JP6639952B2 - Inspection system for alarm using mobile terminal and inspection method using the same - Google Patents

Description

  The present invention relates to an alarm inspection system using a portable terminal and an inspection method using the same.

  2. Description of the Related Art An alarm device that detects a fire or gas leak and issues an alarm has become widespread. This alarm monitors the surrounding gas concentration and the like using various sensors to detect a fire or a gas leak.

  The sensitivity of the sensor used in the alarm may be higher than expected (hereinafter, the state where the sensor sensitivity is high is referred to as a sensitization tendency). As a result, the output from the sensor may indicate an abnormal value even though the ambient gas concentration or the like is a normal value, and an unnecessary alarm may be issued. Therefore, it is required to check whether or not the state of the sensor tends to be sensitized, and to provide a method for easily performing this.

  In addition, in order to check the state of the sensor, it is necessary to obtain the results detected by the alarm. At this time, various information is collected from the alarm, and other than checking the state of the sensor. It is preferable if it can be utilized.

  Therefore, an inspection system for an alarm device using a portable terminal that can easily perform an inspection as to whether the state of the sensor tends to be sensitized and that can appropriately utilize various information from the alarm device, and an inspection method using the same. Realization is desired.

The inspection system for an alarm using the portable terminal according to the present invention is:
The alarm is
A sensor section,
An alarm unit that can issue a warning or an alarm,
A storage unit capable of storing various information;
In accordance with the sensor output of the sensor unit, a warning or an alarm is issued to the alarm unit, and the warning or alarm information issued by the alarm unit is stored as history information in the storage unit as history information. And a control unit that periodically accumulates and stores the sensor output as the history information in the storage unit,
A communication unit capable of transmitting the stored history information by short-range wireless communication,
The mobile terminal,
A reading unit that can read the history information by the short-range wireless communication from the communication unit,
Based on the read history information, as the device information, warning history information relating to the warning or warning history issued by the warning unit, and the state of the sensor unit is sensitive or has a sensitized tendency or normal. A device information creating unit for creating
A display unit for displaying the created device information,
The device information creation unit may be configured such that, in the history information, when all sensor outputs during a predetermined period are higher than a predetermined threshold, and the warning is included a predetermined number of times or more during the predetermined period. It is determined that the sensor unit has a tendency to become sensitized, otherwise, the sensor unit is determined to be normal, and the sensor state information is created based on the determination result.

  According to this configuration, since the history information is read from the alarm device to the portable terminal using the short-range wireless communication, the information necessary for the inspection of the alarm device can be obtained by a simple operation such as holding the reading unit of the mobile terminal over the alarm device. Can be obtained. Then, based on the acquired history information, whether all the sensor outputs acquired during a certain period (for example, the last 24 hours) exceed a predetermined threshold value, and issue a warning at least a predetermined number of times during the same period. Since the sensitization tendency of the sensor unit is determined using the two criteria of whether or not a warning is issued, it is possible to effectively avoid unnecessary warnings and the like, and to perform a highly accurate inspection. Further, by creating the alarm history information from the alarm information that is also used for determining the sensitization tendency, it is possible to suitably use various types of information from the alarm device.

  Hereinafter, a preferred embodiment of the alarm device according to the present invention will be described. However, the scope of the present invention is not limited by the following preferred embodiments.

  As one aspect, the alarm device includes a timer unit that measures a power-on time that is an accumulated time during which power is turned on, and the portable terminal measures or acquires and manages current date and time information. The control unit, based on the energization time measured by the clock unit, the alarm time energization time is the energization time when a warning or alarm is issued to the alarm unit as the history information as the history information The communication unit, the communication unit, the energization time at that time can also be transmitted by the short-range wireless communication, the reading unit, the energization time can also be read from the communication unit, the device, The information creating unit is based on the alarm energizing time, the energizing time at the time of reading read from the communication unit, and the date and time information at the time of reading the energizing time, obtained from the date and time management unit. Warning It is preferable that the alarm date and time when the alarm is issued is calculated by the alarm date and time = the date and time information at the time of reading-the energizing time at the time of reading + the energizing time at the time of alarm, and the alarm history information including the alarm date and time is created. .

