JP4314993B2 - Emergency lighting inspection system - Google Patents

Description

  The present invention is an emergency lighting inspection that uses data communication technology to inspect an emergency lighting device that turns on a lamp using a secondary battery as a power source when a normal power source such as a guide light or an emergency light fails. It is about the system.

  In general, emergency lighting devices such as guide lights and emergency lights are always supplied with power from an ordinary power source such as a commercial power source. If the normal power source fails in an emergency such as a fire or earthquake, the built-in secondary battery The lamp is lit with an emergency power source. In this type of lighting device, whether or not emergency lighting using a secondary battery as a power source is normally performed in order to ensure that the lamp is lit by the secondary battery when the power supply is interrupted in an emergency. Regular inspections are required by the Fire and Disaster Management Agency Notification or Building Standard Law.

  In order to perform this kind of inspection, emergency lighting equipment generally has a switch that forcibly stops the power supply from the utility power supply to the lamp, and by operating the switch, the utility power supply is shut off to create a pseudo power outage. It is comprised so that electric power may be supplied from a secondary battery. This type of switch often has a pull string that is suspended from the main body of the lighting device, and the common power supply can be cut off by pulling the pull string.

  By the way, in the Fire and Disaster Management Agency notification and the Building Standards Act, as the time for which the lamp must be turned on effectively (maintaining the light output above the specified value) by supplying power from the secondary battery, 60 minutes is specified for emergency lights and 30 minutes for emergency lights. Therefore, in the inspection work, the inspector hangs a weight on the drawstring and maintains a pseudo power failure state by the switch, and the inspector monitors whether or not the lamp is effectively lit up. That is, the inspector must monitor the lighting state of the lamp for a long time, and the inspection work is troublesome. In addition, because guide lights and emergency lights are installed at multiple locations in the building, multiple guide lights and emergency lights must be individually inspected. Since inspection work is performed at a plurality of locations, there is a problem that inspection work for guide lights and emergency lights is a heavy burden on the inspector.

  In order to solve this type of problem and to automate or save labor for inspection of secondary batteries for guide lights and emergency lights, it has been proposed to use data communication technology. In other words, an emergency lighting inspection system is proposed that adds terminal functions in the network to lighting devices such as guide lights and emergency lights, and allows various commands to be given to the lighting devices by data communication from a separate control device. Has been. The command given from the control device to the lighting device includes a command to put the lighting device in a pseudo power failure state. In the lighting device that receives this command, the power supply from the normal power source is cut off, and the lamp is turned on with a secondary battery. It is turned on and the operating state is monitored, and the obtained information is returned to the control device. Therefore, when performing periodic inspections, the control device gives an instruction to the lighting apparatus to make a pseudo power failure, and monitors the response from the lighting device to this command so that the inspector can install the lighting device. The lighting device can be inspected without going to the place.

  In this type of emergency lighting inspection system, a control device (central monitoring control unit) and a plurality of lighting devices (individual emergency lighting units) are connected via signal lines, and addresses (addresses) assigned to the respective lighting devices are addressed. ) Is used to transmit a signal for switching the control mode to the diagnostic mode to the illumination device (see, for example, Patent Document 1). The lighting device has a function to monitor battery voltage, light output, current consumption, etc., and when a diagnosis start command is received from the control device, it is disconnected from the main power supply (main power supply) and the lamp (emergency lamp) is turned on. The voltage, light output and current consumption are monitored, and the time, voltage and current are recorded when the battery voltage drops to a specified voltage. Information recorded in the lighting device is transferred to the control device in response to a request from the control device.

