JP2007065888A - Fire alarm inspection device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire alarm inspection device allowing easy and safe inspection of a fire alarm. <P>SOLUTION: This fire alarm inspection device has: one or more wireless slave units 6-1 to 6-4 connected to one or more fire alarms 7-1 to 7-4; and an information processing terminal 2 wirelessly communicating with the one or more fire alarms through the one or more wireless slave units. The information processing terminal has: a memory 24 storing inspection information necessary for the inspection of the one or more fire alarms and wireless slave unit IDs for identifying each of the one or more wireless slave units; and a wireless communication part 27 transmitting the wireless slave unit ID and inspection requirement information to the wireless slave unit on the basis of the inspection information stored in the memory 24, and receiving inspection result information for showing a result of the inspection by each the fire alarm in response to the inspection requirement information. Each the wireless slave unit outputs the inspection requirement information to the fire alarm connected itself when the wireless slave unit ID received from the information processing terminal and its own ID accord. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a fire alarm inspection device for inspecting whether there is an abnormality in a fire alarm device, and in particular, to check an indoor fire alarm device wirelessly from the outside.

  Detailed rules for the installation and inspection of fire alarms are stipulated in the Fire Service Law and related laws, but handling is different between large-scale equipment and small-scale equipment. That is, in large-scale facilities such as department stores and buildings, once a fire breaks out, the damage including human life becomes enormous, so the regulations regarding the inspection of fire alarms are strict.

  On the other hand, small-scale facilities represented by houses have not been obligated to install a fire alarm until now. However, due to the heavy use of new building materials and synthetic fibers in recent years, the number of deaths due to toxic gases generated with fires is increasing. In order to curb this increase, a legal system was imposed to impose an obligation to install fire alarms on houses. For this reason, fire alarms for homes have been developed that can be installed and handled at low cost without specialized knowledge and technology.

  The fire alarm is installed on the wall or ceiling and does not require any power supply or signal line work and operates with a battery. When a fire is detected, it has a function to sound a buzzer on the main unit or to notify a fire with a synthetic voice. . When fire alarms are actually installed in a house, a plurality of fire alarms are installed in places that may become a source of fire, corridors and stairs that cause smoke.

  Since the fire alarm installed in this way is normally in a standby state, it cannot detect an abnormality (failure or battery exhaustion). For this reason, the resident himself checks the fire alarm (operation test) by operating a switch or the like provided in the fire alarm.

  Moreover, for example, Patent Document 1 is known as a method for checking a fire alarm. In Patent Document 1, in an inspection method for a fire alarm having at least a fire detection temperature sensor, an external magnetic field is applied to a fire alarm inspection relay connected in parallel with the temperature sensor to make the relay conductive. The fire alarm is made to conduct in a pseudo manner.

According to this, the fire alarm can be inspected by applying an external magnetic field around the relay and operating the relay.
JP 2000-76566 A

  However, (1) The fire alarm must be checked by the residents themselves, so there is no guarantee that the fire alarm will be carried out reliably. For this reason, the fire alarm is left in a state where the original performance and function of the fire alarm are impaired, and the fire alarm may not function when an actual fire occurs.

  In addition, (2) the installation standard of fire alarms is defined as the vicinity of the ceiling of the ceiling or wall surface. For this reason, since the fire alarm is inspected on a stepladder or the like, the inspection work becomes unsafe. As a result, in the worst case, residents may fall and get injured.

  Furthermore, even the fire alarm inspection method described in Patent Document 1 has problems as described in (1) and (2) above.

  The subject of this invention is providing the fire alarm inspection apparatus which can implement a fire alarm inspection easily and safely.

  The present invention employs the following means in order to solve the above problems. The present invention includes one or more fire alarms, one or more wireless slaves connected to the one or more fire alarms in a one-to-one correspondence, and the one or more wireless slaves via the one or more wireless slaves. An information processing terminal that performs wireless communication with the fire alarm, wherein the information processing terminal identifies inspection information necessary for inspection of the one or more fire alarms and each of the one or more wireless slave units Storage means for storing wireless slave unit identification information, and inspection request information for requesting inspection of the wireless slave unit identification information and the one or more fire alarms based on the inspection information stored in the storage means And a wireless communication unit for receiving inspection result information for indicating a result of inspection by each fire alarm in response to the inspection request information, and each of the wireless slave units And the wireless slave unit identification information received from the information processing terminal If the his own identification information match, and outputs the inspection request information to the fire alarm to be connected thereto.

