JP2000193651A - Environment monitoring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an environment monitoring device capable of simply moving to an arbitrary place, finely measuring, analyzing and identifying an optional substance to be measured requiring a fine analysis. SOLUTION: A management center 3 memorizes beforehand a measurement/ analysis information and a library information in a library device 33, reads out the measurement/analysis information from the library device 33, corresponding to a requirement of a moving analysis vehicle 1 and transmits it from a communication device 37 to the moving analysis vehicle 1 via a network 2 and a wireless network. The moving analysis vehicle 1 receives the measurement/analysis information from the management center 3 by a communication device 17 and collects a substance to be measured by a sample sampling module 13 and a sample analysis module 15, according to the measurement/analysis information to carry out a measurement and an analysis. The moving analysis vehicle 1 transmits the measurement/analysis result to the management center 3, and the management center 3 receives the measurement/analysis result from the moving analysis vehicle 1. The management center 3 inquiries the measurement/ analysis result to the library information of the library device 33, identifies the substance to be measured and calculates the quantity thereof.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an environment monitoring apparatus which moves to a designated arbitrary measurement place and measures a substance to be measured including harmful substances in the environment such as air, water and soil at the measurement place. More specifically, a measurement moving body that moves to an arbitrary measurement place, measures a substance to be measured at this measurement place, and communicates with the measurement moving body via a wireless line to perform measurement performed by the measurement moving body The present invention relates to an environment monitoring device having a management center for managing the environment.

[0002]

2. Description of the Related Art In Japan, environmental standards have been set for harmful substances in the environment such as air, water and soil, and harmful substances are measured in various places by various analytical methods. For some gases in the atmosphere, monitoring stations constantly measure the gas concentration at a fixed point by an automatic measurement method. A measuring device used for gas analysis necessary for measuring such a gas concentration has all functions until finally outputting concentration data, and is large and expensive.

[0003] In addition, organic compounds in the atmosphere or water are analyzed by an analyzer such as gas chromatography, and the type and amount thereof are determined by measurement using a standard sample or identification using a library.

[0004]

As described above, the measuring apparatus used for the conventional gas analysis is structurally large,
And expensive, and it is not possible to easily increase the number of measurement points at which such large and expensive measurement devices are installed. Harmful substances cannot be easily measured, and detailed analysis is required to investigate the cause of harmful gas generation, etc. There is a problem that can not be done.

[0005] Specifically, halogenated hydrocarbons in the atmosphere and organic compounds in water are analyzed by an analyzer such as gas chromatography, and the type and amount of the compounds are determined by measurement using a standard sample or identification using a library. This requires expensive and space-consuming large-capacity storage devices for libraries and standard samples at measurement points, and such large-capacity storage devices require specific limited measurement There is a problem in that it can be provided only at points, and it is not possible to easily measure harmful substances in the environment at any place.

[0006] The present invention has been made in view of the above,
It is an object of the present invention to provide an environment monitoring device that can be easily moved to an arbitrary place and that can finely measure and analyze and identify any substance requiring a detailed analysis.

[0007]

In order to achieve the above object, the present invention according to claim 1 can move to a designated arbitrary measurement place, and the object including harmful substances at the moved measurement place can be moved. An environment monitoring device, comprising: a measurement mobile body for performing measurement and analysis of a measurement substance; and a management center that communicates with the measurement mobile body via a wireless line and manages measurement analysis performed by the measurement mobile body. The management center identifies and measures the substance to be measured based on measurement analysis information including measurement conditions, analysis conditions and a measurement analysis program necessary for measurement in the measurement mobile body and a measurement analysis result in the measurement mobile body. Reading out the analysis information stored in the storage means in response to a request from the measuring mobile unit, and storing the library information necessary for obtaining the Transmitting means for transmitting to the measurement mobile via a wireless line, receiving means for receiving the measurement analysis result transmitted from the measurement mobile, and comparing the received measurement analysis result with the library information Having an identification calculating means for identifying the substance to be measured and calculating the amount thereof,
Receiving means for requesting the management center to receive the information for measurement analysis transmitted from the transmitting means of the management center; and collecting the substance to be measured at the measurement location according to the received information for measurement analysis. The gist of the present invention is to include a measurement / analysis unit for performing measurement and analysis, and a transmission unit for transmitting the measurement / analysis result to the management center.