In addition to the inspection function in which the lighting device connected so as to be communicable with the control device performs a periodic inspection in response to a command from the control device, the lighting device has a monitoring function to constantly monitor the charging state of the secondary battery, It has also been proposed to improve not only the results of periodic inspections but also the results of constant monitoring in the storage unit to improve the inspection accuracy of secondary batteries by making comprehensive judgments during periodic inspections (Japanese Patent Application). 2002-279760).
JP-A-3-228497

  By the way, in the technique described in Patent Document 1, since the monitoring result at the time of diagnosis can be stored, it is possible to know the past state. However, the stored contents include time, voltage, and current data. Therefore, there is a problem that it is impossible for the inspector to know directly whether it is abnormal or normal. Further, the diagnostic content of each lighting device is the same as that in the case where the periodic inspection is performed by operating the inspection switch, and a high-precision inspection cannot be performed by comprehensive judgment with the constant monitoring.

  On the other hand, the technique described in Japanese Patent Application No. 2002-279760 has not only a periodic inspection but also a function of constantly monitoring, and also has a function of judging and notifying the occurrence of an abnormality and storing it. Although it is possible to know directly whether or not there is an abnormality, the constant monitoring is repeated periodically, and the continuous monitoring is recorded as normal and abnormal as a result of the periodic monitoring performed periodically. (See FIG. 27 of the above application specification), there is a problem that the record of constant monitoring cannot be easily understood by the inspector.

  The present invention has been made in view of the above reasons, and an object of the present invention is to provide an emergency lighting inspection system that displays an inspection result in a form that is easy for an inspector to understand.

The invention of claim 1 is defined in that an emergency lighting device that lights a lamp using a built-in secondary battery as a power source when power supply from an external utility power supply is stopped and the lighting device are capable of data communication. A function for requesting periodic inspections to the lighting device every period and a function for acquiring inspection results of the periodic inspection, and a function for constantly monitoring inspection items including the presence or absence of abnormality of the secondary battery for the lighting device and acquiring the inspection results; And a monitoring device equipped with a display device that obtains the inspection result from the control device and displays the inspection result together with the date and time of execution. When the periodic inspection is required, the lighting device supplies the regular power supply for a specified time. Has a function of shutting down and a function of checking whether or not there is an abnormality in the secondary battery determined by using a change in the terminal voltage of the secondary battery due to the interruption of the normal power supply. One of the location, example Bei the determination control section which determines whether or not to display the previous inspection result and the current inspection result and indicator was inspected results of this comparison, determining the control unit, the control device When the periodic inspection is interrupted when the periodic inspection is requested, the display indicates that the periodic inspection is not completed, and when the periodic inspection is interrupted, the scheduled date and time of the next periodic inspection is automatically generated and displayed. It is characterized by being displayed .

According to this configuration, the inspection device does not need to individually operate the lighting device by carrying out the periodic inspection by the control device, so that labor can be saved, and inspection items including the presence or absence of abnormality of the secondary battery by constant monitoring. Since the inspection results are obtained in a relatively short time, the use of not only the inspection results in the regular inspection but also the inspection results of the constant monitoring makes it possible to detect abnormalities in the lighting device compared to the case of performing only the periodic inspection. Presence / absence can be determined quickly and accurately. In addition, the previous inspection result and the current inspection result are compared to determine whether or not to display the current inspection result on the display of the monitoring device. If the inspection results are displayed on the display only when it is easy for the inspector to recognize the presence or absence of abnormalities, the amount of data displayed on the display can be reduced, and the display can be easily understood by the inspector. Is possible. Also, if the same contents as the inspection results displayed on the display are stored as a history, the storage capacity can be greatly reduced compared to storing all inspection results, resulting in a reduction in cost. . Further, when the periodic inspection is not completed due to the interruption of the periodic inspection, the inspector can recognize that the periodic inspection is not completed, and for example, the periodic inspection can be manually performed. In addition, when the periodic inspection is interrupted, the next periodic inspection schedule is automatically generated, so there is no need to perform the periodic inspection manually when the periodic inspection is not completed. Since it is displayed on the display unit, a sense of security can be obtained for the inspector.

