KR102393602B1 - Air-conditioner System and Method thereof - Google Patents

Abstract

The present invention relates to an air conditioner system and a method for controlling the same, and the state of the air conditioner by analyzing a plurality of air conditioners including a controller and air conditioner data received at predetermined time intervals from the plurality of air conditioners and a diagnosis server for diagnosing, wherein when a diagnosis request is received from the controller, the diagnosis server extracts data for a certain period of time from the time of diagnosis request from among the data on the air conditioner to determine the state of the air conditioner. By diagnosing, the failure of the air conditioner is handled in real time, and data is extracted and analyzed within a certain period of time based on the time when the diagnosis of the air conditioner is requested to diagnose the abnormality or failure of the air conditioner, and to quickly return to the air conditioner. By diagnosing abnormal conditions and predicting failure, damage to the air conditioner is prevented, and failure can be prevented and the performance can be maintained through inspection and repair of the air conditioner, and the efficiency of the air conditioner is improved. has the effect of being

Description

Air conditioner system and its control method {Air-conditioner System and Method thereof}

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

The air conditioner is installed to provide a more comfortable indoor environment for humans by discharging hot and cold air into the room to create a comfortable indoor environment, controlling the indoor temperature, and purifying the indoor air. In general, an air conditioner includes an indoor unit configured as a heat exchanger and installed indoors, and an outdoor unit configured as a compressor and a heat exchanger and supplying refrigerant to the indoor unit.

The air conditioner is controlled separately from an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and a heat exchanger. and the refrigerant heat-exchanged in the heat exchanger of the indoor unit flows back into the compressor of the outdoor unit through the refrigerant pipe. Accordingly, the indoor unit discharges hot and cold air into the room through heat exchange using the refrigerant.

Air conditioners are interconnected in units of buildings or small groups to transmit and receive data, determine their status, and diagnose failures.

Korean patent application 19990062656A relates to a self-diagnosis reporting device for air conditioners, which detects the temperature and pressure of indoor and outdoor unit units, self-diagnoses whether there is a malfunction according to the signal from the sensor unit, and calls the service center. It is to enable quick after-sales service by calling the service center through self-diagnosis during operation.

However, the conventional invention is to solve the actual failure when it occurs. Therefore, it is intended to respond after a failure occurs, and there is a problem in that it cannot respond to abnormal symptoms before the failure occurs.

Even if an abnormality occurs, there is a certain amount of time difference until the actual failure occurs, so it is difficult to respond quickly. After the failure occurs, the air conditioner cannot operate normally. Therefore, when it is necessary to maintain a constant temperature condition, there is a problem in that it is difficult to cope with the generated failure.

In addition, this conventional invention has a limit in constructing data on an abnormality or failure of the air conditioner.

Therefore, even if a failure does not occur, it is necessary to establish a system that checks the data in real time to check whether there is an abnormality, detects abnormal signs of a failure, and responds in advance before a failure occurs.

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

The air conditioner system according to the present invention provides a plurality of air conditioners including a controller, and a diagnosis for diagnosing the state of the air conditioner by analyzing the air conditioner data received at predetermined time intervals from the plurality of air conditioners and a server, wherein when a diagnosis request is received from the controller, the diagnosis server extracts data for a certain period of time from the diagnosis request time from among the data on the air conditioner to diagnose the condition of the air conditioner. do it with

The diagnosis server includes a database in which the air conditioner data is stored, a main controller that stores the air conditioner data in the database, and extracts data for a certain period of time based on the diagnosis request time from among the air conditioner data. It includes a filtering unit and a diagnostic unit for diagnosing the state of the air conditioner by analyzing the air conditioner data extracted by the filtering unit.

The diagnosis unit may determine the state of the air conditioner as any one of normal, abnormal, and malfunction with respect to the air conditioner data.

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 state.

The diagnosis unit analyzes the air conditioner data, calculates an evaluation value for an abnormal state, determines that the evaluation value is less than a set value, as a normal state, and determines as an abnormal state if the evaluation value is greater than the set value. .

The diagnosis unit may calculate the evaluation value of the abnormal state of the air conditioner based on a degree of deterioration in performance and a predicted time of occurrence of a failure.

