KR101226981B1 - Combined sewer overflow system - Google Patents

Abstract

PURPOSE: A remote sewage overflows monitoring control system is provided to improve sewage water quality degradation by solving a sewage amount increase problem. CONSTITUTION: A central monitoring control device monitors and controls a state of an intercepting facility. A remote automatic intercepting control panel automatically and remotely controls a pneumatic slide gate valve. The remote automatic intercepting control panel collects information for a water level of sewage. The pneumatic slide gate valve supplies the sewage to a sewage disposal plant. A water level switch has a plurality of sensors. A plurality of sensor senses the water level of the sewage. [Reference numerals] (AA) Sewage disposal plant; (BB) Internet; (CC) Comprehensive situation room; (DD) Intercepting facility; (EE,GG,II,KK) Valve; (FF,HH,JJ,LL) Water level switch

Description

Sewage Overflow Remote Monitoring and Control System {Combined Sewer Overflow System}

The present invention relates to a sewage overflow remote monitoring control system and a control method thereof, and more particularly, to install a dedicated sewage controller including a pneumatic gate valve for blocking the overflow water operated according to the water level of the sewage facility installed in the sewage pipe, and the sewage treatment plant The present invention relates to a sewage source remote monitoring control system and its control method that can be used as an operation and maintenance data by not only monitoring and controlling through wireless communication in a central control room, but also managing and managing various home related information through a data management server. .

As is well known, road drainage, which includes non-point sources from sewage and wastewater from homes and factories, and from impervious surfaces such as roads and parking lots during rainfall, is discharged through a combined sewage system. The combined sewage system is introduced into the rainwater sewage chamber 100 through the combined sewage sewer 300, as shown in FIG. 6, in the rainwater sedimentary chamber 100, only a certain amount of sewage is discharged to the tea house 200, the sewage treatment plant 400 ), And the rest is discharged to the river.

Problems of such a combined sewage system may be a fundamental structural problem of the combined sewage system, and in particular, it may be largely regarded as a problem occurring in storm soil and untreated sewage.

First of all, the fundamental structural problem in the combined sewage treatment area is water pollution of public water due to the untreated treatment of combined sewer overflows (CSOs) caused by overcapacity of the combined sewage system. As the demands increase, a treatment method is required along with a nonpoint source, and a lot of research is being conducted. The combined sewer has been installed in the exclusion of the river due to the advantage of easy installation of the initial dissemination facility, there are a number of problems for this. For example, problems in domestic storm silos include the occurrence of overdraft accidents in Cheongcheon due to unreasonable tea collection, excessive collection and low concentration of river water during rainy weather, and aesthetic and odor problems due to open structures. In order to solve the current overflow countermeasure technology suitable for the domestic situation, an integrated technology that can solve the problems occurring in the stormwater is needed. In particular, since the characteristics of generation of overflow water have both sides of sewage and rainwater in terms of quality and quantity, it is necessary to develop a technology in consideration of these characteristics.

The combined sewage overflow water shows very high water quality until the onset of rainfall and above a certain rainfall intensity, and the amount of overflow water increases significantly while the water quality is very low, and the boil water quality is equal to rainwater at the end. This is directly related to quantitative rainfall intensity and watershed runoff characteristics. Therefore, the overflow water treatment system transfers the initial overflow water to the sewage treatment plant through a sewage pipe if possible and discharges it to the public water by treating it to the advanced or advanced treatment level. There is a need for a technique capable of processing beyond the level (simple).

On the other hand, most of the storm overflow chambers installed in Korea are installed in the exclusion zone, so that overflow water occurs even at small rainfall intensity, contaminating river water quality, and it is impossible to control the flow rate due to the concentration of sewage during rainy weather. There is a problem. In the case of stormwater installed in the exclusion site, there is a contradiction in which river water flows into the station during flooding. In addition, the existing technology for controlling the flow rate of the collection flow is unreasonable, even if the installation of relatively small structures cost much more to install it than the technology or equipment.

