KR20170100366A - Water Quality Telemetering System - Google Patents

Abstract

The present invention relates to a remote water quality management and monitoring system which is for unmanned and remote cleaning of a sampling container of a remote water quality management and monitoring system for automatically measuring water contaminants, to control a worker to enter/exit the sampling container and to maneuver, thus increasing the reliability from an administrative agency, and rapidly determines whether water quality data is wrong or not, thereby facilitating the cleaning of the sampling container and increasing a work efficiency. The system is installed in a final effluent water of a sewage treatment plant and a discharging firm to automatically measure water contaminants, and transmits a discharging state of the water contaminants in real time for 24 hours to a management server to monitor the same. In addition, an accurate detecting data for a water intake time of samples can be secured to utilize water quality information of the sample and detecting data from the same. Particularly, the system has a sampling container cleaning device, such that the measurement of samples accommodated in an accommodating space of the sampling container can be more accurate, and the worker does not need to manually clean the container, thus increasing work efficiency. The system comprises: a sampling container (20) which comprises an inlet port (22), a discharging port (23) and an accommodating space (24); a water quality measuring unit (30) for measuring information on samples; a data collecting unit (40) for collecting information on samples in real time; a management server (50); and a sampling container cleaning device (60) for cleaning the sampling container (20).

Description

{Water Quality Telemetering System}

The present invention relates to a water quality remote monitoring and monitoring system, and more particularly, to a water quality remote monitoring and monitoring system for automatically measuring water pollutants, The present invention relates to a water quality remote control monitoring system which can improve reliability with an administrative institution by controlling the operation of the water sampling system, and can promptly determine whether or not the water quality data are abnormal,

Recently, the water quality management system remotely monitors the effluent discharged from a sewage end treatment facility, a wastewater end treatment facility and a wastewater discharge facility of a certain scale or more and calculates the total amount of the pollutants contained in the effluent water, Thus regulating the discharge of wastewater.

In the conventional water quality management system, on-site data collecting apparatus collects discharged water discharged from a sewage end treatment facility, a wastewater end treatment facility or a waste water discharge business site, and uses various sensors to measure water quality and flow rate at predetermined time intervals (For example, every 10 seconds), calculates an average data at predetermined time intervals (for example, every 5 minutes) based on the detected signals, and transmits the average data to the control server. The control server uses the average data as a database to regulate wastewater discharge. In addition, the conventional data collecting device collects the sample when the water quality condition exceeds the reference value or when the request signal of the control server is received, so that the sample can be inspected at a later time.

In addition, the conventional water quality management system operates by a method of instantly collecting samples after analyzing the water quality of the discharged water. Based on the accurate water quality information obtained at the time of sampling and the average data obtained from the database, The total amount of pollutants emitted was calculated.

However, the conventional sampling method does not represent the water quality of the discharged water that changes in real time because it provides only the instantaneous water quality status information. In addition, there is a problem that an error occurs with the sampling time data of the actual sample because the sampling data is obtained after analyzing the water quality state. The conventional water quality management system, which collects only the samples lacking the representativeity, is difficult to secure its reliability, and thus it has been problematic to construct a system.

As a result, there has been proposed a system capable of measuring and collecting the concentration and flow rate of pollutants in a disposal plant treatment facility in real time. In the water quality management system of Patent Document 1, A measuring device for measuring the concentration of the contaminants in real time and outputting the measured value signal and the measuring device status signal; A remote search command transmitted from a control center for monitoring or controlling the one or more outlets is transmitted to the meter, and the measurement signal and the meter status signal are collected in real time, generated and stored as average data, and transmitted to the control center Data collector; And an automatic sampler for discontinuously or continuously sampling the bottom / wastewater sample in a sample collection tank formed between the outlet and the measuring unit so that continuous measurement of the water quality by the measuring unit is performed.

However, in the above-described water quality management system, there is a problem that the sampling vessel installed at the outflow port is clogged due to foreign matter such as soil or moss generated at the outflow port, or the foreign object is taken up. For this reason, the water quality management system is configured to temporarily stop the water intake and to remove the foreign substances attached to the water inlet by discharging the water to the water inlet, but such a foreign matter has not been properly removed, which is not a fundamental solution.

