JPH116826A - Water quality monitoring system - Google Patents

Water quality monitoring system

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Publication number
JPH116826A
JPH116826A JP15853397A JP15853397A JPH116826A JP H116826 A JPH116826 A JP H116826A JP 15853397 A JP15853397 A JP 15853397A JP 15853397 A JP15853397 A JP 15853397A JP H116826 A JPH116826 A JP H116826A
Authority
JP
Japan
Prior art keywords
water
pipe
sampling
water quality
quality
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP15853397A
Other languages
Japanese (ja)
Other versions
JP3208091B2 (en
Inventor
Ikuhisa Wataya
育久 綿谷
Yasushi Tabuchi
泰志 田淵
Tsutomu Takenaka
勉 竹中
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kurimoto Ltd
Original Assignee
Kurimoto Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kurimoto Ltd filed Critical Kurimoto Ltd
Priority to JP15853397A priority Critical patent/JP3208091B2/en
Publication of JPH116826A publication Critical patent/JPH116826A/en
Application granted granted Critical
Publication of JP3208091B2 publication Critical patent/JP3208091B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To enhance consistency between a measured result (detected data) of sampled water and an automatically measured value by sampling the water when it is detected that quality of the water is in an abnormal condition. SOLUTION: There is disclosed a system for monitoring quality of water wherein detected data obtained by each of a plurality of water quality automatic monitoring devices A is transmitted to a central monitoring center and the center monitors the quality of the water in each pipe based on the respective detected data. Water sampling pipes 11, 13 are branched from a water detecting pipe (b) of each of the water quality automatic monitoring devices A. A water sampling tank 14 is connected to the water sampling pipes 11, 13 via a solenoid valve 12. When it is detected that the water is in an abnormal condition, the valve 12 is opened to reserve the water in the pipe into the water sampling tank 14. The sampled water in the abnormal condition is analyzed, then the analyzed result and the automatically measured value can be consistent with each other. As a result, the reliability as to whether or not the detected abnormality is originated from the lowering of the water quality, is enhanced. The water collection pipe is connected to a bottom of the tank 14 and the water is supplied from the bottom section, then the old reserved water is overflowed.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】この発明は、上水等の水質の
監視を行う水質モニターシステムに関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water quality monitoring system for monitoring the quality of water such as clean water.

【0002】[0002]

【従来の技術】例えば、上水道において、各管路又は同
一管路で一定間隔毎にその水質をモニターすることは非
常に重要であり、その一般のモニターシステムは、図1
に示すように、複数の管路又は同一管路に付設されたそ
の管路の各水質自動監視装置A1 、A2 ……An(総称
符号:A)から、そのそれぞれの検出データを中央監視
センタCに、モデム伝送、テレメータ伝送等により伝送
し、中央監視センタCにおいて、その各検出データに基
づき、前記各管路の水質をモニターするものである。中
央監視センタCでは、データ収集処理のみならず、各水
質自動監視装置Aに各種信号を伝送してその制御も行
う。図中、Pはホストコンピュータ、Qはプリンターで
ある。
2. Description of the Related Art For example, in waterworks, it is very important to monitor the water quality at regular intervals in each pipeline or the same pipeline, and a general monitoring system is shown in FIG.
As shown in ( 1 ), the respective monitoring data are centrally monitored from a plurality of pipelines or the respective automatic water quality monitoring devices A 1 , A 2 ... An (general symbol: A) of the pipelines. The data is transmitted to the center C by modem transmission, telemeter transmission, or the like, and the central monitoring center C monitors the water quality of each pipe based on the detected data. In the central monitoring center C, not only the data collection processing but also various signals are transmitted to the automatic water quality monitoring devices A to control them. In the figure, P is a host computer, and Q is a printer.

【0003】その水質自動監視装置Aは、例えば、図2
に示すように、水道本管aから分岐した検水管bが導入
され、この検出管bを流れる水を、センサーユニット部
Uで各種の検出を行い、その検出データを、アンプ部
B、測定制御部Dを介し、伝送受信部Eから中央監視セ
ンタCに伝送する。測定制御部Dはセンサーユニット部
U等の制御を行い、水質異常を発見すれば、バルブVを
閉じて水道本管aを遮断するものもある。
The automatic water quality monitoring device A is, for example, shown in FIG.
As shown in (1), a water sample pipe b branched from the water main pipe a is introduced, and the water flowing through the detection pipe b is subjected to various kinds of detection by the sensor unit U, and the detected data is sent to the amplifier B for measurement control. The data is transmitted from the transmission receiving unit E to the central monitoring center C via the unit D. The measurement control section D controls the sensor unit section U and the like, and when it finds an abnormality in water quality, there is a type in which the valve V is closed to shut off the water main a.

