KR102437418B1 - Fire detector determinating system and method controlling thereof - Google Patents

Abstract

According to an embodiment of the present invention, a fire detector diagnosis system comprises: a step in which a fire detector checks whether a predetermined abnormal situation has occurred when turned on, and displays an error message according to abnormal situations if the predetermined abnormal situation has occurred as a result of the checking; a step in which the fire detector generates monitoring data including cumulative monitoring information and product information and provides the same to a user terminal if a selection signal for the error message is a positive signal; a step in which the user terminal analyzes the monitoring data to determine whether a failure corresponding to a preset error code has occurred, when receiving the monitoring data from the fire detector; a step in which the user terminal extracts diagnostic data corresponding to the error code from a diagnostic data database for each error code, and generates a cause of the failure by performing diagnosis using the diagnostic data, if the failure has occurred as a result of the determining; and a step in which the user terminal extracts a solution for the cause of the failure from a failure cause-specific solution database and provides the solution to an administrator terminal when the diagnosis is completed based on the solution to the cause of the failure. Therefore, the fire detector diagnosis system enables the administrator to directly deliver failure information of the fire detector, collected by a short-distance communication modem connected to the fire detector, to a service center by using a telephone network.

Description

FIRE DETECTOR DETERMINATING SYSTEM AND METHOD CONTROLLING THEREOF

The present invention relates to a fire receiver diagnosis system and a control method thereof, and more particularly, a fire receiver that outputs product information of a fire receiver to a predetermined phone application using short-distance communication to facilitate status check and after-sales service of the fire receiver It relates to a diagnostic system and a method for controlling the same.

Buildings of a certain size or larger are equipped with various types of fire monitoring means for monitoring the occurrence of a fire, various types of fire alarm means for notifying the occurrence of a fire, and various types of fire suppression means for automatically extinguishing the generated fire, and these firefighting equipment ( A fire receiver that controls all fire monitoring means, alarm means, and suppression means) is installed.

The fire receiver stores a set value for performing an operation, information generated during operation, and failure information while performing a predetermined operation. In particular, when a failure occurs, predetermined information is output to the manager terminal through short-distance communication. Enable the manager using the fire receiver to recognize the state of the fire receiver.

Such a fire receiver not only notifies the completion of operation or the occurrence of a failure, but also outputs specific failure information through an output means provided, for example, a display means, a lamp, and the like.

On the other hand, when an abnormality occurs in the fire receiver, the manager contacts a service center, etc. to ask for advice on the condition of the fire receiver, or to use after-sales services such as requesting service personnel for the broken fire receiver.

At this time, it is common for the fault information to be simply output to the fire receiver or output as an unknown code value by the manager. It is often difficult to

Therefore, when a service person visits a home, a lot of time and money is required to repair the fire receiver because the state of the fire receiver cannot be accurately identified in advance.

For example, if the parts necessary for repairing a fire receiver are not prepared in advance, it is not only inconvenient to revisit the place where service personnel are installed, but also takes a lot of time.

An object of the present invention is to provide a fire receiver diagnosis system and a control method therefor that allow an administrator to directly transmit information about a failure of a fire receiver through a short-distance communication modem connected to the fire receiver to a service center using a telephone network. do.

Another object of the present invention is to provide a fire receiver diagnosis system and a control method thereof, which allow an administrator to collect information through short-distance communication to a manager terminal through short-distance communication when a problem is discovered through a short-distance communication modem connected to a fire receiver. .

In addition, the present invention transmits the information collected to the manager terminal to the service center by connecting the telephone network, and as a result, the inconvenience and time of revisiting by confirming in advance whether the service personnel will visit the place where the service personnel are installed and the parts to be required, etc. An object of the present invention is to provide a fire receiver diagnostic system and a control method therefor that can reduce requirements.

In addition, the present invention provides a fire receiver diagnosis system and a control method thereof, which enable easier management of the fire receiver by checking the details of the fire receiver through tagging and a mobile communication terminal that provides an intuitive and improved interface. The purpose.

