KR20100058106A - Multi-type air conditioner and control method thereof - Google Patents

Abstract

PURPOSE: A multi-type air conditioner and a control method thereof are provided to properly maintain the amount of refrigerant distributed to each outdoor unit module by diagnosing whether the filters installed at a common pipe are blocked. CONSTITUTION: A multi-type air conditioner comprises outdoor unit modules(100a,100b), pipes(301,302), filters(150a,150b), and a diagnosing device. The pipes connect the outdoor unit modules to an indoor unit. The filters are installed in the pipes to eliminate foreign material. The diagnosing device diagnoses the blocking of the filters. The diagnosing device comprises a sensor, and a controller. The sensor detects the high-pressure refrigerant pressure and the liquid line temperature of the outdoor unit module. The controller calculates a high pressure saturation temperature corresponding to the high-pressure refrigerant pressure and decides the blocking of the filter by comparing the high pressure saturation temperature with the liquid line temperature.

Description

Multi-type air conditioner and control method

The present invention relates to a multi-type air conditioner and a control method thereof, and more particularly, to a modular multi-type air conditioner and a control method for connecting a plurality of modular outdoor units to the indoor unit through a pipe.

In general, an air conditioner is a device used for cooling or heating a room, and circulates a refrigerant between an indoor unit and an outdoor unit to absorb ambient heat when the liquid refrigerant evaporates and releases heat when liquefied. Cooling or heating operation is performed according to the characteristics.

In general, air conditioners connect one indoor unit to one outdoor unit, but recently, a plurality of indoor units are connected to an outdoor unit, and each space in a building composed of a large number of independent spaces such as a school, a company, and a high-rise apartment There is a growing demand for a multi system air conditioner to perform cooling or heating operations.

As the multi-type air conditioner has a large number of indoor units connected to the outdoor unit, when the total air-conditioning capacity required for the entire indoor unit is composed of one outdoor unit, a large outdoor unit having a plurality of compressors is required, and its size is very large. It is quite difficult to manufacture, transport and install. In order to solve these problems, a modular multi-type air conditioner is constructed in which the outdoor unit having a relatively small capacity is configured in a module form, and a combination of several outdoor unit modules according to the total air-conditioning capacity required for the entire indoor unit can achieve the desired cooling and heating capability. Spread.

The modular multi-type air conditioner installs a refrigerant pipe (hereinafter, referred to as a common pipe) commonly connected to connect the outdoor unit modules to a plurality of indoor units, and this common pipe may be introduced when the multi-type air conditioner is installed. Install a filter drier to remove sludge or moisture. The filter drier can not only extend the life of the system when the multi-type air conditioner is installed, but also increase the safety of the installation.

However, when a large amount of foreign matter is introduced into the filter drier, the amount of refrigerant distributed to each outdoor unit module is not appropriate, resulting in a lack of refrigerant in some outdoor unit modules, and an excessive amount of refrigerant in some outdoor unit modules. Since the compressor discharge temperature is raised to increase the compression performance is a problem in the reliability of the compressor.

In addition, when the filter drier is clogged, there is a large amount of foreign matter in the entire pipe, which may cause overall contamination of the system, and cooling or heating cycles may not be stably formed.

The present invention provides a multi-type air conditioner and a control method for diagnosing whether a filter provided in a common pipe connecting each outdoor unit module to an indoor unit in a multi-type air conditioner having a plurality of outdoor unit modules is blocked.

To this end, the multi-type air conditioner according to an embodiment of the present invention includes a plurality of outdoor unit modules; A pipe connecting the plurality of outdoor unit modules to an indoor unit; A filter installed in the pipe to remove foreign substances; It includes a diagnostic device for diagnosing whether the filter is clogged.

The plurality of filters may be installed in the pipe to correspond to each of the plurality of outdoor unit modules.

The diagnostic apparatus may include: a detector configured to detect a high pressure refrigerant pressure and a liquid pipe temperature of each outdoor unit module; And a control unit for converting the high pressure saturation temperature corresponding to the high pressure side refrigerant pressure, and comparing the high pressure saturation temperature with the liquid pipe temperature to determine the clogging of the filter.

