KR101051183B1 - Filter basin monitering and control system of water treatment plant by using smart process operation terminal - Google Patents

Abstract

PURPOSE: A filter basin monitoring and control system of a water treatment plant using a SPOT(Smart Process Operation Terminal) is provided to simplify data transmission between valve facilities and a SPOT by employing Profibus or C.C-Link method and improve data back-up function by storing data collected from a filter basin site in the SPOT. CONSTITUTION: A filter basin monitoring and control system of a water treatment plant using a SPOT comprises a monitoring and control unit(100) which is located in a central control room to monitor and control data signals including water quality data, sensor data, and facility opening and closing state signal data, a video monitoring unit(200) which receives and displays video signals, and an optical ring switch(300) which switches the video signals and general data signals.

Description

Technical Field [0001] The present invention relates to a filter control monitoring system for a water treatment plant,

The present invention relates to a filter paper monitoring and control system. The filter paper is provided with a variety of valves such as an inlet valve, a drain valve and a reverse water wash valve, and a plurality of motors for driving the valve are installed. The filter paper performs the process of effectively filtering the raw water introduced from the sedimentation paper by using a plurality of valves and motors installed as described above. Therefore, it is necessary to monitor and control the on-off states of the inlet valve, the outlet valve, the drain valve, the back-flow valve, the start-up waterproof valve, and the air valve provided for each filter paper as described above. The present invention also relates to monitoring and controlling remotely efficiently and cost-effectively with a large number of valves and motors in the filter paper.

The conventional technology related to the monitoring and control system of the filter paper facility is as shown in Fig. In FIG. 1, the monitoring and control system of a conventional filter paper facility collects and monitors the opening and closing of an inflow valve, a reverse water wash valve, a start waterproof valve, and the like in the field operation panels 40 and 41, And controls and controls the opening and closing of the filter paper inflow valve 50, the water purification valve and the reverse water wash valve 51 by remote control using the main control device 30, And the control information are transmitted to the supervisory control unit 10 of the central control room, which is an upper system, and are collectively monitored in the central control room.

The monitoring and control system of the conventional filter paper facilities as described above allows the operator to check the opening and closing of the electric inlet valve, the outlet valve, the drainage valve, the backwash valve, the air valve and the starting waterproof valve of the filter paper from various sensors such as turbid The data collected, etc. can be displayed, monitored and controlled. However, in the field of filter paper, the worker can check the open / close state and the water quality and process variable of the electric inlet valve, the outlet valve, the discharge valve, the start waterproof valve, Loss head, water level), etc., and there is a problem that one valve operation can not be performed while visually checking filter paper and other valve conditions in the field. Also, in the conventional filter paper facility monitoring and control system, a surveillance control and operation cable are installed from various sensors such as a plurality of valves and turbidimeters to a field operation panel to transmit signals and operate the equipment, and a main control unit is provided in the electrical room, It is possible to monitor and control the filter paper facility by receiving and converting the field panel data from the device and then transmitting the data to the field and central control room. Therefore, many loops of control lines for monitoring and controlling various facilities in the field are complicated It is necessary to reduce the reliability of the signal and data due to the line noise, the contact failure, the deterioration and damage of the control cable, and the overhead cost incurred by the initial cable installation is excessively increased.

In order to solve the problems of the conventional filter paper monitoring and control apparatus, the filter paper monitoring and control system of the present invention includes a display unit / touch input unit, a memory unit, a camera, a network transmission unit, (SPOT), which consists of an operation terminal and a fiber optic switch relaying a fiber optic network, and various sensors such as an inflow valve, an outflow valve, a withdrawal valve, an air valve, (PROFIBUS) or a CC-Link method to simplify the communication of the complex solid line to solve the problem of the conventional method, and to attach a dome camera for field surveillance to the camera image By visualizing the filter paper process by exposing the information to the spot On the one hand, monitoring data from various sensors such as inflow, outflow, withdrawal valves, air valves, backwash valves and starter valves, and data from various sensors, such as turbidimeters, So as to be able to carry out the present invention.