  According to a second aspect of the present invention, in the first aspect of the invention, the determination control unit displays the current inspection result when the current inspection result monitored by the control device is different from the previous inspection result. It is characterized by being displayed on a vessel.

  According to this configuration, for constant monitoring, the inspection result is displayed on the display only when the inspection result changes, and in general, the inspection result changes when an abnormality occurs. The occurrence point of abnormality can be easily recognized.

  According to a third aspect of the present invention, in the second aspect of the present invention, the determination control unit causes the display device to display a check result of the periodic check together with an execution date and time when the control device requests a periodic check. .

  According to this configuration, the inspection result in constant monitoring displays the inspection result on the display only when the inspection result changes, whereas the inspection result of the periodic inspection is displayed on the display together with the execution date and time. It is possible to confirm the date and time when the periodic inspection was performed, and to ensure that the inspector recognizes whether or not the periodic inspection was performed. In addition, if the periodic inspection is not performed due to a malfunction of the control device, etc., it is possible to know that the periodic inspection is not performed by not displaying the scheduled inspection date and time as scheduled. The effect of encouraging regular inspections can also be expected.

According to a fourth aspect of the present invention, in the first to third aspects of the invention, the monitoring device has a function of outputting inspection results including inspection results for periodic inspections in a prescribed format.

  According to this configuration, the output of the format including the inspection result by the periodic inspection can be obtained, so that the result of the periodic inspection can be easily confirmed. Here, the output target includes not only the screen display of the display unit but also printing by a printer. If printing by a printer is performed, a document related to periodic inspection is automatically created, saving labor in periodic inspection. become.

According to the configuration of the present invention, the periodic inspection is performed by the control device, so that the inspector does not need to individually operate the lighting device, so that labor can be saved. Since inspection results are obtained in a relatively short period of time for inspection items, by using not only the inspection results of regular inspections but also the inspection results of constant monitoring, the lighting equipment There is an advantage that the presence or absence of abnormality can be determined quickly and accurately. In addition, the previous inspection result and the current inspection result are compared to determine whether or not to display the current inspection result on the display of the monitoring device. If the inspection results are displayed on the display only when it is easy for the inspector to recognize the presence or absence of abnormalities, the amount of data displayed on the display can be reduced, and the display can be easily understood by the inspector. Is possible. Also, if the same contents as the inspection results displayed on the display are stored as a history, the storage capacity can be greatly reduced compared to storing all inspection results, resulting in a reduction in cost. . Further, when the periodic inspection is not completed due to the interruption of the periodic inspection, the inspector can recognize that the periodic inspection is not completed, and for example, the periodic inspection can be manually performed. In addition, when the periodic inspection is interrupted, the next periodic inspection schedule is automatically generated, so there is no need to perform the periodic inspection manually when the periodic inspection is not completed. Since it is displayed on the display unit, a sense of security can be obtained for the inspector.

  In this embodiment, as shown in FIG. 1A, a plurality of lighting devices 1 are connected to a control device 2 via a signal line Ls, and the monitoring device is composed of a personal computer that executes an appropriate program on the control device 2. The apparatus 3 is connected via a transmission line Lt. The signal line Ls is, for example, RS485 specification, and the transmission line Lt is, for example, Ethernet (registered trademark), and a signal is transmitted between the control device 2 and the monitoring device 3 using an IP address.

  The illuminating device 1 is a guide light or an emergency light (assuming a guide light in this embodiment), and has a built-in secondary battery 11 as shown in FIG. At the time of power feeding, the secondary battery 11 is charged and the lamp 10 is turned on by feeding power to the lighting circuit unit 13 from the regular power supply AC, and the lamp 10 is lit using the secondary battery 11 as a power source at the time of power failure of the regular power supply AC. A fluorescent lamp is widely used as the lamp 10, but an incandescent bulb or a light emitting diode may be used. The power supply control unit 12 determines whether to use the regular power supply AC or the secondary battery 11 as a power supply. When the power supply control unit 12 detects a power failure of the regular power supply AC, the lamp 10 is turned on. Power is supplied from the secondary battery 11 to the circuit unit 13. Further, the power supply control unit 12 can also cut off the power supply from the normal power supply AC in order to make a pseudo power outage even when the power supply from the normal power supply AC is being supplied.

