KR20180112585A - Air-conditioner System and Method thereof - Google Patents

Abstract

The present invention relates to an air conditioner system and a control method thereof. According to the present invention, the air conditioner system comprises a plurality of air conditioners including a controller and a diagnosis server analyzing air conditioner data received from the air conditioners at predetermined time intervals to diagnose a state of the air conditioners. When a diagnosis request is received from the controller, the diagnosis server extracts data of a predetermined period from a diagnosis request time from the data about the air conditioner to diagnose the state of the air conditioner, thereby providing an effect of processing malfunction of the air conditioner in real time. Moreover, the diagnosis server extracts and analyzes the data within a predetermined period from the diagnosis request time for the air conditioner to diagnose abnormality or malfunction of the air conditioner, and quickly diagnose the air conditioner, thereby providing effects of preventing damage to the air conditioner, preventing the malfunction and maintaining a constant performance through checkup and repair for the air conditioner, and improving efficiency of the air conditioner.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner,

The present invention relates to an air conditioner system and a control method thereof, and more particularly, to an air conditioner system for diagnosing an air conditioner by analyzing data of an air conditioner and a control method thereof.

The air conditioner is installed to provide a comfortable indoor environment for humans by discharging cold air to the room to adjust the room temperature and purify the room air to create a pleasant indoor environment. Generally, the air conditioner includes an indoor unit which is constituted by a heat exchanger and installed in a room, and an outdoor unit which is constituted by a compressor, a heat exchanger and the like and supplies the refrigerant to the indoor unit.

The outdoor unit and the indoor unit are connected to each other through a refrigerant pipe, and the refrigerant compressed from the compressor of the outdoor unit is supplied to the heat exchanger of the indoor unit through the refrigerant pipe, and the indoor heat exchanger The refrigerant heat-exchanged in the heat exchanger of the indoor unit flows into the compressor of the outdoor unit through the refrigerant pipe again. Accordingly, the indoor unit discharges the cold air into the room through the heat exchange using the refrigerant.

The air conditioner is interconnected by building or small group to send and receive data, to judge its condition and diagnose the fault.

Korean patent application 19990062656A relates to a self-diagnosis device of an air conditioner, which detects temperature and pressure of an indoor unit and an outdoor unit, self-diagnoses a malfunction according to a signal from the sensor unit, and calls a service center. The service center is called through self-diagnosis during operation to enable rapid AS.

However, the conventional invention is intended to solve the trouble that occurs when a real failure occurs. Therefore, there is a problem that it can not cope with an abnormal symptom before the occurrence of a failure.

Even if an abnormality occurs, the air conditioner can not operate normally after a fault occurs, because there is a certain time delay until an actual failure occurs, and therefore, the operation is continuously performed for 24 hours There is a problem that it is difficult to cope with the generated fault when the temperature is kept constant.

In addition, such a conventional invention has limitations in constructing data regarding an abnormality or failure of the air conditioner.

Therefore, it is necessary to construct a system that checks the data in real time to check for anomalies, finds anomalous signs of faults, and responds in advance before a fault occurs even if no faults occur.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner system and a control method thereof for diagnosing an abnormality of an air conditioner by analyzing data on the air conditioner in an air conditioner system and a control method thereof.

The air conditioner system according to the present invention includes a plurality of air conditioners including a controller, a diagnosis unit for analyzing the air conditioner data received from the plurality of the air conditioners at predetermined time intervals to diagnose the condition of the air conditioner, And the diagnosis server diagnoses the condition of the air conditioner by extracting data of a predetermined period based on a time point of the diagnosis request among the data of the air conditioner when a diagnosis request is received from the controller .

The diagnosis server includes a database for storing the air conditioner data, a main controller for storing the air conditioner data in the database, and a controller for extracting data of a predetermined period based on the time point of the diagnosis request among the air conditioner data And a diagnosis unit for analyzing the air conditioner data extracted by the filtering unit and the filtering unit to diagnose the condition of the air conditioner.

The diagnosis unit may determine the state of the air conditioner by one of normal, abnormal, and failure of the air conditioner data.

Wherein the diagnosis unit compares the air conditioner data with reference data, data of other air conditioners, and past data of the air conditioner to determine a decrease in function or performance to diagnose an abnormal condition.

Wherein the diagnosis unit analyzes the air conditioner data to calculate an evaluation value for an abnormal condition and determines that the evaluation value is a normal condition if the evaluation value is less than the set value and determines the abnormal condition if the evaluation value is greater than the set value .

Wherein the diagnosis unit calculates the evaluation value of the abnormality of the air conditioner on the basis of a degree of degradation of performance and a predicted time point of occurrence of a failure.

The filtering unit extracts data of a predetermined period of the stored data as the air conditioner data based on the diagnosis requesting time point.

The filtering unit may extract data newly received for a predetermined period of time based on the diagnosis requesting time as the air conditioner data.