In particular, in the conventional combined sewage system, due to excessive inflow of sewage (i.e. rainwater and sewage) to the riverside in rainy weather, not only the capacity of the public sewage treatment facility becomes excessive, but also the backflow phenomenon occurs in excess of the planned sewage capacity. In addition, the flow of sewage back to the teahouse and manhole near the river in rainy weather occurred, which caused hygiene problems, complaints due to bad smell, etc., and also caused difficulties in the operation of sewage treatment plants due to deteriorated water quality. Due to the incomplete flow control performance of the collection facility (up to 1.0Q hour), there was a problem that the sewage inflow exceeded the sewage treatment facility capacity (0.7Q). Wolbu phenomenon in front of the house, Gwangjeon-dong in front of Renesitte Gakjeon-dong, Gamjeon-dong Main Hall Manwol-wall phenomenon, Gamjeon-dong in front of Hanshin Apartment For example, overcurrent phenomenon.)

In addition, the conventional collection facilities have a mechanical buoy type valve, there is a disadvantage in that the foreign matter adheres to the valve in the rain or long-term use, the valve malfunction or damage occurs, in particular the administrator (or damage) of the valve Because of the unknown, there was a problem of overflowing the sewage, and the manager had to check the site. In addition, after the rainfall of the mechanical buoyancy valve structure, not only artificial work is required, but also sewage remaining in the collecting facility is deposited, deposited, and decayed, causing bad smell and environmental pollution.

[Document 1] Registered Patent Publication No. 10-1080805 (Invention name: Combined sewage pipe overflow water treatment apparatus and method. Date of publication: November 07, 2011) [Patent 2] Registered Patent Publication No. 10-1095835 (Name of invention: Overflow and initial excellent storage / treatment system. Publication date: December 16, 2011) [Document 3] Registered Patent Publication No. 10-0904287 (Name of the invention: sewage overflow water treatment device. Publication date: November 26, 2008) [Patent 4] Registered Patent Publication No. 10-0805877 (Name of the invention: sewage tank overflow water screen device. Announcement date: February 22, 2008)

The present invention has been made to solve the above-mentioned problems, and an object thereof is to provide a sewage overflow remote monitoring control system and a control method thereof for preventing the collection of planned sewage in Cheongcheon and the collection of excessive sewage in rainy weather.

In addition, the present invention solves the problem of increasing the amount of sewage due to the control of inflow sewage during rainwater, sewage overflow remote monitoring control system and control method that can improve the deterioration of sewage quality, and improve the backflow phenomenon of collected sewage The purpose is to provide.

The present invention relates to a sewage overflow monitoring control system comprising a general collection facility installed in each zone, a sewage treatment plant for storing and treating sewage flowing from the collection facility, and a comprehensive situation room managing the state of the collection facility and the sewage treatment plant. A central monitoring control device installed in the sewage treatment plant and a comprehensive situation room and transmitting and receiving data through the Internet, and monitoring and controlling the state of the collection facility, and individually installed at each collection facility and linked to the water level of the collection facility Automatically and remotely control the pneumatic slide gate valve to collect the information on the water level flowing into the collection facility and the remote collection automatic control panel for transmitting the information to the central monitoring control device, and installed in the collection facility and the In accordance with the control signal of the automatic remote control panel, And a level water level switch having a pneumatic slide gate valve for supplying water to the sewage treatment plant, and a plurality of sensors installed at one side of the pneumatic slide gate valve and sensing a level of sewage introduced into the collecting facility. It features.

In addition, the present invention is a method for controlling the sewage of the collection facility in real time using the sewage overflow water monitoring control system, the pneumatic slide gate valve in the case of cheoncheon according to the input of the control signal transmitted from the level switch Fully open, during rainy days, the pneumatic slide gate valve is completely closed with increasing water level, and the pneumatic slide gate valve is completely opened in accordance with the change of the water level after the end of the rainfall.

The sewage overflow water remote monitoring control system and its control method according to an embodiment of the present invention achieves many effects as follows.