In addition, the present invention is to provide a fire receiver diagnosis system and a control method thereof that can check information of the fire receiver, such as usage history, status information, maintenance time, etc., through a mobile communication terminal, thereby maximizing the convenience of the administrator. The purpose.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

In order to achieve this object, the fire receiver diagnosis system checks whether a predetermined abnormal situation has occurred when the power state is turned on, and when a predetermined abnormal situation occurs as a result of the check, an error message according to the abnormal situation is displayed, and the error When the selection signal for the message is a positive signal, when monitoring data is received from the fire receiver and the fire receiver that generates monitoring data including accumulated monitoring information and product information and provides it to the user terminal, the monitoring data is received when the monitoring data is received It is analyzed to determine whether a failure corresponding to a preset error code has occurred, and if a failure has occurred as a result of the determination, the diagnostic data corresponding to the error code is extracted from the diagnostic data database for each error code, and then the diagnosis is executed using the diagnostic data to generate the cause of the failure, extract the solution for the cause of the failure from the solution database for each cause of the failure, and then complete the diagnosis based on the solution for the cause of the failure. .

In addition, the fire receiver diagnosis method includes the steps of checking whether a predetermined abnormal situation has occurred when the fire receiver is in an on state, and displaying an error message according to the abnormal situation when a predetermined abnormal situation occurs as a result of the check; When the selection signal for the error message is a positive signal, the receiver generates and provides monitoring data including accumulated monitoring information and product information to the user terminal, when the user terminal receives the monitoring data from the fire receiver, the monitoring data analyzing the monitoring data to determine whether a failure corresponding to a preset error code has occurred upon receiving After extracting data, performing diagnosis by using the diagnostic data to generate a failure cause, and after the user terminal extracts a solution method for the failure cause from the solution method database for each failure cause, based on the solution method for the failure cause and providing a solution to the manager terminal when the diagnosis is completed.

According to the present invention as described above, there is an advantage that the manager can directly transmit the information about the failure of the fire receiver through the short-distance communication modem connected to the fire receiver to the service center using the telephone network.

In addition, according to the present invention, there is an advantage that the manager can collect information through the short-distance communication to the manager terminal when a problem is discovered through the short-distance communication modem connected to the fire receiver.

In addition, according to the present invention, the information collected in the manager terminal is connected to the telephone network and delivered to the service center, and the contents are transmitted to the place where the service personnel are installed and the inconvenience of revisiting by checking in advance whether the service personnel will visit the place and the parts to be required. It has the advantage of reducing the time required.

In addition, according to the present invention, there is an advantage that the fire receiver can be more easily managed by checking the details of the fire receiver through tagging and a mobile communication terminal that provides an intuitive and improved interface.

In addition, according to the present invention, it is possible to check information of the fire receiver such as usage history, status information, maintenance time, etc. through the mobile communication terminal, thereby maximizing the convenience of the administrator.

1 is a network configuration diagram for explaining a fire receiver diagnosis system according to an embodiment of the present invention.
2 is a block diagram illustrating an internal structure of a fire receiver according to an embodiment of the present invention.
3 is a block diagram illustrating an internal structure of a user terminal according to an embodiment of the present invention.
4 is a flowchart for explaining an embodiment of a method for diagnosing a fire receiver according to the present invention.
5 is a flowchart illustrating another embodiment of a method for diagnosing a fire receiver according to the present invention.
6 is a flowchart illustrating another embodiment of a method for diagnosing a fire receiver according to the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

1 is a network configuration diagram for explaining a fire receiver diagnosis system according to an embodiment of the present invention.

Referring to FIG. 1 , the fire receiver diagnosis system includes a fire receiver 100 , a user terminal 200 , and a service center terminal 300 .

The fire receiver 100 is a device that as a whole controls firefighting equipment (fire monitoring means, alarm means, and suppression means) installed in a building. The fire receiver 100 provides monitoring data to the user terminal 200 through short-range communication.

The fire receiver 100 is composed of a circuit of a plurality of modules, and when receiving a monitoring signal from each of the circuits of a plurality of modules, the monitoring signal and a predetermined monitoring signal are compared to the user to receive monitoring data through short-distance communication when an abnormality occurs. provided to the terminal 200 . In this case, the plurality of modules may include an input module for receiving sensing data from the fire detection sensor, an output module, and a display module for displaying an error message.

That is, when the power state is turned on, the fire receiver 100 checks whether a predetermined abnormal situation has occurred, and when a predetermined abnormal situation occurs as a result of the check, an error message according to the abnormal situation is displayed, and the error message is When the selection signal is a positive signal, monitoring data including accumulated monitoring information and product information is generated and provided to the user terminal 200 .