The filtering unit may extract, as the air conditioner data, data of a predetermined period of pre-stored data based on the diagnosis request time.

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

The filtering unit may extract data of a predetermined period of pre-stored data and data newly received within a predetermined period as the air conditioner data based on the time of the diagnosis request.

The controller may transmit the diagnosis request to the diagnosis server while 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 method of controlling an air conditioner system according to the present invention includes: when air conditioner data is received from a plurality of air conditioners, storing the received air conditioner data; receiving a diagnosis request from a controller provided in the air conditioner; in response to the diagnosis request, extracting air conditioner data for a certain period based on the diagnosis request time; diagnosing the state of the air conditioner by analyzing the extracted air conditioner data; and generating a report on the diagnosis result and transmitting the report.

The extracting of the air conditioner data may include extracting data of a certain period of pre-stored data as the air conditioner data based on the diagnosis request time.

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

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

The diagnosing may include diagnosing the condition of the air conditioner as any one of normal, abnormal, and malfunction with respect to the data of the air conditioner.

The diagnosing may include comparing 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 state.

The diagnosing may further include calculating an evaluation value for the abnormal state of the air conditioner based on the degree of deterioration in performance and the predicted timing of the occurrence of a failure.

In the diagnosing, when the evaluation value is less than a set value, it is determined as a normal state, and when the evaluation value is greater than the set value, it is determined as an abnormal state.

The air conditioner system and the control method thereof according to the present invention configured as described above store data of a plurality of air conditioners, extract and analyze data within a certain period of time based on the time when the diagnosis of the air conditioner is requested By doing so, it is possible to diagnose an abnormality or failure of the air conditioner.

In addition, the present invention can quickly diagnose the air conditioner by extracting and analyzing only data within a certain period of time based on the time when the diagnosis is requested, and prevents damage to the air conditioner by diagnosing an abnormal state and predicting a failure. , through inspection and repair of the air conditioner, it is possible to prevent failure and maintain a certain performance, and there is an effect of improving the efficiency of the air conditioner.

1 is a diagram showing the configuration of an air conditioner according to an embodiment of the present invention.
2 is a diagram illustrating the configuration of an air conditioner system according to an embodiment of the present invention.
3 is a diagram referenced for explaining a data flow of an air conditioner system according to an embodiment of the present invention.
4 is a block diagram schematically illustrating a control configuration of a diagnostic server of an air conditioner according to an embodiment of the present invention.
5 is a diagram referenced for explaining a diagnosis process for the air conditioner of the air conditioner system according to the embodiment of the present invention.
6 is a diagram referenced to explain data of the air conditioner for each period of the air conditioner system according to an embodiment of the present invention.
7 is a flowchart referenced to explain a control method for diagnosing an air conditioner system according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout. Hereinafter, each unit of the air conditioner, the controller, and the management server may be implemented as at least one processor, or may be implemented as a hardware device.

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

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

As shown in FIG. 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 . . Also, the air conditioner system may accumulate and store data of the air conditioner and further include a database (not shown).

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

The service center 70 performs customer support, repair, and inspection services for the air conditioner. The service center 70 receives user complaints through the Internet or telephone network, conducts remote consultation, and dispatches a service technician to a place where the air conditioner is installed in response to a repair request for the air conditioner.

The service center 70 is connected to the diagnosis server 100 and the management server 200 through a network, and according to the diagnosis result of the diagnosis server, the air conditioner is repaired or inspected according to the presence or absence of an abnormality or failure of the air conditioner. Set up reservations for , and have service technicians dispatched accordingly.

The terminal 80 is connected to the air conditioner through the network N, monitors the state of the air conditioner, and controls the operation. Also, the terminal 80 may access the service center 70 through a network and request a service. The terminal 80 is a device equipped with a communication module to enable network connection, and an application for controlling the air conditioner is installed, and devices such as a computer, a laptop, a smart phone, a PDA, and a tablet PC may be used. The terminal 80 connects to any one of the plurality of air conditioners according to the access authority, or monitors data for the corresponding air conditioner.