【0004】センサーユニット部Uは、例えば図3に示
すように、各種の弁を介して、水温計、水圧計等を検水
管bに適宜に接続可能としたものであり、各弁を測定制
御部Dで任意に開閉することにより、所要の水質検査を
行う。この検査は、設定項目を一定時間毎に自動的に行
い、この検出データは中央監視センタCに自動的に同時
に伝送される。万一、検出データ(計測値)に異常値が
発生すれば、警報が同センタCに通報される。
As shown in FIG. 3, for example, a sensor unit U is configured such that a water temperature gauge, a water pressure gauge, and the like can be connected to a water test tube b via various valves as appropriate. A required water quality test is performed by opening and closing the part arbitrarily. In this inspection, the setting items are automatically performed at fixed time intervals, and the detection data is automatically and simultaneously transmitted to the central monitoring center C. If an abnormal value occurs in the detection data (measurement value), an alarm is notified to the center C.

【0005】[0005]

【発明が解決しようとする課題】従来のシステムでは、
試料水(検水)は各検査を終えた後、装置A内には貯留
せずに排出されている。このため、ある水質自動監視装
置Aでの水質に異常があったことはデータをみれば判断
できるが、試料水自体が残っていないから、本当にその
異常が発生した時の水質が異常であったかどうかの物的
証拠としては残らないことになる。
In the conventional system,
After each test, the sample water (water sample) is discharged without being stored in the device A. For this reason, it can be determined by looking at the data that there was an abnormality in the water quality at a certain automatic water quality monitoring device A. Will not remain as physical evidence of

【0006】通常、異常値発生の警報を受けると、該当
現場に出かけて採水し、採水した試料水を新たに分析・
計測して自動計測結果との確認が行われるが、時間的に
ほぼ同じ試料水が確保できるのは現場近くのみとなり、
遠方や夜間など、作業者が少ないときは現場での採水が
時間的に大幅に遅れる。このときは、大幅時間遅れで採
水した試料水の計測結果と自動計測値との整合性に問題
がある。
[0006] Normally, when an alarm for occurrence of an abnormal value is received, the user goes to the corresponding site and collects water, and newly analyzes the sampled water.
Measurement and confirmation of the automatic measurement result are performed, but almost the same sample water can be secured only near the site in time,
When there are few workers, such as in the distance or at night, water sampling at the site is greatly delayed in terms of time. In this case, there is a problem in the consistency between the measurement result of the sample water sampled with a large delay and the automatic measurement value.

【0007】この発明は、上記実情に鑑み、採水の計測
結果(検出データ)と自動計測値との整合性を高めるこ
とを課題とする。
[0007] In view of the above circumstances, it is an object of the present invention to improve the consistency between a measurement result (detection data) of water sampling and an automatic measurement value.

【0008】[0008]

【課題を解決するための手段】上記課題を解決するため
に、この発明は、上記水質自動監視装置に自動採水機能
を付加し、管路の水質異常を検出したとき、その自動採
水機能によって、その異常水を採取するようにしたので
ある。
In order to solve the above-mentioned problems, the present invention adds an automatic water sampling function to the above-mentioned automatic water quality monitoring device, and when the water quality abnormality of the pipeline is detected, the automatic water sampling function is provided. In this way, the abnormal water was collected.

【0009】異常検出時の水を採取するので、その異常
時の採水を分析することとなり、その分析・計測結果と
自動計測値が整合することとなる。このため、その異常
が水質本来の異常か否かの信頼性が高くなる。因みに、
異常検出は、装置の異常等の水質以外の要因によって生
じる場合もあるからである。
Since water at the time of detection of an abnormality is collected, water sampling at the time of the abnormality is analyzed, and the analysis / measurement result matches the automatic measurement value. For this reason, the reliability of whether or not the abnormality is the original abnormality of the water quality increases. By the way,
This is because the abnormality detection may be caused by a factor other than the water quality such as an abnormality of the device.