In one embodiment, the fire receiver 100 receives the output voltage of each circuit corresponding to the internal module, determines whether the output voltage deviates from a predetermined reference voltage, and then displays an error message according to an abnormal situation according to the determination result indicate

For example, the fire receiver 100 receives an output voltage of a circuit corresponding to an input module that receives sensing data from a sensor module, and when the output voltage of a circuit corresponding to the input module deviates from a predetermined reference voltage, the input module Displays an error message about an error in .

Thereafter, the fire receiver 100 provides monitoring data including monitoring information (ie, output voltage) and product information (ie, module information in which an abnormal situation has occurred) to the user terminal 200 .

When the user terminal 200 receives monitoring data from the fire receiver 100 through short-distance communication, it analyzes the monitoring data and starts and outputs a failure diagnosis.

The user terminal 200 analyzes the monitoring data to determine whether a failure corresponding to a preset error code has occurred.

The user terminal 200 receives the output voltage of each circuit corresponding to the internal module, and whether the output voltage deviates from a predetermined reference voltage, the calculated error occurrence holding time when the output voltage deviates from the predetermined reference voltage , it is determined whether a failure corresponding to a preset error code has occurred according to the number of error occurrences according to the error occurrence holding time.

In one embodiment, the user terminal 200 measures the error occurrence time when the output voltage of each circuit corresponding to the internal module deviates from a predetermined reference voltage, and when the output voltage does not deviate from the predetermined reference voltage, the error occurrence time After the measurement of , the error occurrence holding time is calculated from the time from the error occurrence start time to the error occurrence end time. Thereafter, the user terminal 200 increases the number of error occurrences when the error occurrence and maintenance time is equal to or greater than a predetermined reference time.

Thereafter, the user terminal 200 determines whether a failure corresponding to a preset error code has occurred based on the error occurrence holding time and the number of errors occurring. That is, as a result of the determination, if the error occurrence holding time is greater than or equal to the predetermined reference time, the number of errors is increased, and if the error occurrence and holding time is less than or equal to the predetermined reference time, the number of errors is maintained without increasing.

In the above embodiment, the user terminal 200 increases the number of possible errors when the error occurrence maintenance time is not equal to or greater than the predetermined reference time, but the difference time between the error occurrence retention time and the predetermined reference time is less than or equal to a specific time, and Does not increase the number of error occurrences.

If the number of possible errors is greater than or equal to a certain number of times, the user terminal 200 determines that there is a possibility that an error may occur and increases the number of occurrences of the error. Decrease the number of errors by judging not to do so.

Finally, when the number of error occurrence exceeds a predetermined reference number, the user terminal 200 determines whether a failure corresponding to a preset error code has occurred, and provides the determination result to the service center terminal 300 . That is, the user terminal 200 provides data content analysis and measures to the service center terminal 300 . Accordingly, the service center terminal 300 provides a dispatch request message to the service facilitator terminal (not shown) so that the service personnel can visit the installation site based on the data content analysis and actions taken.

2 is a block diagram illustrating an internal structure of a fire receiver according to an embodiment of the present invention.

Referring to FIG. 2 , the fire receiver 100 includes a main control unit 110 , an input unit 120 , an output unit 130 , a display unit 140 , and a short-range communication tag unit 150 . The communication tag unit 150 includes a tag storage unit 151 and a transceiver unit 152 .

Each of the main control unit 110 , the input unit 120 , the output unit 130 , the display unit 140 , and the short-range communication tag unit 150 of the fire receiver 100 is composed of a circuit, and each circuit is a monitoring signal (that is, output voltage) to the main control unit 110 . Accordingly, the main control unit 110 includes a monitoring signal (ie, an output voltage) and a predetermined monitoring signal received from each of the key input unit 120 , the detection signal input unit 130 , the display unit 140 , and the short-range communication tag unit 150 . can be compared to determine whether an abnormality has occurred.

The main control unit 110 receives a monitoring signal from each of the key input unit 120 , the detection signal input unit 130 , the display unit 140 , and the short-range communication tag unit 150 , and compares the monitoring signal with a predetermined monitoring signal for abnormality Determine whether this has occurred.

In one embodiment, the main control unit 110 compares the monitoring signal and the predetermined monitoring signal to generate monitoring data indicating that the output voltage is abnormal when the output voltage corresponding to the monitoring signal is out of the predetermined output voltage to the user terminal (200).

In another embodiment, the main control unit 110 compares the monitoring signal and the predetermined monitoring signal and outputs monitoring data indicating that the output voltage is normal if the output voltage corresponding to the monitoring signal does not deviate from the predetermined output voltage to the user terminal ( 200) is not provided.