The filter plant monitoring and control system of the present invention having the above-described structure can monitor the filter paper process, various valve conditions and collected data on the spot screen, and also can control the various valves directly on the touch screen of the spot There is an effect. In addition, by configuring Profibus or CC-Link method for data transmission to various valve facilities and spots on the filter paper site, complicated solid line control can be made simple and dedicated communication, The reliability of the signal is lowered, and the installation cost due to the cable installation is excessively large. In addition, the present invention can be monitored and controlled in the event of a central control system accident, and also the data backup function can be supplemented by storing the data collected at the filtering site in the spot.

1 is a block diagram of a conventional filter paper monitoring and control system,
2 is a configuration diagram of a filter paper monitoring and control system using a spot (SPOT) according to the first embodiment of the present invention,
3 is a configuration diagram of a filter paper monitoring and control system using a spot (SPOT) according to a second embodiment of the present invention,
4 is a block diagram of a remote monitoring and controlling apparatus applied to the present invention;
5 is a diagram showing a spot configuration applied to the filter paper monitoring and control apparatus according to the first embodiment of the present invention,
Fig. 6 is a diagram of a spot configuration applied to the filter paper monitoring and control apparatus according to the second embodiment of the present invention.

In order to accomplish the above object, the present invention will be described with reference to FIGS. 2 to 6. FIG. FIG. 2 is an overall configuration diagram of a filter paper monitoring and control system using a spot according to the first embodiment of the present invention. 2, the filter monitoring / control system includes a monitoring control unit 100 located in the central control room and monitoring and controlling data signals such as water quality data, various sensor data, equipment opening / closing status signal data, A light sensing switch 300 for switching the video signal and the general data signal, and an inlet valve 710, an outlet valve 720, a transfer valve installed for each filter paper, Turbidity data such as an open / close state data or a turbidity meter (not shown) is received from the communication unit 580 through a water wash valve 730, a water withdrawing valve (not shown), an air valve (not shown) and a start waterproof valve Receives the dome camera image data and the like installed in the filtering paper process, converts the received dome camera image data, and transmits the converted dome camera image data to the spot 610 located in the field for each filter paper through the optical fiber network 400, And a remote monitoring and control unit 500 for monitoring and transmitting to the monitoring control unit 100 and the video monitoring unit 200 located in the central control room via the optical ring network 400. [ The opening and closing of the inlet valve 710, the outlet valve 720, the backwash water valve 730, the drain valve, the air valve, the start-up water-proof valve, and the turbidimeter are examples of the filter paper, The opening / closing state of the inflow valve, the outflow valve, the backwash valve, the withdrawal valve, the air valve, the backwash water valve, the control or turbidity of the valve, and the process monitoring signal data by each filter paper can be controlled by PROFIBUS or CC- It is possible to greatly reduce the construction cost compared to the conventional case using a plurality of actual wires by transmitting and receiving signals to and from the monitoring control device 500. In the ring optical network, It is possible to secure the stability of the apparatus. In addition, the spot and dome cameras are installed per filter paper, and many filter paper are controlled and managed according to the time table.

