KR20070071091A - Air-conditioning apparatus and thereof method - Google Patents

Abstract

An air conditioner and a control method thereof are provided to restrain the capacity of a compressor according to atmospheric temperature and temperature of an indoor heat exchanger, and control the rpm of an indoor fan, thereby carrying out cooling mode at a low temperature smoothly. An air conditioner includes a variable displacement type compressor, an indoor heat exchanger serving as an evaporator in a cooling mode, and an atmospheric temperature sensor. A control part restrains a lowest capacity of the compressor when the sensed atmospheric temperature is in a preset range, and variably controls the capacity of the compressor according to a load over the restrained lowest capacity. The lowest capacity of the compressor satisfies a range in which freezing is not generated.

Description

Air Conditioner and Control Method {Air-Conditioning Apparatus And Thereof Method}

1 is a graph illustrating the operation of a compressor and an indoor fan for preventing freezing of a conventional indoor heat exchanger.

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

3 is a graph showing the operation of the compressor and the indoor fan in consideration of the outdoor temperature and the indoor heat exchanger temperature according to the present invention.

4 is a view showing an area set according to the outdoor temperature in the present invention.

5 is a table showing the operation of the compressor, the indoor fan and the outdoor fan corresponding to the outdoor temperature range according to the present invention.

6 is a flowchart illustrating a control method of an air conditioner according to the present invention.

* Description of symbols on the main parts of the drawings *

10: outdoor temperature sensor 20: indoor heat exchanger temperature sensor

40: control unit 50: compressor driving unit

60: indoor fan drive 70: outdoor fan drive

The present invention is to perform the cooling operation in a low outdoor temperature environment, and more specifically, in consideration of the outdoor temperature and the temperature of the indoor heat exchanger, limiting the capacity of the compressor and controlling the rotational speed of the indoor fan, low temperature cooling operation is desired. An air conditioner and a control method for performing the same.

In general, the air conditioner controls the cooling capacity according to the load by using a compressor that can vary the capacity.

According to the existing control method for operating the air conditioner, it is possible to exhibit good cooling ability when the outdoor operation is performed at a cooling temperature above a predetermined temperature (about 18 ℃).

On the other hand, when the cooling operation is continuously performed in an environment where the outdoor temperature is lower than a predetermined temperature, liquid refrigerant may flow into the compressor, causing damage to the compressor, and freezing of the indoor heat exchanger may occur. . This will be described with reference to FIG. 1.

1 is a graph illustrating an operation of controlling a compressor and an indoor fan according to a temperature of an indoor heat exchanger when cooling an air conditioner employing an inverter compressor.

As shown, when the temperature of the indoor heat exchanger is higher than the predetermined temperature (B), the compressor operates normally. At this time, the compressor is set to a driving capacity (P1) corresponding to the load, and the indoor fan is set by the user at a speed (UL). Drive). On the other hand, when the temperature of the indoor heat exchanger falls below a predetermined temperature (B), the compressor is operated at the lowest frequency (Pmin) and the indoor fan maintains the user's set speed. Thereafter, when the temperature of the indoor heat exchanger drops to a predetermined temperature (C), the compressor is turned off (Poff) to prevent freezing of the indoor heat exchanger and the indoor fan is set to the minimum speed (Lmin). After that, when the temperature of the indoor heat exchanger rises to the return temperature (A), the compressor is turned on and set to an operation capacity (P1) corresponding to the load, and the indoor fan is operated by setting the speed (UL) set by the user.

However, when the outdoor temperature is low, the compressor is turned off and cooling operation is not performed, or an intermittent operation occurs in which the compressor is frequently turned on and off. If the compressor is frequently turned on and off, not only the actual cooling operation is performed but also the compressor oil does not circulate smoothly, which may shorten the compressor life.

As described above, in the existing air conditioner, the operation frequency of the compressor may be limited to the minimum frequency during low temperature cooling operation, which may help to prevent freezing of the indoor heat exchanger. There was a problem that the reliability of the refrigeration cycle of the conditioner is lowered.

The present invention has been made to solve the above problems, and an object of the present invention is to perform a substantial cooling operation in an environment with low outdoor temperature to ensure the reliability of the refrigeration cycle of the device and its To provide a control method.

Another object of the present invention is to provide an air conditioner and a control method for preventing damage to a compressor by forming a normal compression ratio by controlling the speed of an indoor fan during low temperature cooling operation.

The present invention for achieving the above object, in the air conditioner, variable capacity compressor that can vary in capacity; An indoor heat exchanger acting as an evaporator during cooling operation; An outdoor temperature sensor for sensing an outdoor temperature; And a controller configured to limit the lower limit capability of the compressor when the detected outdoor temperature is in a preset setting region in a cooling operation, and to variably control the capability of the compressor according to the load beyond the limited lower limit capability. It features.

