JP4814663B2 - Gas detector and environmental monitoring system - Google Patents

Description

  The present invention relates to an environmental monitoring system that monitors a state of an environmental atmosphere of a monitoring target space, for example, at a position away from the monitoring target space using a network, and a gas detector suitably used in the environmental system.

At present, for example, in semiconductor manufacturing factories, liquid crystal manufacturing factories, petrochemical factories, etc., from the viewpoint of environmental security, for example, it is necessary to install a gas detector in order to monitor leakage of toxic gases, For example, those corresponding to a plurality of kinds of gases are arranged at one place.
As such gas detectors, those that do not have a display unit are usually used, and detection signals from these gas detectors are sent to a central monitoring room away from the monitoring target space. It transmits to the installed management apparatus via a suitable network, and the state of the monitoring object space is monitored in the central monitoring room. Such an environment monitoring system is disclosed in Patent Document 1, for example.

JP 2001-290529 A

  Thus, in the environmental monitoring system as described above, for example, when performing calibration work of the gas detector, it is necessary that an operator be present both in the central monitoring room and the site where the gas detector is installed. For example, it is inconvenient because it must be carried out while communicating by radio or telephone.

  In addition, when manufacturing a gas detector, information specific to the gas detector, such as serial number, date of manufacture, information about the gas to be detected, etc. is input to the gas detector, or built into the gas detector. In order to output the information recorded in the recorded memory, it is necessary to use a network, for example. Further, at the time of shipping inspection of the gas detector, for example, it is necessary to use a network, which is inconvenient and has a problem of poor work efficiency.

The present invention has been made based on the circumstances as described above, and is used in an environment monitoring system using a network, and reads out information related to a gas detector without using the network. An object of the present invention is to provide a gas detector that can perform writing and can easily perform, for example, shipping inspection.
Another object of the present invention is to provide an environment that can read and write information related to a gas detector without using a network in an environment monitoring system using a network, and can obtain high convenience. To provide a monitoring system.

The gas detector of the present invention is used in an environmental monitoring system that monitors the state of the environmental atmosphere in a monitoring target space in a central monitoring room separated from the monitoring target space, and a network is connected to a management device installed in the central monitoring room. A portable monitor device that has no display means, is equipped with wireless communication means, and includes information reading / writing means and display means corresponding to the wireless communication means; Are configured to enable mutual communication of data related to the gas detector ,
The monitor device includes a connector on which information reading / writing means is mounted, which achieves connection with a gas detector, and the connector has a calibration gas injection function.

  In the gas detector of the present invention, it is preferable that an electromagnetic induction type RFID is used as the wireless communication means. In such a configuration, the RFID preferably has a frequency band of 13.56 MHz or higher.

  In the environmental monitoring system of the present invention, a plurality of gas detectors corresponding to different gases are installed in a common monitoring target space, and each of these gas detectors is connected to a network in a central monitoring room separated from the monitoring target space. An environmental monitoring system that monitors the state of the environmental atmosphere in the monitoring target space using a management device connected via the above-described gas detector, wherein the gas detector is used.

According to the gas detector of the present invention, it is configured to be communicable with a monitor device including information reading / writing means and display means corresponding to the wireless communication means built in the gas detector, so that the network is Since the information of the gas detector can be acquired and the information of the gas detector can be updated without using or connecting the power source, high convenience can be obtained.
In addition, for example, at the time of shipping inspection, the information on the gas detector can be acquired by bringing the monitor device close to the gas detector, so that the system can be simplified and, for example, the contents of the draft and the contents can be confirmed. Inspection and the like can be easily performed.

Since the electromagnetic induction type RFID is used as the wireless communication means mounted on the gas detector, the following effects can be obtained by the function of the RFID itself.
(1) By using an RFID memory, for example, it is not necessary to separately mount a non-volatile memory for recording information such as a gas detection result in the gas detector, and it has an expected function. Can be advantageously obtained in terms of cost.
(2) By specifying the frequency band, it is possible to prevent interference (interference) with other wireless communication means, and it can be configured as a small one such as a card or chip. As a result, the gas detector itself can be reduced in size and space can be saved.
(3) Since the RFID is of an electromagnetic induction type and the antenna is small, it can be configured to be able to communicate with each other only by bringing the gas detector and the monitor device close to each other. Excellent selectivity for the gas detector can be obtained.
Further, by using an electromagnetic induction type, no battery is required and the maintenance of the gas detector can be improved.

  In addition, if the monitor device has a calibration gas injection function, it is displayed when it is confirmed that the gas detector needs to be calibrated based on the information read from the gas detector. Since the operator can perform the calibration work alone while checking the section, high convenience can be obtained.

  According to the environmental monitoring system of the present invention, by using the gas detector, for example, information on the gas detector such as confirmation of whether or not calibration work is necessary is acquired, and if necessary, When it is necessary to perform calibration work, such work can be carried out by a worker who is actually in the monitoring target space, improving work efficiency and obtaining high convenience. it can.

Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 1 is a conceptual diagram showing a configuration example of an environmental monitoring system of the present invention, and FIG. 2 is a block diagram schematically showing a configuration of a gas detector constituting the environmental monitoring system of the present invention.
In this environmental monitoring system 10, for example, a plurality of gas detectors 20 corresponding to different types of gases are installed in a common monitoring target space (one site) B, and each of the gas detectors 20 is connected to an appropriate network 15. Is connected to the management apparatus 11 installed in the central monitoring room A that is separated from the monitoring target space B. As the network 15, for example, a network using an interface such as a LAN or RS-485 can be used.

Each of the gas detectors 20 includes, for example, a gas sensor 21 that detects a detection target gas contained in air in the monitoring target space B introduced by natural diffusion, a temperature sensor 22 for temperature compensation such as a thermistor, and a gas detection, for example. The gas detector 20 itself includes a microcomputer 23 for controlling the operation of the gas detector 20 and a wired communication means 25 for performing data communication with the management apparatus 11, and the gas detector 20 itself has no display means.
The gas detector 20 is not particularly limited. For example, any detection method such as a contact combustion type, a heat conduction type, a semiconductor type, a constant potential electrolysis type, a galvanic cell type, an infrared type, or a detection tape type can be used. Things can also be used.

  In the gas detector 20 according to the present invention, a wireless communication means including an electromagnetic induction type RFID 30 having, for example, an antenna 32 for wireless communication, an appropriate communication circuit, and an IC memory 31 including, for example, a nonvolatile memory is mounted. It is configured to allow mutual communication with a specific monitor device.

  The IC memory 31 in the RFID 30 includes, for example, a lot number, serial number, detection unit type, sensor type, shipping date, measurement gas name, range (full scale), digit (increment), calibration gas name, automatic calibration gas concentration, alternative Information unique to the gas detector 20 such as the calibration gas name and alternative calibration gas sensitivity ratio is recorded, and for example, the next calibration scheduled date, the final calibration date, the final (-1) calibration date, and the final (-2) calibration. Internal parameters such as date, zero calibration coefficient (+ temperature coefficient), span calibration coefficient (+ temperature coefficient) are recorded in an updatable manner.

  The specific monitor device used for data input and output is of a size that can be held and held by hand, and is mounted on the microcomputer 43 and the gas detector 20, for example, as shown in FIG. For example, information reading / writing means (reader / writer) 50 corresponding to the RFID 30, display means 41 for displaying information read from the gas detector 20, and operating means 42 for inputting information to be written to the gas detector 20. And communication means 45 for performing information communication with an external device 35 such as a personal computer (PC) connected to the monitor device 40.

  The information reading / writing means 50 in the monitor device 40 includes, for example, an antenna 52 for wireless communication, and a signal converter 51 that connects an appropriate communication circuit and the antenna 52 to the microcomputer 43, for example, 13.56 MHz or more. It has a function of performing wireless communication with the gas detector 20 using the high frequency band. By using such a frequency band, when performing wireless communication, it is necessary to bring the information read / write 50 in the monitor device 40 close to the RFID 30 in the gas detector 20, and with other wireless communication means Can be reliably prevented from occurring.

As shown in FIG. 4, the monitor device 40 in this embodiment includes a monitor device main body 40A having a display unit 41A and operation buttons 42A, and a gas detection device electrically connected to the monitor device main body 40A by a connection cable 55. The connector 60 is mounted on the container 20. The connector 60 is equipped with information reading / writing means, and a tubular calibration gas for injecting the calibration gas into the gas detector 20. An injection part 61 is provided. 62 is a position restricting member for mounting the connector 60 to the gas detector 20 in an appropriate state, and is formed in a palm-on state with the position restricting member 28 in the gas detector 20.
The connector 60 in the monitor device 40 is positioned so that the antenna 52 of the information reading / writing means 50 is in a facing state via the transparent window member 27 and the antenna 32 of the RFID 30 in the gas detector 20. The injection part 61 is inserted into the gas introduction part 26 of the gas detector 20 and attached.

  In the above environment monitoring system 10, the gas detection signal from each gas detector 20 installed in the monitoring target space B is normally transmitted to the management device 11 via the network 15 by the wired communication means 25, and the gas The gas concentration of the detection target gas corresponding to the detection signal is displayed on the display monitor of the management device 11, whereby the environmental atmosphere state in the monitoring target space B is monitored in the central monitoring room A. And even if it is at least 1 type of detection object gas, for example, an alarm alerting | reporting mechanism will be actuated by detecting that it exceeds predetermined concentration (alarm point about the detection object gas concerned).