According to the first aspect of the present invention, the management center stores measurement analysis information and library information including the measurement conditions, the analysis conditions, and the measurement analysis program, and stores the request from the measurement mobile unit. Read the information for measurement analysis according to the, and send it to the mobile for measurement via a wireless line,
The measurement mobile unit receives the measurement / analysis information transmitted from the management center, collects the substance to be measured at the measurement location in accordance with the received measurement / analysis information, performs measurement and analysis, and analyzes the measurement / analysis result. The management center receives the measurement analysis result from the measuring mobile unit, checks the received measurement analysis result against the library information, identifies the substance to be measured, and calculates its amount. The measurement mobile body does not need to accumulate measurement analysis information and library information from the beginning, and can be made compact and economical, can be configured as a mobile body such as a vehicle, and therefore can be installed at any measurement location. It can be easily moved to perform detailed investigation and analysis of the cause of the generation of harmful substances and the like.

The present invention according to claim 2 is capable of moving to a designated arbitrary measuring place, and a measuring movement for measuring and analyzing a substance to be measured including a harmful substance at the moved measuring place. An environment monitoring device having a management center that communicates with the measurement mobile body via a wireless line and manages measurement analysis performed by the measurement mobile body, wherein the management center includes the measurement mobile body. Measurement information including measurement conditions, analysis conditions, and measurement analysis programs required for measurement in the library, and library information required to determine the identification and amount of the analyte based on the measurement analysis results with the measurement mobile object are stored. Storage means, and reads out the measurement analysis information and the library information stored in the storage means in response to a request from the measurement moving body, and establishes a wireless line. Transmitting means for transmitting to the measuring mobile unit, and receiving means for receiving identification information and quantity information of the substance to be measured transmitted from the measuring mobile unit, wherein the measuring mobile unit is Receiving means for receiving the measurement analysis information and the library information transmitted from the transmission means of the management center, and collecting the substance to be measured at the measurement place in accordance with the received measurement analysis information to perform the measurement and analysis. A measuring and analyzing means for performing, an identification calculating means for identifying the substance to be measured by comparing the result of the measurement analysis with the library information and calculating the amount thereof, and managing the identification information and the amount information of the calculated substance to be measured. The gist of the present invention is to have a transmitting means for transmitting to the center.

According to the second aspect of the present invention, the management center stores measurement analysis information and library information including the measurement conditions, the analysis conditions, and the measurement analysis program, and transmits the request from the measurement mobile unit. The measurement analysis information and the library information are read out according to and transmitted to the measurement mobile unit via the wireless line, and the measurement mobile unit receives the measurement analysis information and the library information transmitted from the management center, The substance to be measured at the measurement location is sampled and measured and analyzed in accordance with the information for measurement and analysis, the result of the measurement and analysis is compared with the library information, the substance to be measured is identified, the amount is calculated, and The identification information and the quantity information of the substance are transmitted to the management center, and the management center receives the identification information and the quantity information of the substance to be measured transmitted from the measuring mobile unit. Because, the measurement for mobile has no need to accumulate a measured analytical information and library information from the beginning,
It can be downsized and economical, can be configured as a moving object such as a vehicle, so it can be easily moved to any measurement location, and it can perform detailed investigation and analysis of the cause of the generation of harmful substances, etc. Further, since the measurement analysis result is compared with the library information to identify and calculate the amount of the substance to be measured by the measurement mobile body, it is possible to reduce processes such as comparison and identification in the management center.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an environment monitoring device according to one embodiment of the present invention. The environmental monitoring device shown in the figure can move to an arbitrary measurement place, and can measure a substance to be measured including a harmful substance at the moved measurement place, for example, a measurement mounted on a mobile vehicle such as a vehicle. A mobile analysis vehicle 1 which is a mobile body for use, and a management center 3 which communicates with the mobile analysis vehicle 1 via a wireless line and a network 2 and manages measurements performed by the mobile analysis vehicle 1. The wireless line between the mobile analysis vehicle 1 and the management center 3 is constituted by various means such as a PHS, a mobile phone, and a satellite mobile phone. In addition, a mobile vehicle such as a vehicle on which the mobility analysis vehicle 1 is mounted includes various vehicles such as an automobile, a train, a ship, an airplane, and the like.