Korean Patent Laid-Open Publication No. 10-2012-0117429 "Water Quality Remote Monitoring System and Remote Monitoring Method Using It"

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a water quality remote control monitoring system for automatically measuring water pollutants, Provides a new type of water quality remote monitoring and monitoring system that can improve the reliability with the administrative organs by controlling the operation and can promptly determine the abnormality of the water quality data, .

In addition, it can be installed in the sewage treatment plant and the final discharge water of the discharge facility, automatically measuring the water pollutant and transmitting the discharge status of the water pollutant to the control server in real time for 24 hours and monitoring it, And to provide a new type of water quality remote control monitoring system that can utilize the water quality information of the sample and the detection data according to the water quality information.

Particularly, by constructing the sample collection tank cleaning device, it is possible to more accurately measure the sample contained in the accommodation space of the sample collection tank, to eliminate the troublesomeness of manual cleaning by the operator, and to improve the efficiency of the work. And to provide a management and monitoring system.

According to an aspect of the present invention for achieving the above object, an inlet port 22 through which a sample discharged from a discharge port flows is formed on one side surface 21a, and a discharge port 23 through which a sample is discharged to a lower surface 21b A sample collecting tank 20 having a box shape and having a receiving space 24 in which a sample is received; A water quality measuring unit 30 for measuring information of the sample contained in the sample collecting tank 20; A data collection unit 40 for collecting information of the sample measured from the water quality measurement unit 30 in real time; A control server 50 for generating and storing sample information transmitted from the data collection unit 40 as average data and real time data and storing the data in a database; And a sample collecting tank cleaning device 60 for cleaning the sample collecting tank 20 so that sample information measured by the water quality measuring part 30 due to contaminants accumulated in the sample collecting tank 20 The sample collecting tank 20 is cleaned by the sample collecting tank cleaning device 60 when it is determined that the data is abnormal.

In the water quality remote control monitoring system according to the present invention, the sample collecting and cleaning apparatus 60 penetrates the front surface 21c and the rear surface 21d of the sample collecting tank 20, And an inlet pipe (61) for supplying washing water and air; A nozzle 62 connected to an end of the inlet pipe 61 for spraying washing water and air into the containing space 24 of the sample collecting tank 20 to clean the sample collecting tank 20; And a control box 63 having a display unit 63a for controlling wash water and air sprayed through the nozzle 62 and for displaying the progress of cleaning the sample collecting tank 20 .

In the water quality remote control monitoring system according to the present invention, the inlet pipe 61 includes a washing water inlet pipe 61a to which washing water is supplied and an air inlet pipe 61b to which air is supplied. A cleaning nozzle 62a connected to an end of the washing water inlet pipe 61a for spraying washing water into the receiving space 24 of the sample collecting tank 20 to clean the sample collecting tank 20, And an air nozzle 62b connected to an end of the air inlet pipe 61b for spraying air into the accommodation space 24 of the sample collecting tank 20 to clean the sample collecting tank 20. [ do.

In the water quality remote control monitoring system according to the present invention, the washing nozzle 62a is characterized in that the washing water supplied through the washing water inlet pipe 61 is injected in a circular shape.

In the water quality remote control monitoring system according to the present invention, the cleaning nozzle 62a includes an adapter 64 for adjusting the spraying direction of the washing water.

In the water quality remote monitoring and monitoring system according to the present invention, the control center 50 is provided with a remote control function, a data collection / analysis / storage function, an automatic measurement data management function, a collection / storage / management function of general status data, An alarm notification function, an administrative data confirmation function of automatic measurement data, and a system fault prevention function.

As described above, according to the water quality remote control monitoring system according to the present invention, when the sample collection tank of the water quality remote control monitoring system for automatically measuring water pollutants is cleaned, the operator can enter and exit the sampling tank It is possible to increase the reliability with the administrative organs and to promptly judge the abnormality of the water quality data, thereby facilitating the cleaning of the sampling tank and improving the efficiency of the operation.

In addition, it can be installed in the sewage treatment plant and the final discharge water of the discharge facility, automatically measuring the water pollutant and transmitting the discharge status of the water pollutant to the control server in real time for 24 hours and monitoring it, So that it is possible to utilize the water quality information of the sample and the detection data corresponding thereto.

Particularly, by constituting the sample collecting tank cleaning device, it is possible to more accurately measure the sample accommodated in the accommodating space of the sample collecting tank, thereby eliminating the need for manual cleaning by the operator and improving the efficiency of the operation.

