KR100697205B1 - Self detecting control method of air conditioner - Google Patents

Abstract

In the self-diagnosis operation method of the air conditioner of the present invention, a plurality of indoor units are self-diagnosed by sequentially turning on and off a plurality of indoor units one by one while driving only the inverter compressor upon input of a commissioning command, and then, a part of the plurality of indoor units. In the state of turning on, a plurality of constant speed compressors are driven one by one and stopped in sequence, thereby self-diagnosing the plurality of constant speed compressors. Therefore, incorrect input and incorrect wiring of the indoor unit and the compressor can be checked quickly by inputting one trial run command. There is an advantage to that.

Air Conditioner, Inverter Compressor, Constant Speed Compressor, Outdoor Unit, Indoor Unit, Central Controller

Description

Self detecting control method of air conditioner

1 is a schematic diagram of an air conditioner to which a self-diagnostic control method of an air conditioner according to the present invention is applied;

2 is an internal configuration diagram of an air conditioner to which a self-diagnostic control method of an air conditioner according to the present invention is applied;

3 is a flowchart illustrating an embodiment of a method for controlling self-diagnosis of an air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

1 to 12: Indoor unit 21: Main outdoor unit

22: first sub outdoor unit 23: second sub outdoor unit

30, 40: refrigerant pipe 56: temperature sensor

62: inverter compressor 63: constant speed compressor

66: temperature sensor 67; Pressure sensor

120: control unit 130: dip switch

140: display 150: central controller

The present invention relates to a self-diagnostic operation method of an air conditioner, and more particularly, to a self-diagnosis operation method of an air conditioner that self-diagnoses each indoor unit and a compressor in one process when a test run command is input.

In general, an air conditioner is a device for cooling or heating a room using a refrigeration cycle device consisting of a compressor, a condenser, an expansion device, and an evaporator.

Recently, a plurality of indoor units are connected in parallel and a plurality of compressors are connected in parallel as the air conditioners gradually increase in capacity or multiply, thereby reducing the power consumption of the driving of the compressor by controlling the number of compressors driven according to the indoor load conditions. have.

The compressor may include an inverter compressor capable of varying the compression capacity of the refrigerant, and a constant speed compressor having a constant compression capacity of the refrigerant. When at least two constant speed compressors are installed, the inverter compressor and the two or more constant speed compressors may be By combining the operation, it is possible to appropriately cope with the cooling / heating capacity required in the indoor unit while minimizing the power consumption and the cost.

However, since the air conditioner according to the prior art has to install both the outdoor unit and the indoor unit, connect the wiring and the refrigerant pipe, and separately check the wrong wiring and the wrong pipe of each compressor and the indoor unit, so that the inspection takes a long time. There is this.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and provides a self-diagnostic operation method of an air conditioner capable of quickly checking a miswiring and miswiring of an indoor unit and a compressor by input of a trial run command. There is this.

Another object of the present invention is to minimize the power consumption required for driving a compressor during self-diagnosis of an air conditioner.

Self-diagnosis operation method of the air conditioner according to the present invention for solving the above problems is a part of the on-compressor step of turning on only the inverter compressor of the inverter compressor and a plurality of constant speed compressor when the commissioning command is input; A plurality of indoor unit diagnosis steps of diagnosing the plurality of indoor units by turning on and off one by one sequentially; Part of the indoor unit turning on only a part of the plurality of indoor units after the diagnosis of the plurality of indoor units; It characterized in that it comprises a plurality of constant speed compressor diagnostic step of diagnosing while driving the stationary compressors one by one in sequence in the state that the part of the sealer is turned on.

The plurality of indoor unit diagnosing may be performed after turning off the indoor unit according to a signal from the central controller.

Part of the indoor unit is turned on, characterized in that to turn on at least two indoor units.

Part of the indoor unit is turned on, the indoor unit is turned on with a capacity corresponding to the sum of the capacity of one constant speed compressor and the inverter compressor.

