KR100793717B1 - Filter control system for purgation apparatus - Google Patents

Abstract

A system for controlling filter beds of a water treatment apparatus is provided to need no panel control devices for the filter beds, thereby reducing the cost for installing the panel control devices and decreasing the consumption power for operating the panel control devices. A system(200) for controlling filer beds(210-1,210-2,210-n) comprises motor controlling units(220-1,220-2,220-n) and a spot distribution and monitor controlling unit(230). The motor controlling units operate pumps of the filter beds, and valve driving motors for opening and closing valves of the filter beds. The spot distribution and monitor controlling unit outputs a control signal corresponding to a control command transmitted to one of the motor controlling units. The spot distribution and monitor controlling unit receives operation state information from respective filter beds. The spot distribution and monitor controlling unit provides the received operation state information to a mobile terminal device, responding to a request of the mobile terminal device.

Description

Filter control system for water treatment equipment {Filter control system for purgation apparatus}

1 is a view showing the structure of a filter paper control system applied to a conventional water treatment apparatus;

Figure 2 shows the structure of a preferred embodiment of the water treatment apparatus control system according to the present invention,

3 shows a detailed configuration of a filtration device;

4A and 4B are views showing an example of an operation mobile terminal and an on-site adjustment device, respectively, and

5 is a flowchart illustrating a process of performing the filtration and backwashing process by the mobile terminal 250 for operation in the filter paper control system of the water treatment apparatus according to the present invention.

The present invention relates to a filter paper control system of a water treatment device, and more particularly, to a control system for controlling the opening and closing of the electric valve and the pump of the filter paper of the water treatment device.

Water, sewage, or wastewater treatment equipment purifies contaminated water by performing a mild / aggregate process, chemical treatment process, precipitation process, filtration process, and sterilization process. Scum, which is generated during the water purification process and floats on the surface of the raw water, is collected by the wastewater collection at the back washing time, and this filtration process is performed by a filtration device. The operation of the filtration system consists of filtration and back washing. The filtration process involves diffusion, straining, interception, inertia, sedimentation and flocculation in a filter bed filled with suspended solids such as particulates and algae in the water. It is a unit process in which physical and chemical unit operations such as) and adsorption are captured and removed by a complex mechanism that interacts with each other, whereby clean filtered water is discharged.

1 shows a structure of a filter paper control system applied to a conventional water treatment apparatus. Referring to FIG. 1, the conventional filter paper control system 100 includes filtering devices 110-1 to 110-n, panel control devices 120-1 to 120-n, and motor control devices 130-1 to 130-. n), the site distribution monitoring control device 140 and the central adjusting device 150.

Each of the filtering devices 110-1 to 110-n is a device for performing filtration of raw water, and is a filtration process and a backwashing process, which are basic processes performed by the filtration devices 110-1 to 110-n. Raw water supply valves, surface washing valves, backwash valves, backwash water recovery valves, purified water outlet valves, and the like are connected to the filtration devices 110-1 to 110-n. Each panel control device 120-1 to 120-n is connected to each of the filtering devices 110-1 to 110-n, and is a means for receiving a control command from an operator. In addition, each panel control device (120-1 to 120-n) is a field distribution monitoring and control device 140, the operating state of each filter device (110-1 to 110-n), the opening and closing state of the valve, Provides information related to normal operation. Each motor controller 130-1 to 130-n outputs a control signal for controlling the operation of the motor for opening and closing the valve connected to the filtering devices 110-1 to 110-n. In addition, the motor controllers 130-1 to 130-n transmit control signals transmitted from the central controller 150 through the field distribution monitoring and control unit 140 to the respective filtering devices 110-1 to 110-n. It is provided to the panel controllers 120-1 to 120-n connected to each other, and supplies power to each of the panel controllers 120-1 to 120-n.

