KR100748987B1 - Air-condition and the control method for the same - Google Patents

Abstract

An air conditioner and a control method thereof are provided to compares a target evaporation temperature of an air conditioning cycle in a cooling mode with atmospheric temperature and set target pressure according to the comparison result, thereby preventing stopping of a compressor caused by liquefaction of refrigerant moving from an evaporator to the compressor and low atmospheric temperature. An air conditioner includes an air conditioning cycle formed of an indoor heat exchanger, compressors, expansion elements, an outdoor heat exchanger, and a 4-way valve, and a control unit(100) controls target pressure of the air conditioning cycle according to comparison result between a target evaporation temperature thereof and atmospheric temperature. A pressure conversion temperature calculation part(106) converts a pressure value of the air conditioning cycle to a temperature value. An evaporation temperature sensing part(56) senses a current evaporation temperature.

Description

Air conditioner and its control method {Air-Condition and the control method for the same}

1 is a bird's eye view of an air conditioner according to the present invention.

2 is a view showing an air conditioner according to the present invention.

3 is a block diagram showing an air conditioner according to the present invention.

4 is a control block diagram of an air conditioner according to the present invention.

Figure 5 is a flow chart according to the control method of the compressor during the cooling operation of the air conditioner according to the present invention.

6 is a graph showing the target pressure to the outside air temperature according to the control method of the compressor during the cooling operation of the air conditioner according to the present invention.

7 is a flow chart according to the control method of the compressor during the cooling operation of the air conditioner according to the prior art.

<Explanation of symbols on main parts of the drawings>

I ': indoor unit 51: indoor heat exchanger

52: indoor blower 54: indoor electronic expansion valve

56: evaporator temperature sensing unit M: main outdoor unit

S1, S2: Sub outdoor unit 60: Outdoor heat exchanger

63, 64: compressor 66: outdoor electromagnetic expansion valve

90 outside air temperature sensing unit 92 low pressure pressure sensing unit

93: high pressure pressure sensing unit 100: control unit

102: indoor control unit 104: outdoor control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner and a control method for setting a target pressure of the air conditioning cycle according to a comparison result of a target evaporation temperature and an outside temperature of the air conditioning cycle. .

In general, an air conditioner is an air conditioning cycle consisting of a compressor, a condenser, an evaporator, and an expander, which supplies air or hot air to a building or room in which the air conditioner is installed. Are distinguished.

The separation type and the integrated type are functionally the same, but the separation type has an indoor heat exchanger (evaporator or condenser) installed in the indoor unit, and an outdoor heat exchanger (condenser or evaporator) and a compressor installed in the outdoor unit, and the two separated devices are connected to the refrigerant pipe. The one-piece unit is an indoor heat exchanger, a compressor, an outdoor heat exchanger, and an expansion device.

The integrated air conditioner includes a window type air conditioner installed directly by hanging a device on a window, and a duct type air conditioner connected to an intake duct and a discharge duct and installed outside the room. The separate type air conditioners include stand type air conditioners installed upright and wall-mounted air conditioners mounted on a wall.

In addition, the air conditioner may be classified into a cooling air conditioner that is used only for cooling, and a heat pump type air conditioner that may be used for both cooling and heating.

Recently, a multi-type air conditioner in which at least one outdoor unit and a plurality of indoor units are connected in series has been widely used.

Compressors of such air conditioners are typically controlled as shown in FIG. 7 during the cooling operation of the air conditioners.

That is, Figure 7 is a flow chart according to the control method of the compressor during the cooling operation of the air conditioner according to the prior art.

As shown in FIG. 7, in the compressor of the air conditioner according to the related art, when the cooling operation of the air conditioner starts (S2), the present pressure of the air conditioner cycle reaches the target pressure of the initially set air conditioner cycle. Until the current pressure of the air conditioning cycle reaches the target pressure of the initially set air conditioning cycle (S4) (S5) (S6).

However, the air conditioner according to the prior art as described above is operated under cooling conditions under low ambient temperature such as cooling the computer room that generates a lot of heat in winter because the target pressure of the air conditioning cycle is a fixed value during the cooling operation. In this case, the target evaporation temperature of the air conditioning cycle may be higher than the outdoor temperature, which is the temperature of the outdoor unit in which the outdoor unit is installed, and then the refrigerant condensed by the ambient temperature or the cold refrigerant in the accumulator while the refrigerant evaporated from the evaporator is directed to the compressor. Liquefaction phenomenon occurs. When the liquefaction of the refrigerant occurs, a liquid refrigerant flows directly into the compressor, causing a problem that the compressor is burned out.