1 is a configuration diagram of a water quality remote management monitoring system according to a preferred embodiment of the present invention;
FIG. 2 is a perspective view of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention, FIG.
FIG. 3 is a front view of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG.
FIG. 4 is a rear view of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG.
5 is a view showing a cleaning nozzle and an adapter of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention,
FIG. 6 is a view showing a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG.
FIG. 7 is a block diagram for explaining an operation state of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG.
FIG. 8 is a view illustrating a configuration in which a cleaning process is controlled through a control box of a sample collection tank cleaning apparatus in a water quality remote control monitoring system according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In FIGS. 1 to 8, the same reference numerals are assigned to components performing the same function. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

1 to 8, a water quality remote control monitoring system 10 according to a preferred embodiment of the present invention includes a sample collection tank 20, a water quality measurement unit 30, a data collection unit 40, 50, and a sample collection tank cleaning device 60. The water quality control device 50 automatically measures water quality pollutants discharged from the wastewater treatment plant and the discharge shop (hereinafter referred to as "discharge shop"), If the sample information measured by the water quality measuring unit 30 is compared with predetermined sample information due to the contaminants deposited inside the sample collecting tank 20 and the result is determined to be abnormal data, And the sample collecting tank 20 is cleaned by the sampling tank cleaning device 60. That is, the control server 50 includes an administrative agency for managing the discharge shop, and is capable of measuring the water pollutants remotely from the control server 50 and cleaning the sample collection vessel 20 do.

The sample collecting tank 20 receives the discharged water (sample) discharged from the discharge port of the discharge station managed by the control server 50 and has an inlet 22 through which the sample discharged from the discharge port flows into the one side surface 21a And has a receiving space (24) in which a sample is contained in the inside of the box. The upper part of the opening (23) is provided with a lid 25 are formed. At this time, the accommodation space 24 is divided into a plurality of spaces by the partition 27, and the mesh network 27a is formed on the upper part of the partition 27 formed on the other side of the plurality of the partition 27 .

Meanwhile, the sample collection tank 20 is provided with a water intake pump 26 for taking in the water discharged from the discharge port at a lower portion thereof and is allowed to flow through the inlet port 22, and the water level of the sample A level adjustment level switch (not shown) for adjusting the level of the liquid level is formed.

The water quality measuring unit 30 is for measuring the water quality of the sample contained in the sample collecting tank 20 and includes a pH value, (SS), total nitrogen (TN), total phosphorus (TP), and the like.

The data collecting unit 40 collects and stores the water quality status information of the sample measured by the water quality measuring unit 30 in real time and then transmits the data to the control server 50 in accordance with the command of the control server 50 And performs command transmission of the subroutine 30.

The control server 50 is connected to the data collecting unit 40 by wire or wireless, requests transmission of the stored data, and receives and stores various data from the data collecting unit 40. That is, the control server 50 receives the water quality data stored in the data collection unit 40 and converts the data into a database. The database data is used as information for water quality management. In particular, the data of time and data of flow rate and the data of water quality acquired at the time of sampling are used as a basis for the close inspection of the number of samples in the future.

The control server 50 includes a remote control function, a data collection / analysis / storage function, an automatic measurement data management function, a general status data collection / storage / management function, a forecast / alarm notification function, And a system failure prevention function.

As described above, according to the water quality remote monitoring and monitoring system 10 of the present invention, water pollutants are installed in the final discharge water of the wastewater treatment plant and the discharge shop, and the water pollutants are automatically measured and sent to the control server 50 for real- There is an effect that the emission state can be transmitted and monitored.

In addition, it is possible to ensure accurate detection data on the time of taking the sample and to utilize the water quality information of the sample and the detection data corresponding thereto.

Meanwhile, the water quality remote monitoring and monitoring system 10 according to the preferred embodiment of the present invention includes a sample collection tank cleaning device 60 for cleaning the sample collection tank 20.

The sample collecting tank cleaning apparatus 60 is provided with a plurality of sample collecting apparatuses 60 each having a front end 21c and a rear surface 21d of the sample collecting tank 20 and having an end located on the receiving space 24, A nozzle 62 connected to the end of the inlet pipe 61 for spraying washing water and air into the containing space 24 of the sample collecting tank 20 to clean the sample collecting tank 20; And a control box 63 having a display unit 63a for controlling wash water and air sprayed through the nozzle 62 and showing the progress of cleaning of the sample collecting tank 20. At this time, the inlet pipe 61 is positioned in the space partitioned by the plurality of partition walls 27 of the sample collecting tank 20, and the display unit 63a of the control box 60 is operated so as to be operated by the operator A touch screen.