The filtering unit extracts data of a predetermined period of pre-stored data and data newly received for a predetermined period of time based on the diagnosis requesting time as the air conditioner data.

And the controller transmits the diagnosis request to the diagnosis server in a state in which the air conditioner operates normally.

And a terminal connected to the controller or the diagnosis server to control the air conditioner, wherein the diagnosis server receives the diagnosis request from the controller or the terminal.

A control method of an air conditioner system according to the present invention includes: storing received air conditioner data when air conditioner data is received from a plurality of air conditioners; Receiving a diagnosis request from a controller provided in the air conditioner; Extracting air conditioner data for a predetermined period based on the diagnosis requesting time point in response to the diagnosis request; Analyzing the extracted air conditioner data to diagnose the condition of the air conditioner; And generating a report on the diagnosis result, and transmitting the report.

The step of extracting the air conditioner data is characterized by extracting data of a predetermined period of pre-stored data as the air conditioner data on the basis of the time point of the diagnosis request.

The step of extracting the air conditioner data may extract data newly received for a predetermined period of time based on the time point of the diagnosis request as the air conditioner data.

The step of extracting the air conditioner data may include extracting data of a predetermined period of pre-stored data and data newly received for a predetermined period of time based on the diagnosis requesting time as the air conditioner data.

Wherein the diagnosing step diagnoses the condition of the air conditioner by any one of normal, abnormal, and failure of the air conditioner data.

The diagnosing step is characterized by comparing the air conditioner data with reference data, data of another air conditioner, and past data of the air conditioner to judge a decrease in function or performance to diagnose an abnormal condition.

The step of diagnosing further includes the step of calculating an evaluation value based on a degree of degradation of performance and a predicted time point of occurrence of a failure with respect to an abnormal state of the air conditioner.

The diagnosing step may determine that the evaluation value is a normal state when the evaluation value is less than the set value, and determines that the evaluation value is abnormal if the evaluation value is greater than the set value.

The air conditioner system and the control method according to the present invention configured as described above are configured to store data of a plurality of air conditioners and to extract data within a predetermined period based on a time point when a diagnosis for the air conditioner is requested, The abnormality or failure of the air conditioner can be diagnosed.

In addition, according to the present invention, only the data within a certain period of time is extracted and analyzed based on the time point when the diagnosis is requested, so that the air conditioner can be diagnosed quickly and the failure of the air conditioner can be prevented by diagnosing an abnormal condition, , It is possible to prevent malfunctions and maintain a certain performance by checking and repairing the air conditioner, and the efficiency of the air conditioner is improved.

1 is a view showing the configuration of an air conditioner according to an embodiment of the present invention.
FIG. 2 is a view showing a configuration of an air conditioner system according to an embodiment of the present invention.
3 is a diagram referred to explain the data flow of the air conditioner system according to the embodiment of the present invention.
4 is a block diagram schematically showing a control configuration of a diagnosis server of an air conditioner according to an embodiment of the present invention.
FIG. 5 is a diagram for explaining a diagnostic procedure for an air conditioner in an air conditioner system according to an embodiment of the present invention.
FIG. 6 is a diagram for explaining data of a periodical air conditioner of an air conditioner system according to an embodiment of the present invention. Referring to FIG.
7 is a flowchart referred to for describing a control method for diagnosis of an air conditioner system according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. Hereinafter, each unit, controller, and management server of the air conditioner may be implemented by at least one processor, and may be implemented by a hardware device.

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

1 is a view showing the configuration of an air conditioner system according to an embodiment of the present invention.

1, the air conditioner system includes a plurality of air conditioners 1 to n, a service center 70, a management server 200, a diagnosis server 100, and a terminal 80 . In addition, the air conditioner system may accumulate data of the air conditioner and further include a database (not shown).

The air conditioner 10 is installed at a plurality of positions and a plurality of the air conditioners 1 to n are connected to the diagnosis server 100 and the management server 200 via the network N. [

The service center 70 performs customer support, repair, and inspection services for the air conditioner. The service center 70 accepts user's complaints via the Internet or telephone network, remotely conducts the consultation, and dispatches the service engineer to the place where the air conditioner is installed in response to the repair request of the air conditioner.

The service center 70 is connected to the diagnosis server 100 and the management server 200 through a network and performs a repair or an inspection according to the diagnosis result of the diagnosis server in accordance with the abnormality or failure of the air conditioner And then dispatches the service technician accordingly.

The terminal 80 is connected to the air conditioner through the network N to monitor the condition of the air conditioner and control the operation. In addition, the terminal 80 can access the service center 70 through the network to request a service. The terminal 80 is a device equipped with a communication module and capable of network connection and an application for controlling an air conditioner, and a device such as a computer, a laptop, a smart phone, a PDA, or a tablet PC can be used. The terminal 80 connects to any one of the plurality of air conditioners or monitors data of the corresponding air conditioner according to the access right.