In addition, when the air conditioner is operated under the low ambient temperature, there is a problem that the compressor is not controlled to reach the target pressure of the air conditioning cycle and the current pressure of the air conditioning cycle.

The present invention has been made to solve the above-described problems of the prior art, the target evaporation temperature of the air conditioning cycle during the cooling operation compared with the outdoor air temperature that is the outdoor temperature installed outdoor unit, the target evaporation temperature of the air conditioning cycle By setting the target pressure of the air conditioning cycle to be lower than the outside air temperature, the air conditioner that can prevent the liquefaction of the refrigerant flowing from the evaporator to the compressor and the stopping of the compressor due to the low temperature outside air temperature and its The purpose is to provide a control method.

The air conditioner according to the present invention for solving the above problems is provided with an evaporator, a compressor, an expander and a condenser to implement an air conditioning cycle, according to the comparison result of the target evaporation temperature and the outside air temperature of the air conditioning cycle And a control unit for controlling a target pressure of the air conditioning cycle.

In addition, the air conditioner according to the present invention for achieving the above object is provided with an indoor heat exchanger, a compressor, an expander, an outdoor heat exchanger, a four-way valve to implement an air conditioning cycle, and the target evaporation temperature of the air conditioning cycle And a control unit for controlling a target pressure of the air conditioning cycle according to the comparison result of the outside air temperature.

The control unit may include a pressure conversion temperature calculator configured to convert the pressure value of the air conditioning cycle into a temperature value.

The air conditioner is characterized in that it comprises an evaporator temperature sensing unit for sensing the current evaporation temperature of the air conditioning cycle.

In addition, the control method of the air conditioner according to the present invention for achieving the above object is the target pressure initial setting step of initial setting the target pressure when the operation of the air conditioner; After the target pressure initial setting, characterized in that it comprises a target pressure reset step of resetting the target pressure in accordance with the target evaporation temperature and the outside air temperature.

The initial setting value of the target pressure is characterized in that the preset preset value.

The target pressure resetting step may be performed after comparing the current evaporation pressure with the target pressure.

The target pressure resetting step may include resetting the target pressure such that the target evaporation temperature is lower than the ambient temperature during the cooling operation.

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

1 is a bird's eye view of an air conditioner according to the present invention, FIG. 2 is a view showing an air conditioner according to the present invention, FIG. 3 is a block diagram showing an air conditioner according to the present invention, and FIG. 5 is a control block diagram of the air conditioner according to the present invention. FIG. 5 is a flowchart illustrating a control method of the compressor during the cooling operation of the air conditioner according to the present invention. FIG. 6 is a control diagram of the compressor during the cooling operation of the air conditioner according to the present invention. It is a graph showing the target pressure of the evaporator compared to the outside temperature according to the method.

1 to 4, the air conditioner according to the present invention includes a plurality of indoor units I 'installed in the interior of a building, and an outdoor unit connected through the indoor unit I' and a refrigerant pipe P '( M) (S1) (S2), and the control unit 100 for controlling the indoor unit (I ') and outdoor unit (M) (S1) (S2), and cooling or heating using an air conditioning cycle Multi type air conditioner operated.

The outdoor unit (M) (S1) (S2) is driven by the request of at least one of the indoor unit (I '), the outdoor unit (M) as the cooling / heating capacity required by the indoor unit (I') increases. The number of operations of S1 and S2 and the number of operations of the compressor installed in the outdoor unit M, S1 and S2 are increased.

Each indoor unit (I ') is an indoor heat exchanger (51) for exchanging indoor air and refrigerant in a room where each indoor unit (I') is installed, and indoor air in a room where each indoor unit (I ') is installed. An indoor blower 52 for blowing air to the 51 and an indoor electromagnetic expansion valve 54 which is an indoor flow rate control unit 54 controlled according to the supercooling degree and the superheating degree during the cooling operation are provided.

The indoor heat exchanger 51 is an evaporator which allows the indoor air to be cooled while the liquid refrigerant is sucked during the cooling operation of the air conditioner and the sucked liquid refrigerant is evaporated by the indoor air in which the indoor unit I, which requests the cooling operation, is installed. The gaseous refrigerant is sucked during the heating operation of the air conditioner, and the sucked gaseous refrigerant is condensed by the indoor air in which the indoor unit I, which requested the heating operation, is installed.

The indoor heat exchanger 51 may be provided with an indoor heat exchanger temperature sensor 56 capable of sensing the temperature of the refrigerant passing through the indoor heat exchanger 51. The indoor heat exchanger temperature sensor 56 acts as the evaporator of the indoor heat exchanger 51 during the cooling operation of the air conditioner, in which the evaporation temperature of the refrigerant evaporated by the indoor heat exchanger 51 is sensed. Evaporation temperature sensing unit 56 is. The evaporation temperature sensing unit 56 may not be installed.