  According to this configuration, while the alarm device has a simple configuration in which only the accumulated time is measured, a general portable terminal uses the normally managed date and time information to display the accurate alarm date and time, and the alarm history information. Can be created.

As one aspect, the alarm device includes a failure check unit that periodically drives each unit of the alarm device to check for a failure, and the control unit is configured to perform a control based on the energization time measured by the clock unit. The fault energizing time when the fault is detected by the fault inspection unit is stored in the storage unit as the history energizing time as the history information, and the device information creating unit determines the fault energizing time and the reading time. Based on the energizing time and the date and time information obtained at the time of reading the energizing time obtained from the date and time management unit, the date and time of the failure at which the failure occurred is calculated as follows: the calculated by energizing time + the failure-time energization time of, as the device information, it is preferable to create a fault history information about the fault history of the alarm including the failure time.

  According to this configuration, the failure of each part of the alarm can be checked, and the history can be displayed on the portable terminal, so that various information from the alarm can be suitably used. Further, according to the above configuration, it is possible to create the failure history information that displays the accurate failure date and time while the alarm device has a simple configuration in which only the accumulated time is measured.

  As one aspect, when the read energization time exceeds a predetermined upper limit, the device information generation unit preferably generates the device information indicating that the read energization time is incorrect. .

  According to this configuration, it is possible to display on the portable terminal that the power supply time indicates an abnormal value, and it is possible to know that some abnormality has occurred in the timer of the alarm device.

  As one aspect, it is preferable to include a server that can communicate with the mobile terminal and obtains the history information and the device information by communication from the mobile terminal.

  According to this configuration, the server can integrally manage the device information on the alarm device.

The inspection method according to the present invention,
An inspection method using the inspection system,
Using the mobile terminal, the history information stored in the storage unit of the alarm device, from the communication unit of the alarm device by the reading unit of the mobile terminal,
The device information is displayed on the display unit of the mobile terminal.

  According to this configuration, the alarm device can be easily inspected.

Schematic diagram of the inspection system Inspection system block diagram Example of display screen on mobile terminal

  An alarm inspection system using a band terminal according to the present invention and an inspection method using the same will be described with reference to the drawings. First, an overview of an inspection system 1 according to the present embodiment and an inspection method using the same will be described. As shown in FIG. 1, the inspection system 1 according to the present embodiment It is to be checked. Then, the history information stored in the alarm device 10 is transmitted to the reader (corresponding to a reading unit) connected to the portable terminal 30 using the portable terminal 10 using short-range wireless communication such as NFC (Near Field Communication). ) 20 to display the device information of the alarm device 10 created from the history information on the display unit 33 of the portable terminal 30. As described above, since the history information is read from the alarm device 10 to the portable terminal 30 using the short-range wireless communication, the information necessary for the inspection of the alarm device 10 is acquired by a simple operation such as holding the reading unit 20 over the alarm device 10. can do. Hereinafter, an inspection system 1 according to the present embodiment and an inspection method using the same will be described in detail with reference to the drawings.

  First, the alarm 10 will be described. The alarm device 10 detects a fire or gas leak and issues an alarm. Specifically, as shown in FIG. 2, the alarm device 10 mainly controls a sensor unit 11, a timer unit 12 that measures an energized time that is an accumulated time during which the power is turned on, and an operation of each unit. The control unit 13 includes an alarm unit 14 that can issue a warning or an alarm, a storage unit 15 that can store various information, and a communication unit 16 that can transmit various information by short-range wireless communication.

  The sensor unit 11 includes a gas sensor and a CO sensor in the present embodiment. A slit (not shown) is provided on the surface of the alarm device 10. By taking in outside air into the alarm device through the slit, the sensor unit 11 can detect the gas concentration and the CO concentration in the surrounding environment. Note that what kind of sensor is used can be appropriately changed according to the purpose.