The management server 200 stores data received from a plurality of air conditioners (1 to n) 10 in a database and manages data. The management server 200 is connected to the controllers of the respective air conditioners for the plurality of air conditioners 1 to n to receive data from the controller and provide necessary data according to the request of the controller. The management server 200 manages the connection between the service center and the air conditioner and the connection of the terminals.

The management server 200 can be built in a regional or country unit, and can manage data on the air conditioner and analyze the operation of the air conditioner. In addition, the management server 200 obtains statistical information on the failure history and power use of the air conditioner according to the environment or the facility base by analyzing and processing data on the plurality of air conditioners, Can be analyzed.

The diagnostic server 100 analyzes the data of the air conditioner, determines the condition of the air conditioner, and diagnoses the abnormality or failure. The diagnosis server 100 stores the diagnosis result of the air conditioner and transmits the diagnosis result to the management server.

The diagnosis server 100 analyzes data provided when diagnosis of the air conditioner is requested and determines whether the air conditioner is faulty. The diagnostic server 100 can determine that the performance of the air conditioner is abnormal, and judges the abnormality by predicting the possibility of occurrence of a failure within a predetermined time although it is not a failure state.

The diagnostic server 100 analyzes the cause of the failure with respect to the failure occurring in the air conditioner, calculates a countermeasure for the failure, and outputs the diagnosis result. In addition, the diagnostic server 100 analyzes the performance of the air conditioner to determine whether there is an abnormality in the air conditioner operating normally, predicts the failure, connects to the service center when the inspection is required, .

The air conditioner, the terminal, and the service center can each request the diagnosis of the air conditioner to the diagnosis server, and the diagnosis server diagnoses the air conditioner based on the data provided from the management server. In some cases, the management server may also send the received data to the diagnostic server to request the diagnosis.

In some cases, the management server 200 and the diagnostic server 100 may be constructed as a single server, and may be configured as a plurality of servers to distribute data. The management server (200) assigns tasks to distribute data for a plurality of air conditioners and controls connection of the air conditioners.

2 is a view illustrating the configuration of an air conditioner according to an embodiment of the present invention.

2, the air conditioner 10 includes an outdoor unit 11, an indoor unit 12, and a controller 14. As shown in Fig.

The air conditioner 10 may further include a chiller 13, an air conditioning unit (not shown), a ventilator, and the like, and may further include at least one of an air purifier, a humidifier, and a heater. The air conditioner is operable to operate in conjunction with the operation of the indoor unit and the outdoor unit. In addition, the air conditioner 10 may be connected to a building, a mobile device, a security device, an alarm device, or the like to operate in conjunction with the air conditioner.

The controller 14 controls the operation of the indoor unit 12 and the outdoor unit 11 in response to an input user command and periodically receives and stores data on the operation statuses of the indoor unit and the outdoor unit corresponding thereto and displays a monitoring screen And outputs the operation status through the interface. The controller is connected to the indoor unit 12 to perform operation setting, lock setting, schedule control, group control, peak control for power use, and demand control for the indoor unit.

The controller 14 manages a plurality of connected units, and can change the operation setting or control the operation according to a request of the terminal connected through the network, and transmits the data of the air conditioner to the management server or the diagnosis server do.

If an abnormality occurs in the air conditioner or a malfunction occurs, the controller 14 may contact the service tester to report the malfunction and request repair or inspection. In addition, the controller 14 may request the diagnostic server to diagnose the cause of the failure when an error or a failure occurs.

The controller 14 can request diagnosis from the diagnosis server as necessary even when the air conditioner is operating normally.

The outdoor unit (11) is connected to the indoor unit (12) by a refrigerant pipe, and supplies the refrigerant to the indoor unit. The outdoor unit 11 periodically communicates with the plurality of indoor units to exchange data with each other, and changes the operation according to the operation setting changed from the indoor unit.

The indoor unit 12 includes an electronic expansion valve (not shown) for expanding the refrigerant supplied from the outdoor unit 11, an indoor heat exchanger (not shown) for exchanging heat of the refrigerant, indoor air introduced into the indoor heat exchanger, (Not shown) for exposing the indoor unit, a plurality of sensors (not shown), and control means (not shown) for controlling the operation of the indoor unit.

The indoor unit 12 includes a discharge port (not shown) for discharging the heat-exchanged air, and the discharge port is provided with a wind direction adjusting unit (not shown) for closing the discharge port and controlling the direction of the discharged air. The indoor unit controls the intake air and the air to be discharged by controlling the rotation speed of the indoor fan, and adjusts the air flow rate. The indoor unit 12 may further include an output unit for displaying the operating state and setting information of the indoor unit, and an input unit for inputting the setting data. At this time, the indoor unit 12 transmits setting information for the operation of the air conditioner to a connected remote controller (not shown), outputs the information through the remote controller, and receives data.