The management server 200 stores data received from the plurality of air conditioners 1 to n (10) in a database, and manages the data. The management server 200 is connected to the controller of each air conditioner with respect to the plurality of air conditioners 1 to n, receives data from the controller, and provides 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 terminal.

The management server 200 may be built on a regional or country basis to manage data on the air conditioner and analyze the operation of the air conditioner. In addition, as the management server 200 analyzes and processes data on a plurality of air conditioners, it secures statistical information on failure histories and power use of air conditioners according to the environment or facility basis, and uses patterns for air conditioners. can be analyzed.

The diagnosis server 100 analyzes the data of the air conditioner to determine the state of the air conditioner, and diagnoses whether there is an abnormality or a malfunction. The diagnosis server 100 stores the diagnosis result for the air conditioner and transmits it to the management server.

The diagnosis server 100 analyzes the data provided when a diagnosis of the air conditioner is requested to determine whether the air conditioner is malfunctioning, and if it is in a normal state, it determines whether there is an abnormality. The diagnosis server 100 may determine an abnormality when the performance of the air conditioner is deteriorated, and is not a failure state, but predicts the possibility that a failure will occur within a predetermined time and determines as an abnormality.

The diagnosis server 100 analyzes the cause of the failure and calculates a countermeasure for the failure that has occurred in the air conditioner, and outputs the diagnosis result. In addition, the diagnosis server 100 analyzes the performance of the air conditioner to determine whether there is an abnormality with respect to the normally operating air conditioner, and if an inspection is required by predicting a failure, it is connected to a service center and the inspection of the air conditioner is performed. can make it happen

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

In some cases, the management server 200 and the diagnosis server 100 may be constructed as one server, or may be configured as a plurality of servers to distribute data. The management server 200 allocates tasks so that data for a plurality of air conditioners are distributed, and controls connection of the air conditioners.

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

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

In addition, the air conditioner 10 may include a chiller 13, an air conditioning unit (not shown), a ventilation device, and the like, and may further include at least one unit of an air purifier, a humidifier, and a heater. The air conditioner may operate in conjunction with the operation of the indoor unit and the outdoor unit by connecting each unit to each other. In addition, the air conditioner 10 may operate in connection with a building, a mobile device, a security device, an alarm device, and the like.

The controller 14 controls the operation of the indoor unit 12 and the outdoor unit 11 in response to an input user command, periodically receives and stores data on the operating state of the indoor unit and the outdoor unit corresponding thereto, and displays the monitoring screen. Outputs the operation status through The controller may be connected to the indoor unit 12 to perform operation setting, lock setting, schedule control, group control, peak control for power use, demand control, and the like for the indoor unit.

The controller 14 may manage a plurality of connected units, change operation settings or control the operation according to a request of a terminal connected through a network, and transmit data of the air conditioner to a management server or a diagnosis server do.

The controller 14 may connect to the service center and report the failure and request repair or inspection when an abnormality occurs or a failure occurs in the air conditioner. In addition, when an abnormality or failure occurs, the controller 14 may request a diagnosis of the cause of the failure from the diagnosis server.

The controller 14 may request a diagnosis from the diagnosis server, if necessary, even while the air conditioner is operating normally.

Each of the outdoor units 11 is connected to the indoor unit 12 through a refrigerant pipe to supply refrigerant to the indoor unit. In addition, the outdoor unit 11 periodically communicates with the plurality of indoor units to transmit and receive data to and from the indoor unit, and change the operation according to the operation setting changed from the indoor unit.

The indoor unit 12 includes an electronic expansion valve (not shown) that expands the refrigerant supplied from the outdoor unit 11, an indoor heat exchanger (not shown) that heat-exchanges the refrigerant, and allows indoor air to flow into the indoor heat exchanger, and the heat-exchanged air It includes an indoor unit fan (not shown) to be exposed to the room, a plurality of sensors (not shown), and a control means (not shown) for controlling the operation of the indoor unit.