3 is a configuration diagram of a filter paper monitoring and control system using a spot according to a second embodiment of the present invention. 3, the filter monitoring and control system using a spot according to the second embodiment of the present invention includes a dome camera 910 connected to a spot 610 installed for each filter paper, an inlet valve 710 for each filter paper, The valve 720, the backwash water valve 730, the drain valve, the air valve, the opening / closing state data of the starting watertight valve, and the turbidimeter signal data through the communication unit 628, A spot 610 for controlling the opening and closing of the spots 610 and the data stored in the spot through the optical ring network 400 and then through the optical ring network 400 to the monitoring control unit 100 and the video monitoring unit 200 to monitor and control the remote monitoring and controlling apparatus 500. In the central control room, a monitoring control unit 200 for receiving and monitoring a data signal, and an image monitoring unit 200 for receiving and displaying a video signal are disposed. The optical sensing switch 300 receives a video signal, The data signal is switched so that the video signal is transmitted to the video monitoring unit, and the data signal is transmitted to the monitoring control unit. 2, the dome camera 920, the inflow valve 810, the outflow valve 820, the backwash water valve 830, the discharge valve, the air valve, the start-up waterproof valve, And that the various valves and turbidimeters as described above are installed and controlled on a per paper basis. In addition, turbidity data of the inlet valve, outlet valve, backwash valve, drainage valve, air valve and start / stop valve of each filter paper, transmission / reception of control signal, turbidity data of the turbidity meter are installed in PROFIBUS (880, 890) Link communication method, it is more reliable than the data transmission by real wiring, and it is advantageous in that the cost of construction is low, and the spot process can be confirmed on the spot by using the spot. In addition, the open / closed state data of various valves and the turbidity data of the turbidimeter can be confirmed from the spot, and the administrator can check the turbidity data of the inflow valve, the outflow valve, the backwash water valve, Air valves, start-up water-proof valves, and the like. Also, the remote monitoring apparatus 500 may further include an inflow valve, an outflow valve, a reverse water wash valve, a water withdrawal valve, and a flow control valve based on various sensor data such as turbidity of the turbidimeter and the various valve state data received through the optical ring network 400, Valves, air valves, and start-up water-proof valves, which complement the back-up function of spot-on-site spots.

4 is a detailed configuration diagram of a remote monitoring and control apparatus applied to the present invention and generally disposed in a electric room. 4, a remote monitoring and control apparatus 500 according to the present invention includes a fiber optic switch 510 for converting an Ethernet signal from a network transmission unit 520 into an optical signal and transmitting the optical signal to a fiber optic network 400, An image monitoring and displaying unit 550 for displaying the image signal received from the optical ring switch 510 under the control of the main controller 530, A surveillance control display unit 540 for displaying surveillance control signals received from the fiber optic switch 510 under the control of the main controller 530 and a control unit 530 for controlling the inflow, outflow, backwash, A communication unit 580 for receiving the opening / closing state data of the start / stop waterproof valve, the video signal relating to the process of the dome camera, and the turbidity data of the turbidimeter, an input / output unit 570 for inputting and displaying the requirements of the manager, An input / output unit, a video surveillance display unit, and a surveillance / display unit 520. The memory unit 560 stores the data received from the bridge unit 580 and the stored data of the memory unit through the network transfer unit 520, And a main controller 530 for controlling the control display unit. The remote monitoring and control apparatus configured as described above is capable of displaying the opening / closing state data of the inflow valve, the inflow valve, the backwash water valve, the withdrawal valve, the air valve, the starting watertight valve, the image signal concerning the process of the dome camera, And receives control signals from the central control room or control commands of the administrator through the input / output unit 570 to transmit the control signals to the central control room and the filter paper by the filtering unit through the communication network, , An outflow valve, a backwash water valve, a drain valve, an air valve, and a starter / waterproof valve. The communication unit 580 of the remote monitoring and control apparatus is configured in the case of the first embodiment of the present invention. In the second embodiment of the present invention, the inlet valve, the outlet valve, the reverse water wash valve, the water discharge valve, The opening / closing state data of the waterproof valve, the video signal relating to the process of the dome camera, and the turbidity data of the turbidimeter are directly received as a spot by filter paper.