  The secondary battery 11 and the power supply control unit 12 are connected to the inspection circuit unit 14. The inspection circuit unit 14 has a function of monitoring the terminal voltage of the secondary battery 11 and a function of detecting the lamp current flowing in the lamp 10 from the lighting circuit unit 14. 10 and a function of determining whether or not the secondary battery 11 is abnormal. The inspection circuit unit 14 according to the present embodiment has three types of periodic inspections that are performed once every six months, weekly inspections that are performed once a week, and constant monitoring that is performed every three minutes. Check.

  When the periodic inspection is instructed to the inspection circuit unit 14, the inspection circuit unit 14 gives an instruction to the power supply control unit 12 to cut off the power supply from the regular power supply AC for a specified time (here, 20 minutes). . Therefore, the lighting device 1 instructed for periodic inspection is in a pseudo power failure state, and power is supplied from the secondary battery 11 to the lighting circuit unit 13. The time for cutting off the power supply from the regular power supply AC is limited by the timer circuit unit 15 connected to the inspection circuit unit 14, and here, 20 minutes is limited. In the periodic inspection, the terminal voltage of the secondary battery 11 is measured after the lamp 10 has been lit for 20 minutes with the secondary battery 11 as a power source. If it falls below, it is determined that the battery is abnormal.

  When the weekly inspection is instructed to the inspection circuit unit 14, the inspection circuit unit 14 instructs the power supply control unit 12 to cut off the power supply from the regular power source AC for one minute. In the case of weekly inspections, as in the case of periodic inspections, the lighting device 1 is in a pseudo power failure state, but since it is only for one minute, the terminal voltage of the normal secondary battery 11 is greatly reduced. There is no. Therefore, the terminal voltage of the secondary battery 11 is measured one minute after the power supply from the normal power source AC is cut off. If the voltage is equal to or higher than a preset reference voltage, it is determined to be normal. It is determined that the battery is abnormal.

  When the inspection circuit unit 14 is instructed to constantly monitor, the inspection circuit unit 14 determines whether or not the terminal voltage and the lamp current of the secondary battery 11 are equal to or higher than preset reference values, respectively. The results of periodic inspection, weekly inspection, and constant monitoring are stored in the storage unit 16 formed of an EEPROM together with the date and time.

  The illumination device 1 is provided with a communication unit 17 for performing data communication with the control device 2 through the signal line Ls. An address setting unit 18 using a DIP switch or the like is connected to the communication unit 17 so that the control device 2 can individually recognize each lighting device 1 using the address set in the address setting unit 18. Here, it is assumed that a maximum of 128 lighting devices 1 can be connected to one control device 2.

  Periodic inspection, weekly inspection, and constant monitoring are performed by the control device 2 polling each lighting device 1 using the address of the lighting device 1 and giving an instruction to each lighting device 1 individually. That is, in the control device 2, an instruction is given to each lighting device 1 every six months for the periodic inspection, and an instruction is given to each lighting device 1 every week for the weekly inspection. Each lighting device 1 starts an inspection operation when an instruction for a periodic inspection or a weekly inspection is given, and waits with the inspection result stored in the storage unit 16. In order to acquire the inspection result from the lighting device 1 in the control device 2, the inspection result is requested from the control device 2 to the lighting device 1, and the inspection result stored in the storage unit 16 is returned. Moreover, the control apparatus 2 cyclically polls each illuminating device 1 in monitoring constantly. When 128 lighting devices 1 are connected, it takes about 3 minutes to poll all the lighting fixtures 1 and obtain a response of the judgment result from each lighting fixture 1. Therefore, constant monitoring is performed at a cycle of about 3 minutes.