Part of the indoor unit is on, characterized in that for turning on some of the plurality of indoor units according to the signal of the central controller.

The plurality of constant speed compressors may include: a discharge temperature sensing process of turning on the constant speed compressor and sensing a discharge temperature for a set time; A comparison process of comparing the sensed change in discharge temperature with a set value; A determination step of determining that the constant speed compressor is normal if the change of the discharge temperature is greater than or equal to a predetermined value in the comparison step; And a compressor off process of turning off the constant speed compressor after the set time.

After the plurality of constant speed compressor diagnosis step, the indoor unit is turned off according to the signal of the central controller to turn off the indoor units that were turned on in the part of the indoor unit characterized in that it comprises a.

The self-diagnosis operation method of the air conditioner is characterized in that the operation is terminated by the input of the trial run termination command.

When an error of any one of the indoor unit and the constant speed compressor is characterized in that it is displayed on the display.

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

1 is a schematic diagram of an air conditioner to which a self-diagnosis control method of an air conditioner according to the present invention is applied.

The air conditioner shown in FIG. 1 includes a plurality of indoor units 1-12, a plurality of outdoor units 21, 22, 23, the plurality of indoor units 1-12, and a plurality of indoor units installed in a building interior. It consists of a refrigerant pipe (30, 40) connecting the two outdoor units (21, 22, 23).

The plurality of outdoor units 21, 22 and 23 determine the driving number of the compressor (not shown) according to the cooling / heating capacity required by the indoor units 1 to 12.

2 is an internal configuration diagram of an air conditioner to which the self-diagnostic control method of the air conditioner according to the present invention is applied.

As shown in FIG. 2, each of the indoor units 1 to 12 includes an indoor heat exchanger 51 for exchanging refrigerant and indoor air, and an indoor unit installed near the indoor heat exchanger 51 to circulate indoor air. And a blower 52, an indoor expansion valve 54 for expanding the refrigerant flowing into the indoor heat exchanger 51 when cooling, and a sensing means 56 for detecting normal operation of the indoor unit.

The indoor units 1 to 12 are connected to the refrigerant pipes 30 and 40 in parallel.

The sensing means 56 includes a refrigerant pipe between the indoor heat exchanger 51 and the outdoor units 21, 22, 23, a refrigerant pipe of the indoor heat exchanger 51, and an indoor expansion with the indoor heat exchanger 51. The temperature sensor is installed to detect the temperature of one side of the refrigerant pipe between the valve (54).

As illustrated in FIG. 2, the outdoor units 21, 22, and 23 are composed of a main outdoor unit 21 and first and second sub outdoor units 22 and 23.

The main outdoor unit 21 includes an accumulator 61 through which only gaseous refrigerants of the refrigerants supplied from the indoor units 1 through 12 pass, and a compressor 62 that receives and compresses gaseous refrigerant that has passed through the accumulator 61. (63), a four-way valve (65) connected to the compressors (62) and 63 to select a compressed flow path of the refrigerant, and an outdoor heat exchanger to heat-exchange the outdoor air with the refrigerant supplied from the four-way valve (65). And an outdoor blower 72 installed near the outdoor heat exchanger 70 to blow outdoor air to the outdoor heat exchanger 70.

Here, the compressors 62 and 63 installed in the main outdoor unit 21 include an inverter compressor 62 capable of varying the compression capacity of the refrigerant and a constant speed compressor 63 having a constant compression capacity of the refrigerant.

The first and second sub outdoor units 22 and 23 are provided with a plurality of constant speed compressors 63 having a constant compression capacity of a refrigerant, and accumulators 61 and four-way valves 65 other than the plurality of constant speed compressors 63 are provided. Since the configuration including the outdoor heat exchanger 70 and the indoor blower 72 is the same as the main outdoor unit 21, a detailed description thereof will be omitted.

Hereinafter, only the two constant speed compressors 63 installed in the first and second sub outdoor units 22 and 23 will be described.

Here, the inverter compressor 62 and the constant speed compressor 63 of the main outdoor unit 21, the plurality of constant speed compressors 63 of the first sub outdoor unit 22, and the plurality of constant speed compressors 63 of the second outdoor unit 23. The refrigerant pipes 30 and 40 are connected in parallel and are driven in a predetermined combination corresponding to the sum of the operating capacities of the indoor units 1 to 12.

On the other hand, an oil separator 64 is installed in a pipe connecting the compressors 62 and 63 and the four-way valve 65, and the oil separator 64 is provided at the suction side of the compressors 62 and 63. Connected.

In addition, between the oil separator 64 and the compressors 62 and 63, a temperature sensor 66 for sensing the temperature of the refrigerant discharged from the compressors 62 and 63, and the compressors 62 and 63. Pressure sensor 67 for detecting the pressure of the refrigerant discharged from the is installed.

In particular, the oil separator 64 separates oil from the refrigerant discharged from the compressors 62 and 63, and the separated oil is suction-side piping of the oil separator 64 and the compressors 62 and 63. An appropriate amount of oil in the compressors 62 and 63 is supplied to the compressors 62 and 63 through an oil recovery pipe 68 connecting between the oil recovery pipe 68 and a capillary 69 installed in the oil recovery pipe 68. Keep it.

In addition, the refrigerant pipe (30) for guiding the refrigerant discharged from the outdoor heat exchanger (70) to the indoor units (1 to 12) includes an electronic expansion valve (lev, 74) for expanding the refrigerant upon heating and the indoor during cooling. Subcooling device 80 for cooling the refrigerant moved to the heat exchanger (51), the liquid injection device 90 for lowering the temperature of the compressor (62) (63), and the moisture inside the refrigerant pipe (30) Dryer 110 for removing the is installed.

Here, the outdoor electromagnetic expansion valve 74 is fully open during cooling to pass through the refrigerant condensed in the outdoor heat exchanger 70 without expanding, but when heated, it is opened to a predetermined size to condense in the indoor heat exchanger 51. The refrigerant is expanded into a liquid in a spray state before entering the outdoor heat exchanger (70).

Reference numeral 120 shown in FIG. 2 is a control unit to control each outdoor unit 21, 22, 23.

Reference numeral 130 shown in FIG. 2 is a dip switch provided in each outdoor unit 21, 22, 23 to input various operations of each outdoor unit 21, 22, 23. FIG.

Reference numeral 140 shown in Fig. 2 is a display provided in each outdoor unit 21, 22, 23 to display various operation information of each outdoor unit 21, 22, 23.

Reference numeral 150 shown in FIG. 2 denotes indoor units 1-12 and outdoor units 21, 22 (in communication with respective indoor units 1-12, or in communication with respective outdoor units 21, 22, 23). 23) is the central controller to control.

3 is a flowchart illustrating an embodiment of a method for controlling self-diagnosis of an air conditioner according to the present invention.

In the self-diagnosis control method of the air conditioner according to the present invention, as shown in FIG. We perform self-diagnosis to diagnose the wiring by oneself. (S1)

Here, the input of the commissioning command, inputs the commissioning mode to the dip switch 130, and presses a push button installed in the central controller 150 or the like to input the commissioning command.

When the input is made as described above, a partial driving step of the compressor for driving only the inverter compressor 62 is performed among the inverter compressor 62 and the plurality of constant speed compressors 63 (S2).

When the inverter compressor 62 is driven, the refrigerant compressed by the inverter compressor 62 is guided to the outdoor heat exchanger 70 of the main outdoor unit 21 by the four-way valve 65 of the main outdoor unit 21. After condensation in the outdoor heat exchanger 70 of the main outdoor unit 21, the refrigerant pipe 30 connecting the outdoor heat exchanger 70 of the main outdoor unit 21 and the plurality of indoor units 1 to 12 to the side of the main outdoor unit 21. It moves to the some indoor unit 1-12.

In addition, the plurality of indoor units 1 to 12 are sequentially turned on one by one, while the plurality of indoor unit diagnosis steps for diagnosing the indoor units 1 to 12 are performed. (S3) (S4)

That is, each of the indoor units 1-12 is automatically turned on one by one according to the signal of the central controller 150 even if each indoor unit 1-12 is not turned on / off by a user or an installer. It turns off after time.

Hereinafter, the self-diagnosis of each of the indoor units 1 to 12 will be described in detail.

First, any one indoor unit 1 of the plurality of indoor units 1 to 12 operates the indoor blower 52 and the indoor expansion valve 54, and the refrigerant moved by the drive of the intercom compressor 62 is The indoor blower 52 and the indoor expansion valve 54 flow into the indoor unit 1 in operation. The introduced refrigerant expands in the indoor expansion valve 54 and evaporates while passing through the indoor heat exchanger 51. The evaporated refrigerant accumulates in the main outdoor unit 21 through the refrigerant pipe 40 connecting the indoor unit 1 and the main outdoor unit 21 in which the indoor blower 52 and the indoor expansion valve 54 are operated. It is moved to the radar 61, sucked into the driven compressor compressor 62, and compressed, and the above circulation continues.

At the time of circulating the refrigerant as described above, if the indoor unit 1 in which the indoor blower 52 and the indoor expansion valve 54 are operating is normally installed, the refrigerant passing through the indoor unit 1 has a predetermined temperature range. If it is out of the temperature range of a predetermined range, the indoor unit 1 is not normally installed. That is, the temperature sensor 56 installed in the indoor unit 1 in which the indoor blower 52 and the indoor expansion valve 54 operate detects the temperature of the refrigerant, and the indoor blower 52 and the indoor expansion valve ( 54 will self-diagnose the normal installation of the indoor unit 1 in operation.

When any one indoor unit 1 of the plurality of indoor units 1 to 12 is normal, the indoor blower 52 of the indoor unit 1 in which the indoor blower 52 and the indoor expansion valve 54 are operated, and The indoor expansion valve 54 is stopped, and the self-diagnosis of any one indoor unit 1 of the plurality of indoor units 1 to 12 ends.

Subsequently, self-diagnosis of the indoor units 2 to 12 other than the indoor unit 1, which has been self-diagnosed, is performed one by one in the same manner as described above. Since the same, detailed description thereof will be omitted.

On the other hand, when the self-diagnosis of each of the indoor units (1 ~ 12), if the wrong wiring, incorrect wiring is detected, that is, if the temperature value detected by the temperature sensor 56 of the indoor unit is out of the temperature range of a predetermined range, It is displayed on the display 140 provided in the outdoor unit 21, 22, 23, or the display (not shown) provided in the indoor unit 1-12.

After self-diagnosing the indoor units 1 to 12 one by one, in order to self-diagnose the plurality of constant speed compressors 63, a part of the indoor unit 1 to 12 is performed to turn on only some of the indoor units 1 to 12. S5)

Part of the indoor unit is to turn on at least two indoor units of the plurality of indoor units (1-12) according to the signal of the central controller 150, the capacity of the constant speed compressor (63) and the inverter compressor (62) Turn on the indoor units with the corresponding capacity.

Hereinafter, for convenience of explanation, the description will be limited to turning on four indoor units 1 to 4 of the plurality of indoor units 1 to 12.

Then, a plurality of constant speed compressors for performing self-diagnosis are performed while driving the constant speed compressors one by one while the parts 1 to 4 of the indoor units 1 to 12 are turned on in sequence (S6).

That is, each of the outdoor units 21, 22, 23 is according to the signal of the central controller 150, even if the respective indoor units 21, 22, 23 are not turned on or off by the user or installer. The constant speed compressor 63 is automatically turned on and off after the set time.

Hereinafter, the constant speed compressor 63 of the main outdoor unit 21, any one constant speed compressor 63 of the first outdoor unit 22, the other constant speed compressor 63 of the first outdoor unit 22, and the second One of the constant speed compressors 63 of the outdoor unit 23 and the other constant speed compressors 63 of the second outdoor unit will be described in detail as follows.

First, when the constant speed compressor 63 of the main outdoor unit 21 is driven among the plurality of outdoor units 21, 22, 23, the refrigerant compressed by the driven constant speed compressor 63 is compressed by the inverter compressor 62. The refrigerant is guided to the outdoor heat exchanger 70 of the main outdoor unit 21 by the four-way valve 65 of the main outdoor unit 21, and condensed in the outdoor heat exchanger 70 of the main outdoor unit 21. The outdoor heat exchanger 70 of the main outdoor unit 21 and the plurality of indoor units 1 to 12 are connected to the plurality of indoor units 1 to 4 in operation through the refrigerant pipe 30.

The dispersedly transferred refrigerant is expanded in the indoor expansion valve 54 of the indoor units 1 to 4 in operation and then evaporated while passing through the indoor heat exchanger 51 of the indoor units 1 to 4 in operation. It is moved to the accumulator 61 of the main outdoor unit 21 through the pipe 40 and sucked and compressed by the inverter compressor 62 in operation, and the above circulation continues.

In the circulation of the refrigerant as described above, if the constant speed compressor 63 driving the main outdoor unit 21 is normally installed, the refrigerant passing through the constant speed compressor 63 has a temperature range of a predetermined range and a pressure range of a predetermined range. It has a range, and if it is out of the temperature value range of a predetermined range or the temperature value range of a predetermined range, the constant speed compressor 63 is not installed normally.

In the case of self-diagnosis using the temperature, the temperature sensor 66 installed on the discharge side of the constant speed compressor 63 of the main outdoor unit 21 senses the temperature of the refrigerant discharged from the constant speed compressor 63 during the set time. If the change in discharge temperature is greater than or equal to the set value (e.g., 3 minutes), the constant speed compressor 63 of the main outdoor unit 21 determines that the change in discharge temperature is normal. To judge.

After the set time, the constant speed compressor 63 of the main outdoor unit 21 is turned off, and the self-diagnosis of the constant speed compressor 63 of the main outdoor unit 21 is terminated.

Thereafter, the two constant speed compressors 63 of the first sub outdoor unit 22 are self-diagnosed one by one in the same manner as above, and the two constant speed compressors 63 of the second sub outdoor unit 23 are also the same as the above method. Self-diagnostic by one, and the following detailed description of the self-diagnosis of each constant speed compressor (63) is the same, a detailed description thereof will be omitted.

On the other hand, when a self-diagnosis of each of the constant speed compressor (63), if a wrong wiring, incorrect wiring is detected, it is a display installed in the outdoor unit 21, 22, 23, the display 140 or the indoor unit (1 ~ 12) (Not shown).

After the diagnosis of the plurality of constant speed compressors, an indoor unit off step of turning off the indoor units which have been turned on at the indoor unit partial on stage in accordance with a signal from the central controller is performed, and when a trial operation termination command is input, the trial operation is terminated.

Here, the input of the commissioning termination command is to input the commissioning termination mode to the dip switch 130, and to push the push button installed in the central controller 150 or the like to input the commissioning command.

In addition, the present invention is not limited to the above embodiment, and it is also possible to diagnose each of the indoor units 1 to 12 using the discharge side temperature or the discharge side pressure of the inverter compressor 62, and the constant speed compressor 63 Of course, it is also possible to diagnose each diagnosis using the temperature of the refrigerant passing through the plurality of indoor units 1 to 12 in operation, as well as various implementations within the technical scope of the present invention.