The lower limit capacity of the compressor limited by the controller satisfies a range in which freezing has not occurred in the indoor heat exchanger.

In the case of using an inverter compressor that controls the capability by varying the operating frequency according to the load, the lower limit capability of the limited compressor is formed when operating using a frequency higher than the lowest operating frequency of the inverter compressor.

An indoor fan is further provided to blow air for heat exchange of the indoor heat exchanger. In order to form a normal compression ratio during the cooling operation, the controller variably controls the speed of the indoor fan according to the outdoor temperature.

The normal compression ratio is 2-8.

When the set area includes at least two areas, the controller sets the speed of the indoor fan higher in the area where the outdoor temperature is relatively low among the two areas.

The apparatus further includes an indoor heat exchanger temperature sensor for sensing a temperature of the indoor heat exchanger, and when the detected temperature of the indoor heat exchanger is a first set temperature, the control unit operates by fixing the capacity of the compressor to the limited lower limit capability. do.

If the sensed indoor heat exchanger temperature is a second set temperature lower than the first set temperature, the controller turns off the compressor.

In order to achieve the above object, the present invention provides a control method of an air conditioner for cooling operation by varying the capacity of a compressor, the method comprising: sensing an outdoor temperature; Determining whether the detected outdoor temperature is in a preset area; Limit the lower limit capability of the compressor when the sensed outdoor temperature is in the set region; And cooling the drive by varying the capacity of the compressor according to the load beyond the limited capacity of the limited compressor.

The capacity limitation of the compressor sets the capacity of the compressor to satisfy a range in which freezing does not occur in an indoor heat exchanger.

The temperature of the indoor heat exchanger is sensed during the cooling operation, and if the detected temperature of the indoor heat exchanger is the first set temperature, the capacity of the compressor is fixed to the lower limit capacity of the limited compressor.

If the sensed temperature of the indoor heat exchanger is a second set temperature lower than the first set temperature, the compressor is turned off.

The lower the outdoor temperature detected by the compressor to form a normal compression ratio during the cooling operation, the higher the speed of the indoor fan is set.

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

As shown in FIG. 2, the air conditioner according to the present invention includes a controller 40 for controlling the overall operation for the cooling operation.

The outdoor temperature sensor 10 is located at a location of an outdoor unit (not shown) to sense the outdoor temperature, and provides the detected outdoor temperature to the controller 40.

The indoor heat exchanger temperature sensor 20 is provided in an indoor unit (not shown) and positioned in an indoor heat exchanger that acts as an evaporator during cooling operation to detect a temperature of the indoor heat exchanger, and controls the detected indoor heat exchanger temperature. To provide.

The controller 40 receives a user's setting command such as an operation mode and a desired temperature through the input unit 30, and controls the compressor 55, the indoor fan 65, and the outdoor fan 75 in response to the user's setting command. The compressor driver 50, the indoor fan driver 60, and the outdoor fan driver 70 for driving are respectively controlled.

Reference numeral 80 is a storage unit for storing information necessary for the operation of the air conditioner and the capacity of the compressor, the speed of the indoor fan and the speed of the outdoor fan.

When the cooling operation is performed in a low temperature environment where the outdoor temperature is low, the control unit 40 limits the lower limit capability of the compressor. The limited lower limit here is set in the range in which no freezing of the indoor heat exchanger occurs. The limited capacity of the limited compressor is not fixed at all times, and may vary depending on the capacity of the compressor applied to the air conditioner and the type of the compressor by the compression method, and may vary depending on the outdoor temperature. The information about the limited lower limit capability is stored in the storage unit 80, and the stored information is read and applied during operation control. For example, when applying an inverter compressor, it is common for the limited lower limit capability to apply a frequency higher than the compressor's minimum operating frequency (Poff).

As shown in FIG. 3, the control unit 40 performs a variable capacity operation according to the load beyond the lower limit of the limit of the compressor so that the capacity of the compressor is not excessively lowered when the outdoor temperature drops. In addition, the control unit 40 controls the speed of the indoor fan to form a normal compression ratio in the compressor during low temperature cooling operation. The normal compression ratio here is 2-8. As the outdoor temperature is lowered, the heat exchange efficiency of the indoor heat exchanger must be increased to form a normal compression ratio. Therefore, the controller 40 sets the indoor fan speed higher in the third region Z3 than in the second region Z2. do.

