KR100869959B1 - Test control method for airconditioner - Google Patents

Abstract

The present invention relates to a test run control method of an air conditioner that can display an error state generated by inspecting the state of the product during the test run of the air conditioner. A test run control method for an air conditioner according to the present invention is characterized by providing various procedures for detecting installation failure in a test run mode, and providing a detected installation failure state to a consumer or an installer. In order to detect such an installation failure state, the present invention detects the initial indoor piping temperature, the initial outdoor piping temperature, and the current indoor piping temperature and the current outdoor piping temperature after a predetermined time elapses, and compares the two values and establishes the installation defective state. Judge.

Air conditioner, installation failure, commissioning mode

Description

Test control method for air conditioner             

1 is a general refrigeration cycle configuration diagram,

2 is an operation flowchart of a test run mode in a conventional air conditioner,

3 is a configuration diagram of an outdoor unit for explaining a test operation mode operation of an air conditioner according to the present invention;

4 is a configuration diagram of an indoor unit for explaining the operation mode of the test operation of the air conditioner according to the present invention;

5 is a flow chart of a test operation mode of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

10,30: heat exchanger 20: compressor

40: four sides 50: indoor unit

60: outdoor unit 71: time coefficient

73: outdoor temperature detector 75: outdoor piping temperature detector

77: memory 79,93: control unit

81: four sides switching unit 83: outdoor fan drive unit

85: compressor drive unit 87: room temperature detection unit                 

89: indoor piping temperature detection unit

95: indoor fan drive unit 97: signal input unit

The present invention relates to a test run control method for an air conditioner, and a test run control method for an air conditioner capable of displaying an error state generated by inspecting a state of a product during test run of an air conditioner.

As shown in FIG. 1, a refrigeration cycle of a general air conditioner includes an indoor unit 50 equipped with a heat exchanger 10 for discharging cold wind into a room during a cooling operation, and a compressor for generating a high temperature and high pressure refrigerant. 20, the outdoor heat exchanger 30, and an outdoor unit 60 composed of four sides 40 for switching of the heating and cooling cycle. In addition, the indoor unit 50 includes an indoor fan 15 for promoting heat exchange of the indoor heat exchanger, and the outdoor unit 60 is also provided with an outdoor fan 35. Numeral 25 shows an expansion device.

The conventional air conditioner having the above configuration is provided with a test run mode for checking the installation state, maintenance state, etc. of the product. The test run mode is an operation mode for confirming an operating state of the air conditioner while controlling a strong wind in the cooling operation state for a predetermined time.                         

2 illustrates a test run control process in a conventional air conditioner.

As shown, when the user inputs a test run key (step 100), the product will be out of the current operation state to control the test run mode. That is, when the current operation mode is the heating operation state, the four sides 40 are switched to switch the cycle to the cooling operation mode. Of course, the current cycle state is maintained in the cooling operation state. And the indoor fan 15 is controlled by strong wind.

The operation is performed until the set trial run time t1 is reached (step 110). When the set trial run time t1 is reached, the trial run mode ends (step 120).

As described above, in the conventional air conditioner, when the trial operation mode is performed, only the control for ignoring all the conditions and forcibly performing the cooling operation during the set trial time t1 is performed. Therefore, the consumer or the product installer was forced to use the product by judging whether the cooling operation according to the trial run mode is normally performed immediately after the installation of the air conditioner.

That is, in the conventional air conditioner, there was no method of actually checking the installation failure state of the product in the trial run mode itself. For this reason, consumers or installers were forced to determine whether the installation state was good or poor immediately after the installation of the product, according to the judgment of the individual.

If the consumer or the installer does not detect the installation failure condition due to inexperience and control the operation of the air conditioner as it is, due to the refrigerant leakage, the service valve being locked or the four-way switching failure that may occur in the installation failure state, etc. This may cause safety risks and product damage.

Therefore, the conventional air conditioner does not have a process for confirming the installation state of the product by itself in the test run mode, causing problems due to poor installation, and this has caused a dissatisfaction factor for the product.

Accordingly, an object of the present invention is to provide a test run control method of an air conditioner that can inspect a state of a product in a test run process of an air conditioner and provide a consumer with an error state.