Firstly, the present invention provides a remote monitoring and control in the event of the flow rate of sewage flowing into a collecting facility and a malfunction of the valve, so that an administrator can cope with the situation immediately without having to visit the field facility. Due to this, there is an advantage that can significantly reduce the manpower.

Second, in case of rainy weather, it can respond in real time according to the water level and inflow of sewage, and can control the excess inflow due to remote control appropriately, and can also remotely control the inflow in response to the flow rate of the overflowed water and the characteristics of the water quality. There is an advantage.

Thirdly, the present invention can provide a sewage management system basic system, efficiently arrange the operation personnel of the collection facility, and thus reduce the maintenance cost, and also safely and conveniently without any manual operation. It is possible to automatically control the amount of sewage flowing into the collecting facility, which has the advantage of increasing the reliability of the collecting facility.

Fourthly, the present invention can automatically monitor and control the sewage inlet valve in the field and remote places, and it is possible to change the operation level of the valve according to the field situation, as well as malfunction of the valve due to the adhesion and deposition of the float. There is an advantage that can be prevented.

Fifth, the present invention can ensure the proper inflow of sewage according to the control of the inflow of sewage in rainy season, there is an advantage that can be operated systematically and efficiently by database the water level of the sewage flowing into each of the collection facilities.

Sixth, the present invention is a remote control system that can be monitored and controlled in the Internet service area, which is suitable for the domestic communication environment (3G), and can greatly reduce the lease line usage fee in terms of efficiency of operation cost, and also control and monitor aspects. It can prevent the obstacles caused by lightning and surrounding fires, which are the advantages of wireless communication, in addition, there is no non-opening area in the convenience of installation, and there is an advantage that can be freely moved without a communication company's report.

1 is a view showing the configuration of the sewage overflow remote monitoring control system according to an embodiment of the present invention.
Figure 2 is a view showing the configuration of the remote vehicle automatic control panel and pneumatic slide gate valve and level water level switch installed in the vehicle collection facility shown in FIG.
3 is a view showing an operating state of the sewage overflow remote monitoring control system shown in FIG.
4 is a view showing an operation state of the cheoncheon city in the sewage overflow water remote monitoring control system shown in Figs.
FIG. 5 is a view showing an operating state in rainy weather in the sewage overflow water remote monitoring control system shown in FIGS. 1 and 3;
6 is a view showing the configuration of the combined sewage system according to the prior art.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

On the other hand, the term 'M2M' used in the present invention is an abbreviation of Machineto Machine and means communication between machines and communication between a device and a machine in which a person operates without human intervention (or limitedly). By combining IT technology, it means various solutions that can check the status and location information of remote objects, vehicles, and people, etc. The term 'WCDMA' is a wideband code division multiple access. This means possible third generation mobile communications.

In addition, the term 'excellent soil' used in the present invention refers to a facility for collecting a certain amount of sewage in rainy weather in a confluence type sewage system and transporting it to a sewage treatment plant and discharging the remaining sewage into water such as rivers. The term 'is meant to be discharged while being washed by rainwater from a large area, and is emitted from scattered pollutants that do not know exactly where the source is.

Considering the concept of the sewage overflow remote monitoring control system and its control method proposed in the present invention, 1) is a system that is easy to operate by freely connected under the Internet, and 2) receiving input and output signals from the pick-up facilities of each site System; 3) automatic and remote control, monitoring, signal transmission, and information processing analysis; 4) wide-ranging and totalizing management by computer network; 5) operation, maintenance, and maintenance of equipment. 6) It is a system that can reduce manpower, and 6) It is a system that can quickly and accurately take action in case of emergency situation in car collection facility. 7) It is a system that displays failure status and alarm by self-diagnosis function. 8) Sewage overflow remote monitoring control system and its control capable of performing system functions with the function of indicating the location of the faulty chariot To propose a law.