The control center 3 controls the overall operation and identifies the substance to be measured and calculates the quantity based on the measurement and analysis results from the mobile analysis vehicle 1. A library storing information for measurement analysis including necessary measurement conditions, analysis conditions and a measurement analysis program, and library information necessary for obtaining the identification and amount of the substance to be measured based on the measurement analysis result in the mobile analysis vehicle 1. The device 33 plots the position of the mobile analysis vehicle 1 on the map coordinates using radio waves transmitted from the mobile analysis vehicle 1 and checks the position of the mobile analysis vehicle 1 from the position search device 35 and the control device 31. The control signal and the measurement analysis conditions and the like stored in the library device 33 are transmitted to the mobile analysis vehicle 1, and the data signal transmitted from the mobile analysis vehicle 1 is received. Library device 33 supplies the communication device 37, a plurality of the database that stores various data 3
9.

Further, the mobile analysis vehicle 1 includes a control device 11 for controlling the entire operation, a sample sampling module 13 for collecting, separating, and concentrating a sample in accordance with the measurement conditions transmitted from the management center 3, and a control center 3. Sample analysis module 1 that detects a change in a physical quantity due to the presence of a substance to be measured according to the measurement analysis conditions of
5. A communication device 17 that receives control signals, information on measurement conditions, and the like from the management center 3, supplies the information to the control device 11, and transmits data from the sample analysis module 15 to the management center 3, and the operating power of each unit. And a power supply 19 for supplying the power.

More specifically, the control device 31 of the management center 3 controls the sample sampling module 1 of the mobile analysis vehicle 1.
3 and a control signal including ON / OFF commands for the heating / cooling unit and the detection unit for the sample analysis module 15 are transmitted to the mobile analysis vehicle 1 via the communication device 37, and the control device 11 of the mobile analysis vehicle 1 is controlled by the management center. 3 is received via the communication device 17 and supplied to the sample sampling module 13 and the sample analysis module 15. Sample sampling module 13 of mobile analysis vehicle 1
If the substance to be measured is a gas,
It may be configured to have a gas chromatography, a thermal desorption / adsorption device, or the like, and if the substance to be measured is a liquid, to have a water pump, a liquid chromatograph, or the like. Further, the sample analysis module 15
Measures changes due to the substance to be measured in, for example, electric conductivity, optical refractive index, conduction wave absorption, and the like.

In order to measure the substance to be measured in the environment at the measurement location designated by the management center 3 in the environmental monitoring apparatus configured as described above, the mobile analysis vehicle 1 is first used to determine the measurement location. Transmits a signal for position search to the management center 3. The management center 3
When this signal is received, the position detection device 35 detects the position of the mobile analysis vehicle 1 based on the radio wave from the mobile analysis vehicle 1, confirms that it is the designated measurement location, and instructs the start of measurement. Since the measurement locations are different, an instruction to change the measurement location is given through a navigation system or from another radio.

When the measurement place is determined, an exchange (conversation) between the mobile analysis vehicle 1 and the management center 3 starts in response to an analysis operation start signal from the mobile analysis vehicle 1. Then, after the type of environment (atmosphere, water, soil, etc.) and the substance to be detected are exchanged between the mobile analysis vehicle 1 and the management center 3 in a conversational manner, the substance is measured and analyzed. The pre-processing program required for the library 3 of the management center 3
3 is read by the control of the control device 31 and transmitted from the communication device 37 to the mobile analysis vehicle 1. The mobile analysis vehicle 1
When the communication device 17 receives the preprocessing program transmitted from the management center 3, the operator confirms the reception and then starts the operation by pressing the preprocessing button.

When the preprocessing is completed, a signal indicating the end is automatically transmitted to the management center 3, and the analysis program is transmitted from the management center 3 to the mobile analysis vehicle 1 together with the signal. The mobile analysis vehicle 1 receives the analysis program transmitted from the management center 3 by the communication device 17, and when the operator confirms the reception, the analysis by the sample analysis module 15 is started just by the operator pressing the analysis button. . This analysis data is sent from the mobile analysis vehicle 1 to the management center 3
Are transmitted sequentially. The management center 3 collates the analysis data with library information stored in the library device 33, identifies the substance to be measured, and calculates the amount of the substance. In this case, when collation with the library cannot be performed or when the management center 3 determines that there is an abnormality, a reanalysis signal is transmitted to the mobile analysis vehicle 1 as necessary, and the analysis is performed again. Also,
Analysis results (raw data, judgment results, identification results, concentration, etc.)
Are stored in the database 39 of the management center 3 and can be accessed and retrieved at any time. In addition, the analysis result can be mapped by a measurement place, a measurement time, a concentration, and the like.