【0010】[0010]

【発明の実施の形態】上記自動採水機能は、例えば、水
質自動監視装置の検水管から採水管を分岐し、この採水
管に開閉弁を介して採水槽を接続して構成し、上記水質
異常を検出したとき、前記開閉弁を開放して前記採水槽
に被検出管路の水を貯留する。
DESCRIPTION OF THE PREFERRED EMBODIMENTS The automatic water sampling function is constructed, for example, by branching a water sampling pipe from a water sampling pipe of an automatic water quality monitoring device, and connecting a water sampling tank to the water sampling pipe via an on-off valve. When an abnormality is detected, the on-off valve is opened to store the water in the pipe to be detected in the water sampling tank.

【0011】上記採水管は上記採水槽の底部に開口し、
採水槽の上部から水がオーバーフローするようにすれ
ば、採水槽には底部から新水が供給され、古い溜水は徐
々に上昇してオーバーフローするため、その溜水が十分
に除かれる時間を考慮して、採水槽への給水を行えば、
異常時の検出水(採水)のみを確実に貯留し得る。
[0011] The water sampling pipe is opened at the bottom of the water sampling tank,
If water is allowed to overflow from the top of the water tank, fresh water is supplied to the water tank from the bottom, and old stored water gradually rises and overflows. Then, if you supply water to the water collection tank,
Only the water detected at the time of abnormality (water sampling) can be reliably stored.

【0012】[0012]

【実施例】図3、図4に、この発明の一実施例の詳細を
示すが、従来との相違点のみを主に説明すると、管路a
から分岐した検水管bに減圧弁10を介設して、高圧か
ら所要の水圧に下げ、その圧の検水を水温計等の各種セ
ンサーに導いて各種の検出(測定)を行う。
3 and 4 show the details of an embodiment of the present invention. Only the differences from the prior art will be mainly described.
A pressure reducing valve 10 is interposed in a water test pipe b branched from the above, the pressure is reduced from a high pressure to a required water pressure, and a water sample of the pressure is led to various sensors such as a water temperature gauge to perform various detections (measurements).

【0013】減圧弁10と各種センサーの接続管に分岐
管11を設け、その分岐管11へ電磁弁12を介して流
入管13の一端を接続し、他端は採水槽14へ接続挿入
する。一方、オーバーフロー管15は採水槽14の上部
に接続し、他端は排水と同じ排水溝につながっている。
電磁弁12は開閉信号により自動開閉し、通常時は、電
磁弁12は全閉のため本管管路aからの試料水は採水槽
14には入ってこないので、上述の従来技術と同じ作用
となる。
A branch pipe 11 is provided in a connection pipe between the pressure reducing valve 10 and various sensors. One end of an inflow pipe 13 is connected to the branch pipe 11 via an electromagnetic valve 12, and the other end is connected to a water collecting tank 14. On the other hand, the overflow pipe 15 is connected to the upper part of the water collecting tank 14, and the other end is connected to the same drain as the drain.
The solenoid valve 12 automatically opens and closes in response to an open / close signal. Normally, since the solenoid valve 12 is fully closed, the sample water from the main pipe line a does not enter the water collection tank 14, so that the same operation as the above-described prior art is performed. Becomes

【0014】採水槽14は、透明の合成樹脂製で、上部
に合成樹脂製の上蓋16とねじ合せした構造を形成して
いる。合成樹脂製の流入管13の一端は電磁弁12の下
流側端に水密取り付けし、他端は上蓋16を貫通し、そ
の先端は採水槽14内の底部へ垂下している。本例では
底部と多少隙間があるように垂れ下がっているが、採水
槽14の底部面上に流入管13先端部があってもよく、
要は底部にあればよい。
The water collecting tank 14 is made of a transparent synthetic resin, and has a structure in which an upper lid 16 made of a synthetic resin is screwed to an upper portion thereof. One end of the synthetic resin inflow pipe 13 is water-tightly attached to the downstream end of the solenoid valve 12, the other end penetrates the upper lid 16, and the tip thereof is hanging down to the bottom in the water collecting tank 14. In this example, it hangs down so that there is some gap with the bottom, but the tip of the inflow pipe 13 may be on the bottom surface of the water collection tank 14,
In short, it only has to be at the bottom.