The sensing unit includes a pressure sensor installed on the high pressure side of each outdoor unit module to sense a refrigerant pressure on the high pressure side, and a temperature sensor installed on the liquid pipe of each outdoor unit module to sense the refrigerant temperature of the liquid pipe.

The liquid pipe is characterized in that the pipe is the filter is installed.

The liquid pipe temperature is characterized by having a value corresponding to the high pressure saturation temperature according to the high pressure side refrigerant pressure.

The control unit calculates a temperature difference for each outdoor unit module by comparing the high pressure saturation temperature and the liquid pipe temperature when the high pressure saturation temperature is stable, and determines that the filter is clogged when the temperature difference is greater than the reference temperature difference. .

The reference temperature difference is characterized in that less than about 10 degrees.

The control unit generates an error mode when it is determined that the filter is blocked.

In addition, the multi-type air conditioner according to the embodiment of the present invention further includes a display unit for displaying the error mode.

In addition, the multi-type air conditioner according to an embodiment of the present invention includes a plurality of outdoor unit modules; A filter for removing foreign substances introduced into the plurality of outdoor unit modules; A detector for sensing a high pressure refrigerant pressure and a liquid pipe temperature of each outdoor unit module; And a control unit for converting the high pressure saturation temperature corresponding to the high pressure side refrigerant pressure, and comparing the high pressure saturation temperature with the liquid pipe temperature to determine the clogging of the filter.

In addition, the multi-type air conditioner according to an embodiment of the present invention further includes a pipe connecting the plurality of outdoor unit modules to the indoor unit, and a plurality of filters are installed in the pipe corresponding to each of the plurality of outdoor unit modules, When the plurality of outdoor unit modules are installed in the pipe, it is characterized in that to remove foreign substances introduced.

And, the control method of the multi-type air conditioner according to an embodiment of the present invention is connected to the indoor unit via a pipe to the plurality of outdoor unit; Removing foreign substances introduced when the plurality of outdoor unit modules are installed in the pipe through a filter installed in the pipe; It is characterized by diagnosing whether the filter is blocked.

Diagnosing whether the filter is clogged by converting the high pressure saturation temperature by detecting the high pressure side refrigerant pressure of each outdoor unit module; Sensing the liquid pipe temperature of each outdoor unit module if the high pressure saturation temperature is stable; And comparing the high pressure saturation temperature with the liquid pipe temperature of each outdoor unit module to determine clogging of the filter.

The clogging of the filter may be performed by comparing the high pressure saturation temperature with the liquid pipe temperature of each outdoor unit module to calculate a temperature difference between the outdoor unit modules, and determining that the filter is blocked if the temperature difference is equal to or greater than a reference temperature difference. It is done.

In addition, the control method of the multi-type air conditioner according to the embodiment of the present invention further includes generating and displaying an error mode when it is determined that the filter is blocked.

According to this embodiment of the present invention, in the multi-type air conditioner having a plurality of outdoor unit modules, the amount of refrigerant distributed to each outdoor unit module is diagnosed by diagnosing whether a filter provided in a common pipe connecting each outdoor unit module to the indoor unit is blocked. This ensures proper maintenance of the system, and enables the installer to easily check the system status while protecting the system by generating an error mode when a filter blockage is detected.

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

1 is a configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

In FIG. 1, the multi-type air conditioner according to an embodiment of the present invention includes a modular outdoor unit 100 including a plurality of outdoor unit modules 100a and 100b and a plurality of indoor units 200a to 200n connected to the modular outdoor unit 100. ), And common pipes 301 and 302 for connecting the plurality of outdoor unit modules 100a and 100b and the plurality of indoor units 200a to 200n in common.

Here, the number of outdoor unit modules (100a, 100b) provided in the modular outdoor unit 100 is not limited, and according to the total air-conditioning capacity required by the entire indoor unit (200a ~ 200n) to achieve the desired cooling and heating ability The number can be adjusted.