The conventional filter paper control system 100 having the structure as described above has a panel control device (120-1 to 120-n) and a motor control device (1) to manage each filter device (110-1 to 110-n) There is a problem that the cost of the device increases by installing 130-1 to 130-n) independently. In this case, the panel control device (120-1 to 120-n) is the main cause of the overall cost increase as the manufacturing cost per unit is more than 10 million won. In particular, in the conventional filter paper control system 100, since the panel controllers 120-1 to 120-n are installed in the same space as the filter devices 110-1 to 110-n, the filter paper control system 100 may be used for chlorine gas used in the water purification process. The panel of the control panel 120-1 to 120-n suspicion is corroded, there is a problem that frequent failures and frequent replacement of the device is required.

The technical problem to be achieved by the present invention is to provide a filter paper control system of a water treatment device that can reduce the installation space of the device while reducing the overall manufacturing cost of the device and is easy to maintain.

In order to achieve the above technical problem, the filter paper control system of the water treatment apparatus according to the present invention comprises a plurality of valve driving motor and filter paper for driving opening and closing of the valve constituting the filter paper in response to a control signal input from the outside. A motor control device for driving a pump; And a control target motor controller corresponding to a destination of the received control signal among a plurality of motor controllers connected based on filter paper identification information included in the control signal received from the mobile terminal for operation through a wireless communication network. And outputs the received control signal to the control target motor control device, receives and retains operation state information including a level value and an operation state from each of the connected filter papers, and receives the information received from the operation mobile terminal. And an on-site distribution monitoring and control device for providing the operation mobile terminal with operation state information received from the filter paper corresponding to the filter paper identification information included in the information providing request in response to the providing request.

This can reduce the installation space of the device while reducing the overall manufacturing cost of the device, it is possible to fundamentally block the corrosion of the device due to chlorine gas.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the filter paper control system of the water treatment apparatus according to the present invention.

2 is a view showing the structure of a preferred embodiment of the water treatment apparatus control system according to the present invention.

2, the water treatment apparatus control system 200 according to the present invention, the filtration apparatus (210-1 to 210-n), motor control apparatus (220-1 to 220-n), field distribution monitoring and control device ( 230, a central adjusting device 240, an operation mobile terminal 250, and a field adjusting device 260. In this case, both the operation mobile terminal 250 and the field adjustment device 260 may be provided or any one may be provided.

Each of the filtering devices 210-1 to 210-n is a device for performing filtration of raw water, and is a filtration process and a backwashing process, which are basic processes performed by the filtration devices 210-1 to 210-n. 3 shows a detailed configuration of the filtration device 210-1. Referring to FIG. 3, the filtration apparatus 300 has a plurality of valves connected to a filter structure 310 including a filter medium for filtering raw water. The valve connected to the filtration apparatus 300 is a table valve 320, a raw water supply valve 330, a purified water discharge valve 340, a backwash water supply valve 350, a backwash water recovery valve 360, and the like. Each of the valves 320, 330, 340, 350, and 360 is provided with valve driving motors 322, 332, 342, 352, and 362 to respond to a control signal input from the motor controller 220-1. 320, 330, 340, 350, 360) to adjust the opening and closing degree. In addition, the rear end of the backwash valve 320 and the backwash water supply valve 350 is connected to the backwash pump 324 and the backwash pump 354, respectively, so that the fluid supplied through each valve 320 is above a certain flow rate. It is allowed to enter the filter structure (310).

Furthermore, each filtration device 210-1 through 210-n is equipped with a sensor (not shown) for measuring the water level in the filter structure 310, each valve 320, 330, 340, 350, 360. Monitoring means (not shown) for monitoring information about the open / close state of the valves, the operating states of the respective valve drive motors 322, 332, 342, 352, and 362, and the operating states of the respective pumps 324 and 354. have.

The motor controllers 220-1 to 220-n output control signals for controlling the operation of the motor for opening and closing a valve connected to the corresponding filtering devices 210-1 to 210-n. In addition, the motor controllers 220-1 to 220-n are controlled by the central control unit 240, the operation mobile terminal 250, the field control unit 260, and the like through the field distribution monitoring and control unit 230. A signal is provided to each filtering device 210-1 to 210-n.