The outdoor unit 11 operates in a cooling mode or a heating mode in response to data received from the connected indoor unit 12 or a control command of the controller, and supplies the refrigerant to the connected indoor unit.

When a plurality of outdoor units are connected, the outdoor units can be connected to a plurality of indoor units, and the refrigerant can be supplied to the plurality of indoor units through the distributor.

The outdoor unit 11 includes at least one compressor for compressing the refrigerant and discharging the gas refrigerant at high pressure, an accumulator for separating the gas refrigerant and the liquid refrigerant from the refrigerant to prevent the liquid refrigerant, which has not been vaporized, from flowing into the compressor, An oil recovery device for recovering oil in the refrigerant, an outdoor heat exchanger for condensing or evaporating the refrigerant by heat exchange with the outside air, an outdoor heat exchanger for introducing air into the outdoor heat exchanger to smooth the heat exchange of the outdoor heat exchanger, A four-way valve for changing the flow path of the refrigerant according to the operation mode of the outdoor unit, at least one pressure sensor for measuring the pressure, at least one temperature sensor for measuring the temperature, and an outdoor unit for controlling the operation of the outdoor unit, And a control configuration for performing communication. The outdoor unit 11 further includes sensors, valves, supercoolers, and the like, but a description thereof will be omitted in the following.

3 is a diagram referred to explain the data flow of the air conditioner system according to the embodiment of the present invention.

The air conditioner system includes a plurality of air conditioners 1 to n, a diagnosis server 100, and a management server 200 as described above.

The diagnostic server 100 and the management server 200 may be constructed as one server, and the diagnostic server 100 may be provided without a management server. Also, a plurality of servers may function as a diagnosis server and a management server, respectively, so that data of the air conditioner may be dispersed and processed.

3 (a), when the diagnosis server is provided in the air conditioner system, or when the diagnosis server and the management server are constructed as one server, The data of the harmonics is analyzed to diagnose an abnormality or a failure and the diagnosis result is sent to the controller (S2). Hereinafter, it will be described that the diagnostic server 100 is implemented as one server.

The controller of the air conditioner transmits data to the diagnosis server 100, and the diagnosis server 100 manages the data of the air conditioner. When a diagnostic request is received from the controller or terminal, the diagnostic server analyzes the stored or received data to diagnose an abnormality or failure to the air conditioner.

3 (b), when the diagnosis server and the management server are provided, the management server stores and manages the data S11 received from the controller in the database, and when there is a diagnosis request S12), the necessary data is extracted and transmitted to the diagnosis server (S13).

The management of the data and the processing of the connection of the controller are performed in the management server, and the diagnosis server analyzes the received data to diagnose the condition of the air conditioner and transmits the diagnosis result (S14).

The diagnosis server diagnoses the air conditioner according to the request, but it analyzes the received data even without a separate request to diagnose the abnormality or failure. At this time, in order for the diagnosis server to process data for a plurality of air conditioners, the diagnostic server 100 stores the received data in a memory, immediately analyzes the data in real time, and judges and classifies normal, abnormal, So that data on abnormalities or failures can be stored in the database.

In addition, the diagnosis server 100 analyzes the air conditioner data for a predetermined period according to the diagnosis request to diagnose the air conditioner. At this time, the data is extracted and analyzed according to the setting based on the time when the diagnosis request is input.

For example, the diagnostic server 100 may analyze the data of the time before and after the reference time point based on the time point at which the diagnosis request is input, analyze the data of a predetermined period of time based on the time point of the diagnosis request, , It is possible to diagnose the air conditioner by analyzing data received thereafter based on the time of the diagnosis request. Which data is analyzed to diagnose the air conditioner can be changed depending on the setting.

4 is a block diagram schematically showing a control configuration of a diagnosis server of an air conditioner according to an embodiment of the present invention.

4, the diagnostic server 100 includes a communication unit 170, a memory 150, a filtering unit 120, a diagnosis unit 130, a message generating unit 160, a database 140, And a main control unit 110 for controlling the first half. Each configuration of the diagnostic server, including the main control, may each be implemented by one or more processors and implemented by a hardware device.

The memory 150 is a storage device inside the diagnostic server, and stores data of the diagnostic server. The memory 150 stores control data for operation and data processing of the diagnosis server, data for diagnosis of failure, and data to be transmitted and received. The memory 150 may be implemented by various storage devices such as a ROM, a RAM, an EPROM, a flash drive, a hard drive, and the like in hardware.

The memory 150 stores the air conditioner data received from the communication unit 170, stores the diagnosis result by the diagnosis unit 130, and stores the message generated by the message generating unit 160.

The memory 150 temporarily stores the air conditioner data. The memory temporarily stores the air conditioner data for data analysis before being stored in the database 140.