  According to the present invention, since the information processing terminal and one or more fire alarms are wirelessly connected via one or more wireless slave units, each fire alarm can be easily and safely inspected wirelessly. . Also, when entrusting the inspection to a specialist, the fire alarm can be inspected from outside and privacy can be maintained.

  Hereinafter, a fire alarm inspection device according to an embodiment of the present invention will be described in detail with reference to the drawings.

In the fire alarm device inspection apparatus of the first embodiment, the fire alarm device is inspected from outside using radio, so that the meter reader can keep the privacy without entering the room at the time of inspection. In addition, the meter reader inspects the fire alarm device at the time of meter reading work of the gas meter 5 to provide an inspection service at a low cost.
FIG. 1 is a block diagram showing the construction of a fire alarm inspection device according to Embodiment 1 of the present invention. As shown in FIG. 1, the fire alarm inspection device according to the first embodiment of the present invention includes a handheld computer 2 (hereinafter abbreviated as HHC), a printer 3, a gas meter 5, and wireless slave units 6-1 to 6-6. 4. Fire alarm devices 7-1 to 7-4 are provided.

  The HHC 2 corresponds to the information processing terminal of the present invention, is portable, performs meter reading of the gas meter 5 based on meter reading information necessary for meter reading of the gas meter 5, and checks the fire alarm devices 7-1 to 7-4. The fire alarm device is inspected by performing wireless communication with the fire alarm devices 7-1 to 7-4 via the wireless slave units 6-1 to 6-4 based on the inspection information necessary for the inspection.

  As shown in FIG. 2, the HHC 2 includes an interface (I / F) 23, a memory 24, an operation unit 25, a display unit 26, a wireless master device 27, and a CPU 22 that controls these units. The I / F 23 controls input / output of information with the host computer (host computer) of the gas company. The memory 24 is downloaded from the host computer before meter reading / inspection, the meter reading information necessary for meter reading of the gas meter 5, the presence / absence of inspection of the fire alarm, the number of installation, the installation date, the previous inspection result, etc. The customer information (corresponding to the inspection information of the present invention) necessary for the storage is stored. The memory 24 stores the meter indication value obtained by the meter reading of the gas meter 5 and the inspection result information obtained by the inspection of the fire alarm device.

  The information on the number of installations includes the number of fire alarms arranged in indoor places (in this example, four), and the wireless slave units 6-1 to 6-6 corresponding to the number of fire alarms. -4 includes wireless slave device identification information (hereinafter referred to as a wireless slave device ID) for identifying each of -4.

  The operation unit 25 inputs various information by touch input. The display unit 26 displays information stored in the memory 24. Based on the inspection information stored in the memory 24, the wireless master unit 27 transmits the wireless slave unit ID and inspection request information for requesting inspection of the fire alarm to the wireless slave unit, and responds to the inspection request information. The inspection result information for indicating the result of inspection by each fire alarm is received. The CPU 22 stores the received inspection result information in the memory 24.

  A printer 3 is connected to the HHC 2, and the printer 3 prints the meter reading result information and the inspection result information as the meter reading / inspection notification sheet 4 after the meter reading / inspection. The meter reading / inspection notification sheet 4 is posted to the customer's house.

  Further, the HHC 2 uploads the inspection result information stored in the memory 24 to the host computer after the meter reading / inspection. On the host computer side, if there is an abnormality based on the inspection result information, it is repaired or replaced by notifying the maintenance / service department.

  FIG. 4 is a diagram showing a state in which the HHC 2 is connected to the host computer. As shown in FIG. 4, the HHC 2 is connected to the client terminal 32 via the I / F device 31, and the client terminal 32 is connected to the host computer 34 via the communication network 33. The main information downloaded from the host computer 34 to the HHC 2 before meter reading / inspection is the customer number, customer name, address, instrument number of the gas meter 5, meter reading order, previous indication number, previous usage amount, previous usage amount, etc. Meter reading information and inspection information such as whether or not the fire alarm is inspected, the number of installation, the installation date, and the previous inspection result. The main information uploaded from the HHC 2 to the host computer 34 after meter reading / inspection is the customer number, the current instruction number, the current usage amount, and the inspection result information.