  The timer 12 starts measuring time from 0 when the power is turned on to the alarm device 10 for the first time, and measures an energizing time (for example, minutes) that is an accumulated time during which the power is turned on. In other words, the energization time means the cumulative installation period in which the alarm device 10 is installed in a state in which an alarm can be issued.

  The control unit 13 acquires the sensor output from the sensor unit 11 constantly or intermittently. Then, a warning or an alarm is issued to the alarm unit 14 in accordance with the sensor output of the sensor unit 11. More specifically, a gas warning, a gas warning, a CO warning, or a CO warning is issued according to the sensor output in accordance with the type of the sensor. The criterion for issuing a warning or an alarm may be freely set. For example, a threshold is provided for each of the output of the gas sensor and the output of the CO sensor, and a warning or an alarm is issued when the threshold is exceeded. Or a warning or an alarm is issued when the state exceeding the threshold value continues for a certain period of time. The control unit 13 is configured to, when the warning unit 14 issues a warning or an alarm, store the warning or the warning information related to the warning or the warning issued by the warning unit 14 in the storage unit 15 as history information in a cumulative manner. It is. Specifically, the control unit 13 obtains the alarm-time power-on time, which is the power-on time when the warning unit 14 issues a warning or an alarm, based on the power-on time measured by the clock unit 12, and As the information, the storage unit 15 stores alarm information including which warning or alarm has been issued and the power-on time at the time of alarm.

  Further, the control unit 13 periodically accumulates and stores the sensor output in the storage unit 15 as history information. For example, in the present embodiment, the output value of the gas sensor in the sensor unit 11 is accumulated and stored in the storage unit 15 once every hour.

  Further, the control unit 13 periodically (for example, every 10 hours) drives each unit of the alarm device 10 to check for a failure (that is, the control unit 13 functions as a failure check unit). Then, when there is a portion that is not normally driven by energization, it is determined that there is a failure in that portion. When a failure location is found, the control unit 13 stores the failure time conduction time, which is the conduction time when the control unit 13 detects a failure, as history information based on the conduction time measured by the timer unit 12 as history information. To memorize.

  The communication unit 16 includes an NFC tag capable of performing NFC communication. When the NFC-compatible device is brought close to the communicable range of the communication unit 16, the history information stored in the storage unit 15 together with the identification information of the alarm device 10 can be transmitted to the NFC-compatible device by short-range wireless communication. In addition, the communication section 16 can transmit the energizing time at that time in the timer section 12 by short-range wireless communication simultaneously with the transmission of the history information. That is, the communication unit 16 can transmit the identification information, the history information, and the power-on time during reading by short-range wireless communication. In addition, the control unit 16 is capable of receiving an instruction from the NFC-compatible device side, thereby enabling the control unit 13 to change operating conditions and the like.

  As described above, the alarm device 10 according to the present embodiment can operate as a general alarm device, accumulate and store history information of the operation in the storage unit 15, and read the history information from the communication unit 16. I can do it. In the present embodiment, the history information is read at any time by the reader 20 capable of NFC communication, and information about the alarm 10 is displayed by the portable terminal 30 connected to the reader 20. Hereinafter, the reader 20 and the portable terminal 30 will be described.

  The reader 20 is an NFC reader capable of performing NFC communication in the present embodiment, and is capable of reading identification information, history information, and energizing time during reading from the communication unit 16 by short-range wireless communication. And it is connected to the portable terminal 30 via the USB cable 21. Generally, since the alarm 10 is mounted at a high place or a low place, the reader 20 is provided with an operating rod 22 so that the reader 20 can be moved to a high place or a low place using the operating rod 22. Has become. When the reader 20 is brought closer to the communication unit 16 of the alarm device 10 (for example, 20 mm), the history information of the alarm device 10 is read from the communication unit 16 and the history information is input to the portable terminal 30.