【0015】同じく合成樹脂製のオーバーフロー管15
は採水槽14の上面に設けられた貫通穴に、先端を挿入
接続し、他端は排水受け17へ垂れ下がっている。排水
受け17には別の排水管18(ゴムホース)が接続して
あり、この管18は排水溝へと通じている。
An overflow pipe 15 also made of synthetic resin
Is connected to a through hole provided on the upper surface of the water collecting tank 14 at an end thereof, and the other end thereof hangs down to a drain receiver 17. The drain receiver 17 is connected to another drain pipe 18 (rubber hose), and this pipe 18 communicates with the drain.

【0016】今、例えば試料水の測定データにおいて異
常値があった時、異常信号が出て、遠隔地の中央監視セ
ンタCに自動通報するが、この異常信号を電磁弁12を
開にする信号に連動させておくと、電磁弁12が開とな
り、流入管13が開口し、今までセンサーユニット部U
のみへ流入している試料水は、同時に電磁弁12を経由
して採水槽14にも流れ込む。満杯になればオーバーフ
ロー管15よりあふれ出て排水溝へと排水される。満杯
にするための所要時間などの一定時間経過後、電磁弁1
2は再び閉状態にもどり、試料水の流入はなくなり、採
水槽14には試料水が貯留された状態となる。万一、採
水槽14に古い水が貯留されていても、流入管13先端
が採水槽14の底部に垂下しているので、新しい貯留水
は底部より流れ込み、古い貯留水は上部へと押上げられ
てオーバーフロー管15より外部へ排出されてゆくの
で、採水槽14には常に新しい試料水が貯留されること
になる。
Now, for example, when there is an abnormal value in the measurement data of the sample water, an abnormal signal is output and automatically notified to a remote central monitoring center C. The abnormal signal is a signal for opening the solenoid valve 12. , The solenoid valve 12 is opened, the inflow pipe 13 is opened, and the sensor unit U
The sample water flowing into only the water sample flows into the water collecting tank 14 via the solenoid valve 12 at the same time. When it is full, it overflows from the overflow pipe 15 and is drained to a drain. After a certain period of time, such as the time required to fill, solenoid valve 1
2 returns to the closed state again, the inflow of the sample water stops, and the water sample tank 14 is in a state where the sample water is stored. Even if old water is stored in the water collection tank 14, since the tip of the inflow pipe 13 is hanging down to the bottom of the water collection tank 14, new storage water flows from the bottom and old storage water is pushed upward. Then, the water is discharged from the overflow pipe 15 to the outside, so that a new sample water is always stored in the water collecting tank 14.

【0017】貯留後(採水後)、採水槽14を空っぽの
新しい採水槽14に取替えて持ち帰ったり、又は、採水
槽14の貯留水のみを持ち帰りして、その持ち帰った貯
留水を測定する。このとき、異常があった時と同じ時間
に採水した貯留水であるから、その分析・測定は、セン
サーユニット部Uと同一内容の計測を実施したこととな
り、計測値に対する信頼性は高い。
After storage (after water collection), the water collection tank 14 is replaced with an empty new water collection tank 14 and brought back, or only the water stored in the water collection tank 14 is brought back and the returned stored water is measured. At this time, since the stored water is sampled at the same time as the time when the abnormality occurred, the analysis and measurement thereof have been performed with the same measurement as the sensor unit U, and the reliability of the measured value is high.

【0018】この採水ラインは、減圧弁10と各センサ
ーとの接続配管の中間であれば分岐管11および電磁弁
12を介して幾つでも設けることができ、異常時のみ1
回だけでなく、幾通りかの任意時間でもよいし、幾つか
の計測項目に対してでもよい。種々のデータの計測が可
能になれば、信頼性が増す。また、電磁弁12の開閉信
号は、異常時との連動だけでなく遠隔地の中央監視セン
タCからの送信によっても自由に行うことができる。こ
のようにすれば、何時でも必要数の試料水を貯留(採
取)できる。電磁弁12に代えて、電動ボール弁、電動
バタフライ弁等の各種の電動開閉弁を採用し得る。
Any number of such water sampling lines can be provided via the branch pipe 11 and the solenoid valve 12 as long as they are located in the middle of the connection pipe between the pressure reducing valve 10 and each sensor.
Not only the number of times, but also any number of arbitrary times or for some measurement items. If the measurement of various data becomes possible, the reliability will increase. Further, the opening / closing signal of the solenoid valve 12 can be freely transmitted not only in conjunction with the time of abnormality but also by transmission from the central monitoring center C in a remote place. In this way, the required number of sample water can be stored (collected) at any time. Instead of the electromagnetic valve 12, various types of electric on-off valves such as an electric ball valve and an electric butterfly valve can be adopted.