According to the present invention, the outdoor temperature is divided into a plurality of regions, as shown in FIG. 4, based on the plurality of reference temperature lines (To1-To3, To2-To4; To3> To1> To4> To2). It is divided into Z1), the second region Z2, and the third region Z3. Here, the first region Z1 corresponds to a case of performing a normal cooling operation, and the second region Z2 and a third region Z3 correspond to a case of performing a low temperature cooling operation and a freezing prevention operation of an indoor heat exchanger. Such information is stored in advance in the storage unit 80.

Control contents of the compressor 55, the indoor fan 65, and the outdoor fan 75 are different in correspondence with the first to third regions Z1 to Z3.

Referring to FIG. 5, when the outdoor temperature is in the first region Z1, the compressor capacity varies depending on the load and operates normally. The speed of the indoor fan is set by the speed set by the user. Here, the speed of the indoor fan corresponds to the air volume (strong wind, middle wind, weak wind) set by the user through the input unit 30. In addition, the embodiment adaptively controls the speed of the outdoor fan according to the speed calculated using a function determined by the outdoor temperature and the capacity (or operating frequency) of the compressor.

Next, when the outdoor temperature is in the second zone Z2, the capacity variable operation is performed in accordance with the load beyond the limited capacity of the limited compressor, and the speed of the indoor fan is set to the first set speed. Here, the first set speed is set to the middle speed level L2 among the highest speed level L3, the middle speed level L2, and the lowest speed level L1, and information about this is stored in advance in the storage unit 80. . The speed of the outdoor fan is controlled as in the first region Z1.

Next, when the outdoor temperature is in the third zone Z3, the capacity varies depending on the load beyond the limited capacity of the limited compressor, and the speed of the indoor fan is set to a second set speed larger than the first set speed. do. Here, the second set speed is set to the maximum speed level L3. The speed of the outdoor fan is controlled as in the first region Z1.

When the temperature of the indoor heat exchanger further drops during the low temperature cooling operation, the controller 40 turns off the compressor to prevent freezing of the indoor heat exchanger.

Hereinafter, the operation of the air conditioner according to the present invention will be described in detail with reference to FIGS. 3 and 5.

When power is supplied to the air conditioner, initialization operation is performed. When the initialization operation is finished, the controller 40 determines whether the operation mode set according to the user command input through the input unit 30 is the cooling operation (101).

When the cooling operation is set, the controller 40 detects the outdoor temperature through the outdoor temperature sensor 10 (103), and determines whether the detected outdoor temperature is in the preset first region Z1 (105). As a result of the determination, in the first region Z1, normal cooling operation is performed while varying the capacity of the compressor (P1, P2) according to the load (107). At this time, the speed of the indoor fan is set to the user's set speed (UL) (109). The user set speed UL is set to any one of the highest speed level L3, the intermediate speed level L2, and the lowest speed level L1. In the embodiment, the user set speed is set to the lowest speed level L1. to be.

If it is determined in operation 105 that the detected outdoor temperature is not in the preset first region Z1, it is determined whether the outdoor temperature is in the second region Z2 (111). It operates while varying the capacity of the compressor (P2, P3) according to the load beyond the lower limit capability (113). At this time, the speed of the indoor fan is set to the middle speed level L2 one step (1LP) higher than the user's set speed UL (115).

As a result of the determination in operation 111, if the detected outdoor temperature is not in the preset second region Z2, it is determined whether the outdoor temperature is in the third region Z3 (117). It operates while varying the capacity of the compressor (P4, P5) according to the load beyond the lower limit capability (119). At this time, the speed of the indoor fan is set to the highest speed level (L3) two steps (2LP) higher than the user's set speed (UL) (121).

As a result of the determination of operation 117, if the detected outdoor temperature is not in the preset third region Z3, the operation returns to operation 103.

When the operations 109, 115, and 121 are performed, the speed of the outdoor fan is adaptively controlled (122).

During the cooling operation, the controller 40 detects the indoor heat exchanger temperature Te through the indoor heat exchanger temperature sensor 20 (133).

The control unit 40 determines whether the detected temperature Te of the indoor heat exchanger is higher than the first set temperature B (135), and as a result of the determination, the temperature Te of the indoor heat exchanger is the first set temperature B. If higher than the control unit 40 is a normal cooling operation while varying the capacity of the compressor (P1, P2) according to the load (137).

When the detected temperature Te of the indoor heat exchanger is not higher than the first preset temperature B, the controller 40 detects that the detected temperature Te of the indoor heat exchanger is the first preset temperature B. In step 141, it is determined whether the temperature is greater than or equal to the second set temperature C lower than the first set temperature B. As a result of the determination, when the temperature Te of the indoor heat exchanger is less than or equal to the first set temperature B and greater than the second set temperature C, the compressor is operated by fixing the limited lower limit capability Px (143). Here, the lower limit capacity Px of the compressor occurs when operating at an operating frequency higher than the minimum frequency Poff of the compressor.

