach the set dehumidification is set to t4 and the time elapsed from t3 to t4, and the air volume of the indoor unit is fixed to light or heavy wind. linearly slowly increasing the frequency of the inverter for driving the compressor until t1 and thereafter maintaining the inverter frequency until t2; adjusting the frequency of the inverter to reach a set dehumidification from t2 to t3; progressively decreasing the inverter frequency after t3 Control method of a dehumidifying air conditioner for noise reduction comprising a.

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