2 is a detailed configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

In FIG. 2, the plurality of outdoor unit modules 100a and 100b have a structurally identical configuration, and the liquid pipes among the common pipes 301 and 302 connecting the plurality of outdoor unit modules 100a and 100b and the plurality of indoor units 200a to 200n. 302 is provided with filter dryers 150a and 150b (hereinafter referred to as filters) for removing sludge or drying water which may be introduced when the multi-type air conditioner is installed. These filters 150a and 150b are provided outside the outdoor unit modules 100a and 100b corresponding to the outdoor unit modules 100a and 100b.

Each outdoor unit module (100a, 100b) is a compressor (101a, 101b) for compressing the refrigerant, four-way valve (102a, 102b) for switching the flow of the refrigerant during the heating and cooling operation, the outdoor heat exchanger for heat exchange between the outside and the refrigerant ( 103a, 103b), outdoor fans 104a and 104b for promoting heat exchange between the outside air and the refrigerant, outdoor electromagnetic expansion valves 105a and 105b for expanding the refrigerant while controlling the refrigerant flow rate during heating, and the refrigerant in a completely gaseous state. Accumulators 106a and 106b for converting the gas into gas.

On the discharge side of the compressors 101a and 101b, oil separators 107a and 107b, check valves 108a and 108b for preventing backflow of refrigerant and pressure sensors 109a and 109b for detecting pressure of the high pressure refrigerant are installed. The liquid pipe 302 connecting between the outdoor electromagnetic expansion valves 105a and 105b and the outdoor heat exchanger 103a and 103b includes a temperature sensor for sensing the temperature of the refrigerant passing through the liquid pipe 302, that is, the liquid pipe temperature. 110a and 110b are installed. The liquid pipe temperature detected by the temperature sensors 110a and 110b is a measure for determining whether the filters 150a and 150b are blocked according to a comparison result with the saturation temperature corresponding to the high pressure detected by the pressure sensors 109a and 109b. Becomes

In addition, the accumulators 106a and 106b have an inlet connected to the four-way valves 102a and 102b through branch pipes A1 and A2 and an outlet connected to the suction side of the compressors 101a and 101b. The gas refrigerant separated at) is provided to the suction side of the compressor (101a, 101b).

The hot gas bypass pipes B1 and B2 connecting the discharge side and the suction side of the compressors 101a and 101b are provided with bypass valves 111a and 111b for opening and closing the flow path, and the discharge side of the compressors 101a and 101b. The oil bypass pipes C1 and C2 connecting between the suction sides send oil separated in the oil separators 107a and 107b to the suction side of the compressors 101a and 101b to provide a flow path for oil recovery.

3 is a control block diagram of a multi-type air conditioner according to an embodiment of the present invention.

In FIG. 3, the modular outdoor unit 100 includes a outdoor unit controller 120 for controlling each component of the modular outdoor unit 100 including a microcomputer and a peripheral circuit thereof, and an operating state of the multi-type air conditioner. The display unit 122 further includes a display unit 122 for displaying whether the filters 150a and 150b installed in the outdoor unit modules 100a and 100b are blocked.

The outdoor unit control unit 120 is connected to the plurality of indoor unit control units 210a to 210n respectively controlling the plurality of indoor units 200a to 200n through a communication line 303 and configured to communicate with each other so that the entire indoor units 200a to 200n are provided. The driving capacity of the modular outdoor unit 100 is varied according to the total cooling and heating capacity required by the step.

In addition, the outdoor unit controller 120 converts the saturation temperature corresponding to the high pressure of the refrigerant detected by the respective pressure sensors 109a and 109b installed in the outdoor unit modules 100a and 100b to determine the saturation temperature of the high pressure. (Approximately ± 2 degrees) is determined, and if it is determined that the saturation temperature of the high pressure is stable, the liquid pipe temperature detected through the respective temperature sensors 110a and 110b installed in the outdoor unit modules 100a and 100b When the temperature difference (the difference between the high pressure saturation temperature and the liquid pipe temperature) for each outdoor unit module (100a, 100b) is greater than the reference temperature difference (about, 10 degrees) compared with the high temperature saturation temperature, the corresponding outdoor unit module (100a, 100b) An error mode is generated by diagnosing that the filters 150a and 150b installed in the block are blocked.

