KR101638098B1 - IT based Water pipe automatic flushing apparatus - Google Patents

Abstract

The present invention relates to an automatic flushing apparatus for an IT-based water supply pipe, which is installed on a pipeline of a water supply pipe to measure the quality of water to flush the inside of the low-flow rate pipe, wherein the flushing device comprises: A water quality measurement monitoring unit connected to one side and measuring water quality of the water; A central control unit for analyzing and examining data on measured values measured by the water quality monitoring unit; A communication unit connected to the central control unit and transmitting the extracted measurement data to a central control center; And a water discharge unit connected to the central control unit and discharging the water inside the pipe corresponding to the low flow rate interval to the outside when an abnormality is found in the water quality measurement value. When the water quality measurement value is generated according to the set time or turbidity less than the reference value, the data of the measured value sensed by the central control unit is transmitted to the central control center through the communication unit, and the central control center again transmits the communication unit The flushing device is driven through the central control unit to induce the constant or low-speed flow of the water in the channel of the current low-speed section to the discharge side to flush the water to the outside, thereby causing various damages It is possible to improve the reliability of the constant used as drinking water And provides these unmanned and to improve ease of maintenance of a constant pipeline effect.

Description

[0001] The present invention relates to an IT based water pipe automatic flushing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for monitoring water quality of a constant water and automatically flushing the inside of a channel, and more particularly, to a water quality monitoring and monitoring unit installed in a low- And an automatic flushing unit for analyzing measured water quality data to automatically discharge contaminated constants and a data processing unit for transferring water quality data to a central monitoring unit are integrated into one device to change the installation location if necessary, The present invention relates to an automatic flushing apparatus for an IT-based water supply pipe,

As is well known, tap water refers to the supply of drinking water through a pipeline as a systematic water supply facility whose main purpose is hygiene and digestion.

Therefore, water quality management is required for hygienic management, and water quality management does not end with water quality inspection at a constant production facility, but the damage caused by the osmosis of the pipeline or the disappearance of residual chlorine during the transfer as a consumer, Care must be taken to ensure that the route to the consumer is avoided.

In addition, while the above-described damage frequently occurs at the end of the pipeline or in the flow velocity region (constant-stagnation region), the simple cleaning by the human force and the washing only in the specific region are mainly caused by the complaints In addition to being solved, factors such as rising time and expenses are pointed out.

In order to effectively manage the water quality of the water supply, the water quality measuring device is required. In the prior art, Korean Patent No. 10-0832687 entitled " (Hereinafter, referred to as " Prior Art 2 ") and Japanese Patent Application Laid-Open No. 10-2012-0046363 (entitled " Method for cleaning a water pipe using a flushing valve, hereinafter referred to as Prior Art 2).

In the prior art 1, the internal scale of the water supply pipe, particularly the water discharge pipe and various foreign substances are cleaned with a poly-pig and an acidic cleaning agent, and the corrosion inhibitor is injected to prevent corrosion inside the pipe using the improved launcher The prior art 2 is a technique of completely treating the washing effluent generated after the chlorine disinfection of the inside of the tube with a cyclone principle and a washing water treatment device combining a nonwoven fabric and an ion exchange resin. A valve is installed to normally interrupt the fluid, and when the water pipe needs to be cleaned, a peak is put through the flushing valve to clean the water pipe.

However, in order for the flushing process to be performed as described above, the water is collected and the water quality is determined after various tests are performed.

Korean Patent No. 10-10-1126841 (hereinafter referred to as "total watering apparatus for waterworks, hereinafter referred to as" Prior Art 3 ") is disclosed.

The prior art 3 is installed in the manhole of the water supply pipe network to perform various tasks such as water quality, water leakage, and pressure inspection simultaneously.

A water quality measuring part for measuring the water quality through various sensors through a sampling part for sampling a constant, a communication part for transmitting the measured water quality value through the water quality measuring part, and an alarm part if necessary, If a value is detected, an audible alarm can be sounded.

The above water quality measuring device has been developed only for the purpose of water quality, measurement and monitoring of the water quality, so that when the abnormality occurs in the water quality measurement value, the alarm is raised to an alarming level. It is pointed out that this may be late.

In addition, it is pointed out that it is difficult to accurately determine whether the stationary water quality measuring apparatus is in the region where the end of the pipe in the vast region or the low-velocity region in the low-velocity region.

Considering the characteristics of the water having a high feed rate with high water pressure, prompt response is requested as soon as the problem of the constant is detected. However, considering the above points, the water quality of the water is contaminated or the residual chlorine is lost, It is urgently required to develop a configuration capable of quickly and automatically responding to such a situation.