In addition, the indoor unit 12 includes a discharge port (not shown) for discharging heat-exchanged air, and a wind direction control means (not shown) for opening and closing the discharge port and controlling the direction of the discharged air is provided at the discharge port. The indoor unit controls the intake air and the discharged air by controlling the rotation speed of the indoor unit fan, and adjusts the air volume. 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 setting data. In this case, the indoor unit 12 may transmit setting information for operation of the air conditioner to a connected remote controller (not shown), output it through the remote controller, and receive 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 from the controller, and supplies refrigerant to the connected indoor unit.

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

The outdoor unit 11 includes at least one compressor that compresses the refrigerant to discharge a high-pressure gas refrigerant, an accumulator that separates the gas refrigerant and the liquid refrigerant from the refrigerant to prevent non-vaporized liquid refrigerant from flowing into the compressor, An oil recoverer that recovers oil from the refrigerant, an outdoor heat exchanger that condenses or evaporates the refrigerant by heat exchange with the outside air, and an outdoor heat exchanger that introduces air into the outdoor heat exchanger to facilitate heat exchange, and removes the heat-exchanged air to the outside. The outdoor unit fan that discharges, a four-way valve that changes the refrigerant flow path according to the operation mode of the outdoor unit, at least one pressure sensor measuring pressure, at least one temperature sensor measuring temperature, controlling the operation of the outdoor unit and communicating with other units It includes a control configuration for performing communication. The outdoor unit 11 further includes a plurality of sensors, valves, supercoolers, and the like, but a description thereof will be omitted below.

3 is a diagram referenced for explaining a data flow of an air conditioner system according to an embodiment of the present invention.

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

The diagnosis server 100 and the management server 200 may be constructed as one server, and the diagnosis server 100 may be provided without a management server. In addition, a plurality of servers may operate as a diagnosis server and a management server, respectively, to distribute and process data of the air conditioner.

When a diagnosis server is provided in the air conditioner system as shown in (a) of FIG. 3, or when the diagnosis server and the management server are built as one server, the diagnosis server operates according to the diagnosis request (S1) of the air conditioner. The data of the harmonizer is analyzed to diagnose an abnormality or failure, and the diagnosis result is transmitted to the controller (S2). Hereinafter, when implemented as one server, it will be described as the diagnostic server 100 .

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 diagnosis request is received from the controller or the terminal, the diagnosis server analyzes the stored or received data to diagnose an abnormality or failure of the air conditioner.

In addition, as shown in (b) of FIG. 3, when a diagnosis server and a 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).

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

The diagnosis server diagnoses the air conditioner according to the request, but can diagnose an abnormality or failure by analyzing the received data even without a separate request. At this time, in order for the diagnostic server to process data for a plurality of air conditioners, the diagnostic server 100 stores some of the received data in the memory, immediately analyzes the data in real time, determines normality, abnormality, and failure, and classifies it. Data on anomalies or failures can be stored in a database.

In addition, the diagnosis server 100 diagnoses the air conditioner by analyzing the data of the air conditioner for a certain period according to the diagnosis request. At this time, based on the time when the diagnosis request is input, data is extracted and analyzed according to the settings.

For example, the diagnosis server 100 may analyze data before and after the reference time based on the time when the diagnosis request is input, or analyze data of a predetermined period prior to the time of the diagnosis request, and also , it is possible to diagnose the air conditioner by analyzing the data received thereafter based on the diagnosis request time. Whether or not to analyze which data to diagnose the air conditioner may be changed depending on the setting.

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

As shown in FIG. 4 , the diagnosis 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 an operation. It includes a main control unit 110 for controlling the overall. Each component of the diagnostic server, including the main control unit, may be implemented as one or more processors, respectively, and may be implemented as a hardware device.

The memory 150 is a storage device inside the diagnosis server, and stores data of the diagnosis server. The memory 150 stores control data for operation and data processing of the diagnosis server, data for fault diagnosis, and data to be transmitted and received. As for the memory 150 , in terms of hardware, various storage devices such as ROM, RAM, EPROM, flash drive, and hard drive may be used.

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 generation unit 160 .

The memory 150 temporarily stores 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 for a predetermined period based on a diagnosis request time among the air conditioner data. The main controller 110 stores data other than the data used for diagnosis in the database 140 based on the diagnosis request time.

The communication unit 170 receives the air conditioner data from the air conditioner 10 or the management server 200 through 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 .