In the above embodiment, the mobile analysis vehicle 1 performs the measurement and analysis of the substance to be measured, transmits the result of the measurement and analysis to the management center 3, and the management center 3 transmits the measurement and analysis result to the library device 33. The library information of the library device 33 is transmitted from the management center 3 to the movement analysis vehicle 1, whereby the identification of the substance to be measured and the calculation of the amount are performed. In the method described above, the result of the measurement analysis may be compared with library information to identify and measure the amount of the substance to be measured.

FIG. 2 is an explanatory diagram in the case of monitoring the environment of rivers, forests, and the like by the environment monitoring device including the mobile analysis vehicle 1 and the management center 3 configured as shown in FIG. In the figure, a plurality of mobile analysis vehicles 1 move to a river or a forest at each measurement location for one management center 3, and the plurality of mobile analysis vehicles 1 measure the substance to be measured in the environment at each measurement location. It is supposed to. By using the mobile analysis vehicle 1 to move to an arbitrary measurement location in this way, it is possible to perform a detailed analysis of the cause of the generation of harmful gas, which was insufficient with a fixed point as in the related art. Becomes In particular, a measurement program and library information necessary for measurement analysis and identification of the substance to be measured are stored in the management center 3, and only necessary information is transmitted to the mobile analysis vehicle 1 each time, so that the apparatus is large. The gas chromatography-mass spectrometer (GC-MS) can be compactly configured, and can perform movement measurement using a moving body such as a vehicle.
In addition, in the example of FIG. 2, the mobile analysis vehicle 1 is also equipped with a BOD or COD measuring device.

FIG. 3 is an explanatory diagram showing a case where the environment monitoring device including the movement analysis vehicle 1 and the management center 3 shown in FIG. 1 is moved to a city with a large traffic volume, and the atmospheric environment is measured and monitored. For example, a GC-MS is provided in the mobile analysis vehicle 1 in FIG.
And the like, so that benzene, which is a harmful substance emitted from automobiles, and the like, and ozone-depleting substances, such as fluorohydride carbon and chlorofluorocarbon, can be measured. In FIG. 2, the mobile analysis vehicle 1 and the management center 3
In addition to the above, a fixed site 5 which is fixedly provided is provided, and the fixed site 5 constitutes an environmental air monitoring system for measuring SO ₂ , NO _x , O ₃ , SPM, CO, non-methane-based CH and the like. .

[0021]

As described above, according to the present invention,
The management center stores the measurement analysis information and the library information, and transmits the measurement analysis information to the measurement mobile according to the request of the measurement mobile, and the measurement mobile receives the measurement from the management center. Receives the information for analysis, performs measurement and analysis of the substance to be measured in accordance with the information for measurement and analysis, transmits the result of the measurement and analysis to the management center, and the management center receives the result of the measurement and analysis, and transmits the result of the measurement and analysis. Since the substance to be measured is identified by comparing it with the library information and its amount is calculated, the measuring mobile body does not need to accumulate the information for measurement analysis and library information from the beginning, and is reduced in size and economical. Therefore, it can be configured as a moving body such as a vehicle, so that it can be easily moved to an arbitrary measurement place, and a detailed investigation and analysis of the cause of generation of harmful substances and the like can be performed.

Further, according to the present invention, the management center stores the measurement analysis information and the library information, and stores the measurement analysis information and the library information in the measurement mobile according to a request of the measurement mobile. The measuring mobile unit receives the measurement analysis information and the library information from the management center, measures and analyzes the substance to be measured according to the measurement analysis information, and compares the measurement analysis result with the library information. Since the substance to be measured is identified and its amount is calculated, and the identification information and the amount information are transmitted to the management center, the measuring mobile body does not need to accumulate the measurement analysis information and the library information from the beginning. It can be downsized and economical, and can be configured as a moving object such as a vehicle, so it can be easily moved to any measurement location and detailed investigation and analysis of the cause of the generation of harmful substances, etc. In addition, the collation of the measurement analysis result with the library information, the identification of the substance to be measured, and the calculation of the amount are performed by the measurement mobile body, so that the processing of the collation and identification at the management center is reduced. Can be.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an environment monitoring device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram in a case where an environment monitoring of a river, a forest, and the like is performed by an environment monitoring device including a mobile analysis vehicle and a management center configured as shown in FIG. 1;

FIG. 3 is an explanatory diagram of a case in which the environment monitoring device including the movement analysis vehicle and the management center shown in FIG. 1 is moved to a city with heavy traffic, and the atmospheric environment is measured and monitored here.