According to an embodiment of the present invention, the configuration of the sewage overflow remote monitoring control system proposed above is shown in FIG. 1. Referring to FIG. 1, a control system to be implemented in the present invention includes a sewage treatment plant including a valve, a water level switch, an RTU, etc., a GB / GWS, Web Server, PES & POS, POS CDMA, and an M2M Gate Way. It is composed of a comprehensive situation room consisting of POS, GWS, VPN, and M2M Gate Way. That is, the control system of the present invention collects the measurement instrument signal and panel internal state to the remote controller, transmits the collected data to a normal communication network (for example, KT communication network) (W-CDMA Packet communication) In addition, it is a system that receives data (TCP / IP communication) through the Internet and delivers the received data to POS through Ethernet.

The sewage overflow remote monitoring control system of the present invention having the above characteristics is freely connected in the Internet environment and receives input and output signals from the collection facilities of each remote station. It is a system that performs automatic and remote monitoring, control, signal transmission, information processing and analysis of efficient facilities by transmitting compressed packets through W-CDMA. In other words, as the management of a computer network becomes more widespread, it is a supervisory control system that can be quickly and accurately in case of emergency as well as reducing manpower in the operation, maintenance, and maintenance of facilities. In particular, the present invention improves accuracy by integrally analyzing sewage collection facilities, and automatically or automatically remotely sealed if necessary by continuously monitoring the water level change in the hourly collection facilities based on the data analyzed in real time. It is an integrated based remote monitoring and control system that operates the valve and enables efficient collection operation.

Hereinafter, this will be described in detail.

As shown in FIG. 1, the sewage overflow water remote monitoring control system of the present invention constitutes a central monitoring control device installed in a sewage treatment plant and a comprehensive situation room, and is equipped with a remote house automatic control panel and a pneumatic type installed in a collection facility installed in each region. It comprises a slide gate valve and a level water switch.

The central control system (POS) is installed in a sewage treatment plant and a general situation room, respectively, and transmits and receives data (TCP / IP communication) through the Internet, collects and processes packets, and is installed in a tea facility. In the event of a malfunction of the facility (specifically, the automatic remote control panel, pneumatic slide gate valve, level switch, etc.), the administrator monitors and controls in real time so that the manager can take immediate action.

A remote station station panel (RSP) is individually installed in each vehicle facility, and converts the measurement value input from the level switch, which will be described later, to safely and stably transmit and receive data to the central monitoring controller. Control the pneumatic slide gate valve installed in the. In other words, in addition to the automatic and remote control of the pneumatic slide gate valve in conjunction with the level of the collection facility, collecting information on the level of sewage flowing into the collection facility, and using the wireless W-CDMA (3G network) Transmission to the above-described central monitoring control device. At this time, the remote house automatic control panel receives the detection signal transmitted from the level switch, and transmits it to the central sensing control device. In addition, the automatic remote control panel can automatically operate the pneumatic slide gate valve in accordance with the remote control of the central monitoring control device, the operator can manually operate the pneumatic slide gate valve by operating the automatic remote control panel.

In addition, the remote house automatic control panel as shown in Figure 2 constitutes a normal power supply and a built-in UPS to ensure a stable operation in the event of power failure, pneumatic pressure for operating the pneumatic slide gate valve to be described later A control unit and a compressor are installed, and a DSU and CDMA communication unit, which is a redundant communication configuration, is installed to enable monitoring and control from a remote location.

On the other hand, as shown in Figures 1 and 2, the remote house automatic control panel is provided with a pneumatic slide gate valve and a level water level switch, respectively. The pneumatic slide gate valve is a gate having excellent corrosion resistance and durability and excellent in watertightness to prevent backflow. In addition, since the pneumatic slide gate valve is a pneumatic cylinder type, it operates not only in the flooded area but also operates as a single-phase power supply with low power consumption, so that the remote control is easy. In particular, the pneumatic slide gate valve is made of a resin or fiber material to implement a light weight, which has the advantage of facilitating the installation and replacement of the operator.