The indoor blower 52 is rotated by the indoor motor unit 52a connected to the indoor motor unit 52a and the indoor motor unit 52a which is controlled by the control unit 100 and generates power. It consists of the indoor fan 52b which produces a blowing force.

The plurality of outdoor units (M) (S1) and (S2) are the main outdoor unit (M) that is always operated regardless of the load of the indoor unit (I ') and the sub selectively operated according to the load of the indoor unit (I'). It consists of outdoor unit S1 (S2).

The main outdoor unit (M) and the sub outdoor unit (S1) (S2) is an outdoor heat exchanger (60) in which the outdoor air and the refrigerant are heat exchanged, and an outdoor blower (61) for blowing outdoor air to the outdoor heat exchanger (60); An accumulator 62 for extracting only the gas refrigerant, two compressors 63 and 64 for compressing the gas refrigerant extracted from the accumulator 62, a four-way valve 65 for switching the refrigerant flow, and a heating operation. It is configured to include an outdoor electronic expansion valve 66 which is an outdoor flow rate control unit 66 that is controlled according to the supercooling and superheating degree.

The outdoor heat exchanger 60 acts as a condenser to suck the gaseous refrigerant during the cooling operation of the air conditioner and condense the sucked gaseous refrigerant by the outdoor air, and the liquid refrigerant is sucked during the heating operation of the air conditioner. The sucked liquid refrigerant acts as an evaporator to allow the outdoor air to evaporate.

The outdoor heat exchanger 60 is provided with an outdoor air temperature sensing unit 90 capable of sensing an outdoor temperature, that is, an outdoor air temperature, in which the outdoor units M, S1, and S2 are installed.

The outdoor blower 61 is controlled by the control unit 100 to generate power, and is connected to the outdoor motor unit 61a by the power of the outdoor motor unit 61a by being connected to the outdoor motor unit 61a. It consists of an outdoor fan (61b) to rotate while generating a blowing force.

One of the two compressors 63 and 64 of the main outdoor unit M may be an inverter compressor, and the other may be provided as a constant speed compressor.

The two compressors 63 and 64 of the sub outdoor units S1 and S2 may be provided as constant speed compressors.

The suction side and the discharge side of the compressors 63 and 64 are provided with a low pressure sensing unit 92 and a high pressure sensing unit 93 for sensing the suction / discharge pressures of the compressors 63 and 64, respectively.

The accumulator 62 is a common accumulator 62 so as to be connected to two compressors 63 and 64 together.

In addition, the main outdoor unit (M) and the sub outdoor unit (S1) (S2) and the oil separator (67) and capillary tube (68) installed at the suction side of the compressor (63) (64), and the indoor heat exchanger during cooling operation Subcooling device 70 for cooling the refrigerant moved to (51), and a liquid injection device 72 for lowering the temperature of the compressor (63) (64).

On the other hand, the refrigerant pipe (P ') is provided with a dryer (80) for removing the moisture in the refrigerant pipe (P ").

The control unit 100 includes an indoor control unit 102 that controls the indoor unit I ′ and an outdoor control unit 104 that controls the outdoor units M, S1, and S2.

In particular, the outdoor control unit 104 includes a pressure control unit 105 that controls the high and low pressures of the compressors 63 and 64, and a pressure sensed by the low pressure pressure sensing unit 92 and the high pressure pressure sensing unit 93. To calculate a current evaporation temperature of the air conditioning cycle by converting the temperature value into a temperature value, and calculate a target evaporation temperature of the air conditioning cycle by converting the target pressure set in the air conditioning cycle into a temperature value. 106 is included.

Looking at the operation of the air conditioner according to the present invention configured as described above with reference to Figures 1 to 4 as follows. For reference, the flow of the refrigerant during the cooling operation of the air conditioner according to the present invention is the same as the arrow shown in FIG. 3.

When any one of the plurality of indoor units I requests a cooling operation, the indoor unit I and the outdoor units M, S1 and S2 which have requested the cooling operation are driven.

The refrigerant is then compressed in the compressors 63 and 64, and the refrigerant compressed in the compressors 63 and 64 is a four-way valve 65, an outdoor heat exchanger 60, and an outdoor electromagnetic expansion valve 66. After passing through the indoor electromagnetic expansion valve (54) and the indoor heat exchanger (51) in turn, it is circulated to the compressor (63) (64) through the four-way valve (65). Of course, the refrigerant is circulated only to the indoor unit (I) and the outdoor unit (M) (S1) (S2) requesting the cooling operation.