  Each of the wireless slave units 6-1 to 6-4 has a CPU and a memory (not shown), and the CPU has a wireless slave unit ID received from the HHC 2 and its own ID stored in the memory. If they match, the inspection request information is output to the fire alarm connected to itself.

  FIG. 3 is a block diagram showing the configuration of the fire alarm in the fire alarm inspection device according to Embodiment 1 of the present invention. The fire alarm has a battery 20, a smoke sensor 13, a determination unit 14, a pseudo signal generation unit 15, a voltage detection unit 16, an I / F 17, a memory 18, a timer 19, and a CPU 12 that controls each unit.

  The smoke sensor 13 detects smoke accompanying the occurrence of a fire. The pseudo signal generation unit 15 generates a pseudo signal, and operates the smoke sensor 13 according to the pseudo signal to output the output from the smoke sensor 13 to the CPU 12. The voltage detector 16 detects the voltage of the battery 20 and outputs it to the CPU 12.

  The determination unit 14 corresponds to the inspection determination unit of the present invention, and inspects whether there is an abnormality in the fire alarm device and indicates the inspection result depending on whether the output from the smoke sensor 13 is within the reference value. Output result information. Further, the determination unit 14 checks whether or not the fire alarm is abnormal depending on whether or not the voltage of the battery 20 detected by the voltage detection unit 16 is equal to or lower than the reference voltage, and outputs inspection result information. Moreover, the determination part 14 may output inspection result information by determining the presence or absence of abnormality of a communication function.

  The memory 18 stores the inspection result information from the determination unit 14. The I / F 17 controls input / output of information with the wireless slave unit. The timer 19 measures a predetermined time.

  Next, operation | movement of the fire alarm inspection apparatus which concerns on Example 1 of this invention is demonstrated in detail using the flowchart of FIG.

  First, the HHC 2 downloads meter reading information and inspection information before meter reading / inspection from the host computer 34 (step S11). And a meter-reader goes around a consumer according to the meter-reading order memorize | stored in the memory 24 of HHC2. The meter reader arrives at the meter reading target area and turns on the power of the HHC2. The CPU 22 displays the meter reading information of the meter to be metered stored in the memory 24 on the display unit 26, and based on the meter reading information, the meter reading person inputs the current instruction number of the gas meter 5 through the operation unit 25 (step S13). ). Then, the CPU 22 calculates the current usage amount from the current instruction number and the previous instruction number and stores it in the memory 24. Thereby, the meter reading operation is completed.

  Next, after the number of instructions of the gas meter 5 is input, the CPU 22 reads out the inspection information from the memory 24 and displays it on the display unit 26. Based on this inspection information (for example, whether or not inspection is performed), the CPU 22 It is determined whether or not the fire alarm is a target for inspection (step S15).

  When the inspection information is a target of inspection of the fire alarm device, the HHC 2 wirelessly transmits the wireless slave device ID1 corresponding to the wireless slave device 6-1 and the inspection request information from the wireless master device 27 to the wireless slave device 6-6. 1 (step S17).

  On the other hand, the wireless slave device 6-1 receives the wireless slave device ID1 and the inspection request information from the wireless master device 27, and requests inspection by outputting the inspection request information to the fire alarm device 7-1.

  In the fire alarm 7-1 that has received the inspection request, the voltage detector 16 detects the voltage of the battery 20. The determination unit 14 checks whether or not the fire alarm is abnormal depending on whether the voltage of the battery 20 detected by the voltage detection unit 16 is equal to or lower than a reference voltage, and obtains inspection result information (step S19). The determination unit 14 checks whether or not the fire alarm is abnormal depending on whether or not the output from the smoke sensor 13 is within the reference value, and obtains inspection result information. The CPU 12 stores the inspection result information (inspection result data) from the determination unit 14 in the memory 18 (step S21).

  When the above processing is completed, the CPU 12 transmits the inspection result information to the HHC 2 via the I / F 17 and the wireless slave device 6-1 (step S23).

  In the above, the inspection of only the fire alarm device 6-1 has been described. However, for each of the fire alarm devices 6-2 to 6-4, all the fire alarm devices can be obtained by repeating the operations of steps S17 to S23. Can be inspected.