  In the present embodiment, a tablet PC is used as the mobile terminal 30, and as shown in FIG. 2, a processing unit (device information generation unit) that includes an input unit 31 connectable to the NFC reader 20 and a CPU and performs information processing. ) 32 and a display unit 33 composed of a display for displaying device information and the like to be described later. Examples of the mobile terminal 30 include a smartphone and the like in addition to the tablet PC. The mobile terminal 30 can be connected to a device that can perform short-range wireless communication, or has a short-range wireless communication function. There is no particular limitation as long as it is a portable terminal that has information processing capability and has a display unit capable of displaying the processing results and the like.

  In the present embodiment, the input unit 31 is a so-called USB port, and a reading result from the reader 20 is input to the input unit 31 by being connected to the USB cable 21 of the NFC reader 20.

  The processing unit 32 processes the history information read from the alarm device 10 to generate the device information I relating to the alarm device 10, and measures or acquires current date and time information (year, month, day, and time). And a date and time management unit 35 for managing the data. The date and time management unit 35 updates the date and time information periodically via a network by a communication unit (not shown), and accurately ticks the time, so that the date and time management unit 35 manages accurate date and time information. It is. Then, in the processing unit 32, the device information creating unit 34 creates the device information I using the date and time information managed by the date and time managing unit 35.

  The creation of the device information I will be specifically described. For the creation of the device information I, the date and time management unit 35 reads the history information from the alarm device 10 with the reader 20 and the date and time information when the energization time is read. Save. Then, in the present embodiment, based on the read identification information, the history information, the energizing time at the time of reading, and the date and time information at the time of reading, the device information creating unit 34, as shown in FIG. Basic information I1 on the alarm device 10, alarm history information I2 on the history of warnings or alarms issued by the alarm unit 14, failure history information I3 on the history of failure of the alarm device 10, and sensor state information on the state of the sensor unit 11. And I4.

  Among the basic information I1, “article name”, “model number”, and “serial number” are created based on the read identification information of the alarm device 10. The “installation time” is calculated from the date / time information at the time of reading and the energization time at the time of reading. Since the energizing time at the time of reading means the cumulative installation period of the alarm device 10 at the time of reading, the installation time of the alarm device 10 can be calculated backward by subtracting this from the date and time information at the time of reading. The “elapsed date” is obtained by converting the energizing time (minute) at the time of reading into a date.

The alarm history information I2 is the warning or alarm for the nearest five times from the time of reading (if the number of alarm information in the history information is less than five, the number of times). This is information on the alarm date and time and the type of the alarm. The device information creation unit 34 outputs the alarm power-on time and the communication unit for five times of large values (that is, close in time from the reading time) of the alarm power-on time read from the alarm device 10 as the history information. The alarm date and time is set based on the power-on time at the time of reading read from the memory 16 and the date and time information at the time of reading obtained from the date-and-time management unit 35. It is calculated by: As described above, the date / time information at the time of reading-the energizing time at the time of reading means the installation time of the alarm device 10. The power-on time at the time of alarm is the cumulative power-on time when the warning or the alarm is issued, that is, the elapsed time when the warning or the alarm is issued, so that the date and time information at the time of reading is given. By adding the power-on time at the time of alarm to the power-on time at the time of reading, the date and time of the warning at which the warning or the alarm was issued is obtained. The type of alarm is included in the history information, and based on these, the device information creating unit 34 creates the alarm history information I2.

The failure history information I3 is information relating to the failure date and time of the nearest failure from the time of reading. The device information creation unit 34 determines, for the failure energization time read from the alarm device 10 as the history information, the failure energization time having the largest value (that is, the time closest to the reading time). Based on the power-on time at the time of reading read from the communication unit 16 and the date and time information at the time of reading obtained from the date and time management unit 35, the failure date and time is calculated as follows: failure date and time = date and time information at reading-power-on time at reading + The failure history information I3 is created by calculating the failure energization time. As described above, the date and time information at the time of reading-the energizing time at the time of reading means the installation time of the alarm device 10, and the energizing time at the time of failure means the elapsed time when the failure occurs. The date and time of failure is required.