The inlet pipe 61 includes a washing water inlet pipe 61a to which washing water is supplied and an air inlet pipe 61b to which air is supplied and the nozzle 62 is connected to an end of the washing water inlet pipe 61a A washing nozzle 62a for washing the sample collecting tank 20 by injecting washing water into the receiving space 24 of the sample collecting tank 20 and a washing nozzle 62b connected to the end of the air inlet pipe 61b to be connected to the sample collecting tank 20 And an air nozzle 62b for spraying air into the receiving space 24 of the sample collecting tank 20 to clean the sample collecting tank 20. At this time, the cleaning nozzle 62a allows the washing water supplied through the washing water inlet pipe 61a to be injected in a circular shape.

The inlet pipe 61 is connected to the front surface 21c and the rear surface 21d of the sample collecting tank 20 through which the washing water and air are supplied for cleaning the inside of the sample collecting tank 20, And the air inlet pipe 61b is provided so as to pass through the rear surface 21d of the sample collecting tank 20. [

On the other hand, the cleaning nozzle 62a includes an adapter 64 for adjusting the spraying direction of the washing water. The adapter 64 is connected to the end of the washing water inlet pipe 61a so as to be adjustable in a wide angle range, and is configured to be quickly adjustable in direction.

The control box 63 receives commands from the control server 50 and performs control to perform a cleaning operation of the sample collection vessel 20. The control box 63 controls various valves connected to the sample collection vessel 20 So that the washing water and the air are sprayed to the sample collecting tank 20 to clean the sample collecting tank 20. Here, the control box 63 receives an instruction from the control server 50 and the discharge shop, performs an operation, and can be controlled by an operator if necessary. That is, when the operator operates the control box 63, the display unit 63a is touched so that the sample collecting tank 20 can be cleaned.

On the other hand, the sample collecting tank washing apparatus 60 can receive the command from the control server 50 and clean the sample collecting tank 20, and can control the sample collecting tank 20 by controlling it at the discharging shop. At this time, when control is performed at the discharge shop, it is possible to remotely control the sample collecting tank 20 and to clean the sample collecting tank 20 by operating the control box 63 directly There will be.

FIG. 6 is a block diagram showing a sample collection tank cleaning apparatus in the water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG. 7 is a block diagram of a water quality remote control monitoring system according to a preferred embodiment of the present invention. FIG. 8 is a block diagram of a water quality remote control monitoring system according to a preferred embodiment of the present invention in which a cleaning process is controlled through a control box of a sample collection tank cleaning apparatus.

6 to 8, first, the sample information measured by the water quality measuring unit 30 due to the contaminants accumulated in the sample collecting tank 20 is stored in the sample collecting tank 20 If it is determined that the data is abnormal compared with the set sample information, the control server 50 commands the sample collection tank cleaning device 60 to operate. When the operation command is received from the control server 50 through the control box 63 of the sample collection tank cleaning device 60, the cleaning device 60 of the sample collection tank opens the discharge port 23 of the sample collection tank 20 So that the sample accommodated in the receiving space 25 of the sample collecting tank 20 is discharged. At this time, the inlet 22 through which the discharged water (sample) discharged from the outlet is closed is closed and the washing water inlet pipe 61a provided through the rear surface 21d of the sample collecting tank 20 is opened, 62a so as to clean the inside of the sample collecting tank 20. Thereafter, the washing water inlet pipe 61a passing through the rear surface 21d of the sample collecting tank 20 is closed, and the washing water inlet pipe 61a passing through the front surface of the sample collecting tank 50 is opened, So that the inside of the bath 20 is cleaned. The inside of the sample collecting tank 20 is firstly cleaned to open all the washing water inlet pipes 61a provided through the front face 21c and the rear face 21d of the sample collecting tank 20, So that the entire interior of the bath 20 is cleaned. The washing water inlet pipe 61a is closed and the air inlet pipe 61b is opened to blow air through the air nozzle 62b to the sample collecting tank 20 ) So as to complete the cleaning. When the washing is completed, the inlet 22 of the sample collecting tank 20 is opened to allow the discharged water (sample) to flow into the receiving space 24 of the sample collecting tank 20 through the inlet 22.