The memory 150 stores data of the air conditioner data for a predetermined period of time based on the time point of the diagnosis request. The main control unit 110 causes the database 140 to store data other than the data used for the diagnosis based on the time point of the diagnosis request.

The communication unit 170 receives the air conditioner data from the air conditioner 10 or the management server 200 via the network N. [ When the communication unit 170 receives data from the plurality of air conditioners 1 to n or the management server 200, the communication unit 170 temporarily stores the data in the memory 150. [

The communication unit 170 is connected to the management server 200 and the terminal 80 via a network to transmit and receive data. The communication unit 170 transmits a diagnosis result of the diagnosis unit 130 or a message generated by the message generation unit 160 to the service center 70, the terminal 80, the management server 200, To the tuner (10).

The filtering unit 120 filters the air conditioner data stored in the memory 150. The filtering unit 120 determines whether or not the air conditioner data stored in the memory is readable data, and discards the data if it is impossible to read or when an error is included. The main control unit can request to retransmit data with an error.

The filtering unit 120 filters the data stored in the database according to the control command of the main control unit, which is necessary for diagnosis based on the diagnosis time point, and stores the filtered data in the memory. In some cases, when filtered data is received from the management server, that is, when data necessary for diagnosis is received based on the diagnosis time, the data is stored without additional filtering.

The diagnosis unit 130 analyzes the air conditioner data stored in the memory, particularly the cycle data, and performs part diagnosis, operation status, and performance diagnosis on the air conditioner.

The diagnosis unit 130 analyzes the air conditioner data to determine whether the air conditioner is in a normal state or an abnormal state. When the air conditioner is in a normal state, the diagnosis unit 130 determines that the air conditioner is in a normal state and generates a diagnosis result.

The diagnosis unit 130 analyzes the air conditioner data indicating an abnormal condition and generates a diagnosis result including a countermeasure for resolving the abnormal condition, the cause of the abnormality, and the abnormality.

In addition, the diagnosis unit 130 analyzes the air conditioner data to distinguish between an abnormal condition and a fault condition, and in the case of a fault condition, generates a diagnosis result including a cause of the fault and a countermeasure for resolving the fault.

The diagnosis unit 130 compares the information included in the data of the air conditioner with the reference value to determine whether there is an abnormality. The diagnosis unit 130 analyzes the air conditioner data in consideration of comparison between the same devices, And diagnoses a failure according to the result.

In addition, the diagnosis unit 130 analyzes the data of the air conditioner according to the period, and determines the abnormality of the air conditioner. The diagnosis unit 130 diagnoses a failure and an abnormality based on a change in data for a predetermined period while diagnosing the air conditioner in real time, and predicts a failure.

If the abnormality of the air conditioner is determined by the diagnosis unit 130 in real time, that is, if it is determined that the abnormality does not occur, that is, the abnormality occurs, the abnormality determination unit 130 determines the performance based on the cycle data, If the value is decreased by more than the predetermined value, it is diagnosed as an abnormal state. In addition, the diagnosis unit 130 can calculate the probability of occurrence of a failure or the expected period of time until a failure occurs when the current state is maintained, based on previously stored statistical data. In addition, the diagnosis unit 130 can determine that the diagnostic unit 130 is in a failure state when it is diagnosed that it is abnormal more than a certain number of times by counting the number of times of the abnormal state, or when it is determined as an abnormal state continuously.

The abnormal state indicates a state in which the air conditioner is in a state in which the air conditioner is operable, a performance or efficiency is low, and a state in which a fault may occur within a predetermined time although it is presently operating. On the other hand, the fault state is a state in which a fault has already occurred and operation can not be performed.

The diagnosis unit 130 diagnoses the abnormality of the sensor and the components from the air conditioner data and estimates the efficiency and performance of the equipment so that the diagnosis unit 130 determines that the air conditioner is in one of the normal state and the abnormal state And generates a diagnosis result.

The diagnosis server 100 may be configured to determine whether the air conditioner is in normal operation, that is, if the data value falls within the normal range, It can be judged as an abnormal state. The diagnostic server 100 can compare the current data with data already stored in the database or other air conditioners of the same model and other similar performance data of similar performance to determine the abnormality and predict the performance degradation.

For example, the diagnostic server 100 may compare the data of the air conditioner based on the product model, installation location, model, structure, capacity, historical data of the period, temperature, humidity, weather and seasonal information of the air conditioner Thereby diagnosing the air conditioner.

The diagnostic server 100 compares and analyzes the values shown in the cycle information of each device from the air conditioner data to derive the on-site average sensor value, abnormal value, device usage pattern, and the like, By analyzing the sensor values shown in the figure, the trend of the sensor value fluctuation according to the external environment is confirmed, and the cycle information is compared with the actual installation environment of the apparatus to derive the cycle operation trend according to the installation environment to diagnose the air conditioner.