  As described above, in the alarm history information I2 and the failure history information I3, while the alarm device 10 has a simple configuration in which only the cumulative energization time is measured, date and time information that is normally managed in a general portable terminal is used. Thus, it is possible to calculate an accurate alarm date and time and a failure date and time.

  The sensor state information I4 is information indicating whether the state of the gas sensor and the CO sensor in the sensor unit 11 is in a sensitized state with increased sensitivity or is normal (in FIG. 3, both normal states are shown). There). The device information creation unit 34 reads out the sensor output periodically stored (every hour in the present embodiment) by the control unit 13 as the history information, and the number of times of issuing a warning or an alarm out of the read history information. Is used to determine the information of each sensor.

  Specifically, for the gas sensor, when the read history information indicates that all sensor outputs during the predetermined period are higher than the predetermined threshold value and that a predetermined number of warnings or more are included during the predetermined period. Determines that the gas sensor has a tendency to become sensitized, and otherwise determines that the gas sensor is normal. Also, regarding the CO sensor, when the warning is included a predetermined number of times or more during the predetermined period, it is determined that the CO sensor has a tendency to be sensitized, and otherwise, the CO sensor is normal. Is determined. For example, in the present embodiment, the predetermined period is set to the latest 24 hours, the predetermined threshold is set to the value of the reference output value + 52 mV, and the predetermined number is set to four times. In the history information, all of the sensor outputs during the last 24 hours (that is, the sensor outputs for the latest 24 times) are higher than the reference output value by 52 mV or more, and four or more gas warnings are included in the last 24 hours. If so, it is determined that the gas sensor tends to be sensitized, otherwise, it is determined that the gas sensor is normal. For the CO sensor, when four or more CO alerts are included in the last 24 hours, it is determined that the CO sensor has a tendency to be sensitized, and otherwise, the CO sensor is normal. Is determined. Then, the device information creating unit 34 creates the sensor state information I4 based on the determination result.

  By using such a determination method, it is possible to suitably discover that each sensor has a tendency to be sensitized. In particular, if a gas sensor tends to be sensitized, a warning or an alarm may be issued unnecessarily if gas is used everyday in cooking or the like and may be frequently detected by the alarm device 10. It is necessary to determine the tendency with high accuracy, and in the present embodiment, for the gas sensor, based on the acquired history information, all the sensor outputs acquired during a certain period (for example, the last 24 hours) exceed a predetermined threshold. Is determined, and the alert is not issued more than a predetermined number of times during the same period. Thus, the sensitization tendency is determined using two criteria. Avoidance and highly accurate inspection are possible.

  If the read power-on time, the alarm power-on time, and the failure power-on time exceed a predetermined upper limit (3 years in the present embodiment), the device information creation unit 34 incorrectly reads the read power-on time. Device information I is generated to the effect that As a result, it is possible to display on the portable terminal 30 that these energization times indicate abnormal values, and it is possible to know that some abnormality has occurred in the timer 12 or the like of the alarm 10.

  Further, in the present embodiment, it is possible to communicate with the mobile terminal 30 and use a server that acquires the history information and the device information I from the mobile terminal 30 by communication. For example, by reading history information sequentially from the alarm device 10 installed by the mobile terminal 30 and transmitting the history information and device information created from the history information to the server, the server can perform centralized data management. It is possible.

[Other embodiments]
Lastly, another embodiment of an alarm inspection system and an inspection method using the same according to the present invention will be described. Note that the configuration disclosed in each of the following embodiments can be applied in combination with the configuration disclosed in another embodiment as long as no contradiction occurs.

(1) In the above embodiment, the reader 20 and the portable terminal 30 have been described as being separated from each other. However, the present invention is not limited to this, and the portable terminal 30 and the reader 20 may be integrated.

(2) In the above embodiment, the configuration for creating the device information I shown in FIG. 3 has been described as an example. However, the present invention is not limited to this, and the content to be included in the device information I can be appropriately selected without departing from the spirit of the present invention.