5 is a detailed configuration diagram of a spot applied to the first embodiment of the present invention. 5, the optical ring switch 611 converts an Ethernet signal of the network transmission unit 612 into light and transmits the optical signal to the optical ring network 400. The optical ring network 400 has a ring structure, The data is transmitted in the opposite direction of the disconnection portion even when the disconnection occurs, which is excellent in stability. In addition, the network transmission unit 612 converts the data of the main control unit 613 into an Ethernet signal, and the memory unit 615 controls the control signal transmitted from the central control room or the remote monitoring control unit to the spot, Touch input unit 614 receives and stores data such as a valve, an outflow valve, a backwash water valve, a drain valve, an air valve, a start-up waterproof valve and a turbidimeter through the optical ring network 400, , The opening / closing state data of the outflow valve, the backwash water valve, the withdrawal valve, the air valve and the starting waterproof valve, the turbidity data of the turbidimeter, the image information of the dome camera, and the like. Also, the main controller 613 may be configured to display the opening / closing state data of the inflow valve, the outflow valve, the backwash water valve, the withdrawal valve, the air valve, and the starting watertight valve or the turbidity data of the turbidimeter received from the remote monitoring / Touch input unit 614 to control the manager to check the operating state data or turbidity data of the on-off valves at the filter paper field, To be able to take action.

6 is a detailed configuration diagram of a spot applied to the filter paper according to the second embodiment of the present invention. 6, the fiber optic switch 621 converts an Ethernet signal of the network transmitters 623 and 629 into optical signals and transmits the optical signals to the optical fiber network. The optical fiber network has a ring structure, And the data is transmitted in the opposite direction of the part. The network transmission unit 623 is a device for converting the data of the main control unit 624 into an Ethernet signal. The camera 910 is a device for photographing a filtering paper process. The video signal of the camera is transmitted to another network transmission unit 629 And is transmitted to the fiber optic switch 621. The fiber optic switch 621 converts the Ethernet signal into an Ethernet signal. The memory unit 626 stores data such as an inflow valve, an outflow valve, a backwash valve, a withdrawal valve, an air valve, a start-up watertightness valve open state data and a turbidimeter received through the communication unit 628. The display unit / The touch input unit 625 displays the opening / closing state data of the inflow valve, the inflow valve, the backwash water valve, the withdrawal valve, the air valve and the starting watertight valve or the turbidity data of the turbidimeter, the image information of the dome camera, You can enter the same administrator's requirements. The main control unit 624 also outputs the opening / closing state data of the inlet valve, the outlet valve, the backwash water valve, the drain valve, the air valve, and the starting watertight valve received from the communication unit 628 or the turbidity data of the turbidity meter, Touching input unit 625 and controls the display unit / touch input unit 625 to display an input valve, an outflow valve, a backwash water valve, a drain valve, an air valve, and a start A waterproof valve, and the like, and controls the data stored in the memory unit 626 to be transmitted to the central control room through the optical transmission network via the network transmission unit 623. The present invention having the above-described structure enables an administrator to observe and control the state of the filter paper in real time on the filter paper in the field, and can quickly respond to the filter paper even in case of failure of the entire monitoring control network, will be.

10: Monitoring control section, 20: E-net,
30: main control device, 40: scene control panel,
100: monitoring control unit, 200: video monitoring unit,
300, 510, 611: fiber optic switch, 400: fiber optic network,
500: remote monitoring apparatus, 520, 612: network transmission unit,
530, 613: main control unit, 540: surveillance control display unit,
550: video surveillance display unit, 580: communication unit,
610, 620: spot, 614: display / touch input unit
710, 810: inlet valve, 720, 820: outlet valve,
730, 830: Reverse water wash valve, 880, 890: PROFIBUS
910 and 920: a dome camera,

Claims (8)