According to an aspect of the present invention, there is provided a method for controlling commissioning of an air conditioner, the method including: a first detecting step of detecting an indoor piping temperature and an outdoor piping temperature at an initial stage of a commissioning mode operation of a product; A second detecting step of detecting a current indoor pipe temperature and an outdoor pipe temperature after a predetermined time for confirming installation failure of the product; Comparing detection values of the first detection step and the second detection step, and displaying a "coolant leakage" error when the two values are the same; comparing the detection values of the first detection step and the second detection step; Displaying an "service valve locked" error when the indoor piping temperature is the same but the outdoor piping temperature is larger than the current value; Comparing the detected values of the first detection step and the second detection step, and when the indoor piping temperature is large at the present value, but the outdoor piping temperature is large at the initial value, displaying a "periodic error" error. do.

The above process of the present invention is characterized in that it is made repeatedly for a predetermined trial run time.

In addition, the trial run mode of the present invention compares the detected values of the first and second detection steps, and the indoor piping temperature is large when the initial value is large, but the outdoor piping temperature is large when the present value is large. It further comprises the step of displaying.

Hereinafter, a test operation control method of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a control block diagram of the outdoor unit for controlling the cooling operation during the trial run in the air conditioner according to the present invention. 4 is a control block diagram of an indoor unit for controlling the cooling operation during the trial run in the air conditioner according to the present invention. And the configuration of the refrigeration cycle of the air conditioner in the description of the present invention will be described with reference to FIG. Hereinafter, the trial operation of the present invention will be described in the cooling operation mode.

A typical refrigeration cycle, as shown in Figure 1, the components from the compressor 20, the outdoor heat exchanger 30, the expansion device 25, the indoor heat exchanger 10 and the indoor heat exchanger (10). It is composed of a refrigerant connecting pipe connected to the indoor heat exchanger 10 again via both. That is, the refrigerant flowing in the refrigerant connection pipes passing through the respective components changes state and absorbs heat contained in the indoor air. In this operation, the temperature of the indoor air is lowered.

From this configuration, the air conditioner of the present invention controls the four sides 40 under the control of the controller 79 provided in the outdoor unit shown in FIG. 3 to form a cooling operation cycle. At this time, while the refrigerant of the high temperature and high pressure generated from the compressor 20 is circulated, the heat exchanger 10 of the indoor unit 50 discharges cold air, and the heat exchanger 30 of the outdoor unit 60 discharges the warm air.

In addition, the air conditioner of the present invention includes a fan for establishing an air flow in order to supplement the heat exchange capacity of the indoor unit 15 and the outdoor unit 60. That is, an indoor fan 15 is provided in the heat exchanger 10 on the indoor unit 15 side, and an outdoor fan 35 is provided in the heat exchanger 30 on the outdoor unit 60 side. Such a fan serves as a catalyst for promoting heat exchange between the refrigerant flowing through the heat exchanger and the air.

By driving such a refrigeration cycle, the control to enable the cooling operation is made by the control unit 79 shown in FIG.

When the user selects the test operation mode, the control unit 79 receives the received information from the control unit (93 of FIG. 4) on the indoor unit side, recognizes the control unit, and controls the driving of the refrigeration cycle according to the test operation mode selected by the user. The cooling and heating mode switching of the refrigerating cycle according to the operation mode is made by the four-sided switching unit 81 to drive the switching of the four sides 40 under the control of the control unit 79.

In addition, the compressor 20 is driven by the compressor driver 85 under the control of the controller 79. The outdoor fan 35 of the outdoor unit 60 is also made by the outdoor fan driver 83 under the control of the controller 79.                     

And it includes an outdoor pipe temperature detection unit 75 for detecting the outdoor unit pipe temperature of the present invention. In addition, the outdoor unit of the present invention includes a time counting unit 71 for counting time and an outdoor temperature detecting unit 73 for detecting an outdoor temperature to be used for control during heating operation. In addition, the outdoor unit of the present invention is provided with a memory 77.

The memory 77 may be connected to the control unit 93 on the indoor unit side. The memory 77 includes data for judging the state of the product in the test run mode of the present invention, a state at the time of "coolant leakage", a state at the "service valve (SVC) locked state", and at the time of "orthogonal defect". It stores state, etc. And it stores the data for displaying the error data according to the state inspection of the product.

3 described above is a control block diagram of an outdoor unit in the air conditioner of the present invention. The following describes the control configuration of the indoor unit in the air conditioner of the present invention.

In the air conditioner of the present invention, the indoor unit includes a control unit 93. The control unit 93 is connected to the control unit 79 of the outdoor unit to enable data transmission and reception. Therefore, since the control unit 93 of the indoor unit and the control unit 79 of the outdoor unit are configured to transmit and receive a required signal, it is possible to control the trial run in any of the control units.

The indoor unit of the present invention includes an indoor pipe temperature detection unit 89 for detecting an indoor pipe temperature, and an indoor temperature detection unit 87 for detecting an indoor temperature. Reference numeral 95 denotes an indoor fan driver for controlling the driving of the indoor fan, and reference numeral 97 denotes a signal input unit for inputting a driving signal and a wind volume signal.                     

In addition, the indoor unit of the present invention is provided with a display unit 99 for displaying an error state determined in the test run process. The display unit 99 displays data under the control of the control unit 93. Therefore, in order to display the error state according to the inspection of the current system in the display unit 99, data for the display must be obtained from the memory 77 provided in the outdoor unit.

Next will be described in detail the operation process according to the commissioning mode in the air conditioner according to the present invention having the above configuration.

5 is an operation flowchart illustrating an operation process of a test operation mode in an air conditioner according to the present invention.

When a user or an air conditioner installs a product or inputs a test drive key through the signal input unit 97 to check the state of the product, a code signal corresponding to the test drive key is input to the control unit 93 of the indoor unit. The control unit 93 transmits a code signal according to a test drive key to the control unit 79 of the outdoor unit. In this process, the controller 79 recognizes the test operation mode (step 200). Since the test run mode is recognized in step 200, the controller 79 counts the operation time of the test run mode through the time counting unit 71.

When the test run mode is recognized by the controller 79 in operation 200, the air conditioner controls the test run mode by moving away from the current run state. That is, when the current operation mode is the heating operation state, the four sides 40 are switched to switch the cycle to the cooling operation mode. Of course, the current cycle state is maintained in the cooling operation state. And the indoor fan 15 is controlled by a strong wind.

Immediately after recognizing the test operation mode in step 200, the controller 79 requests the indoor piping temperature from the indoor unit side, and detects the outdoor piping temperature inside the outdoor unit. The indoor pipe temperature is detected through the indoor pipe temperature detector 89 installed in the indoor heat exchanger. At this time, the indoor pipe temperature detected by the indoor pipe temperature detection unit 89 is a temperature detected in the initial state. That is, it is the temperature T1 detected at the beginning of driving of a product.

Further, the outdoor pipe temperature is detected through the outdoor pipe temperature detector 75 provided in the outdoor heat exchanger. At this time, the outdoor pipe temperature detected by the outdoor pipe temperature detection unit 75 is a temperature detected in the initial state. That is, it is the temperature T2 detected at the beginning of driving of a product. In this way, the indoor piping temperature T1 and the outdoor piping temperature T2 in the initial state are detected, and the detected temperature is input to the control unit 79 (step 203).

After the indoor piping temperature T1 and the outdoor piping temperature T2 are detected in the initial state in step 203, the control unit 79 controls the cooling operation until a predetermined time elapses (S206). step).

Step 206 is a process of driving the product for a predetermined time to determine whether the installation state of the product is good or abnormal. At this time, the predetermined time is set to a time enough to determine the installation state of the product, and to be set below a certain load that may cause damage to the product.

Therefore, in the step 206, while the compressor is driven under the driving of the compressor driving unit 85, the heat exchanger 10 of the indoor unit discharges cold air according to the heat exchange effect, and the heat exchanger 30 of the outdoor unit side of the outdoor unit The hot air is discharged (of course this is when the product is installed normally).

When the time set in the step 206 has elapsed, the control unit 79 detects the current indoor pipe temperature T1 'through the outdoor pipe temperature detection unit 75 again. The indoor pipe temperature detection unit 89 detects the current indoor pipe temperature T2 '(step 209).

In step 203, the initial indoor pipe temperature T1 and the initial outdoor pipe temperature T2 are detected. In step 209, the current indoor pipe temperature T1 'and the current outdoor pipe temperature T2' are detected. Was detected. The detected initial temperature and the present temperature are compared in step 212.

In addition, the controller 79 finds a matching condition while sequentially performing steps 215, 227, 233, and 239 of the comparison between the initial temperature and the present temperature.

In step 215, the initial indoor pipe temperature T1 and the current indoor pipe temperature T1 'are maintained at substantially the same value, and the initial outdoor pipe temperature T2 and the current outdoor pipe temperature T2' are also substantially equal. This is the case when the same value is maintained. The range of almost the same value is an error tolerance of a detection part.