(3) Regarding other configurations, it should be understood that the embodiments disclosed in the present specification are exemplifications in all respects, and the scope of the present invention is not limited thereby. Those skilled in the art will readily understand that modifications can be made as appropriate without departing from the spirit of the present invention. Therefore, other embodiments modified without departing from the spirit of the present invention are naturally included in the scope of the present invention.

  The present invention can be used, for example, for checking an alarm.

1 inspection system 10 alarm device 11 sensor unit 12 clock unit 13 control unit (failure inspection unit)
14 alarm unit 15 storage unit 16 communication unit 20 reader (reading unit)
30 mobile terminal 31 input unit 33 display unit 34 device information creation unit 35 date and time management unit I device information I1 basic information I2 alarm history information I3 failure history information I4 sensor status information

Claims (6)

An alarm inspection system using a mobile terminal,
The alarm is
A sensor section,
An alarm unit that can issue a warning or an alarm,
A storage unit capable of storing various information;
In accordance with the sensor output of the sensor unit, a warning or an alarm is issued to the alarm unit, and the warning or alarm information issued by the alarm unit is stored as history information in the storage unit as history information. And a control unit that periodically accumulates and stores the sensor output as the history information in the storage unit,
A communication unit capable of transmitting the stored history information by short-range wireless communication,
The mobile terminal,
A reading unit that can read the history information by the short-range wireless communication from the communication unit,
Based on the read history information, as the device information, warning history information relating to the warning or warning history issued by the warning unit, and the state of the sensor unit is sensitive or has a sensitized tendency or normal. A device information creating unit for creating
A display unit for displaying the created device information,
The device information creation unit may be configured such that, in the history information, when all sensor outputs during a predetermined period are higher than a predetermined threshold, and the warning is included a predetermined number of times or more during the predetermined period. An inspection system that determines that the sensor unit has a tendency to become sensitized, otherwise determines that the sensor unit is normal, and creates the sensor state information based on the determination result. The alarm device includes a timer that measures an energization time that is a cumulative time that the power is on,
The mobile terminal includes a date and time management unit that measures or acquires and manages the current date and time information,
The control unit is based on the energization time measured by the clock unit, based on the alarm time energization time is the energization time when a warning or alarm is issued to the alarm unit as the history information in the storage unit. Remember
The communication unit can also transmit the energization time at that time by the short-range wireless communication,
The reading unit can also read the energization time from the communication unit,
The device information creation unit is based on the alarm energizing time, the energizing time at the time of reading read from the communication unit, and the date and time information at the time of reading the energizing time obtained from the date and time management unit. The alarm date and time at which the warning or the alarm is issued is calculated from the alarm date and time = the date and time information at the time of reading-the energization time at the time of reading + the energization time at the time of alarm, and the alarm history information including the alarm date and time is calculated. The inspection system according to claim 1, which is created. The alarm device includes a failure inspection unit that periodically drives each unit of the alarm device to check for a failure.
The control unit, based on the energization time measured by the clock unit, the failure energization time when a failure is found by the failure inspection unit, the failure energization time is stored in the storage unit as the history information,
The device information creating unit is configured such that the failure has occurred based on the failure energizing time, the energizing time at the time of reading, and the date and time information at the time of reading the energizing time acquired from the date and time managing unit. fault time the fault time = read the date and time information of when - calculated by the energization time + the failure when energized time when reading, as the device information, concerning the failure history of the alarm device including the failure time inspection system according to claim 2 to create a fault history information.   4. The apparatus according to claim 2, wherein, when the read energization time exceeds a predetermined upper limit, the device information generation unit generates the device information indicating that the read energization time is incorrect. 5. Inspection system.   The inspection system according to any one of claims 1 to 4, further comprising a server communicable with the mobile terminal, and a server that acquires the history information and the device information by communication from the mobile terminal. An inspection method using the inspection system according to any one of claims 1 to 5,
Using the mobile terminal, the history information stored in the storage unit of the alarm device, from the communication unit of the alarm device by the reading unit of the mobile terminal,
An inspection method for displaying the device information on the display unit of the mobile terminal.

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