In addition, considering the installation cost incurred when the entire water quality measuring apparatus is installed in a wide range of water pipe network, it is required to develop a device that can be miniaturized and is easy to install.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a water quality monitoring and monitoring unit installed in a low-velocity section and a congestion section, such as the end of a channel through which a constant- The automatic flushing unit automatically analyzes contaminated constants. The data processing unit transmits the water quality data to the central monitoring unit. The data processing unit changes the installation location if necessary. So that the water quality of the entire constant can be effectively managed.

According to an aspect of the present invention, there is provided a flushing apparatus installed on a pipeline of a water supply pipe to measure the quality of water to thereby flush the inside of the low-

The flushing apparatus includes a water quality measurement monitoring unit connected to one side of a channel through which a constant water flows, A central control unit for analyzing and examining data on measured values measured by the water quality monitoring unit; A communication unit connected to the central control unit and transmitting the extracted measurement data to a central control center; And a water discharge unit connected to the central control unit and discharging the water inside the pipe corresponding to the low flow rate section to the outside when an abnormality is found in the water quality measurement value.

The water quality monitoring and monitoring unit according to the present invention includes first and second electromagnetic inlet valves installed on a branching pipe branching from a pipeline side to control the flow of a constant water and bubbles contained in constants flowing on the branch pipes A turbulence sensor for measuring the turbidity of the air bubbles removed through the bubbling rejection, a rectification part for stabilizing and rectifying the constant flowing through the turbidity sensor, and a residual part included in the constant flowing through the rectification part A residual chlorine sensor for measuring chlorine, and a drain for draining the water passing through the residual chlorine sensor.

A sample inlet pipe for introducing a constant sample to the water quality monitoring and monitoring unit is provided between the conduit and the water quality monitoring and monitoring unit according to the present invention. The sample inlet pipe further includes a proportional control valve and a pressure reducing valve, A turbidity sensor, and a residual chlorine sensor side of the monitoring unit.

The water drainage section according to the present invention includes an open / close valve for controlling the inflow of a constant water from a pipeline, a flow meter for checking the inflow amount of the water, a valve control section for controlling the wash valve and the wash valve for washing the water passing through the flow meter, And a drain port connected to the drain pipe and draining the washed constant water to the outside.

A chlorine removal unit for removing chlorine contained in the water discharged to the discharge port through the cleaning valve is further provided between the cleaning valve and the discharge port according to the present invention.

The communication unit according to the present invention is connected to a regional central control center to receive a command for forcibly discharging a constant at the time of a complaint about water quality and controls the central control unit to flush a constant in the pipeline for a predetermined time through a water- .

The automatic flushing system of the IT based water pipe according to the present invention can measure the water quality on the channel through which the water flows, while detecting the turbidity of the water quality value according to the set time or below the reference value. The data of the measured value is transmitted to the central control center through the communication unit and the central control center again drives the flushing device through the central control unit through the communication unit to stop the constant flow or the low speed flow Is introduced to the water discharge side to flush the water to the outside to prevent various kinds of damage due to deterioration of the water quality, so that the reliability of the water supply water can be improved and the unused water consumption can be maintained Thereby providing an effect of improving manageability.

1 is a schematic view showing a flushing apparatus according to the present invention,
2 and 3 are perspective views showing a flushing apparatus according to the present invention,
FIG. 4 is a front view showing a flushing apparatus according to the present invention, FIG.
5 is a rear view showing the flushing apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

The automatic flushing device for an IT-based water supply pipe according to the present invention is as shown in FIGS. 1 to 5.

A flushing apparatus (100) installed on a pipeline (1) of a water pipe to measure the quality of water to flush the inside of the low flow pipe,

The flushing apparatus 100 includes a water quality measurement monitoring unit 110 connected to one side of a channel 1 through which a constant water flows and measuring water quality of the water; A central control unit 120 for analyzing and examining data on measured values measured by the water quality monitoring unit 100; A communication unit 130 connected to the central control unit 120 and transmitting the extracted measurement data to the central control center A; And a water drainage unit 140 connected to the central control unit 120 and discharging the water inside the channel 1 corresponding to the low flow rate interval to the outside when an abnormality is found in the water quality measurement value.

The water quality monitoring and monitoring unit 110 includes first and second electromagnetic inlet valves 111 and 112 installed on a branching pipe branching from the pipeline 1 to control introduction of a constant water, A turbulence sensor 114 for measuring the turbidity of the constant water from which bubbles have been removed through the bubbling rejection; a turbidity sensor 114 for measuring a constant flowing through the turbidity sensor 114; A residual chlorine sensor 116 for measuring the residual chlorine contained in the constant water flowing through the rectifying section and a drain port 117 for draining the water passing through the residual chlorine sensor 116, .

The bubbler rejection 113 is for measuring water quality of the constant as the turbidity sensor 114 by removing air bubbles included in the constant for accurate water quality measurement.

A sample inlet pipe 118 is provided between the conduit 1 and the water quality monitoring and monitoring unit 110 for introducing a constant sample from the conduit to the water quality monitoring and monitoring unit. A valve V1 and a pressure reducing valve V2 are sequentially connected to the side of the bubble rejection 113, the turbidity sensor 114 and the residual chlorine sensor 116 of the water quality monitoring and monitoring unit 110, So that it can be checked.

The water discharge unit 140 includes an on-off valve 141 for controlling the inflow of a constant water from the pipeline 1, a flow meter 142 for checking the inflow amount of the water, a flush valve A valve control part 144 for controlling the cleaning valve 143, and a water discharge port 145 connected to the cleaning valve 143 to discharge the purified water to the outside.

The valve control unit 144 is provided with various control knobs so that the respective parts can be controlled manually, as well as a display unit in which the measured values by the residual chlorine sensor measurement and the measured values by the turbidity sensor 114 are displayed, respectively.

The chlorine removal unit 146 may further include a chlorine removing unit 146 disposed between the cleaning valve 143 and the deballhouse 145 to remove chlorine contained in the water discharged to the deballhouse through the cleaning valve.

The communication unit 130 is connected to the regional central control center A. The communication unit 130 receives a command for forcibly discharging a constant at the time of complaint about the water quality and controls the central control unit 120 to control the channel 1 ) Is constantly flushed for a certain period of time to constitute the drainage.

The operation of the automatic flushing apparatus of the IT-based water supply pipe constructed as described above will be described as follows.

Tap water (water) is supplied from the water purification plant and flows through the pipeline (1), and the water is widely supplied outside the urban area of the metropolitan area in each region, and water is actively supplied as drinking water.

In contrast to the above, the channel of the water supply pipe or the stationary area of the water supply pipe in the rural area where the water supply frequency of most of the water is low is used as the channel corresponding to the underside of the residual chlorine or the weak channel, 100 to measure the water quality in real time through the water quality monitoring unit 110 of the flushing apparatus 100.

In order to measure the water quality as described above, the water quality monitoring and monitoring unit 110 is connected to the pipeline 1 based on the central control unit 120 of the flushing apparatus, so that the constant is rejected through the first and second electromagnetic valve inflow valves And the bubble rejection 113 measures the degree of suspension of the water quality through the turbidity sensor 114 in a state where bubbles generated due to the pressure difference are removed as much as possible.

In addition, the constant in the state where the turbidity of the constant is measured is stabilized through the rectifying unit 115, the chlorine contained in the constant is measured through the residual chlorine sensor 116 installed on the branch observation side, The water is discharged through the drain port 117.

Here, a measurement is made on a water quality test standard of a turbidity of a constant of 0.5NTU or less and a residual chlorine measurement of 0,1mg / L, and the measurement value is transmitted again to the central control unit 120 to collect turbidity data and residual chlorine measurement data (Concentration) is displayed as a numerical value.

If the occurrence of complaints about the quality of the water is received, the signal transmitted to the communication unit 130 through the central control center A activates the flushing apparatus. In this case, The operation of the apparatus 100 is controlled based on the central control unit 120 to flush the inside of the pipeline 1 in the area.

That is, the improvement of the water quality of the inside of the pipeline 1 in the civil complaint area or the low-velocity section as described above is performed by measuring the real-time water quality through the water quality monitoring and monitoring unit 110.

On the other hand, the constant water flowing into the sample through the sample inlet pipe 118 constituting the flushing apparatus 100 flows into the proportional control valve V1 through the pressure reducing valve V2, Thereby securing a constant flow rate of the water.

The measured values according to the monitoring of the tap water quality in the pipeline 1 are measured by the central control unit A through the central control unit 120 of the flushing apparatus 100, , And if the water quality standard is exceeded, the forced removal command is transmitted.

At this time, the forced drainage can be manually performed by the local administrator through the flushing device, and the drainage unit 140 can be automatically controlled to discharge the forced drainage.

The valve control unit 144 constituting the water discharge unit 140 is controlled to open the on-off valve 141 on the branched pipe branched from the pipe 1 to forcibly discharge the constant in the pipe 1. [ Here, the constant water flowing through the opening / closing valve 1 is measured by the flow meter 142 through the flow meter 142, and the water quantity of the water is discharged by the set time according to the water quality measurement value Respectively.

By flushing the water having a deteriorated water quality as described above, it is possible to remarkably improve the quality of the water flowing through the channel after the water is removed as an effect of cleaning the inside of the channel.

Meanwhile, the water to be subjected to the water-withdrawal treatment is discharged through the washing valve 143 via the flow meter 142. Here, the chlorine contained in the water is supplied to the water- The rejection is made through rejection 146 to be drained.

Therefore, according to the present invention, since the deteriorated water quality constants are manually operated or the flushing apparatus 100 is operated unmanned as described above and the use of the low-velocity section or the constant is slowed down, It is possible to solve the complaints about the water quality by automatically flushing the inside of the water pipe line 1 of the water supply pipe 1. This can improve the ease of facility management due to the maintenance of the water supply pipe and significantly reduce the management labor cost related thereto There is an advantage.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: conduit 100: flushing device
110: water quality monitoring and monitoring unit 111: first electromagnetic inlet valve
112: second electromagnetic inlet valve 113: foaming agent rejection
114 turbidity sensor 115 rectification part
116: Residual chlorine sensor 117: Drain
118: sample inlet pipe 120: central control unit
130: communication unit 140:
141: opening / closing valve 142: flow meter
143: Cleaning valve 144: Valve control part
145: Excreta 146: Chlorine removal
A: Central control center V1: Proportional control valve
V2: Pressure reducing valve

Claims (6)

A flushing apparatus (100) installed on a pipeline (1) of a water pipe to measure the quality of water to flush the inside of the low flow pipe,
The flushing apparatus (100)
A water quality measurement monitoring unit 110 connected to one side of the channel 1 through which the water is circulated to measure water quality of the water;
A central control unit 120 for analyzing and examining data on measured values measured by the water quality monitoring unit 110;
A communication unit 130 connected to the central control unit 120 and transmitting the extracted measurement data to the central control center A;
And a water discharge unit 140 connected to the central control unit 120 and discharging the water in the channel 1 corresponding to the low flow rate interval to the outside when an abnormality is found in the water quality measurement value,
The water quality measurement monitoring unit 110,
First and second electromagnetic valve inflow valves 111 and 112 installed on a branching pipe branching from the conduit 1 for controlling inflow of a constant water,
A bubble rejection unit 113 installed on the branch pipe to remove bubbles contained in the introduced water,
A turbidity sensor 114 for measuring the turbidity of the air bubbles through the foam rejection,
A rectification unit 115 for stabilizing and rectifying the constant flowing through the turbidity sensor 114,
A residual chlorine sensor 116 for measuring the residual chlorine contained in the constant flowing through the rectifying unit,
And a drain port (117) for draining a constant water through the residual chlorine sensor (116)
A sample inlet pipe 118 for introducing a constant sample to the water quality monitoring and monitoring unit is provided between the conduit 1 and the water quality monitoring and monitoring unit 110. The sample inlet pipe 118 is provided with a proportional control valve V1 and a pressure reducing valve V2 are sequentially connected to the foam agent rejection 113, the turbidity sensor 114 and the residual chlorine sensor 116 side of the water quality monitoring and monitoring unit 110,
The water withdrawing part (140)
An open / close valve 141 for controlling the inflow of a constant water from the conduit 1,
A flow meter 142 for checking the inflow amount of the constant,
A flush valve 143 for flushing the water through the flow meter 142 and a flush valve 144 for controlling the flush valve,
And a water discharge port 145 connected to the cleaning valve 143 to discharge the cleaned water to the outside,
The valve control unit (144)
And a display unit for displaying a measurement value by the residual chlorine sensor measurement and a measurement value by the turbidity sensor 114, respectively.
delete delete delete The method according to claim 1,
The automatic flushing system according to claim 1, further comprising a chlorine removal unit (146) disposed between the cleaning valve (143) and the water discharge port (145) for removing chlorine contained in the water discharged to the discharge port through the cleaning valve Device.
The method according to claim 1,
The communication unit 130 is connected to the regional central control center A. The communication unit 130 receives a command for forcibly discharging a constant at the time of complaint about the water quality and controls the central control unit 120 to control the channel 1 ) Is flushing for a certain period of time to drain water.

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