The monitoring data includes monitoring information (ie, output voltage, whether it is normal) and product information (ie, module information in which an abnormal situation has occurred). Accordingly, the user terminal 200 may analyze the monitoring data through the diagnostic program to diagnose the state of the fire receiver.

As described above, when the main control unit 110 receives the user information and tag information stored in the user terminal 200 from the short-range communication tag unit 150 when providing monitoring data to the user terminal 200, the tag By using the tag information for each user and the tag information for each user group stored in the storage unit 151, it is determined whether monitoring data can be provided to the corresponding user, and the monitoring data is provided to the user terminal 200 according to the determination result. .

The short-distance communication tag unit 150 includes a tag storage unit 151 and a transceiver unit 152 . The tag storage unit 151 stores information about a tag corresponding to a target to which monitoring data is transmitted. In this case, as the information on the tag, tag information for each user and tag information for each user group from which monitoring data can be transmitted are stored.

The display unit 140 displays monitoring data for the fire receiver 100 under the control of the main control unit 110 .

The short-distance communication tag unit 150 receives monitoring data through short-range communication with the user terminal 200 and provides it to the user terminal 200 . The short-range communication tag unit 150 receives monitoring data through short-range communication, such as NFC communication, WiFi communication, and bluest communication, and provides it to the user terminal 200 .

The short-distance communication tag unit 150 includes a tag storage unit 151 and a transceiver unit 152 . The tag storage unit 151 stores information about a tag corresponding to a target to which monitoring data is transmitted. In this case, as the information on the tag, tag information for each user and tag information for each user group from which monitoring data can be transmitted are stored.

The transceiver 152 provides monitoring data to the user terminal 200 under the control of the main controller 110 .

3 is a block diagram illustrating an internal structure of a user terminal according to an embodiment of the present invention.

Referring to FIG. 3 , the user terminal 200 includes a terminal control unit 210 , a storage unit 220 , a communication unit 230 , an input unit 240 , a display unit 250 , and a sound output unit 260 .

The terminal control unit 210 controls other components of the user terminal 200 to diagnose a failure of the fire receiver.

When the terminal control unit 210 receives monitoring data from the fire receiver ( ) through the communication unit 230 , it loads a diagnostic program stored in the storage unit 220 , analyzes the monitoring data through the diagnostic program, and sets a preset error code Determine whether or not a corresponding fault has occurred.

First, the terminal control unit 210 extracts the output voltage of each circuit corresponding to the internal module from the monitoring data, whether the output voltage deviates from a predetermined reference voltage, the output voltage is calculated when the output voltage deviates from the predetermined reference voltage It is determined whether a failure corresponding to a preset error code has occurred according to the error occurrence holding time and the number of errors occurring according to the error occurrence holding time.

In one embodiment, the terminal control unit 210 measures the error occurrence time when the output voltage of each circuit corresponding to the internal module deviates from a predetermined reference voltage, and when the output voltage does not deviate from the predetermined reference voltage, the error generation time After the measurement of , the error occurrence holding time is calculated from the time from the error occurrence start time to the error occurrence end time. Thereafter, the user terminal 200 increases the number of error occurrences when the error occurrence and maintenance time is equal to or greater than a predetermined reference time.

Thereafter, the terminal control unit 210 determines whether a failure corresponding to a preset error code has occurred based on the error occurrence holding time and the number of errors occurring. That is, as a result of the determination, if the error occurrence holding time is greater than or equal to the predetermined reference time, the number of errors is increased, and if the error occurrence and holding time is less than or equal to the predetermined reference time, the number of errors is maintained without increasing.

In the above embodiment, the terminal control unit 210 increases the number of possible errors when the error occurrence maintenance time is not equal to or greater than the predetermined reference time, but the difference time between the error occurrence retention time and the predetermined reference time is less than or equal to a specific time, and Does not increase the number of error occurrences.

If the number of possible errors is greater than or equal to a certain number of times, the terminal control unit 210 determines that there is a possibility that an error may occur and increases the number of occurrences of the error. Decrease the number of errors by judging not to do so.

Finally, when the number of occurrences of errors exceeds a predetermined reference number, the terminal control unit 210 determines whether a failure corresponding to a preset error code has occurred.