The air conditioner 10 is provided with a plurality of pieces of information generated or measured during operation, for example, measured values of temperature sensors such as room temperature, outdoor temperature, and refrigerant temperature, measured values of pressure sensors such as compressor pressure, The air conditioner data including the valve operation and the valve consumption voltage or current value, the abnormality of the valve, the compressor abnormality, the fan motor abnormality, the heat exchanger contamination, the refrigerant insufficient amount, the communication status, To the diagnosis server (100).

When the abnormality state is determined, the diagnosis unit is not in a failure state, but the air conditioner is inspected before a failure occurs to generate a diagnosis result to eliminate the abnormal state.

The message generator 160 generates a message corresponding to the diagnosis result and transmits the generated message to the air conditioner 10 or the terminal 80. At this time, the message is generated in a form readable by the air conditioner or the terminal. In the case of transmitting to the terminal, the message may be composed of a short message, a multimedia message, and a mobile web page.

If the message generating unit determines that the abnormality or failure is detected, the diagnosis unit may transmit the diagnosis result to the air conditioner or the terminal through the communication unit, and transmit the diagnosis result and the failure history to the service center. The message generator can generate a text based error notification or a GUI based diagnosis report so that the user can check the diagnosis result and transmit the report.

The main control unit 110 controls the communication unit to transmit / receive data, and controls data input / output of the memory and the database.

The main control unit 110 receives the air conditioner data 200 from a plurality of air conditioners installed in the whole country via the network N and stores the data in a database. Through the filtering unit, temporarily stored in the memory, and diagnoses the state of the air conditioner.

The main control unit 110 causes the database 140 to store the air conditioner data for the air conditioner in the abnormal state according to the diagnosis result of the diagnosis unit together with the diagnosis result.

When the diagnosis of the air conditioner is completed, the main control unit 110 deletes the data temporarily stored in the memory and causes the data of the air conditioner requested to be diagnosed next to be stored in the memory.

The main control unit 110 manages data stored in the database 140. The main control unit 110 calls the data stored in the database and stores the data in the memory. The database is provided in the diagnosis server. However, the database may be provided in the management server, or may be provided in each server, or may be provided as an independent data server and connected through a network.

The main control unit 110 transmits a diagnosis result to the service center through the communication unit 170 in the case of an abnormal state or a failure state corresponding to the diagnosis result of the diagnosis unit 130, .

Also, the main control unit 110 causes the message generated by the message generation unit to be transmitted through the communication unit 170. [

The diagnosis server analyzes the data of the air conditioner of the memory to diagnose the abnormality or failure and draws a corresponding solution. The diagnosis server can compare the data of the air conditioner with the data of the same air conditioner, compare with the past data of the corresponding air conditioner, and diagnose the air conditioner based on the data of the external environment or the installation environment.

FIG. 5 is a diagram for explaining a diagnostic procedure for an air conditioner in an air conditioner system according to an embodiment of the present invention.

As shown in FIG. 5A, the diagnostic server 100 receives and stores the data 301 of the air conditioner 10 (302).

The filtering unit 120 filters and discards unrecognized data or errored data among the received data. The main control unit can request retransmission of data to be discarded. In addition, the filtering unit 120 filters the data necessary for diagnosis and stores the filtered data in the memory.

The main control unit 110 receives the diagnosis request from the controller 14 or the terminal 80 through the communication unit and controls the diagnosis unit to analyze the data of the air conditioner requested for diagnosis so that diagnosis is performed. The main control unit 110 controls the filtering unit to extract data of a predetermined period based on the time point of the diagnosis request. The filtering unit extracts data for a certain period of time based on a time point when the diagnosis is requested among the data for the air conditioner requested to be diagnosed according to the control command of the main control unit 110 and stores the data in the memory.

5 (b), the diagnosis unit 130 analyzes the data of the air conditioner stored in the memory 150 to diagnose the failure.

The diagnosis unit 130 compares the data of the air conditioner, that is, the cycle data, with previously stored reference data to determine whether the normal operation is normal, and determines normal, abnormal, and failure. In addition, the diagnosis unit 130 may analyze the change of data for a predetermined period of time, and may determine the abnormal state if it is determined that the performance or the function is degraded.

The diagnosis unit 130 analyzes the cause of the configuration or function that is judged to be in an abnormal state or a failure state, and derives a countermeasure therefor.

As shown in FIG. 5 (c), based on the diagnosis result of the message generator 160, a report 306 to be transmitted to the controller of the air conditioner or the terminal is generated. In addition, the message generating unit can generate a notification about the completion of the diagnosis, and can separately generate summary information about the diagnosis result. The message generator may generate a message requesting repair or inspection in response to an abnormality or a diagnosis result of a failure.

The main control unit 110 transmits the generated diagnosis result report to the controller, the management server, and the terminal through the communication unit. The main control unit 110 allows the message, notification, and summary information generated through the message generation unit to be transmitted through the communication unit.