On-site distribution monitoring and control device 230 is a motor control device 220- which is connected to the lower control signal input from the central control unit 240, the operation mobile terminal 250, the field adjustment device 260 and the like. 1 to 220-n). To this end, the field distribution monitoring and control device 230 is provided with a wired or wireless communication means. For example, the field distribution monitoring and control device 230 transmits and receives data with the central control unit 240 using a local area network, and transmits and receives data with a mobile terminal 250 for operation using a wireless LAN, field adjustment The device 260 transmits and receives data by RS232 communication. At this time, the field distribution monitoring and control device 230 determines which motor control device 220-1 to 220-n to transfer the control signal based on the filtering device identification information included in the input control signal. To this end, it is necessary to give unique identification information to each filtration device 210-1 to 210-n in advance and manage it. In addition, the field distribution monitoring and control device 230 is a data such as the water level value, the operating state, the opening and closing state of the valve, the operating state of the motor, the operating state of the pump received from each filter device (210-1 to 210-n) It provides to the central control unit 240, the mobile terminal for operation 250, the field adjustment device 260 and the like.

The central control unit 240 is installed in the central control room to control the operation of the entire water treatment device, and monitors the operation state. In particular, in connection with the filtration devices 210-1 through 210-n, the central adjustment unit 240 starts the filtration process and the backwashing process based on the data provided from the respective filtration devices 210-1 through 210-n. And a control signal for controlling the termination, and outputs a control signal according to a command received from an operator of the device, or outputs status information and operation information of each device through a monitor (not shown).

The operation mobile terminal 250 is a wireless device similar to a small PDA. The operation mobile terminal 250 processes a command received from an on-site operator, and communicates with the on-site distribution monitoring and control device 230 through a wireless communication means such as a wireless LAN. The operation mobile terminal 250 provides a control signal corresponding to a command received from an on-site operator to an on-site distribution monitoring and control device 230 through an operation panel provided therein. In addition, the operation mobile terminal 250 requests the provision of data to the field distribution monitoring and control device 230 according to the command received from the field operator and outputs to the output means provided therein. At this time, each filtering device (210-1 to 210-n) is divided by the filtering device identification information. 4A illustrates an example of the operation mobile terminal 250.

The on-site adjustment device 260 has the same function as the operation mobile terminal 250, except that there is a difference in transmitting and receiving data with the on-site distribution monitoring and control device 230 through a wired communication means such as RS232 communication. However, the on-site adjusting device 260 is preferably installed separately from the space in which the filtering devices 210-1 to 210-n are installed, and installed together in the space in which the filtering devices 210-1 to 210-n are installed. In this case, it is preferable to manufacture a box-shaped small panel in which a touch panel is employed to prevent exposure to chlorine gas and moisture. 4B shows an example of the field adjustment device 260.

5 is a flowchart illustrating a process of performing the filtration and backwashing process by the mobile terminal 250 for operation in the filter paper control system of the water treatment apparatus according to the present invention.

Referring to FIG. 5, when the field operator selects a control target filtering device (for example, reference numeral 210-1) to perform a work by using an input means of the operation mobile terminal 250, the operation mobile terminal ( 250 transmits a control signal for requesting the provision of information on the operation state together with the identification information of the control target filtering device 210-1 to the field distribution monitoring and control device 230 through a wireless communication means (S500). On-site distribution monitoring and control device 230 is a mobile terminal for operating data such as the water level value, the operating state, the opening and closing state of the valve, the operating state of the motor, the operating state of the pump provided from the control target filtering device 210-1 ( 250) (S510). The operation mobile terminal 250 outputs the data received from the field distribution monitoring and control device 230 to the output means provided in the self (S520). The field operator may set or change the operation mode, filtration time, backwash time, rinse time, backwash reference water level value, etc. as necessary after viewing the data output to the operation mobile terminal 250. The operation mobile terminal 250 stores a control value including an operation mode, a filtration time, a backwash time, a backwash time, a backwash reference level value, etc. received from an on-site operator in a storage means provided therein, and from the operator. The control signal is transmitted to the field distribution monitoring and control device 230 based on the control value stored in response to the input control command.