As described above, when the refrigerant circulates along the refrigerant pipe P ', the refrigerant deprives the indoor air heat of the room in which the indoor unit I is installed from the indoor heat exchanger 51, whereby the indoor unit I is installed. The room is air conditioned.

At this time, the compressors 63 and 64 are controlled in accordance with the set target pressure of the air conditioning cycle by a "compressor control algorithm during cooling operation" to be described later.

The indoor electromagnetic expansion valve 54 is controlled according to the degree of supercooling and superheating.

The outdoor electromagnetic expansion valve 66 is refrigerant is passed through the outdoor electromagnetic expansion valve 66, it is preferable that the full open (Full Open) so as not to expand.

Hereinafter, the compressor control algorithm during the cooling operation mentioned above will be described in detail with reference to FIGS. 3 to 6. For reference, the target pressure of the air conditioning cycle may be a target high pressure of the air conditioning cycle or a target low pressure of the air conditioning cycle. Hereinafter, the target pressure of the air conditioning cycle will be limited to the target low pressure of the air conditioning cycle.

When any one of the plurality of indoor units I requests a cooling operation to start the cooling operation (S10), the target (low) pressure of the air conditioning cycle is initially set (S12). Hereinafter, the target (low) pressure of the air conditioning cycle set at the initial stage of operation of the air conditioner is referred to as the initial target target (low) pressure of the air conditioning cycle.

The initially set target (low) pressure of the air conditioning cycle may be a fixed value that is preset in the control unit 100 during the manufacture of the air conditioner according to the present invention. As an example, the initial target target (low) pressure of the air conditioning cycle is set to about 408 KPa, which is approximately 0.55 ° C in terms of temperature value. In other words, the target evaporation temperature of the air conditioning cycle is approximately 0.55 ° C.

After the target (low) pressure of the air conditioning cycle is initially set as described above, current pressure information and ambient temperature information of the air conditioning cycle are obtained.

The current pressure information of the air conditioning cycle may be obtained through the low pressure pressure sensing unit 92 and the high pressure pressure sensing unit 93. In this embodiment, the target low pressure of the air conditioning cycle is controlled. The current pressure of the air conditioning cycle is the current low pressure of the air conditioning cycle obtained through the low pressure pressure sensing unit 92.

When acquiring the present (low) pressure information of the air conditioning cycle as described above, comparing the obtained present (low) pressure of the air conditioning cycle with the initial target target (low) pressure of the air conditioning cycle, It is determined whether the present (low) pressure of the cycle has reached the initial set target (low) pressure of the air conditioning cycle (S14).

At this time, if the present (low) pressure of the air conditioning cycle does not reach the initial set target (low) pressure of the air conditioning cycle, the driving of the compressors 63 and 64 is controlled. That is, the compressors 63 and 64 are variably controlled in a direction in which the compression ratio increases so that the present (low) pressure of the air conditioning cycle can reach the initial target target (low) pressure of the air conditioning cycle (S16). .

At this time, the compressor (63) 64 is increased by the preset value of the compression ratio of the compressor (63) 64, or the initial setting of the current (low) pressure of the air conditioning cycle and the air conditioning cycle It can be proportionally controlled by the difference of the target (low) pressure.

On the other hand, if the present (low) pressure of the air conditioning cycle reaches the initial target target (low) pressure of the air conditioning cycle (S14), the target evaporation temperature of the air conditioning cycle is the outdoor unit (M) (S1) (S2). ) Is compared with the installed outside air temperature (S18).

In this case, the target evaporation temperature of the air conditioning cycle may be obtained by converting the initial setting target (low) pressure of the air conditioning cycle into a temperature value in the pressure conversion temperature calculator 106 of the outdoor controller 104.

The target evaporation temperature of the air conditioning cycle is preferably compared with the target evaporation temperature threshold value of the air conditioning cycle, which is a temperature obtained by subtracting a predetermined temperature A set by the experiment from the outside air temperature rather than the outside air temperature.

That is, when the target evaporation temperature of the air conditioning cycle is lower than the target evaporation temperature threshold of the air conditioning cycle as a result of the comparison between the target evaporation temperature of the air conditioning cycle and the target evaporation temperature threshold of the air conditioning cycle, Since the cooling environment is a normal cooling environment rather than a cooling low temperature environment, the target (low) pressure of the air conditioning cycle is continuously maintained at the initial target target (low) pressure of the air conditioning cycle, and the compressor (63) (64) Is controlled at constant speed (S20).