As a result of the determination of operation 141, when the detected temperature Te of the indoor heat exchanger is less than or equal to the first set temperature B and not greater than the second set temperature C, the controller 40 determines the detected temperature of the indoor heat exchanger ( It is determined whether Te) is less than or equal to the second set temperature C (145). As a result, when the temperature Te of the indoor heat exchanger is less than or equal to the second set temperature C, the compressor is turned off to prevent freezing of the indoor heat exchanger (147). When the compressor is turned off, the controller 40 determines whether the temperature Te of the indoor heat exchanger is higher than or equal to the return temperature A higher than the first set temperature B (149). As a result of the determination, if the temperature Te of the indoor heat exchanger is not higher than or equal to the return temperature A, the compressor is kept off.

When the operation 137 and the operation 143 are performed or the determination of the operation 147 indicates that the temperature Te of the indoor heat exchanger is equal to or higher than the return temperature A, the controller 40 determines whether the operation is stopped (150). If it is determined that the operation is not stopped, the operation returns to operation 103.

If it is determined that the operation 139 stops, the controller 40 turns off the compressor, the indoor fan, and the outdoor fan (151).

As described above, the present invention can effectively prevent the freezing of the indoor heat exchanger while efficiently performing the actual cooling operation even in an environment having a low outdoor temperature, thereby ensuring the reliability of the refrigeration cycle of the device. In addition, the present invention can prevent damage to the compressor due to the inflow of the liquid refrigerant through the speed control of the indoor fan when the cooling operation in the environment with low outdoor temperature.

Claims (13)

In air conditioners, A capacity variable compressor that can vary in capacity; An indoor heat exchanger acting as an evaporator during cooling operation; An outdoor temperature sensor for sensing an outdoor temperature; And And a controller configured to limit the lower limit capability of the compressor when the detected outdoor temperature is in a preset setting region in a cooling operation, and to variably control the capability of the compressor according to the load beyond the limited lower limit capability. Air conditioner. The air conditioner according to claim 1, wherein the lower limit capacity of the compressor limited by the control unit satisfies a range in which freezing does not occur in the indoor heat exchanger. The method of claim 2, wherein when using an inverter compressor that controls the capability by varying the operating frequency according to the load, the lower limit capacity of the limited compressor is formed when operating using a frequency higher than the lowest operating frequency of the inverter compressor. Air conditioner, characterized in that. The air conditioner of claim 1, further comprising: an indoor fan blown for heat exchange of the indoor heat exchanger, and in order to form a normal compression ratio during the cooling operation, the controller variably controls the speed of the indoor fan according to the outdoor temperature. Air conditioner characterized in that. The air conditioner according to claim 4, wherein the normal compression ratio is 2-8. The air conditioner according to claim 4, wherein, when the set area includes at least two areas, the controller sets a high speed of the indoor fan in a region where the outdoor temperature is relatively low among the two areas. group. The apparatus of claim 1, further comprising an indoor heat exchanger temperature sensor for sensing a temperature of the indoor heat exchanger, wherein the controller is further configured to limit the capacity of the compressor if the detected temperature of the indoor heat exchanger is a first set temperature. Air conditioner characterized in that the fixed operation with the lower limit capacity. The air conditioner according to claim 7, wherein the control unit turns off the compressor when the sensed indoor heat exchanger temperature is a second set temperature lower than the first set temperature. In the control method of the air conditioner for cooling operation by varying the capacity of the compressor, Sense outdoor temperature; Determining whether the detected outdoor temperature is in a preset area; Limit the lower limit capability of the compressor when the sensed outdoor temperature is in the set region; And And controlling the air conditioner by varying the capacity of the compressor according to the load above the limited capacity of the limited compressor. 10. The method of claim 9, wherein the capacity limit of the compressor sets the capacity of the compressor to satisfy a range in which freezing does not occur in an indoor heat exchanger. The method of claim 9, wherein the temperature of the indoor heat exchanger is sensed during the cooling operation, and if the detected temperature of the indoor heat exchanger is the first set temperature, the capacity of the compressor is fixed to the lower limit capacity of the limited compressor. Control method of an air conditioner, characterized in that. 12. The method of claim 11, wherein the compressor is turned off if the sensed temperature of the indoor heat exchanger is a second set temperature lower than the first set temperature. The method of claim 9, wherein the indoor fan speed is set higher as the outdoor temperature detected by the compressor to form a normal compression ratio during the cooling operation is lower.

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