FIG. 6 is a diagram for explaining data of the air conditioner of each period of the air conditioner system according to the embodiment of the present invention.

As described above, in the case of diagnosing the air conditioner, the diagnosis server diagnoses the failure by using data of a certain period based on the point of time when the diagnosis is requested, not using all the data of the air conditioner.

When the diagnosis request is received, the main control unit 110 of the diagnosis server 100 controls the filtering unit to extract data of a predetermined period from the data of the air conditioner.

As shown in FIG. 6 (a), the diagnostic server analyzes the received data within a predetermined period of time before and at the time of the diagnosis request based on the diagnosis request time (t) to diagnose the air conditioner. The diagnosis unit analyzes the data 311 to 313 from the time t of the diagnosis request to the first time t-1 to diagnose the condition of the air conditioner.

As shown in FIG. 6 (b), the diagnostic server 100 diagnoses the air conditioner by analyzing the previous data and the subsequent data based on the diagnosis request time t.

The diagnosis unit 323 and the data 323 and 324 up to the second time t-2 received from the diagnosis requesting time t and the future third time t + 2) are analyzed to diagnose the condition of the air conditioner.

6 (c), the diagnostic server 100 ignores the stored data on the basis of the diagnosis requesting time t and outputs the data up to the future fourth time t + 3 331 to 333) to analyze the air conditioner.

In addition, the diagnosis server 100 can diagnose the condition of the air conditioner using data after a predetermined time or data before a certain time based on the diagnosis request time t.

The diagnosis server analyzes the data for a certain period of time in the past or the future based on the diagnosis time and analyzes the condition of the air conditioner to diagnose the current condition of the air conditioner. The period of data extracted based on the time of the diagnosis request can be changed according to the setting. Whether to use past data or future data to be received based on the time of the diagnosis request can be changed according to the setting.

It should be noted that the number of data used for diagnosis is not limited to the drawings.

7 is a flowchart referred to for describing a control method for diagnosis of an air conditioner system according to an embodiment of the present invention.

As shown in FIG. 7, the controller 14 is connected to the diagnostic server 100 via the network N (S310). The controller 14 transmits the air conditioner data to the diagnostic server 100 at a predetermined period. When the management server 200 is provided, the controller 14 can transmit data to the management server.

The air conditioner data is accumulated in the database 140 (S320). The diagnostic server 100 can be all stored in a database and can also store and filter data. The diagnosis server 100 diagnoses the condition of the air conditioner by storing the received data in a memory and analyzing the data in real time. The diagnosis server 100 may filter the data according to the diagnosis result of the air conditioner and store some data of the received data in the database.

If no separate diagnosis request is received, the diagnostic server can periodically diagnose data received from a plurality of air conditioners and determine the condition of each air conditioner.

When the diagnosis request for the predetermined air conditioner is received from the controller 14 or the terminal 80 at step S330, the diagnostic server 100 extracts data of a predetermined period based on the time point at which the diagnosis request is received (S340) .

As shown in FIG. 6, the diagnosis server 100 extracts data of the air conditioner for a predetermined period based on the time point of the diagnosis request. For example, it is possible to extract past data of a certain period received based on the time of diagnosis request, to wait for the diagnosis request time, to extract data of a certain period received in the future, As a standard, data of a certain period of time and data of a certain period received after the time of a diagnosis request can be used. Also, the data before the predetermined time or the data after the predetermined time may be used based on the time of the diagnosis request.

The diagnosis unit analyzes the extracted data (S350). The diagnosis unit compares the data of the air conditioner with the reference data, and also analyzes the condition of the air conditioner with the data of other air conditioners of the same model, the past data of the air conditioner, and the like.

The diagnosis unit determines whether there is a failure or an abnormality according to the comparison result (S360).

The diagnostic unit determines the abnormal state by setting the reference for the abnormal state and the normal state. The diagnosis unit judges that the system is in a failure state in the case of a failure, and when it is judged that the system is in an abnormal state, such as a deterioration in performance although it is not a failure state, the evaluation value is calculated step by step. That is, even if the diagnostic unit is in an abnormal state, the evaluation value is calculated in accordance with the step because there is a difference in the progress degree. The diagnostic unit can calculate the evaluation value according to the severity of the abnormal state and calculate the evaluation value based on the predicted time until the failure occurs.

The diagnostic unit compares the evaluation value with the set value (A) (S370). If the value is larger than the set value, the diagnostic unit determines that the abnormal condition is abnormal (S390).

The diagnostic unit generates and stores a report on the diagnosis result (S400).

The main control unit transmits the report on the diagnosis result to the controller or the terminal through the communication unit. In some cases, the main control unit may transmit the report to the management server. The message generator may generate a message or summary information corresponding to the diagnosis result as a message and transmit the generated message or the summary information to the controller or the terminal.