On the other hand, a comparison result between the target evaporation temperature of the air conditioning cycle and the target evaporation temperature threshold of the air conditioning cycle (S18), if the target evaporation temperature of the air conditioning cycle is lower than the target evaporation temperature threshold of the air conditioning cycle Problems due to the cooling low temperature environment as pointed out in the above-described prior art can be derived. Thus, the target (low) pressure of the air conditioning cycle is changed from point 'A' of FIG. 6 to point 'B' of FIG. 6 such that the target evaporation temperature of the air conditioning cycle is lower than the target evaporation temperature threshold of the air conditioning cycle. It is reset (S22).

After the target (low) pressure of the air conditioning cycle is reset as described above, the compressor may allow the present (low) pressure of the air conditioning cycle to reach the reset target (low) pressure of the air conditioning cycle. (63) 64 are controlled.

On the other hand, if the load of the compressor 63 or 64 changes, such as the operating capacity of the indoor unit I 'or the desired temperature of the indoor unit I', the present (low) pressure of the air conditioning cycle is changed. The present (low) pressure of the air conditioning cycle is variably controlled until the target (low) pressure of the air conditioning cycle is reached.

Next, look at the operation of the heating operation of the air conditioner according to the present invention configured as described above are as follows. For reference, the flow of the refrigerant during the heating operation of the air conditioner according to the present invention is opposite to the arrow shown in FIG. 3.

When any one of the plurality of indoor units I requests a heating operation, the refrigerant compressed by the compressors 63 and 64 is a four-way valve 65, an indoor heat exchanger 51, and an indoor electromagnetic expansion valve ( 54, the outdoor electromagnetic expansion valve 66, and the outdoor heat exchanger 60, in turn, are circulated to the compressors 63 and 64 through the four-way valve 65.

Then, the refrigerant discharges heat from the indoor heat exchanger 51 to the indoor air of the room where the indoor unit I is installed, thereby heating the room where the indoor unit I is installed.

At this time, the compressor (63) 64 can be controlled similarly to the above-described "control algorithm of the compressor during cooling operation".

The air conditioner and the control method according to the present invention configured and operated as described above, the target evaporation temperature of the air conditioning cycle during the cooling operation compared with the outdoor air temperature that is the outdoor temperature of the outdoor unit is installed, the target of the air conditioning cycle By setting the target pressure of the air conditioning cycle so that the evaporation temperature is lower than the outside air temperature, the liquefaction of the refrigerant flowing from the evaporator to the compressor and the stopping of the compressor due to the low temperature outside air temperature can be prevented. And there is an advantage that the reliability can be improved.

In addition, the air conditioner and the control method according to the present invention compares the target evaporation temperature and the outside air temperature of the air conditioning cycle after the current pressure of the air conditioning cycle reaches the initial target target pressure of the air conditioning cycle By resetting the target pressure of the air conditioning cycle, there is an advantage that the target evaporation temperature of the air conditioning cycle can be estimated without separately sensing the target evaporation temperature of the air conditioning cycle.

Claims (8)

An evaporator, a compressor, an expander, and a condenser to provide an air conditioning cycle, And a control unit for controlling the target pressure of the air conditioning cycle such that the target evaporation temperature of the air conditioning cycle is lower than the ambient temperature by comparing the target evaporation temperature of the air conditioning cycle with the outside air temperature during the cooling operation. Featuring air conditioner. An indoor heat exchanger, a compressor, an expander, an outdoor heat exchanger, and a four-way valve are provided to implement an air conditioning cycle. And a control unit for controlling the target pressure of the air conditioning cycle such that the target evaporation temperature of the air conditioning cycle is lower than the ambient temperature by comparing the target evaporation temperature of the air conditioning cycle with the outside air temperature during the cooling operation. Featuring air conditioner. The method according to claim 1 or 2, And the pressure conversion temperature calculating unit converting the pressure value of the air conditioning cycle into a temperature value. The method according to claim 1 or 2, The air conditioner includes an evaporator temperature sensing unit for sensing the current evaporation temperature of the air conditioning cycle. A target pressure initial setting step of initially setting a target pressure when the air conditioner starts to operate; After initial setting of the target pressure in the cooling operation, comparing the target evaporation temperature of the air conditioning cycle with the outside air temperature, and resetting the target pressure of the air conditioning cycle so that the target evaporation temperature of the air conditioning cycle is lower than the ambient temperature. The control method of the air conditioner, characterized in that comprises a step of resetting the target pressure. The method according to claim 5, The initial setting value of the target pressure is a control method of the air conditioner, characterized in that the preset value. The method according to claim 5, The target pressure resetting step is performed after comparing the current evaporation pressure and the target pressure control method of the air conditioner. delete

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