In addition, when the error mode occurs, the outdoor unit controller 120 stops or switches the modular outdoor unit 100 to the standby state to stabilize the system, and displays the error mode through the display unit 122, thereby allowing the installer to filter the filter. Prompt handling of necessary measures such as replacement of 150a, 150b).

In the exemplary embodiment of the present invention, the outdoor unit controller 120 is configured as one and integrated control of the plurality of outdoor unit modules 100a and 100b has been described as an example. However, the present invention is not limited thereto, and the outdoor unit modules 100a and 100b are not limited thereto. ) Can be configured for each outdoor unit module (100a, 100b) to control the outdoor unit control unit (120a) individually, the plurality of outdoor unit control unit 120 to control the plurality of outdoor unit modules (100a, 100b) through communication with each other. It can be configured to be.

Hereinafter, the operation process and the effect of the multi-type air conditioner and the control method configured as described above will be described.

First, in order to install the modular multi-type air conditioner, the installer installs the plurality of outdoor unit modules 100a and 100b and the plurality of indoor units 200a to 200n at appropriate positions in the outdoor and indoor areas, and then installs the common pipes 301 and 302. By using the outdoor unit module (100a, 100b) and a plurality of indoor units (200a ~ 200n) are connected.

Of the common pipes 301 and 302 connecting the outdoor unit modules 100a and 100b and the plurality of indoor units 200a to 200n, the liquid pipe 302 has the outdoor unit modules 100a and 100b and the plurality of indoor units 200a to 200n in common piping ( Filters 150a and 150b are installed to remove sludge that may be introduced in the process of installing to the 301 and 302 and to dry the moisture, and each of the filters 150a and 150b includes the outdoor unit modules 100a and 100b. When installed outside, multi-type air conditioner can not only extend the life of the system but also increase the safety of installation.

If a large amount of foreign substances are introduced into the filters 150a and 150b during the installation of the multi-type air conditioner, the filters 150a and 150b are blocked and the refrigerant distributed to each outdoor unit module 100a and 100b is blocked. Will affect. Therefore, if this is not removed quickly, it may cause a problem in the reliability of the compressor (101a, 101b), and the like, as well as the filter (150a, 150b) as well as the pipes (301,302) as a whole there is a lot of foreign matters will cause overall pollution of the system. As a result, the cooling or heating cycle cannot be stably formed.

Thus, the embodiment of the present invention implements a self-diagnosis algorithm that can detect the blockage of the filter (150a, 150b) to prevent the overall contamination of the system, and to easily check the blocked state of the filter (150a, 150b). .

4 is a flowchart illustrating a method for diagnosing filter clogging of a multi-type air conditioner according to an exemplary embodiment of the present invention.

In FIG. 4, after installation of the modular multi-type air conditioner, the outdoor unit controller 120 determines whether it is a diagnostic mode for diagnosing blockage of the filters 150a and 150b (400), and if it is a diagnostic mode, the filter 150a and 150b. In order to diagnose the blockage of c), the compressors 101a and 101b are operated to cool the system (402).

When the diagnostic mode by the cooling operation is started, the refrigerant discharged from the compressors 101a and 101b flows into the four-way valves 102a and 102b through the check valves 108a and 108b, and the four-way valves 102a and 102b are cooled. In response to the operation, the internal slider is operated to supply the introduced refrigerant to the outdoor heat exchangers 103a and 103b. The refrigerant supplied to the outdoor heat exchangers 103a and 103b is delivered to the indoor units 200a to 200n via a liquid pipe connecting the outdoor heat exchangers 103a and 103b and the outdoor electromagnetic expansion valves 105a and 105b. Cooling cycles are introduced into the four-way valves 102a and 102b via the common pipes 301 and 302.

When the refrigerant circulates according to the formation of the cooling cycle, the pressure of the high-pressure side refrigerant discharged from the compressors 101a and 101b is sensed through the respective pressure sensors 109a and 109b installed in the outdoor unit modules 100a and 100b. In operation 404, the outdoor unit is transferred to the outdoor unit controller 120.