The storage 220 stores a diagnostic program that is downloaded and installed according to a user operation. The diagnostic program is a program that analyzes the monitoring data received from the communication unit 230 under the control of the terminal control unit 210 to determine whether a failure corresponding to a preset error code has occurred.

This diagnostic program analyzes every time monitoring data is received from the communication unit 230 under the control of the terminal control unit 210, and if it is determined that there is an abnormality in the output voltage of the circuit corresponding to the same module, the error occurrence time can be calculated. have.

The input unit 240 provides an input signal to the terminal control unit 210 according to the manipulation of the user terminal 200 . The input unit 240 may be implemented as a keypad, a touch screen, or the like.

The display unit 250 displays a process in the control of the user terminal 200 by the terminal control unit 210 . The display unit 250 may be implemented with a touch screen, an LED, etc. to display a process in the control of the user terminal 200 by the terminal control unit 210 .

The sound output unit 260 outputs sound when the sound is generated while the user terminal 200 is controlled by the terminal control unit 210 . The sound output unit 260 may be implemented as a speaker or the like.

4 is a flowchart for explaining an embodiment of a method for diagnosing a fire receiver according to the present invention.

Referring to FIG. 4 , the fire receiver 100 monitors whether a situation corresponding to a preset monitoring state has occurred (step S405 ). The fire receiver 100 stores monitoring data when a situation corresponding to a preset monitoring state occurs in the monitoring process (step S410).

When the power is cut off (step S415), the fire receiver 100 stores diagnostic data including state information and power information (step S420). When the standby power supply device exists (step S425), the fire receiver 100 receives power from the standby power supply device and monitors whether a situation corresponding to a preset monitoring state has occurred through the fire receiver 100 (step S430). ).

5 is a flowchart illustrating another embodiment of a method for diagnosing a fire receiver according to the present invention.

Referring to FIG. 5 , when the power state of the fire receiver 100 is turned on (step S505). The fire receiver 100 checks whether a predetermined abnormal situation has occurred (step S510).

When a predetermined abnormal situation occurs, the fire receiver 100 displays an error message according to the abnormal situation (step S515), and the predetermined abnormal situation does not occur and operates according to preset operation information (step S517).

When the fire receiver 100 receives the selection signal for the error message and the selection signal is an affirmative signal (step S520), the fire receiver 100 generates monitoring data including accumulated monitoring information and product information (step S520). S525). The fire receiver 100 provides monitoring data to the user terminal 200 through short-range communication (step S530).

6 is a flowchart illustrating another embodiment of a method for diagnosing a fire receiver according to the present invention.

Referring to FIG. 6 , when the user terminal 200 receives monitoring data through short-distance communication from the fire receiver 100 (step S610), it analyzes the monitoring data and starts fault diagnosis (step S620).

The user terminal 200 analyzes the monitoring data to determine whether a failure corresponding to a preset error code has occurred (step S625).

In one embodiment for step S625, the user terminal 200 calculates an error occurrence holding time by measuring the time to deviate from the reference voltage when the output voltage of each circuit corresponding to the internal module deviates from a predetermined reference voltage, and calculates the output voltage By measuring the number of deviations from the predetermined reference voltage, the number of occurrences of an error is calculated.

Thereafter, the user terminal 200 determines whether a failure corresponding to a preset error code has occurred based on the error occurrence holding time and the number of errors occurring.

The user terminal 200 extracts diagnostic data corresponding to the error code from the diagnostic data database for each error code, and then executes the diagnosis using the diagnostic data to generate a cause of failure (step S630). The user terminal 200 extracts a solution method for the failure cause from the solution method database for each failure cause (step S635) and stores the solution method for the failure cause (step S640).

When the diagnosis is completed based on the solution method for the cause of the failure (step S645), the user terminal 200 generates a final diagnosis result (step S650). The user terminal 200 outputs the final diagnosis result of the state or the cause of the failure of the fire receiver 100 (step S652), and outputs the final diagnosis result and the solution method for the cause of the failure (step S655).

The user terminal 200 provides a final diagnosis result for the cause of the failure and a solution method for the cause of the failure to the service center terminal 300 (step S660). When the user terminal 200 receives a service engineer dispatch guide message from the service center terminal 300 (step S665), the user terminal 200 provides a visit reservation and final diagnosis result to the service center terminal 300 (step S670).

Although it has been described with reference to the limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and variations are possible from these descriptions by those skilled in the art to which the present invention pertains. Accordingly, the spirit of the present invention should be understood only by the claims described below, and all equivalents or equivalent modifications thereof will fall within the scope of the spirit of the present invention.