  Thus, in this embodiment, if there is a request from the control device 2 to the lighting device 1, a response is made from the lighting device 1 to the control device 2. Information is not sent spontaneously. Although it is assumed that the periodic inspection and weekly inspection schedules are managed by the control device 2, an inspection start switch is provided in the control device 2, and the inspection is started by operating the inspection start switch. Good. Even in such an operation, the plurality of lighting devices 1 are not individually operated, but the inspection results of the plurality of lighting devices 1 can be obtained by a single operation, thereby saving labor.

  By the way, the monitoring device 3 has a function of acquiring and displaying the determination result of the presence or absence of abnormality in the lighting device 1 acquired by the control device 2. That is, the monitoring device 3 is configured by using a personal computer as described above, and includes a display 31 including a liquid crystal display or a CRT as shown in FIG. In addition, the monitoring device 3 includes a communication unit 32 so that data communication with the control device 2 is possible through the transmission line Lt. The display unit 31 and the communication unit 32 exchange data with the determination control unit 30 having a microcomputer as a main component, give an instruction to the control device 2 from the communication unit 32, and use the communication unit 32 from the control device 2. Data is received and displayed on the display 31. Therefore, the monitoring device 3 can acquire the data received from the lighting device 1 through the signal line Ls by the control device 2 through the transmission line Lt and display it on the display 31. Furthermore, the storage device 33 for storing data to be exchanged with the control device 2 and the monitoring device 3 for instructing various operations of the monitoring device 3 and for instructing data to be transmitted to the control device 2 An operation unit 34 including a keyboard and a mouse is provided.

  When performing the periodic inspection, the control device 2 gives an instruction to the lighting device 1 as described above. In the periodic inspection, the lighting device 1 shuts off the regular power source AC and turns on the secondary battery. Power is supplied from 11 to the lighting circuit unit 13 to light the lamp 10. At the same time, an inspection start signal is returned to the control device 2. When the control device 2 receives the inspection start signal from the lighting device 1, the control device 2 notifies the monitoring device 3 of the inspection start. In the lighting device 1, after the emergency lighting is performed for the time specified by using the secondary battery 11 as a power source, it is determined whether or not the terminal voltage of the secondary battery 11 is equal to or higher than the specified normal value. The secondary battery 11 is returned to the charged state. Further, when returning from the state in which the lamp 10 is turned on using the secondary battery 11 as a power source to the state in which the secondary battery 11 is charged, an inspection end signal is returned from the lighting device 1 to the control device 2, and the inspection end signal is The received control device 2 notifies the monitoring device 3 of the end of inspection.

  In this embodiment, the judgment control unit 30 of the monitoring device 3 performs the process shown in FIG. 4 on the data received from the control device 2 in order to show the presence / absence of an abnormality in the lighting device 1 to the inspector. ing. That is, when the monitoring device 3 requests the monitoring device 3 or acquires the data from the control device 2 by spontaneous transmission from the control device 2 (S1), the data acquired from the monitoring device 3 is stored in the storage unit 33. At the same time, the determination control unit 30 reads the data from the storage unit 33 and determines whether the type of data is regular inspection, weekly inspection, or constant monitoring (S2). In the case of regular inspection or weekly inspection, since the amount of data is relatively small, all data are displayed on the display 31 in a table format in which the inspection result and the date and time are associated (S4). On the other hand, since constant monitoring is performed every 3 minutes and the amount of data is very large, if all data is displayed in the same way as regular inspections or weekly inspections, it is difficult to determine whether there is an abnormality. Therefore, when data for continuous monitoring is acquired, the content of the acquired data is compared with the content of the previous data (S3), and the display of the display 31 is not changed when the data content is the same as the previous data. Only when the contents of the data are different, the inspection result is displayed on the display 31 in a table format in which the date and time are associated with each other.