  Thus, when the gas detector 20 actually functions as a component of the environmental monitoring system as described above, for example, it is necessary to periodically calibrate the gas detector 20. In the case of a conventional environmental monitoring system, as described above, when confirming the necessity of calibration work for each gas detector, for example, a unique information recorded in the gas detector using a network is used. If it is confirmed that it is necessary to perform gas calibration work based on this information, the operator and the central monitoring room injecting the calibration gas into the gas detector in the monitored space In this case, it is necessary that the operator confirming the indicated value of the gas detector on the display monitor while keeping in contact.

  However, the gas detector 20 is equipped with a wireless communication means comprising the RFID 30, and data relating to the gas detector 20 is exchanged with the specific monitor device 40 having the information reading / writing means 50 corresponding to the RFID 30. By being configured to be able to communicate with each other, according to the environmental monitoring system 10 described above, if there is one specific monitor device 40, the information reading / writing means 50 in the monitor device 40 is connected to the RFID 30 of the gas detector 20. Since the information on the gas detector 20 can be acquired and the information on the gas detector 20 can be updated by attaching the connector 60 to the gas detector 20, for example, the gas detector 20 is actually monitored. For example, the operator alone in the space B can confirm whether or not the gas detector 20 needs to be calibrated. Readings that are displayed on the monitor device 40 according to the requirements can be carried out can be performed calibration work while confirming the on, it is possible to obtain a high convenience.

In addition, since information unique to the gas detector 20 can be stored in the IC memory 31 of the RFID 30, it is not necessary to separately mount a nonvolatile memory in the gas detector 20, for example. Those having the functions can be advantageously obtained in terms of cost.
Furthermore, by specifying the frequency band of the RFID 30, it is possible to prevent interference (interference) with other wireless communication means, and to be configured as a small one such as a card or chip. Therefore, the gas detector 20 itself can be reduced in size, and the installation space of the gas detector 20 can be saved.
Furthermore, since the RFID 30 is of an electromagnetic induction type and the antenna is small, it can be configured to allow mutual communication only by bringing the gas detector 20 and the monitor device 40 close to each other. Therefore, excellent selectivity for the gas detector 20 can be obtained, and by using an electromagnetic induction type, a battery becomes unnecessary and the maintainability of the gas detector 20 can be improved.

In the above description, the case where the gas detector 20 actually functions as a component of the environmental monitoring system 10 has been described as an example. However, the present invention is, for example, in the manufacturing process and the inspection process of the gas detector itself. Is also extremely useful.
That is, as described above, since the gas detector 20 itself does not have a display means, for example, when inputting information unique to the gas detector at the time of manufacturing the gas detector 20, or the gas detector 20 By using a specific monitor device 40, the gas detector 20 and the monitor device 40 communicate with each other without connecting a power source to the gas detector 20 and using a network. Therefore, necessary information can be easily input, and the contents and contents of the draft can be easily confirmed at the time of shipping inspection, so that high convenience can be obtained.

It is a conceptual diagram which shows the example of 1 structure of the environment monitoring system of this invention. It is a block diagram which shows roughly the structure of the gas detector of this invention. It is a block diagram which shows the structure of a monitor apparatus roughly. It is explanatory drawing which shows the outline of a structure in an example of a monitor apparatus.

Explanation of symbols

10 Environmental Monitoring System 11 Management Device 15 Network A Central Monitoring Room B Monitored Space (One Site)
20 Gas Detector 21 Gas Sensor 22 Temperature Sensor 23 Microcomputer 25 Wired Communication Means 26 Gas Introduction Portion 27 Window Member 28 Position Restriction Member 30 RFID
31 IC memory 32 Antenna 35 External device 40 Monitor device 40A Monitor device body 41 Display means 41A Display unit 42 Operation means 42A Operation button 43 Microcomputer 45 Communication means 50 Information read / write means (reader / writer)
51 Signal Converter 52 Antenna 55 Connection Cable 60 Connector 61 Calibration Gas Injection Portion 62 Position Restriction Member

Claims (4)

Display means used in an environmental monitoring system for monitoring the state of the environmental atmosphere in the monitoring target space in a central monitoring room separated from the monitoring target space, and connected to a management device installed in the central monitoring room via a network A gas detector without
Wireless communication means is mounted, and mutual communication of data related to the gas detector can be performed with a portable monitor device having information reading / writing means and display means corresponding to the wireless communication means. Configured ,
The monitor device includes a connector on which information reading / writing means is mounted, which achieves connection with a gas detector, and the connector has a calibration gas injection function . .   The gas detector according to claim 1, wherein the wireless communication means is an electromagnetic induction type RFID.   The gas detector according to claim 2, wherein the frequency band of the RFID is a high frequency band of 13.56 MHz or more. A plurality of gas detectors corresponding to different gases are installed in a common monitoring target space, and are connected to each of these gas detectors via a network in a central monitoring room separated from the monitoring target space. An environmental monitoring system for monitoring the state of the environmental atmosphere in the monitored space by
An environment monitoring system using the gas detector according to any one of claims 1 to 3 .