delete 1. A filter paper monitoring and control system installed in a water treatment plant,
A monitoring control unit 200 located in the central control room and monitoring, controlling and receiving the water quality data, the process variable, and the facility open / close status signal data;
An image monitoring unit 200 for receiving and displaying a video signal;
A fiber optic switch 300 for switching the video signal and the data signal;
A fiber optic switch 611 that is provided for each filter paper and converts the Ethernet signals of the network transmitters 612 and 616 to light and transmits the converted optical signals to the optical ring network 400; A control signal transmitted from the central control room or the remote monitoring and controlling apparatus 500, an inlet valve, an outlet valve, a backwash water valve, a starting waterproof valve, a drain valve, an air valve and a turbidimeter A memory unit 615 for receiving and storing various sensor data signals through the optical ring network 400 and a memory 615 for storing the open / closed state data of the inflow valve, the outflow valve, the reverse water wash valve, the withdrawal valve, A display unit / touch input unit for displaying turbidity data, image information of a dome camera and inputting an administrator's requirements, and a remote control / The opening / closing state data of the inlet valve, the outlet valve, the backwash water valve, the drain valve, the air valve, and the starting watertight valve, and the turbidity data signal of the turbidimeter are stored in the memory unit 615, A spot comprising a main controller 613 for controlling to display on the input unit 614;
A fiber optic network for transmitting and receiving data between the spot, the fiber optic switch 300 and the remote monitoring and control apparatus;
And sensor data such as an intake valve 710, an outlet valve 720, a backwash water valve 730, a drain valve, an air valve and an opening / closing state data of a starter / waterproof valve, and a turbidimeter are received Receiving the dome camera image data installed in the filter paper process, converting the received dome camera image data to the spot located in the field by filter paper through the optical fiber network 400, (100) and the image monitoring unit (200) and monitoring the remote monitoring and controlling device (500).
3. The method of claim 2,
The data transmission / reception between the inlet valve 710, the outlet valve 720, the backwash water valve 730, the drain valve, the air valve, the start-up watertight valve and the turbidimeter and the remote monitoring and controlling device 500,
Wherein the water treatment plant filter monitoring and control system supports a probe bus or a CC-link communication system.
The method of claim 3,
The fiber-
Ring structure of the filter paper.
delete 1. A filter paper monitoring and control system installed in a water treatment plant,
A monitoring control unit 100 located in the central control room and monitoring, controlling and receiving the water quality data and the facility open / close status signal data;
An image monitoring unit 200 for receiving and displaying a video signal;
A fiber optic switch 300 for switching the video signal and the data signal;
A fiber optic switch 621 that is provided for each filter paper and converts the Ethernet signal of the network transmission unit 623 into light and transmits the optical signal to the optical ring network 400; A camera 910 for photographing the filter paper process, another network transmission unit 629 for transmitting the video signal of the camera to the optical ring switch 621, an inlet valve for each filter paper, A communication section 628 for transmitting and receiving data such as an outflow valve, a backwash water valve, a drain valve, an air valve, a start-up waterproof valve state data and a turbidimeter; A memory part 626 for storing the start-up and waterproofing valve state data and turbidimeter data, and a control part 626 for controlling the opening and closing date of the inflow valve, the outflow valve, the reverse water wash valve, the withdrawal valve, A display unit / touch input unit 625 for displaying turbidity data of the turbidimeter, image information of the dome camera and inputting the requirements of the administrator, and a display unit / touch input unit 625 for displaying the received inflow, outflow, And the turbidity data of the turbidimeter are stored in the memory unit 626 and displayed on the display unit / touch input unit 625, and the inlet valve, the outflow valve, And a main control device (624) for controlling the opening and closing of the valve, the backwash water valve, the water discharge valve, the air valve, and the starting waterproof valve;
A fiber optic network for transmitting and receiving data between the spot, the fiber optic switch 300 and the remote monitoring and control apparatus;
The opening and closing state data of the inflow valve 710, the outflow valve 720, the reverse water wash valve 730, the withdrawal valve, the air valve, and the start-up watertight valve from the spot located in the field by filter paper through the optical ring network 400, The turbidity data of the turbidimeter and the video signal of the dome camera, and displays and displays the turbidity data and the video signal of the dome camera. The control signal of the manager controls the flow of the turbine 710, the outflow valve 720, the backwash water valve 730, And a remote monitoring and controlling device (500) for controlling the opening and closing of the waterproof valve.
The method according to claim 6,
The data transmission / reception between the inlet valve 710, the outlet valve 720, the backwash water valve 730, the water discharge valve, the air valve, the starting waterproof valve,
Wherein the water treatment plant filter monitoring and control system supports a PROFIBUS or CC-LINK communication system.
8. The method of claim 7,
The fiber-
Ring structure of the filter paper.

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