Accordingly, the outdoor unit controller 120 converts the detected high pressure side refrigerant pressure, that is, the saturation temperature corresponding to the high pressure of the refrigerant (406), and determines whether the saturation temperature of the high pressure is stable within a predetermined range (about ± 2 degrees). (408).

When the saturation temperature corresponding to the high pressure of the refrigerant is set in advance in the outdoor unit controller 120 and the pressure of the high pressure side refrigerant is sensed through the pressure sensors 109a and 109b, the outdoor unit control unit 120 detects the pressure of the detected high pressure side refrigerant. Saturation temperature corresponding to (for example, high-pressure saturation temperature is 48 degrees when the high-pressure refrigerant pressure is 29.5, high-pressure saturation temperature is 47.6 degrees when the high-pressure refrigerant pressure is 28.7), and converted high-pressure saturation If the temperature fluctuates within a predetermined range (about ± 2 degrees), it is determined that the high pressure saturation temperature is stable. At this time, the range that can be determined that the high-pressure saturation temperature is stable may vary depending on the system.

As such, when it is determined that the high-pressure saturation temperature is stable, the temperature of the refrigerant passing through the liquid pipe, that is, the liquid pipe temperature, through the respective temperature sensors 110a and 110b installed in the outdoor unit modules 100a and 100b is determined. Sense by 100b) and transmits the detected signal to the outdoor unit controller 120 (410).

Therefore, the outdoor unit controller 120 compares the detected liquid pipe temperature for each outdoor unit module 100a and 100b with the converted high pressure saturation temperature and calculates the temperature difference for each outdoor unit module 100a and 100b (412). Each temperature difference is compared with a reference temperature difference (about 10 degrees) to determine whether the temperature difference for each outdoor unit module 100a or 100b is greater than or equal to the reference temperature difference (414).

Since the liquid pipe temperature detected by the temperature sensors 110a and 110b has a value corresponding to the high pressure saturation temperature in consideration of the high pressure refrigerant pressure, when the filters 150a and 150b are not blocked, the high pressure saturation temperature and the liquid pipe temperature are Similar values (eg, liquid tube temperature is 49 degrees when the high pressure saturation temperature is 48 degrees, and liquid tube temperature is 47 degrees when the high pressure saturation temperature is 47.6 degrees).

As a result of the determination in step 414, if the temperature difference for each outdoor unit module 100a or 100b is equal to or more than the reference temperature difference, the outdoor unit controller 120 determines that the filters 150a and 150b installed in the outdoor unit module 100a or 100b are blocked and error. To generate the mode (416), and to stop the operation of the compressor (101a, 101b) to stabilize the system to display the error mode via the display unit 122 (418).

Accordingly, the installer can quickly handle necessary measures such as replacement of the filters 150a and 150b in the field, and can prevent the overall contamination of the system in advance.

1 is a configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

2 is a detailed configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

3 is a control block diagram of a multi-type air conditioner according to an embodiment of the present invention.

4 is a flowchart illustrating a method for diagnosing filter clogging of a multi-type air conditioner according to an exemplary embodiment of the present invention.

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

100: modular outdoor unit 100a, 100b: outdoor unit module

101a, 101b: compressor 109a, 109b: pressure sensor

110a, 110b: temperature sensor 120: outdoor unit controller

122: display unit 150a, 150b: filter

200a ~ 200n: Indoor unit 210a ~ 210n: Indoor unit control unit

301,302: Common piping

Claims (22)