【0019】[0019]

【発明の効果】この発明は、異常時の試料水そのものを
採水槽内に確保するようにしたので、ゆっくりとその採
水を集めに行けばよく、従来のように、同じ時間の試料
水を採水するために、現場へ慌てて出かける必要がな
い。また、採水の確保は、データの再計測などが可能と
なり、自動計測データの確認ができ、また異常が試料水
か又は計測器等のいずれかかの発見も容易にできる。
According to the present invention, since the sample water itself at the time of the abnormality is secured in the water collecting tank, it is only necessary to slowly collect the sample water. There is no need to rush to the site to collect water. In addition, in order to secure water collection, re-measurement of data and the like can be performed, automatic measurement data can be confirmed, and it can be easily found that the abnormality is either sample water or a measuring instrument.

【図面の簡単な説明】[Brief description of the drawings]

【図1】水質モニターシステムの概略図FIG. 1 is a schematic diagram of a water quality monitoring system.

【図2】水質自動監視装置の設置概略図FIG. 2 is a schematic diagram of installation of an automatic water quality monitoring device.

【図3】一実施例の水質自動監視装置の配管図FIG. 3 is a piping diagram of an automatic water quality monitoring device according to one embodiment.

【図4】同実施例の採水部の斜視図FIG. 4 is a perspective view of a water sampling unit of the embodiment.

【符号の説明】[Explanation of symbols]

A、A1 、A2 …… 水質自動監視装置 C 中央監視センタ D 測定制御部 E 伝送受信部 U センサーユニット部 a 本管管路 b 検水管 10 減圧弁 11 分岐管 12 電磁弁 13 流入管 14 採水槽 15 オーバーフロー管 16 上蓋 17 排水受け 18 排水管A, A 1 , A 2 … Automatic water quality monitoring device C Central monitoring center D Measurement control unit E Transmission receiving unit U Sensor unit a Main pipe line b Water test pipe 10 Pressure reducing valve 11 Branch pipe 12 Electromagnetic valve 13 Inflow pipe 14 Sampling tank 15 Overflow pipe 16 Top lid 17 Drain receiver 18 Drain pipe

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 管路aに付設されたその管路aの水質自
動監視装置Aから、その検出データを中央監視センタC
に伝送し、中央監視センタCにおいて、その検出データ
に基づき、前記管路aの水質をモニターするシステムに
おいて、 上記水質自動監視装置Aに自動採水機能を付加し、管路
aの水質異常を検出したとき、その自動採水機能によっ
て、その異常水を採取するようにした水質モニターシス
テム。
1. An automatic water quality monitoring device A for a pipe a attached to the pipe a sends the detected data to a central monitoring center C.
In the system for monitoring the water quality of the pipe a based on the detection data at the central monitoring center C, an automatic water sampling function is added to the automatic water quality monitoring device A to detect the water quality abnormality of the pipe a. A water quality monitoring system that, when detected, uses the automatic water sampling function to collect the abnormal water.
【請求項2】 上記水質自動監視装置Aの検水管bから
採水管11、13を分岐し、この採水管に開閉弁12を
介して採水槽14を接続して、上記自動採水機能を構成
し、上記水質異常を検出したとき、前記開閉弁12を開
放して前記採水槽14に上記管路aの水を貯留すること
を特徴とする請求項1記載の水質モニターシステム。
2. The automatic water sampling function is configured by branching water sampling pipes 11 and 13 from a water sampling pipe b of the automatic water quality monitoring device A, and connecting a water sampling tank 14 to the water sampling pipe via an on-off valve 12. The water quality monitoring system according to claim 1, wherein, when the water quality abnormality is detected, the on-off valve (12) is opened to store the water in the pipe (a) in the water sampling tank (14).
【請求項3】 上記採水管13は上記採水槽14の底部
に開口し、採水槽14の上部から水がオーバーフローす
るようにした請求項2に記載の水質モニターシステム。
3. The water quality monitoring system according to claim 2, wherein the water sampling pipe is opened at a bottom of the water sampling tank so that water overflows from an upper part of the water sampling tank.
JP15853397A 1997-06-16 1997-06-16 Water quality monitoring system Expired - Fee Related JP3208091B2 (en)

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