As described above, in the water quality remote monitoring and monitoring system according to the preferred embodiment of the present invention, when the sample collection tank of the water quality remote control monitoring system for automatically measuring water pollutants is cleaned, the user is allowed to go into the sample collection tank It is possible to increase the reliability with the administrative organs by controlling the operation, and it is possible to promptly determine the abnormality of the water quality data, thereby facilitating cleaning of the sampling tank and improving the efficiency of the operation. That is, the sample collection tank cleaning apparatus can be remotely controlled through any one of the control server and the emission shop, so that the sample collection tank can be cleaned, thereby improving the reliability with the administration institution. If necessary, It is possible to clean the sample collection tank by operating the control box of the sampling tank cleaning apparatus, thereby facilitating cleaning of the sample collection tank and improving the efficiency of the operation.

Particularly, by constituting the sample collecting tank cleaning device, it is possible to more accurately measure the sample accommodated in the accommodating space of the sample collecting tank, thereby eliminating the need for manual cleaning by the operator and improving the efficiency of the operation.

Although the water quality remote monitoring and monitoring system according to the preferred embodiment of the present invention has been described with reference to the above description and drawings, it should be understood that various changes and modifications may be made without departing from the technical scope of the present invention. And modifications may be made by those skilled in the art.

10: Water Quality Remote Management Surveillance System
20: Sample collection tank 21a: one side
21b: other side 21c: front side
21d: rear surface 22: inlet
23: outlet 24: accommodation space
30: water quality measurement unit 40: data collection unit
50: Control server 60: Sampling tank cleaning device
61: inlet piping 61a: washing water inlet piping
61b: air inlet pipe 62: nozzle
62a: Cleaning nozzle 62b: Air nozzle
63: Control Box 64: Adapter

Claims (6)

An inlet port 22 through which the sample discharged from the outlet is formed in the one side surface 21a and a discharge port 23 through which the sample is discharged from the lower surface 21b is formed in a box shape, A sample collection tank (20) having a space (24);
A water quality measuring unit 30 for measuring information of the sample contained in the sample collecting tank 20;
A data collection unit 40 for collecting information of the sample measured from the water quality measurement unit 30 in real time;
A control server 50 for generating and storing sample information transmitted from the data collection unit 40 as average data and real time data and storing the data in a database;
And a sample collecting tank cleaning device (60) for cleaning the sample collecting tank (20)
When the sample information measured by the water quality measuring unit 30 is compared with preset sample information due to the contaminants accumulated in the sample collecting tank 20 and the result is determined to be abnormal data, And the sample collection tank (20) is cleaned by the water quality remote control monitoring system.
The method according to claim 1,
The sample collecting tank cleaning apparatus 60 is provided with an end located on the receiving space 24 through the front surface 21c and the rear surface 21d of the sample collecting tank 20, An inlet pipe (61) for supplying the gas to the reaction chamber;
A nozzle 62 connected to an end of the inlet pipe 61 for spraying washing water and air into the containing space 24 of the sample collecting tank 20 to clean the sample collecting tank 20;
And a control box 63 having a display unit 63a for controlling wash water and air sprayed through the nozzle 62 and for displaying the progress of cleaning the sample collecting tank 20 Water quality remote control monitoring system.
3. The method of claim 2,
The inlet pipe 61 includes a washing water inlet pipe 61a to which washing water is supplied and an air inlet pipe 61b to which air is supplied,
The nozzle 62 is connected to an end of the washing water inlet pipe 61a and injects washing water into the receiving space 24 of the sample collecting tank 20 to clean the sample collecting tank 20 And an air nozzle 62b connected to an end of the air inlet pipe 61b for spraying air into the accommodation space 24 of the sample collecting tank 20 to clean the sample collecting tank 20 Water quality remote monitoring and monitoring system.
The method of claim 3,
Wherein the cleaning nozzle (62a) is circularly sprayed with washing water supplied through the washing water inlet pipe (61).
The method of claim 3,
Wherein the cleaning nozzle (62a) includes an adapter (64) for adjusting the spraying direction of the washing water.
The method according to claim 1,
The control center 50 includes a remote control function, a data collection / analysis / storage function, an automatic measurement data management function, a general status data collection / storage / management function, a forecast / alarm notification function, , And a system failure prevention function.

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