  A display example of the display 31 is shown in FIG. In FIG. 1B, a field F1 indicates a group of the control devices 2, and a field F2 indicates an address of the lighting device 1 in the group. In other words, in the example shown in FIG. 1B, a plurality of control devices 2 each connected to the lighting device 1 via the signal line Ls are provided, and the lighting device 1 is integrated by controlling the plurality of control devices 2. It is assumed that one monitoring device 3 is provided for centralized monitoring. The field F3 is an area in which the inspection result and the date and time are associated with each other and expressed in a table format. As is clear from the contents of the field F3, only the date and time when the inspection result has changed is displayed together with the inspection content after the change. Is displayed. Therefore, the same inspection content is not continuously displayed for continuous monitoring every about 3 minutes, and only when the inspection content changes (generally when an abnormality occurs), the changed inspection content is displayed along with the date and time. The display is easy to understand for the inspector, and it is possible to quickly take measures such as replacement of the lamp 10 and the secondary battery 11 of the lighting device 1. In addition, the inspection contents and date and time displayed on the display 31 are stored in the storage unit 33 together with the addresses of the lighting device 1 and the control device 2, and all data for constant monitoring is stored in the storage unit 33. Compared to the above, the amount of data stored in the storage unit 33 can be significantly reduced and the capacity of the storage unit 33 can be reduced, leading to a reduction in cost.

  By the way, the inspection content in the regular monitoring and the inspection content in the periodic inspection and the weekly inspection may be the same. For example, in the case of continuous monitoring, “battery removal” can be used as the inspection result, and in the periodic inspection, “battery life” can be used as the inspection result. And Here, if the inspection result “battery abnormality” is obtained in the periodic inspection, the display content of the display unit 31 does not change even if “battery abnormality” is detected in the constant monitoring. However, if the next periodic inspection is performed before the work for canceling the abnormality, as shown in FIG. 5, the inspection start date and time and the inspection end date and time are displayed for the periodic inspection. That is, in the illustrated example, an inspection result of “battery abnormality” is obtained at the periodic inspection conducted on August 21, 2002, and thereafter, “battery abnormality” continues in the continuous monitoring. Although there is no change, “battery abnormality” which is an inspection result obtained at the time of the periodic inspection carried out on December 21, 2002 is displayed.

  As described above, since the inspection result is displayed for each periodic inspection even if the inspection result has the same content, the inspector knows that the periodic inspection has been performed, and the control device 2 and the monitoring device 3 Since it can be recognized that there is no abnormality, a sense of security can be obtained for the inspector, and an execution record of the periodic inspection can be obtained. Since the periodic inspection is less frequent, the capacity of the storage unit 33 is hardly increased.

  By the way, as described above, since the regular inspection requires a relatively long time (for example, 20 minutes), it is conceivable that an abnormality such as a power failure or a battery exhaustion occurs during the period of the regular inspection. Therefore, in the lighting device 1, when an abnormality such as a power failure or a battery exhaustion occurs during the period of the regular inspection, the inspection process is temporarily interrupted at the time of occurrence of the abnormality (the time limit by the timer circuit unit 15 is stopped), and the restoration is performed. In response to an inquiry from the control device 2 to the lighting device 1 after electricity is sent, a response is made to the effect that the inspection process has been interrupted due to a power failure. In addition, when the monitoring device 3 is notified of interruption of the inspection process due to a power failure through the control device 2, the monitoring device 3 displays that the inspection processing is interrupted due to a power failure as shown in FIG. 6 ("power failure communication interruption"). Displays that the inspection process has been suspended and has not been completed ("regular inspection not completed"). In this way, by performing the display of “periodic inspection not completed”, the inspector can recognize that the periodic inspection has not ended.