If the condition of step 215 is satisfied, the controller 79 reads an error state generated under the condition of step 215 from the memory 77. In this case, the refrigerant is leaking. That is, it means a bad installation state. Therefore, the control unit 79 reads out the error indication data of "Refrigerant leakage" from the memory 77 and transmits it to the control unit 93 on the indoor unit side. The control unit 93 of the indoor unit causes the "refrigerant leakage" error to be displayed on the display unit 99 (step 218).

Next, in step 227, the initial indoor pipe temperature T1 and the current indoor pipe temperature T1 'are maintained at substantially the same value, and the initial outdoor pipe temperature T2 is greater than the current outdoor pipe temperature T2'. This is the case when the value is kept small.

If the condition of the step 227 is satisfied, the controller 79 reads an error state generated under the condition of the step 227 from the memory 77. In this case, the service valve is closed. That is, it means a bad installation state. Therefore, the control part 79 reads out the error indication data of "service valve (SVC) locked" from the memory 77, and transmits it to the control part 93 of the indoor unit side. The control unit 93 of the indoor unit displays the " service valve locked " error on the display unit 99 (step 230).

Next, if the condition of step 215 is not satisfied and the condition of step 227 is not satisfied, the controller 79 determines whether the condition of step 233 is satisfied.

In step 233, the initial indoor pipe temperature T1 is maintained at a value smaller than the current indoor pipe temperature T1 ', and the initial outdoor pipe temperature T2 is greater than the current outdoor pipe temperature T2'. It is the case.

If the condition of step 233 is satisfied, the controller 79 reads an error state generated under the condition of step 233 from the memory 77. In this case, the change in the quadrilateral is in a bad state. That is, it means a bad installation state. Therefore, the control unit 79 reads out the error indication data of "periodic error" from the memory 77 and transmits this to the control unit 93 on the indoor unit side. The control unit 93 of the indoor unit causes the "four-sided defectiveness" error to be displayed on the display unit 99 (step 236).

And the control part 79 finally compares with the conditions in a steady state. When the product is normally operated in the cooling operation mode, the indoor piping temperature is larger than the current state at the initial state, and the outdoor piping temperature is smaller than the current state at the initial state. Therefore, when the condition of step 239 is satisfied, the controller 79 controls the display unit 99 to display the "normal state" indicating that the product is normally installed. If any one of the plurality of conditions is not satisfied, the process returns to the initial operation and repeatedly checks the installation state of the product.

After performing steps 218, 230, 236, and 242, the controller 79 monitors whether the operation time t1 of the trial run mode is completed (step 221), and then performs the trial run mode. When the operation time t1 is completed, the trial run mode ends (step 224).

As described above, the test operation control method of the air conditioner according to the present invention has various processes for detecting installation failure in the test operation mode, and the basic idea is to provide the detected installation failure state to the consumer or the installer. In order to detect such an installation failure state, the present invention detects the initial indoor piping temperature, the initial outdoor piping temperature, and the current indoor piping temperature and the current outdoor piping temperature after a predetermined time elapses, and compares the two values and establishes the installation defective state. Judge.

The present invention described above, by checking the installation failure state during the test operation mode of the air conditioner, it is possible to check the installation failure state of the air conditioner even in the immature state of the consumer and the installer. Therefore, it is possible to prevent safety risks and damages of the product due to poor installation, and to increase the satisfaction of a certain service and a product.

Claims (3)

A first detecting step of detecting an indoor pipe temperature and an outdoor pipe temperature at an initial stage of operation of a product in a test run mode; A second detecting step of detecting a current indoor pipe temperature and an outdoor pipe temperature after a predetermined time for confirming installation failure of the product; Comparing detection values of the first detection step and the second detection step, and when the two values are the same, displaying a "coolant leakage" error; Comparing the detected values of the first detection step and the second detection step, and displaying a "service valve locked" error when the indoor piping temperature is the same but the outdoor piping temperature is the present value; Comparing the detected values of the first detection step and the second detection step, and when the indoor piping temperature is large at the present value, but the outdoor piping temperature is large at the initial value, displaying a "periodic error" error. How to control the commissioning of air conditioners. The method of claim 1, The detection value of the first detection step and the second detection step are compared, and according to a comparison result, any one of the "refrigerant leakage" error indication, the "service valve locked" error indication, and the "four-side faulty" error indication And a step of displaying an error is repeatedly performed for a predetermined trial run time. The method of claim 1, After the second detection step Comparing the detection value of the first detection step and the second detection step, and the indoor piping temperature is a large initial value, the outdoor piping temperature is configured to further include the step of displaying a "normal state" when the current value is large; How to control commissioning of air conditioners.

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