  As described above, according to the fire alarm inspection device according to the first embodiment, the HHC 2 and one or more fire alarms are wirelessly connected via one or more wireless slave units. It can be easily and safely implemented wirelessly. In addition, the fire alarm can be inspected from outside and privacy can be maintained. In addition, the meter reader can inspect the fire alarm device at the time of meter reading work of the gas meter 5, thereby providing an inspection service at a low cost. In addition, since the HHC for meter reading has information necessary for inspection, no new equipment is required.

  Next, a fire alarm inspection device according to Embodiment 2 of the present invention will be described. In the first embodiment, the fire alarm devices 7-1 to 7-4 check the battery voltage and the smoke sensor after receiving an inspection request from the HHC 2.

  On the other hand, in the second embodiment, the inspection determination unit obtains inspection result information by inspecting the fire alarm every predetermined time counted by the timer 19, that is, periodically (for example, once / day). The memory 18 stores the inspection result information. When the CPU 12 receives the inspection request information from the HHC 2 via the wireless slave unit, the CPU 12 causes the inspection result information stored in the memory 18 to be transmitted to the HHC 2 via the wireless slave unit.

  Next, operation | movement of the fire alarm inspection apparatus which concerns on Example 2 of this invention is demonstrated in detail using the flowchart of FIG.

  First, in each fire alarm device 7-1 to 7-4, when the timer 19 starts measuring time, the CPU 12 determines whether or not the time measured by the timer 19 has passed a certain time (step S31). ). When a certain time has elapsed, the determination unit 14 obtains inspection result information by checking the voltage of the battery 20 and the presence or absence of abnormality of the smoke sensor 13 in the manner described in step S19 of the first embodiment. (Step S33). And CPU12 memorize | stores the inspection result information of the determination part 14 in the memory 18 (step S35).

  Next, the CPU 12 determines whether or not the inspection request information has been received from the HHC 2 (step S37). When the inspection request information is received, the inspection result information is read from the memory 18 and sent via the wireless slave unit. It transmits to HHC2 (step S39).

  That is, in response to the inspection request of the HHC 2, the inspection result information in the memory 18 can be immediately returned to the HHC 2, so that the response time can be shortened. In addition, since the number of inspections is regularly inspected from the time of meter reading once a month, a more reliable service can be provided.

  Next, a fire alarm inspection device according to Embodiment 3 of the present invention will be described. When data transmission is performed wirelessly, data transmission is performed after the link between the wireless master device and the wireless slave device is established. For this reason, as in the first and second embodiments, when an inspection request is made from the HHC 2 to each wireless slave unit, an overhead time is required each time, and the entire time becomes longer.

  Therefore, in the third embodiment, all inspection result information of the fire alarm devices 6-1 to 60-4 is collectively returned to the HHC 2 in response to a single inspection request from the HHC 2.

  Therefore, of the wireless slave devices 6-1 to 6-4 shown in FIG. 1, for example, the wireless slave devices 6-2 to 6-4 are slave wireless devices that are slaves, and the wireless slave device 6-1 is a slave wireless device. Assume that the wireless slave devices 6-2 to 6-4 that are the master devices are master wireless devices that manage the wireless slave devices.

  The fire alarm devices 7-2 to 7-4 connected to the slave radio devices 6-2 to 6-4 are inspected for the presence or absence of an abnormality of the fire alarm device every predetermined time counted by the timer 19. The determination unit 14 that outputs the inspection result information, and the first transmission that transmits the inspection result information of the determination unit 14 to the fire alarm device 7-1 connected to the master wireless device 6-1 via the master wireless device 6-1. It has CPU12 as a control means.

  The fire alarm device 7-1 connected to the master radio device 6-1 is a determination unit that outputs inspection result information by checking whether or not there is an abnormality in the fire alarm device at every predetermined time counted by the timer 19 14, a memory 18 for storing the inspection result information of the determination unit 14 and the inspection result information from the fire alarm devices 7-2 to 7-4 connected to the slave radio devices 6-2 to 6-4, and the master radio Second transmission control means for transmitting all the inspection result information stored in the memory 18 to the HHC 2 through the master radio device 6-1 when the inspection request information is received from the HHC 2 through the device 6-1. As a CPU 12. The distinction between master and slave is set by a changeover switch (not shown in the figure) or transmission.

  Next, operation | movement of the fire alarm inspection apparatus which concerns on Example 3 of this invention is demonstrated in detail using the flowchart of FIG.7 and FIG.8. FIG. 7 is a flowchart showing processing of the fire alarm devices 7-2 to 7-4 according to the third embodiment of the present invention. FIG. 8 is a flowchart showing the processing of the fire alarm 7-1 according to the third embodiment of the present invention.

  First, the processing of each of the fire alarm devices 7-2 to 7-4 will be described with reference to FIG. When the timer 19 starts measuring time, the CPU 12 determines whether or not the time measured by the timer 19 has passed a certain time (step S51). When the predetermined time has elapsed, the determination unit 14 obtains inspection result information by checking the voltage of the battery 20 and the presence or absence of abnormality of the smoke sensor 13 (step S53). And CPU12 memorize | stores the inspection result information of the determination part 14 in the memory 18 (step S55).

  Next, the CPU 12 reads out the inspection result information from the memory 18 and transmits it to the wireless slave device 6-1 via its own wireless slave device (step S57), and the wireless slave device 6-1 includes the fire alarm 7 The inspection result information is output to -1.

  Next, the process of the fire alarm device 7-1 will be described with reference to FIG. When the timer 19 starts measuring time, the CPU 12 determines whether or not the time measured by the timer 19 has passed a certain time (step S61). If the predetermined time has not elapsed, the process proceeds to step S67.

  When the predetermined time has elapsed, the determination unit 14 obtains inspection result information by checking the voltage of the battery 20 and the presence or absence of abnormality of the smoke sensor 13 (step S63). And CPU12 memorize | stores the inspection result information of the determination part 14 in the memory 18 (step S65).

  The CPU 12 determines whether or not the inspection result information has been received from the fire alarm devices 7-2 to 7-4 (step S67). If the inspection result information is not received, the CPU 12 proceeds to step S71.

  When the inspection result information is received, the CPU 12 stores the received inspection result information in the memory 18 (step S69).

  Next, the CPU 12 determines whether or not the inspection request information has been received from the HHC 2 (step S71). If the inspection request information is not received, the CPU 12 proceeds to the subsequent stage of step S73.

  When the inspection request information is received, all the inspection result information of the fire alarm devices 7-1 to 7-4 is read from the memory 18, and all the inspection result information is collectively collected via the wireless slave unit 6-1. To HHC2 (step S73).

  That is, since one or more fire alarms can be inspected collectively with a single inspection request (access) from the HHC, the inspection time can be further shortened.

  In the first to third embodiments, the inspection result information is stored in the memory 18 of the fire alarm devices 7-1 to 7-4. For example, the inspection result information is stored in the wireless slave units 6-1 to 6-6. In this case, the same effect can be obtained.

  Further, when the wireless slave device 6-1 is a master and the wireless slave devices 6-2 to 6-4 are slaves, the wireless slave devices 6-2 to 6-4 are fire alarm devices 7-2 to 7-. 4 is transmitted to the wireless slave unit 6-1, and the wireless slave unit 6-1 transmits the inspection result information of its own fire alarm device 6-1 and the wireless slave units 6-2 to 6-4. The inspection result information may be stored in the memory, and when the inspection request information is received from the HHC 2, the inspection result information read from the memory may be collectively transferred to the HHC 2.

  The present invention is applicable as a fire alarm inspection system added to a meter reading device used for meter reading.

It is a block diagram which shows the structure of the fire alarm inspection apparatus which concerns on Example 1 of this invention. It is a block diagram which shows the structure of HHC in the fire alarm inspection apparatus which concerns on Example 1 of this invention. It is a block diagram which shows the structure of the fire alarm in the fire alarm inspection apparatus which concerns on Example 1 of this invention. It is a block diagram which shows the state which connected HHC to the host computer. It is a flowchart which shows the process of the fire alarm inspection apparatus which concerns on Example 1 of this invention. It is a flowchart which shows the process of the fire alarm which concerns on Example 2 of this invention. It is a flowchart which shows the process of the fire alarm devices 7-2 to 7-4 which concern on Example 3 of this invention. It is a flowchart which shows the process of the fire alarm device 7-1 which concerns on Example 3 of this invention.