In addition, the communication unit 170 is connected to the management server 200 and the terminal 80 through a network to transmit and receive data. The communication unit 170 transmits the diagnosis result of the diagnosis unit 130 or the message generated by the message generation unit 160 according to the control command of the main control unit to the service center 70, the terminal 80, the management server 200, the air It is transmitted to at least one of the conditioners (10).

The filtering unit 120 filters the air conditioner data stored in the memory 150 . The filtering unit 120 determines whether the air conditioner data stored in the memory is readable data, and discards the data when the data cannot be read or an error is included. The main controller may request retransmission of the abnormal data.

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

The diagnosis unit 130 analyzes the air conditioner data, particularly cycle data, stored in the memory, and performs component diagnosis, operation state, and performance diagnosis of 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 the abnormal state and generates a diagnosis result including the abnormal state, the cause of the abnormal state, and a countermeasure for solving the abnormal state.

In addition, the diagnosis unit 130 analyzes the air conditioner data to classify an abnormal state and a failure state, and in the case of a failure state, generates a diagnosis result including a cause of the failure and a countermeasure for solving the failure.

The diagnosis unit 130 compares the information included in the air conditioner data with a reference value to determine whether there is an abnormality, and analyzes the air conditioner data in consideration of the comparison between the same devices, the factor review according to the external environment, and the device installation environment. and diagnose the fault accordingly.

Also, the diagnosis unit 130 analyzes the data of the air conditioner according to the period to determine the abnormality of the air conditioner. While diagnosing the air conditioner in real time, the diagnosis unit 130 diagnoses failures and abnormalities based on changes in data for a certain period of time, and predicts failures.

When determining the abnormality of the air conditioner in real time, the diagnosis unit 130 determines the abnormality, that is, when it is determined that the abnormality is not a failure but is an abnormal state, determines the abnormality, determines the performance based on the cycle data, and performs performance for a certain period of time. If this value is decreased by more than a certain value, it is diagnosed as an abnormal state. Also, based on the pre-stored statistical data, the diagnosis unit 130 may calculate the likelihood of a failure or an expected period until the failure occurs when the current state is maintained. In addition, the diagnosis unit 130 counts the number of times for the abnormal state, and when it is diagnosed as an abnormal state more than a predetermined number of times, or when it is continuously determined to be an abnormal state, it can be determined as a failure state.

The abnormal state indicates a state in which there is a problem in the air conditioner, but the air conditioner is operable, performance or efficiency is deteriorated, or a state in which a failure is likely to occur within a predetermined time although it is currently operating. On the other hand, the failure state is a state in which a failure has already occurred and operation cannot be performed.

The diagnosis unit 130 diagnoses the abnormal state of the sensor and parts from the air conditioner data, predicts the efficiency and performance of the equipment, and determines that the air conditioner is in any one of a normal state and an abnormal state failure state. to generate diagnostic results.

Diagnosis server 100 even if the air conditioner is currently operating normally, that is, even if the data value is included in the normal range, in response to a change over a period of time, its performance tends to decrease, and when a decrease in efficiency and performance is predicted, It can be judged as an abnormal state. The diagnosis server 100 may compare not only current data, but also data pre-stored in a database, or other air conditioners of the same model or other air conditioners of similar performance, to determine whether there is an abnormality, and predict performance degradation.

For example, the diagnosis server 100 compares the data of the air conditioner with each other based on the model year, installation location, model, structure, capacity, historical data for each period, temperature, humidity, weather and season information of the Korea Meteorological Administration of the air conditioner. By doing so, the air conditioner is diagnosed.

The diagnostic server 100 compares and analyzes the numerical values appearing in cycle information for each device from the air conditioner data to derive the on-site average sensor value, abnormal value, device usage pattern, etc. By linking and analyzing the displayed sensor values, the sensor value change trend according to the external environment is checked, and the cycle information is compared with the actual equipment installation environment to derive the cycle operation trend according to the installation environment, thereby diagnosing the air conditioner.