If the field operator selects the start of the backwashing process for the control target filtering device 210-1 in a state where the operation mode is set to manual operation (S530), the operation mobile terminal 250 is configured to start backwashing. The control signal is transmitted to the control target filtering device 210-1 through the site distribution monitoring and control device 230 (S540). At this time, the control signal for starting backwashing includes a drive signal for the raw water supply valve driving motor 332 for closing the raw water supply valve 330, and a purified water discharge valve driving motor 342 for closing the purified water discharge valve 340. Drive signal, drive signal for backwash recovery valve drive motor 362 to open backwash recovery valve 360, drive signal for backwash valve drive motor 322 to open top valve 320, table pump ( The driving signal for the 324, the driving signal for the backwash water supply valve driving motor 352 for opening the backwash water supply valve 350, the driving signal for the backwash pump 354, and the like. The operation mobile terminal 250 sequentially or simultaneously transmits one or a plurality of driving signals according to a set value related to backwashing (for example, backwashing time, washing time, waiting time, etc.).

When the backwash time elapses, the operation mobile terminal 250 transmits the control signal for the end of the backwash to the control target filtering device 210-1 through the site distribution monitoring and control device 230 (S550). At this time, the control signal for the end of the back washing includes a drive signal for the washing valve drive motor 322 for closing the washing valve 320, a driving signal for the washing pump 324, the reverse washing water supply valve 350 for closing Drive signal for the washing water supply valve drive motor 352, drive signal for the backwash pump 354, drive signal for the backwash water recovery valve drive motor 362 for closing the backwash water recovery valve 360, and the like. do. When the backwashing process is completed as described above, the operation mobile terminal 250 outputs the state of the control target filtering device 210-1 to the output means and waits for input by the field operator (S560).

If receiving the start of filtering from the field operator, the operation mobile terminal 250 transmits a control signal for backwashing to the control target filtering device 210-1 through the site distribution monitoring and control device 230 (S570). . In this case, the control signal for backwashing includes a driving signal for the raw water supply valve driving motor 332 for opening the raw water supply valve 330, and a driving for the purified water discharge valve driving motor 342 for opening the purified water discharge valve 340. Signal and the like. This filtration initiation can be carried out with the end of the backwashing process without the input of a separate field operator.

In the present invention, the operation of the operation mobile terminal 250 or the field adjustment device 260 related to the control of the filtration device can also be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific preferred embodiments described above, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

According to the filter paper control system of the water treatment apparatus according to the present invention, it is possible to reduce the overall manufacturing cost of the device by removing the panel control device installed corresponding to each filter paper. In addition, by eliminating the panel control device, power consumption corresponding to the amount of power consumed by the panel control device provided in the conventional filter paper control system can be reduced, and the panel is corroded by chlorine gas, which is a problem of the conventional filter paper control system. The need for frequent repairs can be avoided at the source.

Claims (3)

A motor control apparatus for driving a plurality of valve driving motors for driving opening and closing of valves constituting the filter paper and pumps for the filter paper in response to a control signal input from the outside; And After grasping the control target motor control device corresponding to the destination of the received control signal from the plurality of motor control devices connected based on the filter paper identification information included in the control signal received from the mobile terminal for operation through a wireless communication network Outputs the received control signal to the control target motor control device, receives and retains operation state information including a level value and an operation state from each filter paper connected thereto, and provides information received from the mobile terminal for operation. A field distribution monitoring and control device for providing operation status information received from the filter paper corresponding to the filter paper identification information included in the information providing request to the operation mobile terminal in response to the request. Filter Paper Control System. The method of claim 1, The control signal is a drive signal for the raw water supply valve driving motor for opening and closing of the raw water supply valve, a drive signal for the purified water discharge valve driving motor for opening and closing of the purified water discharge valve among the plurality of valves constituting the filter paper, backwash recovery Backwash water recovery valve for opening and closing the valve Drive signal for the drive motor, Drive signal for the top valve driving motor for opening and closing the top valve, Drive signal for the top pump, Backwash water supply valve for opening and closing the backwash water supply valve And at least one of a drive signal for the drive motor and a drive signal for the backwash pump. The method according to claim 1 or 2, The operation mobile terminal stores a control value including at least one of an operation mode, a filtration time, a backwash time, a flush time, and a backwash reference water level value input from an operator in a storage unit provided therein, and inputs it from an operator. And the control signal is transmitted to the field distribution monitoring apparatus based on the stored control value in response to the received control command.

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