In the self-diagnostic operation method of the air conditioner of the present invention configured as described above, a plurality of indoor units are self-diagnosed by sequentially turning on and off a plurality of indoor units one by one while driving only an inverter compressor upon input of a trial run command. Since a plurality of constant speed compressors are driven one by one and then stopped in sequence with some of the indoor units turned on, the plurality of constant speed compressors are self-diagnosed. There is an advantage that can be checked quickly.

In addition, the self-diagnostic operation method of the air conditioner of the present invention has the advantage that it is possible to diagnose all the indoor units with minimal power consumption since only the inverter compressor is driven without driving the plurality of constant speed compressors when the indoor unit is diagnosed.

In addition, the self-diagnostic operation method of the air conditioner of the present invention, when the indoor unit is diagnosed by turning on each indoor unit according to the signal of the central controller and then off after a set time, the user or installer to check each of the indoor unit Since there is no need to operate each of the indoor units, there is an advantage in that the trial operation is simple and quick.

In addition, since the self-diagnosis operation method of the air conditioner of the present invention turns on the indoor units at a capacity corresponding to the sum of the capacity of one constant speed compressor and the inverter compressor when the constant speed compressor is diagnosed, both the plurality of indoor units are diagnosed to diagnose the constant speed compressor. There is an advantage that less power consumption is used for self-diagnosis than when turning on.

In addition, the self-diagnosis operation method of the air conditioner of the present invention, when the diagnosis of the constant speed compressor by turning on a part of the plurality of indoor units in accordance with the signal of the central controller, the user or installer to check each of the constant speed compressor each of the outdoor unit Since there is no need to operate the commissioning operation has the advantage that the operation is simple and quick.

In addition, the self-diagnostic operation method of the air conditioner of the present invention, since the display of any error of the indoor unit and the constant speed compressor on the display, there is an advantage that can quickly and easily identify the error.

Claims (9)

A partial driving step of the compressor for driving only the inverter compressor among the inverter compressor and the plurality of constant speed compressors when a trial run command is input; A plurality of indoor unit diagnosis steps of diagnosing the indoor unit by sequentially turning on and off a plurality of indoor units one by one; Part of the indoor unit turning on only a part of the plurality of indoor units after the diagnosis of the plurality of indoor units; And a plurality of constant speed compressor diagnosis steps of diagnosing the constant speed compressor while driving and stopping one of the constant speed compressors sequentially in a state in which a part of the sealer is turned on and the inverter compressor is driven. Self-diagnosis operation method of air conditioner. The method of claim 1, The plurality of indoor unit diagnosis step, the self-diagnostic operation method of the air conditioner, characterized in that after the predetermined time after turning on each indoor unit according to the signal of the central controller. The method of claim 1, The step of partially turning on the indoor unit, the self-diagnostic operation method of the air conditioner, characterized in that at least two indoor units are turned on. The method of claim 1, In the step of turning on the indoor unit, the self-diagnosis operation method of the air conditioner, characterized in that the indoor unit is turned on with a capacity corresponding to the sum of the capacity of one constant speed compressor and the inverter compressor. The method of claim 1, In the step of turning on the indoor unit, the self-diagnostic operation method of the air conditioner, characterized in that for turning on some of the plurality of indoor units in accordance with the signal of the central controller. The method of claim 1, The plurality of constant speed compressor diagnosis step, A discharge temperature sensing process of turning on the constant speed compressor and sensing a discharge temperature for a set time; A comparison process of comparing the sensed change in discharge temperature with a set value; A determination step of determining that the constant speed compressor is normal if the change of the discharge temperature is greater than or equal to a predetermined value in the comparison step; And a compressor off process of turning off the constant speed compressor after the set time. The method of claim 1, And a step of turning off the indoor units after the plurality of constant speed compressor diagnosis steps, according to a signal from the central controller. The method of claim 1, The self-diagnostic operation method of the air conditioner is terminated by an input of a trial run end command. The method according to any one of claims 1 to 7, Self-diagnosis operation method of the air conditioner, characterized in that the display of the error when any one of the indoor unit and the constant speed compressor.

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