The air conditioner 10 includes a plurality of information generated or measured during operation, for example, a measurement value of a temperature sensor such as an indoor temperature, an outdoor temperature, and a refrigerant temperature, a measurement value of a pressure sensor such as a compressor pressure, a pipe pressure, Air conditioner data including valve operation and valve consumption voltage or current value, valve abnormality, compressor abnormality, fan motor abnormality, heat exchanger contamination, refrigerant shortage, communication status, information on efficiency and performance, etc. As a result, it is transmitted to the diagnosis server 100 .

When determining the abnormal state, the diagnosis unit generates a diagnosis result to solve the abnormal state by checking the corresponding air conditioner before the failure, although it is not a failure state.

The message generating unit 160 generates a message corresponding to the diagnosis result and transmits it to the air conditioner 10 or the terminal 80 . In this case, the message is generated in a form readable by the air conditioner or the terminal. When transmitted to the terminal, the message may be composed of a mobile web page as well as a short message and a multimedia message.

When it is determined that the message generating unit is abnormal or malfunctioning, the diagnosis result for the air conditioner may be transmitted to the air conditioner or terminal through the communication unit, and the diagnosis result and failure history may be transmitted to the service center. The message generator may generate and transmit a text-based error notification or a GUI-based diagnosis result as a report so that the user can check the diagnosis result.

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

The main controller 110 receives the air conditioner data 200 from a plurality of air conditioners installed across the country through the network N and stores it in the database, but stores the data for a certain period based on the time when the diagnosis is requested. It is extracted through the filtering unit, temporarily stored in the memory, and the diagnosis unit diagnoses the condition of the air conditioner.

The main control unit 110 stores the air conditioner data on the abnormal air conditioner in the database 140 together with the diagnosis result according to the diagnosis result of the diagnosis unit.

When the diagnosis of the air conditioner is completed, the main controller 110 deletes the data temporarily stored in the memory, and causes the data about the air conditioner for which the next diagnosis is requested to be stored in the memory.

The main controller 110 manages data stored in the database 140 . The main controller 110 calls the data stored in the database to be stored in the memory. Although the database has been described as an example of being provided in the diagnosis server, it may be provided in the management server, or may be provided in each server, and may be provided as an independent data server and connected through a network.

In response to the diagnosis result of the diagnosis unit 130 , the main control unit 110 transmits the diagnosis result to the service center through the communication unit 170 when dispatching a service technician is required in case of an abnormal state or a faulty state, thereby making a service reservation. let it be done

In addition, the main control unit 110 allows the message generated by the message generating unit to be transmitted through the communication unit 170 .

The diagnosis server analyzes the data of the air conditioner in the memory to diagnose an abnormality or failure, and derives corresponding countermeasures. The diagnosis server may compare the data of the same air conditioner among the data of the air conditioner, compare it with the past data of the corresponding air conditioner, and diagnose the air conditioner based on the data on the external environment or the installation environment.

5 is a diagram referenced for explaining a diagnosis process for the air conditioner of the air conditioner system according to the embodiment of the present invention.

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

The filtering unit 120 filters and discards unrecognizable data or data in which an error has occurred among the received data. The main controller may request retransmission of discarded data. In addition, the filtering unit 120 filters the data required for diagnosis and stores it in the memory.

When the main controller 110 receives a diagnosis request from the controller 14 or the terminal 80 through the communication unit, the main controller 110 controls the diagnosis unit to analyze data about the air conditioner requested for diagnosis to make the diagnosis. The main control unit 110 controls the filtering unit to extract data for a certain period based on the diagnosis request time. The filtering unit extracts data for a certain period of time based on the time when the diagnosis is requested from among the data on the air conditioner for which diagnosis is requested according to a control command of the main controller 110 and stores it in the memory.

As shown in (b) of FIG. 5 , the diagnosis unit 130 diagnoses a failure by analyzing data of the air conditioner stored in the memory 150 .

The diagnosis unit 130 compares the data of the air conditioner, ie, cycle data, with pre-stored reference data to determine whether a normal operation is performed, and determines whether it is normal, abnormal, or malfunctioning. Also, the diagnosis unit 130 may determine an abnormal state when it is determined that performance or function is deteriorated by analyzing changes in data for a certain period of time.