[Explanation of symbols]

 Reference Signs List 1 mobile analysis vehicle 2 network 3 management center 11 control device 13 sample sampling module 15 sample analysis module 17, 37 communication device 31 control device 33 library device 35 position search device 39 database

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G01N 33/18 104 G01N 33/18 104 105 105 33/24 33/24 B // H04Q 7/38 H04B 7 / 26 109M (72) Inventor Yuriko Tanaka 3-19-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Inventor Shizuo Kobo 3-192-1, Nishi-Shinjuku, Shinjuku-ku, Tokyo Nippon Telegraph Within Telephone Co., Ltd. (72) Inventor Tatsuro Sakai Nippon Telegraph and Telephone Corporation, 192-1 Nishi Shinjuku 3-chome, Shinjuku-ku, Tokyo Nippon Telegraph and Telephone Co., Ltd. Telephone Co., Ltd. F term (reference) 2G042 AA01 BA02 BA03 BA05 BA07 BA08 BA10 BB04 BB07 BB10 BB12 BD01 BD02 CA01 CA02 CA05 CB01 CB03 CB06 5K067 BB41 EE02 LL05

Claims (2)

[Claims] 1. A movable body for measurement which can move to a designated arbitrary measurement place, and performs measurement and analysis of a substance to be measured including a harmful substance at the moved measurement place, and the movable body for measurement. An environmental monitoring device having a management center that communicates via a wireless line and manages measurement analysis performed in a measurement mobile object, wherein the management center performs measurement conditions and analysis required for measurement in the measurement mobile object. Storage means for storing library information necessary for determining the identification and amount of the substance to be measured based on the measurement analysis information including the conditions and the measurement analysis program and the measurement analysis result on the measurement mobile body; Transmitting means for reading out the measurement analysis information stored in the storage means in response to a request from the body, and transmitting the information to the measurement mobile body via a wireless line; Receiving means for receiving the measurement analysis result transmitted from the moving object, and identification calculation means for comparing the received measurement analysis result with the library information, identifying the substance to be measured, and calculating the amount thereof The measurement mobile unit requests the management center to receive the measurement analysis information transmitted from the transmission unit of the management center, and receives the substance to be measured at the measurement place according to the received measurement analysis information. An environment monitoring device comprising: a measurement analysis unit that collects and performs measurement and analysis; and a transmission unit that transmits a result of the measurement analysis to a management center. 2. A moving body for measurement which can move to a designated arbitrary measuring place, and performs measurement and analysis of a substance to be measured including a harmful substance at the moved measuring place, and the moving body for measurement. An environmental monitoring device having a management center that communicates via a wireless line and manages measurement analysis performed in a measurement mobile object, wherein the management center performs measurement conditions and analysis required for measurement in the measurement mobile object. Storage means for storing library information necessary for determining the identification and amount of the substance to be measured based on the measurement analysis information including the conditions and the measurement analysis program and the measurement analysis result on the measurement mobile body; The information for measurement analysis and the library information stored in the storage means are read in response to a request from the body, and transmitted to the mobile for measurement via a wireless line. Transmitting means, and receiving means for receiving identification information and quantity information of the substance to be measured transmitted from the measuring mobile body, wherein the measuring mobile body makes a request to a management center; Receiving means for receiving the information for measurement analysis and library information transmitted from the apparatus; measuring and analyzing means for collecting a substance to be measured at a measurement place in accordance with the received information for measurement analysis to perform measurement and analysis; An identification calculating means for comparing the result with the library information to identify the substance to be measured and calculating the amount thereof, and a transmitting means for transmitting the identification information and the amount information of the calculated substance to be measured to the management center. An environmental monitoring device characterized by that: