KR20190005382A - Remote supervisory unit for water treatment system - Google Patents

Abstract

The present invention relates to a remote monitoring and control system for a water purification treatment apparatus. The remote monitoring and control system can receive various measurement data in accordance with the operation states of water purification treatment apparatus installed in multiple locations to a central management center to quickly check the state of the water purification treatment apparatus. The remote monitoring and control system for the water purification treatment apparatus includes: the water purification treatment apparatus (10) including a membrane filter (11) for separating impurities included in raw water and an elimination unit (12) for eliminating the components included in the raw water passing through the membrane filter (11) such as nitrate nitrogen and fluorine; a measuring means (20) including a pressure gauge (21) installed on the entrance and exit parts of the membrane filter (11), a turbidimeter (22) installed on a side of the pressure gauge (21), a pH meter (23) for measuring the pH of purified water passing through the elimination unit (12), and an electrical conductivity meter (24) measuring the electrical conductivity of purified water passing through the elimination unit (12); an A/D converter (30) which converts the individual analog measurement values from the measuring means (20) to digital values; a local communication means (40) which transmits output values of the A/D converter (30) to the outside and receives external signals; a central communication means (60) installed in the central monitoring center (50) to transmit and receive the signals with the local communication means (40); and the central monitoring center (50) receiving the data through the central communication means (60) and manages the operation states of the water purification treatment apparatus (10).

Description

Remote supervisory unit for water treatment system

The present invention relates to a remote monitoring and control system of a water treatment apparatus that receives various measurement data according to the operation state of a water treatment apparatus installed at a plurality of places and receives a prompt from the central management center to quickly check the state of the water treatment apparatus.

The present invention relates to a remote monitoring and control system for a water treatment apparatus, and more particularly to a remote monitoring and control system for a water treatment apparatus, The present invention relates to a remote monitoring and control system for a water treatment plant.

Most of the water sources used are groundwater, but there is a possibility of water pollution because the depth of the water intake is low and its location is near rice paddies, fields, housing or residential areas. Even if surface water is used, It is difficult to secure a stable operation. This is because the water content exceeds normal bacteria. Colonic bacteria. And nitrate nitrogen account for 72% of the excess. It is very high compared to 0.1% of the regional waterworks and local waterworks. Although it is legally responsible for facility management to the heads of local governments, in reality, there are not enough professional manpower. In order to solve these problems through the strengthening of disinfection, the ministries and municipal governments are conducting water quality inspection, training of the custodian, disinfecting medicine, etc. However, they are not fully utilizing the installed automatic chlorine supply due to lack of expertise, There is a possibility that a carcinogen may be generated due to insufficient dosing. In addition, residents avoid using chlorine disinfectants because of their smell and taste, and in particular, livestock farmers are strongly opposed to chlorine injection because they do not eat chlorine-scented water.

As a result, the government has introduced the "Specialized Maintenance of Shortage of Waterworks" system to create an industry specializing in the maintenance of the simplified waterworks, which has led to periodic management by experts, On the basis of this, it is required to develop a simple water tap water treatment device capable of unmanned operation by process automation.

Although the above items of water quality of the simplified waterworks are mainly bacteria, Escherichia coli and nitrate nitrogen, they are mainly intended to meet the standards through disinfection in Korea. However, disinfection has the problems as described above. In the microorganisms, There is also a 100% safe method can not be seen.

A representative microorganism that is not removed by chlorine disinfection is Cryptosporidium, which occurs several times in many countries including Braun Station in USA in 1984, Carrollton in USA in 1987, Swindon in 1989, Milwaukee in USA in 1993, Have been killed. Thus eliminating microorganisms that are not removed by chlorine disinfection

A membrane-based filtration device has been developed and used.

Membrane is a selective permeable material that acts to separate or concentrate the target substance by passing the solvent through the passage of a specific solute. Since it has a very small pore diameter, microbes such as general bacteria and Escherichia coli can be easily separated . In Japan, after the accident caused by cryptosporidium, a system using membranes was developed and spread to 120 places nationwide as of 1999, and installation of facilities is gradually increasing.

However, even if membrane filtration is introduced, the problem of difficulty in supplying stable water can not be solved unless the specialist manages it.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and its object is to provide a water purification apparatus (hereinafter referred to as " water treatment apparatus " And to provide a remote monitoring and control system of a water treatment apparatus which can efficiently manage the water treatment apparatus.

The manager can recognize the operation state of the water treatment apparatus 10 while checking each data value displayed through the monitor. When an abnormality occurs in the water treatment apparatus 10, The lamp is turned on to notify the driver. At this time, the manager contacts a professional worker so that the trouble of the water treatment apparatus 10 can be corrected.

As described above, according to the present invention, since the operation state of the water treatment apparatus installed in each area can be confirmed at the central management center of the remote site, the trouble of the water treatment apparatus can be processed promptly, It is effective.

In addition, since the present invention can confirm the failure state of the water treatment apparatus installed in each area at the central management center, there is a unique effect that the expert workforce can be efficiently utilized.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of a conventional remote monitoring and control system installed to be connected to a flow meter of a water treatment system.
2 is a view of a conventional remote monitoring and control apparatus installed to be connected to a valve of a water treatment system;

In order to accomplish the above object, a characteristic configuration of the present invention will be described as follows.

The remote monitoring and control system of the present invention includes a membrane separation filtration filter for separating foreign matters contained in raw water and a nitrate removal filter for removing components such as nitrate nitrogen and fluorine contained in purified water passing through the membrane separation filtration filter A water purification device comprising rejection; A pressure gauge provided on the inlet side and the outlet side of the membrane separation filtration filter for measuring the pressure at the inlet side and the outlet side of the membrane separation filtration filter, a turbidity meter provided at one side of the pressure gauge for measuring the turbidity at the inlet side and the outlet side of the membrane separation filtration filter, Measuring means consisting of a pH meter and an electric conductivity meter for measuring the pH and the electric conductivity of the passing limited water through the removing unit; An A / D converter for converting each measured value of the analog form measured by the measuring unit into a digital value; a local communication unit for transmitting an output value of the A / D converter to the outside and receiving an external signal; A central communication means installed in the central management center for transmitting / receiving signals to / from the local communication means, and a central management center for receiving data received through the central communication means and managing the operation state of the water treatment apparatus.

The present invention having such characteristics will be described in detail as follows.

FIG. 1 is a schematic view showing a remote monitoring and control system of a water treatment apparatus according to the present invention, and FIG. 2 is a block diagram showing a remote monitoring and control system of a water treatment apparatus according to the present invention.

As described herein, the present invention is characterized in that the water treatment apparatus (10) for purifying raw water with drinking water is provided with a membrane separation filtration filter (11) for separating foreign matters contained in raw water by a membrane separation method, An ion removing unit 12 for removing ions of nitrate nitrogen, fluorine, etc. contained in the purified water is provided at the rear end of the filter 11. The ion removing unit 12 is provided in the electrodialysis unit or the nano- . A tank 13 for storing the purified water and a chlorine disinfecting device 14 for treating the purified water as chlorine are sequentially installed at the rear end of the ion removing unit 12.

The measuring means 20 for measuring the operating state of the water treatment apparatus 10 is configured to measure the pressure of the raw water flowing into the membrane separation filtration filter 11 and the pressure of the purified water passing through the membrane separation filtration filter 11, A pressure gauge 21 is provided on the inlet side and the outlet side of the membrane separation filtration filter 11 so as to be able to measure the turbidity of the raw water and the purified water on the inlet side and the outlet side of the membrane separation filtration filter 11,

A turbidimeter 22 is installed. A pH meter 23 and an electric conductivity meter 24 are provided at the rear end of the ion removing unit 12 for measuring the pH and electric conductivity of the purified water that has passed through the ion removing unit 12. Further, The A / D converter 30 is connected to the A / D converter 30 and converts the measured analog value into a digital signal. The A / D converter 30 communicates with the central management center 50 A local communication means 40 for transmitting the measured value and receiving the control signal is connected.

A central management center 50 for checking the operation state of the water treatment apparatus 10 is provided at a remote place from the water treatment apparatus 10. The central management center 50 is provided with a local communication means 40, And a central communication means (60) capable of transmitting and receiving data.

The central management center 50 is provided with a display means (not shown) for displaying received data so that the operation status of each water treatment apparatus 10 can be confirmed, A warning light or a lamp may be installed to inform the manager of the abnormal situation.

Hereinafter, the operation state of the present invention will be described in detail.

First, the raw water supplied from the water supply source is passed through the membrane separation filter 11 to remove foreign matter and harmful microorganisms, and then nitrate nitrogen, fluorine, and the like are removed while passing through the ion removing unit 12, And chlorine disinfection may be performed by operating the chlorination device 14 as needed.

The pressure gauge 21 provided on the inlet side and the outlet side of the membrane separation filtration filter 11 when purifying the raw water as described above measures the supply pressure of raw water and the discharge pressure discharged through the membrane separation filtration filter 11, The reason for measuring the supply pressure is that when the supply pressure of the raw water is small, the filtration efficiency of the membrane separation filtration filter 11 is lowered, and when the supply pressure is large, the membrane separation filtration filter 11

So that the efficiency of the membrane filtration filter 11 can be improved. The reason for specifying the discharge pressure is that the discharge pressure is changed in accordance with the amount of the purified water passing through the membrane separation filter 11. That is, when the pore formed in the membrane separation filtration filter 11 becomes clogged, the pressure decreases, so that the exchange cycle of the membrane separation filtration filter 11 can be confirmed.

The turbidimeter 22 installed at the entrance of the membrane separation filtration filter 11 measures the turbidity of the raw water and confirms the state of purified water. To check the integer state of the integer passing through.

The pH meter 23 provided at the rear end of the ion removing unit 12 measures whether or not the purified water is in a usable state. Further, the electric conductivity meter 24 measures the electric conductivity of the purified water to confirm the operation state of the ionizer 12.

As described above, each measured value of the analog form measured by the measuring means 20 is converted into a digital signal by the A / D converter 30 and then transmitted by the local communication means 40.

The data value transmitted from the local communication means 40 is received by the central communication means 60 and the received data value is provided to the manager through the monitor of the central management center 50 so that the manager can confirm the data value will be.

1: Remote monitoring control device 2: Device connection terminal
3: Power line connection terminal 4: Power line communication transmission /
5: Meter drive unit 6: Valve drive unit
7: Microcontroller
8: ON operation button 9: OFF operation button
10: OPEN operation button 11: CLOSE operation button
12: STOP operation button 13: Operation mode setting button
14: Display 15: OK button
16: ON setting indicator 17: OFF setting indicator
18: ON operation indicator 19: OFF operation indicator
20: OPEN setting lamp 21: CLOSE setting lamp
22: STOP setting indicator 23: OPEN operation indicator
24: CLOSE operation indicator 25: STOP operation indicator

Claims (1)

A membrane separation filtration filter 11 for separating foreign matters contained in raw water and a removal unit 12 for removing components such as nitrate nitrogen and fluorine contained in the purified water passed through the membrane separation filtration filter 11 (11) and a filter (11) disposed at the inlet side and the outlet side of the membrane separation filtration filter (11) for measuring the pressure at the inlet side and the outlet side of the membrane separation filtration filter
A turbidimeter 22 provided at one side of the pressure gauge to measure the turbidity at the inlet and the outlet of the membrane separation filtration filter 11 and a turbidity meter 22 for measuring the pH of the purified water passed through the ion removal unit 12, (20) comprising a pH meter (23) for measuring conductivity and an electrical conductivity meter (24); an A / D converter (20) for converting each measured value of the analog form measured by said measuring means A local communication means 40 for transmitting an output value of the A / D converter 30 to the outside and receiving an external signal, a central management center 40 for transmitting / receiving a signal to / from the local communication means 40, And a central management center 50 that receives data received through the central communication unit 60 and manages the operation state of the water treatment apparatus 10. [ Water treatment equipment remote management system.

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