The diagnosis unit 130 analyzes the cause of the configuration or function determined to be an abnormal or faulty state, and derives a countermeasure therefor.

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

6 is a diagram referenced to explain data of the air conditioner for each period of the air conditioner system according to an embodiment of the present invention.

As described above, when diagnosing the air conditioner, the diagnosis server does not use all data of the air conditioner, but diagnoses a failure using data of a certain period based on the time when the diagnosis is requested.

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

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

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

The diagnostic unit includes data 323 and 324 from the diagnosis request time t to the second time t-2 received in the past, and a third future time t+ received from the diagnosis request time t. The state of the air conditioner is diagnosed by analyzing the data 321 and 322 up to 2).

As shown in (c) of FIG. 6 , the diagnosis server 100 ignores the pre-stored data based on the diagnosis request time t, and receives data up to the fourth time (t+3) in the future ( 331 to 333) can be analyzed to diagnose the air conditioner.

Also, the diagnosis server 100 may diagnose the state of the air conditioner using data after a predetermined time or data before a predetermined time based on the diagnosis request time t.

The diagnosis server diagnoses the current state of the air conditioner by analyzing the data for a certain period of time for the past or future based on the diagnosis time and analyzing the state of the air conditioner. The period for the data extracted based on the time of diagnosis request may be changed according to the setting. Whether to use past data or future data to be received based on the time of diagnosis request may be changed according to settings.

In addition, it is specified that the number of data used for diagnosis is not limited to the drawings.

7 is a flowchart referenced to explain a control method for diagnosing an air conditioner system according to an embodiment of the present invention.

As shown in FIG. 7 , the controller 14 is connected to the diagnosis server 100 through a network N ( S310 ). The controller 14 transmits the air conditioner data to the diagnosis server 100 at a preset cycle. When the management server 200 is provided, the controller 14 may transmit data to the management server.

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

When a separate diagnosis request is not received, the diagnosis server may periodically diagnose data received from a plurality of air conditioners in real time to determine the state of each air conditioner.

When a diagnosis request for a predetermined air conditioner is received from the controller 14 or the terminal 80 (S330), the diagnosis server 100 extracts data for a certain period based on the time when the diagnosis request is received (S340) .

6, the diagnosis server 100 extracts data of the air conditioner for a predetermined period based on the diagnosis request time. For example, it is possible to extract past data of a predetermined period of time received based on the time of diagnosis request, wait based on the time of diagnosis request to extract data for a certain period of time received in the future, and also determine the time of diagnosis request. As a reference, both data from the past for a certain period and data for a certain period received after the time of the diagnosis request can be used. In addition, data before a predetermined time or data after a predetermined time may be used based on the diagnosis request time.

The diagnosis unit analyzes the extracted data (S350). The diagnosis unit not only compares the data of the air conditioner with the reference data, but also analyzes the condition of the air conditioner by comparing data of other air conditioners of the same model and past data of the air conditioner.

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

The diagnostic unit determines the abnormal state by setting criteria for the abnormal state and the normal state. The diagnostic unit determines the failure state as a failure state, and when it is determined that the failure state is an abnormal state such as performance deterioration, although it is not a failure state, the evaluation value is calculated step-by-step for the presence or absence of an error. That is, the diagnostic unit calculates the evaluation value according to the steps because there is a difference in the progress of the abnormality even in the abnormal state. The diagnosis unit may calculate an evaluation value according to the severity of the abnormal state, and may also calculate an evaluation value based on a predicted time until a failure occurs.

The diagnostic unit compares the evaluation value with the set value A (S370), and if it is greater than the set value, it is determined as an abnormal state (S390), and if it is less than the set value, it is determined as the normal state (S380).