In the present invention, a level water level switch operating in conjunction with the pneumatic slide valve is installed on one side of the pneumatic slide valve, and four sensors are installed according to the water level point (for example, based on 0.5D of the diameter of the collection facility). Produced).

The pneumatic slide gate valve and the level water level switch of the present invention configured as described above are provided by the present inventors on March 3, 2012. Patent Application No. 10-2012-00000 Patent).

The above-mentioned invention solves the problems of the conventional combined sewage system as well as opening and closing the sewage pipe to the vertically moving gate by the power of the pneumatic cylinder, so that the sewage pipe can be precisely opened and closed even when external factors such as ground subsidence are applied. In addition, it proposes a flow control device for the collection facilities to automatically open and close the sewage pipe through the water level sensor.

The pre-filing of the conventional sewage pipe is formed fixed to the side wall of the collecting facility is formed therein constitutes a valve body formed with a flow passage connected to the sewage pipe passage, the upper end of the valve body has a hole formed through the hole, the hole A guide plate for guiding the vertical movement of the gate is installed at the upper end of the gate, and includes a gate that vertically moves up and down by the power of the pneumatic cylinder while being inserted into the hole and opens and closes the flow path of the valve body. In addition, the one side of the valve body is characterized in that the collection device flow rate control device is installed, the first and second water level detection sensor for detecting the sewage and rain water level flowing into the internal chamber of the collecting facility.

As described above, in the present invention, by connecting the remote collection automatic control panel, the pneumatic slide gate valve and the level switch to the collection facility, it is possible to detect and control the inflow of sewage in real time at the site and the remote location where the collection facility is installed. In addition, the operation level of the pneumatic slide gate valve can be arbitrarily manipulated to suit the site situation, and the malfunction of the pneumatic slide gate valve due to the adhesion and deposition of the suspended matter can be prevented. In particular, it is possible to control the flow rate of sewage from rainwater collection facilities in rainy season to ensure proper inflow of sewage, and to systematically operate the inflow water level for each collection facility as a database.

Meanwhile, in the present invention, the car collecting facility, the sewage treatment plant, and the general situation room transmit data in real time and apply the M2M solution for remote monitoring and control, which can prevent the occurrence of obstacles caused by lightning or surrounding fires and also the service area. It is easy to install and has the advantage of easy installation.

Hereinafter, an operation state of the sewage overflow water remote monitoring control system of the present invention configured as described above will be described in detail with reference to FIGS. 3 to 5.

3 is a view showing the operation scenario (operational summary of the water level) of the collection facility, the pneumatic slide gate valve is completely opened in Cheongcheon, the pneumatic slide gate valve is completely closed in case of rain, the rainfall is finished Afterwards, the pneumatic slide gate valve is fully opened according to the change of the water level.

In other words, the automatic remote control panel installed in the vehicle collection facility accurately measures basic data for stable operation of the vehicle collection facility, and then transmits it to the central monitoring controller installed in the sewage treatment plant and the general situation room by wireless communication method. In FIG. 3, the operation is performed as in the case of the self-healing and rain programming.

Specifically, as shown in Figs. 3 and 4, the sensor (L: located at the center of the pneumatic slide gate valve) of the level water level switch installed in the vehicle installation is detected at the time of cheoncheon, wherein the pneumatic slide gate valve is It is fully opened by the central monitoring control unit and remote control panel.

3 and 5, when the sensor H of the level switch is detected in rainy weather (continuous rainfall), the detection signal detected from the sensor H is monitored by the remote control panel and the central monitoring. The central monitoring control unit transmits a control signal (that is, a control signal for closing the pneumatic slide gate valve) to the remote vehicle collecting control panel in response to the detection signal. The control panel completely closes the pneumatic slide gate valve. At this time, when the sensor (HH) of the level water level switch is detected due to the continuous rainfall, the signal detected from the sensor (HH) is transmitted to the remote house automatic control panel and the central monitoring control device, accordingly to the sewage treatment plant and the comprehensive situation room An alert is generated to alert you of an emergency.