A plurality of outdoor unit modules; A pipe connecting the plurality of outdoor unit modules to an indoor unit; A filter installed in the pipe to remove foreign substances; Multi-type air conditioner including a diagnostic device for diagnosing whether the filter is clogged. The method of claim 1, And a plurality of filters are installed in the pipe to correspond to the plurality of outdoor unit modules. The method of claim 2, The diagnostic device is A detector for sensing a high pressure refrigerant pressure and a liquid pipe temperature of each outdoor unit module; And a control unit for converting the high pressure saturation temperature corresponding to the high pressure side refrigerant pressure, and comparing the high pressure saturation temperature with the liquid pipe temperature to determine the clogging of the filter. The method of claim 3, The sensing unit includes a pressure sensor installed at the high pressure side of each outdoor unit module to detect a refrigerant pressure of the high pressure side, and a temperature sensor installed at the liquid pipe of each outdoor unit module to sense the refrigerant temperature of the liquid pipe. Air conditioner. The method of claim 4, wherein The liquid pipe is a multi-type air conditioner is a pipe in which the filter is installed. The method of claim 4, wherein The liquid pipe temperature is a multi-type air conditioner having a value corresponding to the high pressure saturation temperature according to the high pressure side refrigerant pressure. The method of claim 3, The control unit calculates a temperature difference for each outdoor unit module by comparing the high pressure saturation temperature and the liquid pipe temperature when the high pressure saturation temperature is stable, and determines that the filter is blocked when the temperature difference is greater than the reference temperature difference. . The method of claim 7, wherein The reference temperature difference is less than about 10 degrees multi-type air conditioner. The method of claim 7, wherein And the control unit generates an error mode when it is determined that the filter is blocked. 10. The method of claim 9, And a display unit for displaying the error mode. A plurality of outdoor unit modules; A filter for removing foreign substances introduced into the plurality of outdoor unit modules; A detector for sensing a high pressure refrigerant pressure and a liquid pipe temperature of each outdoor unit module; And a control unit for converting the high pressure saturation temperature corresponding to the high pressure side refrigerant pressure, and comparing the high pressure saturation temperature with the liquid pipe temperature to determine the clogging of the filter. The method of claim 11, Further comprising a pipe for connecting the plurality of outdoor unit modules to the indoor unit, The filter is provided in the plurality of the plurality of outdoor unit modules corresponding to each of the plurality of outdoor unit modules to remove the foreign matter introduced when installing the plurality of outdoor unit modules in the pipe. The method of claim 11, The sensing unit includes a pressure sensor installed at the high pressure side of each outdoor unit module to detect a refrigerant pressure of the high pressure side, and a temperature sensor installed at the liquid pipe of each outdoor unit module to sense the refrigerant temperature of the liquid pipe. Air conditioner. The method of claim 11, The control unit calculates a temperature difference for each outdoor unit module by comparing the high pressure saturation temperature and the liquid pipe temperature when the high pressure saturation temperature is stable, and determines that the filter is blocked when the temperature difference is greater than the reference temperature difference. . The method of claim 14, The reference temperature difference is less than about 10 degrees multi-type air conditioner. Connecting the plurality of outdoor unit modules to the indoor unit through the piping; Removing foreign substances introduced when the plurality of outdoor unit modules are installed in the pipe through a filter installed in the pipe; Control method of the multi-type air conditioner for diagnosing whether the filter is clogged. The method of claim 16, The filter is a control method of the multi-type air conditioner is installed in the pipe to correspond to each of the plurality of outdoor unit modules. The method of claim 17, Diagnosing whether the filter is clogged Sensing the high pressure side refrigerant pressure of each outdoor unit module to convert a high pressure saturation temperature; Sensing the liquid pipe temperature of each outdoor unit module if the high pressure saturation temperature is stable; And comparing the high pressure saturation temperature with the liquid pipe temperature of each outdoor unit module to determine clogging of the filter. The method of claim 18, The liquid pipe temperature control method of a multi-type air conditioner having a value corresponding to the high pressure saturation temperature according to the high pressure side refrigerant pressure. The method of claim 18, Determining the blockage of the filter is And comparing the high pressure saturation temperature with the liquid pipe temperature of each outdoor unit module to calculate a temperature difference of each outdoor unit module, and determining that the filter is blocked if the temperature difference is equal to or more than a reference temperature difference. The method of claim 20, And the reference temperature difference is within about 10 degrees. The method of claim 20, The control method of the multi-type air conditioner further comprises generating and displaying an error mode if it is determined that the filter is clogged.

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