Explanation of symbols

2 HHC
3 Printer 4 Meter reading / check notice
5 Gas meters 6-1 to 6-4 Wireless slave units 7-1 to 7-4 Fire alarm
12,22 CPU
13 Smoke sensor 14 Determination unit 15 Pseudo signal generation unit 16 Voltage detection unit 17, 23 I / F (interface)
18, 24 Memory 19 Timer 20 Battery 25 Operation unit 26 Display unit 27 Wireless master unit 31 I / F device 32 Client terminal 33 Communication network 34 Host computer

Claims (6)

One or more fire alarms, one or more wireless slaves connected to the one or more fire alarms in a one-to-one correspondence, and the one or more fire alarms via the one or more wireless slaves, An information processing terminal for performing wireless communication,
The information processing terminal has storage means for storing inspection information necessary for inspection of the one or more fire alarms and wireless slave unit identification information for identifying each of the one or more wireless slave units;
Based on the inspection information stored in the storage means, the wireless slave unit identification information and inspection request information for requesting inspection of the one or more fire alarms are transmitted to the wireless slave unit, and the inspection request A wireless communication unit that receives inspection result information for representing the result of inspection by each fire alarm in response to the information;
Each of the wireless slave devices outputs the inspection request information to the fire alarm connected to the wireless slave device when the wireless slave device identification information received from the information processing terminal matches its own identification information. A fire alarm inspection device characterized by that. Each fire alarm is
A timer for measuring a predetermined time;
An inspection determination unit that obtains the inspection result information by performing an inspection for the presence or absence of an abnormality of the fire alarm every predetermined time counted by the timer;
Inspection result information storage means for storing the inspection result information of the inspection determination unit;
When the inspection request information is received from the information processing terminal via the wireless slave unit, the inspection result information stored in the inspection result information storage unit is transmitted to the information processing terminal via the wireless slave unit. Transmission control means;
The fire alarm inspection device according to claim 1, comprising: The one or more wireless slave devices are composed of one or more slave wireless devices that are slaves, and a master wireless device that manages the one or more slave wireless devices,
The fire alarm connected to the slave radio is
A first timer for measuring a predetermined time;
A first inspection determination unit that outputs the inspection result information by performing an inspection for the presence or absence of an abnormality of the fire alarm every predetermined time counted by the first timer;
First transmission control means for transmitting the inspection result information of the first inspection determination unit to the fire alarm connected to the master wireless device via the master wireless device;
The fire alarm connected to the master radio is
A second timer for timing the predetermined time;
A second inspection determination unit that outputs the inspection result information by performing an inspection for the presence or absence of abnormality of the fire alarm at every predetermined time measured by the second timer;
Inspection result information storage means for storing the inspection result information of the second inspection determination unit and the inspection result information from the fire alarm connected to the slave radio;
When the inspection request information is received from the information processing terminal via the master radio, the inspection result information stored in the inspection result information storage means is transmitted to the information processing terminal via the master radio. Second transmission control means;
The fire alarm inspection device according to claim 1, comprising: The one or more wireless slave devices are composed of one or more slave wireless devices that are slaves, and a master wireless device that manages the one or more slave wireless devices,
The fire alarm connected to the slave radio is
A first timer for measuring a predetermined time;
A first inspection determination unit that outputs the inspection result information by performing an inspection for the presence or absence of an abnormality of the fire alarm every predetermined time counted by the first timer;
First transmission control means for transmitting inspection result information of the first inspection determination unit to the master radio,
The fire alarm connected to the master radio is
A second timer for timing the predetermined time;
A second inspection determination unit that outputs the inspection result information by performing an inspection for the presence or absence of abnormality of the fire alarm at every predetermined time counted by the second timer,
The master radio is
Inspection result information storage means for storing the inspection result information of the second inspection determination unit and the inspection result information from the fire alarm connected to the slave radio;
Transmission control means for transmitting the inspection result information stored in the inspection result information storage means to the information processing terminal when the inspection request information is received from the information processing terminal;
The fire alarm inspection device according to claim 1, comprising: Each of the fire alarms is
A voltage detector for detecting the voltage of the battery;
A fire detection unit for detecting a fire;
By checking the fire alarm device based on at least one of the battery voltage detected by the voltage detection unit and the output of the fire detection unit when the fire detection unit is operated by a pseudo signal. An inspection determination unit that outputs the inspection result information to the wireless slave unit; and
The fire alarm inspection device according to claim 1, comprising: The storage means of the information processing terminal includes
The fire according to any one of claims 1 to 5, wherein inspection information necessary for inspecting the one or more fire alarms and meter reading information necessary for meter reading are stored. Alarm inspection device.

Images