100: fire receiver,
110: main control unit;
120: key input unit;
130: detection signal input unit,
140: display unit;
150: short-distance communication tag unit
200: user terminal;
210: terminal control unit;
220: memory unit;
230: communication department;
240: key input unit,
250: display unit;
260: sound output unit
300: service center terminal

Claims (2)

When the power state is turned on, it is checked whether a predetermined abnormal situation has occurred, and if a predetermined abnormal situation occurs as a result of the check, an error message according to the abnormal situation is displayed, and when the selection signal for the error message is a positive signal, it is accumulated a fire receiver that generates monitoring data including monitoring information and product information and provides it to a user terminal; and
When monitoring data is received from the fire receiver, when the monitoring data is received, the monitoring data is analyzed to determine whether a failure corresponding to a preset error code has occurred. After extracting the diagnostic data corresponding to the error code, the cause of the failure is generated by executing the diagnosis using the diagnostic data. and a user terminal that provides a solution to the manager terminal when the diagnosis is completed,
The user terminal is
In the monitoring data, when the output voltage of each circuit corresponding to the internal module deviates from the predetermined reference voltage, the error occurrence time is measured. Calculate the error occurrence holding time from the time from the occurrence start time to the error occurrence end time, and if the error occurrence holding time is more than a predetermined reference time, increase the number of errors,
It is determined whether a failure corresponding to a preset error code has occurred based on the error occurrence holding time and the number of error occurrences, and if the error occurrence holding time is greater than or equal to a predetermined reference time as a result of the determination, the number of error occurrences is increased, and an error occurs If the holding time is less than or equal to a predetermined reference time, the number of occurrences of errors is not increased,
When the error occurrence holding time is not longer than the predetermined reference time, but the difference time between the error occurrence holding time and the predetermined reference time is less than or equal to a specific time, increasing the number of possible errors and without increasing the number of errors
If the number of possible errors is greater than or equal to a certain number of times, it is determined that there is a possibility that an error may occur and the number of occurrences of errors is increased. reduce,
When the number of error occurrence exceeds a predetermined reference number, it is determined whether a failure corresponding to a preset error code has occurred.
Fire Receiver Diagnostic System.
checking whether a predetermined abnormal situation has occurred when the fire receiver is turned on, and displaying an error message according to the abnormal situation when a predetermined abnormal situation occurs as a result of the check;
generating, by the fire receiver, monitoring data including accumulated monitoring information and product information when the selection signal for the error message is an affirmative signal and providing it to a user terminal;
determining whether a failure corresponding to a preset error code has occurred by analyzing the monitoring data when the user terminal receives the monitoring data from the fire receiver;
generating, by the user terminal, when a failure occurs as a result of the determination, extracting diagnostic data corresponding to the error code from a diagnostic data database for each error code, and then executing a diagnosis using the diagnostic data to generate a cause of the failure; and
After the user terminal extracts the solution method for the failure cause from the solution method database for each cause of the failure, and the diagnosis is completed based on the solution method for the failure cause, the method comprising the step of providing the solution to the manager terminal,
The step of analyzing the monitoring data to determine whether a failure corresponding to a preset error code has occurred
In the monitoring data, when the output voltage of each circuit corresponding to the internal module deviates from the predetermined reference voltage, the error occurrence time is measured. calculating an error occurrence holding time based on the time from the occurrence start time to the error occurrence end time, and increasing the number of errors when the error occurrence holding time is greater than or equal to a predetermined reference time;
It is determined whether a failure corresponding to a preset error code has occurred based on the error occurrence holding time and the number of errors occurring, and as a result of the determination, if the error occurrence holding time is equal to or greater than a predetermined reference time, the number of errors is increased, and an error occurs not increasing the number of occurrences of errors when the holding time is less than or equal to a predetermined reference time;
increasing the number of possible errors and not increasing the number of occurrences of errors when the error occurrence holding time is not equal to or greater than the predetermined reference time, but the difference time between the error occurrence holding time and the predetermined reference time is less than or equal to a specific time;
If the number of possible errors is greater than or equal to a specific number of times, it is determined that there is a possibility that an error may occur and the number of occurrences of errors is increased. reducing the;
and determining whether a failure corresponding to a preset error code has occurred when the number of occurrences of the error exceeds a predetermined reference number
How to diagnose a fire receiver.

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