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

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

In the present invention, in diagnosing the condition of the air conditioner by analyzing the data of the air conditioner, when a diagnosis is requested during normal operation, rather than diagnosing the failure when a failure such as an error occurs, the diagnosis is requested based on the time By diagnosing the air conditioner by extracting data for a certain period, the abnormal state of the air conditioner is determined by analyzing whether the performance is deteriorated. The present invention can quickly diagnose the condition of the air conditioner by extracting and diagnosing data of a certain period, and can determine and respond to an abnormal condition before a failure occurs.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

1 to n, 10: air conditioner
11: Outdoor unit 12: Indoor unit
14: controller
70: service center 80: terminal
100: diagnosis server 200: management server
110: main control unit 130: diagnostic unit
140: database 150: memory

Claims (19)

a plurality of air conditioners including a controller;
a diagnosis server for diagnosing the condition of the air conditioner by analyzing the air conditioner data received at predetermined time intervals from the plurality of air conditioners; including,
When the diagnosis request is received from the controller, the diagnosis server extracts data for a certain period of time from the data of the air conditioner based on the time when the diagnosis request is received,
If the state of the air conditioner is not a failure state, an evaluation value for the presence or absence of abnormality is calculated based on the extracted air conditioner data,
When the evaluation value is less than the set value, it is determined that the state of the air conditioner is a normal state,
When the evaluation value is equal to or greater than the set value, the air conditioner system is characterized in that the state of the air conditioner is determined as an abnormal state. The method of claim 1,
The diagnosis server,
a database in which the air conditioner data is stored;
a main control unit for storing the air conditioner data in the database;
a filtering unit for extracting data of a predetermined period based on a time point at which the diagnosis request is received from among the air conditioner data; and
and a diagnosis unit for diagnosing the state of the air conditioner by analyzing the air conditioner data extracted by the filtering unit. delete 3. The method of claim 2,
The diagnosis unit compares the air conditioner data with at least one of reference data, data of another air conditioner, and past data of the air conditioner, determines a decrease in function or performance, and calculates the evaluation value Air conditioner system, characterized in that. delete 3. The method of claim 2,
The diagnosis unit calculates the evaluation value of the abnormal state of the air conditioner based on a degree of deterioration in performance and a predicted time of occurrence of a failure. 3. The method of claim 2,
and the filtering unit extracts, as the air conditioner data, data of a predetermined period from among pre-stored data based on the diagnosis request time. 3. The method of claim 2,
and the filtering unit extracts, as the air conditioner data, newly received data for a predetermined period based on the diagnosis request time. 3. The method of claim 2,
and the filtering unit extracts, as the air conditioner data, data of a predetermined period of pre-stored data and data newly received within a predetermined period based on the time of the diagnosis request. The method of claim 1,
and the controller transmits the diagnosis request to the diagnosis server while the air conditioner operates normally. The method of claim 1,
Further comprising a terminal connected to the controller or the diagnosis server to control the air conditioner,
and the diagnosis server receives the diagnosis request from the controller or the terminal. when air conditioner data is received from a plurality of air conditioners, storing the received air conditioner data;
receiving a diagnosis request from a controller provided in the air conditioner;
in response to the diagnosis request, extracting air conditioner data for a certain period based on a time when the diagnosis request is received;
calculating an evaluation value for the presence or absence of abnormality based on the extracted air conditioner data when the state of the air conditioner is not a failure state;
calculating an evaluation value for the presence or absence of an abnormality based on the extracted air conditioner data when the state of the air conditioner is not a failure state;
determining the state of the air conditioner as a normal state when the evaluation value is less than a set value; and
and determining the state of the air conditioner as an abnormal state when the evaluation value is equal to or greater than the set value. 13. The method of claim 12,
The extracting of the air conditioner data comprises extracting data of a predetermined period of pre-stored data as the air conditioner data based on the time when the diagnosis request is received. . 13. The method of claim 12,
The extracting of the air conditioner data comprises extracting newly received data for a predetermined period as the air conditioner data based on the time when the diagnosis request is received. 13. The method of claim 12,
The extracting of the air conditioner data may include extracting data of a predetermined period of pre-stored data and data newly received for a predetermined period as the air conditioner data based on the time when the diagnosis request is received. A method of controlling an air conditioner system according to delete 13. The method of claim 12,
The calculating of the evaluation value includes comparing the air conditioner data with at least one of reference data, data of other air conditioners, and past data of the air conditioner to determine a decrease in function or performance. Control method of an air conditioner system, characterized in that it comprises. 18. The method of claim 17,
The calculating of the evaluation value may include calculating the evaluation value based on the degree of deterioration of the function or performance. delete

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