After that, if the rainfall decreases to some extent, the sewage volume of the tea collection facility gradually decreases. Then, when the sewage falls from the sensor (HH) point of the level switch to the sensor (H) point, the sensor (H) automatically detects the detection signal. The central sensing control device transmits a control signal (ie, a control signal for opening the pneumatic slide gate valve) to the remote house automatic control panel, and the remote house automatic control panel. Opens the pneumatic slide gate valve for 30 seconds and then closes.

Next, when the rainfall is finished, the water level of the sewage in the collecting facility is gradually reduced, and thus, when the sensor (L) of the level switch is detected, the detection signal of the sensor (L) is the remote house automatic control panel and the central monitoring control device. The central monitoring controller receives the detection signal and transmits a control signal (ie, a control signal for opening the pneumatic slide gate valve) to the remote vehicle control panel, and the remote vehicle control panel controls the pneumatic slide gate valve. It is fully open.

On the other hand, the operation as described above (specifically, the operation of opening and closing the pneumatic slide gate valve) is remotely monitored and controlled by the central monitoring control unit installed in the sewage treatment plant or the general situation room. It is possible to arbitrarily control the opening and closing operation of the pneumatic slide gate valve in the remote vehicle collecting control panel.

The sewage overflow remote monitoring control system according to the present invention can be applied not only to a sewage treatment plant connected to a hitch facility but also to various application systems through a program, for example, associated drainage, reservoir level monitoring, and block flow rate / pressure gauge. , Sewer pipe flow rate, village constant, manhole pumping station supervision and control. It can be applied to relay pump station, street light control, simple sewage treatment plant, ATM, and hydrological monitoring.

That is, it is possible to control the street lamp control and ATM by directly connecting the field controller and the center system without the protocol conversion of the present invention, and also the block pressure and sewage conduit when the measurement value is directly input from the instrument without a controller (MPU) in the field. The flow rate, manhole state, etc. can be monitored.

Claims (2)

In the sewage overflow monitoring control system composed of a general collection facility installed in each zone, a sewage treatment plant for storing and treating the sewage flowing from the collection facility, and a comprehensive situation room that manages the state of the collection facility and the sewage treatment plant,
A central monitoring control device installed in the sewage treatment plant and a comprehensive situation room, for transmitting and receiving data through the Internet and monitoring and controlling the state of the collection facility;
It is installed in each collection facility separately, and automatically and remotely control the pneumatic slide gate valve in conjunction with the water collection level of the collection facility, and collects information on the water level of the sewage flowing into the collection facility to the central monitoring controller A remote house automatic control panel for transmitting;
A pneumatic slide gate valve installed inside the collecting facility and supplying sewage to the sewage treatment plant while performing an opening / closing operation according to a control signal of the remote collecting automatic control panel;
It is installed on one side of the pneumatic slide gate valve, and includes a level water level switch having a plurality of sensors for detecting the water level of the sewage flowing into the collecting facility,
The pneumatic slide gate valve,
When the water level is detected by the H sensor mounted at a position higher than the L sensor after the water level is detected by the L sensor of the plurality of sensors,
If the water level is detected by the H sensor after the water level is detected by the HH sensor mounted at a position higher than the H sensor, the water level is temporarily opened and closed only for a predetermined time.
If the water level is detected again by the L sensor after the water level is detected by the H sensor again, it is opened,
The pneumatic slide gate valve is made of a resin or fiber material,
The pneumatic slide gate valve,
A valve body fixed to the side wall of the collecting facility and having a flow passage therein connected to the sewage pipe passage;
A gate for vertically moving up and down by the power of a pneumatic cylinder to open or close the flow path to open or close the pneumatic slide gate valve; And
A guide plate for guiding the vertical movement of the gate,
The upper end of the valve body is formed with a hole passing through the valve body, the sewage overflow monitoring control system characterized in that the vertical movement by the power of the pneumatic cylinder in the state fitted to the hole.

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