  Furthermore, the monitoring device 3 has a function of automatically resetting the schedule of the next periodic inspection when the periodic inspection scheduled by the control device 2 is not completed due to an abnormality such as a power failure. The schedule for the next periodic inspection is set so that the periodic inspection is completed within a specified period. The reset schedule is transferred to the control device 2, and the control device 2 performs the next periodic inspection according to the transferred schedule. Further, as shown in FIG. 7, the schedule of the next periodic inspection is displayed as “next periodic inspection” in association with the scheduled date and time of the next periodic inspection. With such a display, the inspector can recognize when the next periodic inspection will be performed, and the convenience is enhanced.

  The monitoring device 3 includes an interface (not shown) for connecting a printer, and can print the latest plurality of items from the contents displayed on the display 31 in a predetermined form. The form to be printed is, for example, in the form shown in FIG. 8, and the contents of the latest plural pieces (eight pieces in the illustrated example) displayed on the display 31 are set as a list Tb1, and the place, date and time of the periodic inspection are performed. Print out the results of the latest periodic inspection and the results of the latest weekly inspection. The printer is always connected, and the inspection result is automatically output when the inspection result of the periodic inspection is received. Therefore, it can be shown as a document that the periodic inspection of the lighting device 1 has been carried out, can be used as reference data for legal inspection, and can be used as evidence showing the safety of the equipment.

  In the above-described example, the determination control unit 30 is provided in the monitoring device 3. However, if the determination control unit is provided in the control device 2, traffic between the control device 2 and the monitoring device 3 is reduced. It is possible.

FIG. 2A is a schematic configuration diagram illustrating an embodiment of the present invention, and FIG. It is a block diagram which shows the illuminating device used for the same as the above. It is a block diagram which shows the monitoring apparatus used for the same as the above. It is operation | movement explanatory drawing of the monitoring apparatus used for the same as the above. It is a figure which shows the example of a display of the monitoring apparatus used for the same as the above. It is a figure which shows the example of a display of the monitoring apparatus used for the same as the above. It is a figure which shows the example of a display of the monitoring apparatus used for the same as the above. It is a figure which shows the example of an output of the monitoring apparatus used for the same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Illuminating device 2 Control apparatus 3 Monitoring apparatus 10 Lamp 11 Secondary battery 31 Indicator 30 Judgment control part AC Regular power supply Ls Signal line Lt Transmission line

Claims (4)

When the power supply from the external utility power supply stops, the emergency lighting device that turns on the lamp using the built-in secondary battery as the power source, and the lighting device are capable of data communication with the lighting device at a specified period. A control device having at least a function of requesting periodic inspection and obtaining inspection results of periodic inspection and a function of constantly monitoring inspection items including the presence or absence of abnormality of the secondary battery and obtaining inspection results for the lighting device; , Which consists of a monitoring device with an indicator that obtains the inspection results from the control device and displays the inspection results together with the date and time of operation, and the lighting device has a function of shutting off the regular power supply for a specified time when a regular inspection is required, It has a function to check whether there is an abnormality in the secondary battery determined using the change in the terminal voltage of the secondary battery due to the power interruption, and one of the monitoring device and the control device Inspection results Bei give a determination control unit that determines whether or not to display the current inspection result and indicator was inspected results of this comparison, the determination control unit when the control unit requests periodic inspections When the periodic inspection is interrupted, it is displayed on the display unit that the periodic inspection is not completed. When the periodic inspection is interrupted, the scheduled date and time of the next periodic inspection is automatically generated and displayed on the display unit. Emergency lighting inspection system.   The said judgment control part displays the present inspection result on the said display, when the present inspection result currently monitored by the said control apparatus is different from the last inspection result. Emergency lighting inspection system.   3. The emergency lighting inspection system according to claim 2, wherein when the control device requests periodic inspection, the determination control unit displays the inspection result of the periodic inspection together with the execution date and time on the display. The emergency lighting inspection system according to any one of claims 1 to 3, wherein the monitoring device has a function of outputting an inspection result including an inspection result for a periodic inspection in a prescribed format. Mu.

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