The present invention relates to a method for diagnosing the condition of an air conditioner by analyzing data of an air conditioner, in which, when a diagnosis is requested during normal operation rather than diagnosing a fault in the event of a fault such as an error, The data of a certain period is extracted and the diagnosis of the air conditioner is made, and the abnormality of the air conditioner is judged by analyzing the degradation of the performance. The present invention can quickly diagnose the condition of the air conditioner by extracting and diagnosing data of a certain period of time, and can determine and respond to an abnormal condition before a failure occurs.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

1 to n, 10: air conditioner
11: outdoor unit 12: indoor unit
14:
70: service center 80: terminal
100: diagnosis server 200: management server
110: main control unit 130: diagnosis unit
140: Database 150: Memory

Claims (19)

A plurality of air conditioners including a controller;
A diagnosis server for analyzing the air conditioner data received from the plurality of air conditioners at predetermined time intervals to diagnose the condition of the air conditioner; Lt; / RTI >
Wherein the diagnosis server diagnoses the condition of the air conditioner by extracting data of a predetermined period based on a time point of the diagnosis request among the data of the air conditioner when a diagnosis request is received from the controller, system. The method according to claim 1,
The diagnostic server,
A database storing the air conditioner data;
A main controller for storing the air conditioner data in the database;
A filtering unit for extracting data of a predetermined period based on the time point of the diagnosis request among the air conditioner data; And
And a diagnosis unit for analyzing the air conditioner data extracted by the filtering unit to diagnose the condition of the air conditioner. 3. The method of claim 2,
Wherein the diagnosis unit determines the state of the air conditioner by one of normal, abnormal, and failure of the air conditioner data. The method of claim 3,
Wherein the diagnosis unit compares the air conditioner data with reference data, data of another air conditioner, and past data of the air conditioner to determine a deterioration of function or performance to diagnose an abnormal condition. . The method of claim 3,
Wherein the diagnosis unit analyzes the air conditioner data to calculate an evaluation value for an abnormal condition and determines that the evaluation value is a normal condition if the evaluation value is less than the set value, Air conditioning system. 6. The method of claim 5,
Wherein the diagnosis unit calculates the evaluation value based on a degree of deterioration of performance and a predicted time point of occurrence of a failure, the abnormality state of the air conditioner. 3. The method of claim 2,
Wherein the filtering unit extracts data of a predetermined period of the stored data as the air conditioner data based on the diagnosis requesting time point. The method of claim 3,
Wherein the filtering unit extracts data newly received for a predetermined period of time based on the diagnosis requesting time as the air conditioner data. The method of claim 3,
Wherein the filtering unit extracts, as the air conditioner data, data of a predetermined period of pre-stored data and data newly received for a predetermined period of time based on the diagnosis requesting time point. The method according to claim 1,
Wherein the controller transmits the diagnosis request to the diagnosis server when the air conditioner is operating normally. The method according to claim 1,
Further comprising a terminal connected to the controller or the diagnosis server to control the air conditioner,
Wherein the diagnosis server receives the diagnosis request from the controller or the terminal. Storing the received air conditioner data when the air conditioner data is received from a plurality of air conditioners;
Receiving a diagnosis request from a controller provided in the air conditioner;
Extracting air conditioner data for a predetermined period based on a time point of the diagnosis request in response to the diagnosis request;
Analyzing the extracted air conditioner data to diagnose the condition of the air conditioner; And
Generating a report on the diagnostic result, and transmitting the report. 13. The method of claim 12,
Wherein the step of extracting the air conditioner data comprises extracting data of a predetermined period of the stored data as the air conditioner data based on the time point of the diagnosis request. 13. The method of claim 12,
Wherein the step of extracting the air conditioner data comprises extracting newly received data for a predetermined period of time based on the time point of the diagnosis request as the air conditioner data. 13. The method of claim 12,
Wherein the step of extracting the air conditioner data includes extracting data of a predetermined period of the stored data and data newly received for a predetermined period of time based on the time point of the diagnosis request as the air conditioner data Control method of harmonics system. 13. The method of claim 12,
Wherein said diagnosing step diagnoses the state of the air conditioner by any one of normal, abnormal, and failure of the air conditioner data. 13. The method of claim 12,
Wherein the diagnosis is performed by comparing the air conditioner data with reference data, data of another air conditioner, and past data of the air conditioner to determine a decrease in function or performance to diagnose an abnormal condition Control method of harmonics system. 18. The method of claim 17,
Wherein the diagnosing step further comprises calculating an evaluation value based on a degree of degradation of performance and a predicted time point of occurrence of a failure with respect to an abnormal state of the air conditioner. 19. The method of claim 18,
Wherein the diagnosing step determines that the evaluation value is in a normal state when the evaluation value is less than the set value and determines the abnormal state when the evaluation value is equal to or greater than the set value.

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