KR101774876B1 - Decision method for repairing arange of water pipe network - Google Patents

Abstract

The present invention relates to a method for selecting a maintenance area in a water pipe network, and more particularly, to a method for selecting a maintenance area in a water pipe network, which allows a user to easily select a unit block to be repaired in accordance with budget, a water flow rate, a degree of aging of a pipeline by dividing a water pipe network into blocks and providing maintenance cost for the unit block to be repaired.

Description

{Decision method for repairing arange of water pipe network}

More particularly, the present invention relates to a method of selecting a maintenance section of a water supply network, more specifically, a water distribution network is divided into blocks, and a maintenance cost for a unit block estimated as a maintenance target candidate is provided. The present invention relates to a method for selecting a repair section of a water supply network,

In the past, water supply was a supply-oriented policy, and research focused on how to supply water to the citizens abundantly. On the other hand, the present water supply system has a policy of quality that is supplied to the citizens Research is underway.

As a result, research has been conducted on T / M (telemetering, telemetering, remote meter reading, and pipe network monitoring) as a method to supply and manage the water to the citizens with optimal quantity, water pressure and water quality. And research is under way to try T / M by various methods.

Generally, tap water used at home is supplied to each household (consumer) through the water source, water treatment plant, and reservoir. At this time, it is very difficult to maintain and manage proper water quality and pipe network through the pipe network which is tangled like a web from the water purification plant to the consumer.

Accordingly, a project is currently underway to block the water supply network in order to optimize management of the water supply network and to improve the water supply rate, which is the ratio of water revenue generated from the water purification plant to the water revenue.

For example, the water pipe blocking project divides the large blocks divided into the water supply and drainage systems of the water purification plant into the middle blocks of 2000 to 5000 water supply sizes, divides the blocks into small blocks of 500 to 1000 water supply sizes, It has the advantage of more systematic and efficient maintenance and management of pipe network through real-time monitoring and analysis of water quantity, water quality, and water pressure by block, which is composed of large, medium, and small blocks of checkerboard.

However, in spite of such a water pipe blocking business, there has been a problem that it is difficult to accurately grasp the point where leakage occurs.

In particular, it is not possible to calculate the maintenance cost required to repair the leak point, and the budget to be allocated is limited, so that it is difficult to determine the repair target point.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide a method and apparatus for dividing a water network into large blocks, medium blocks, small blocks and unit blocks, The present invention provides a method for selecting a repair section of a water supply network that can more accurately grasp a leak point by extracting a unit block showing an abnormal usage pattern by analyzing a time series.

Another object of the present invention is to provide a method and apparatus for repairing a water pipe network which can easily select a repair target unit block according to the budget, And a method for selecting a section.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the present invention provides a method for analyzing a water network, comprising: a block partitioning step of dividing a water network into large blocks, medium blocks, small blocks and unit blocks; A unit block candidate group estimation step of estimating a unit block candidate group to be a target of the divided unit blocks; Calculating a repair cost for each unit block for calculating a repair cost of each unit block for the estimated unit block candidate group; And a repair cost providing step of providing information on the repair cost of the estimated unit block and the mapping information of the block partitioned water supply pipe network together, wherein the repair cost for each unit block includes a pipe length of the unit block, And a maintenance cost of the water distribution network is calculated by multiplying the maintenance cost by the product of the maintenance cost,

In a preferred embodiment, the unit block candidate group estimating step analyzes the flow rate of the inflow flowing into the small block and the used flow rate of the unit blocks constituting the small block in a time-series manner to extract a unit block showing an abnormal usage pattern.

In a preferred embodiment of the present invention, the maintenance cost providing step may include providing a manager interface to which the calculated maintenance cost of the unit block and the block partitioned mapping information of the water pipe network are applied as the augmented reality, The flow rate is expressed, and the water pipe of the unit block estimated to be the maintenance object and the water pipe of the unit block not estimated as the maintenance object are expressed in a compartmentalized manner.

In a preferred embodiment, after the maintenance cost providing step, the maintenance target unit block is selected by reflecting the budget, the water flow rate, the degree of deterioration of the pipeline, and the water pressure in the pipe from the unit block estimated to be the maintenance object using the manager interface step; And providing information on a unit block to a constructor interface applied as an augmented reality, wherein the constructor interface includes a water pipe of a unit block selected as a repair object and a water pipe of a unit block not selected as a maintenance object The pipe pressure, the valve position, the flow rate, the flow direction, and the pipe length are selectively expressed, and the position guidance function of the selected unit block to be repaired is mounted and provided to the constructor's terminal.

The present invention further provides a repair section determining program of a water supply network stored in a medium for performing a method of selecting a repair section of a water supply network utilizing the repair cost of the present invention.

The present invention has the following excellent effects.

According to the method for selecting a repair interval of a water supply network of the present invention, a water distribution network is divided into large blocks, medium blocks, small blocks, and unit blocks, and the flow rate of the inflow into small blocks and the use of unit blocks By analyzing the flow rate in a time series and extracting a unit block showing an abnormal usage pattern, it is possible to grasp the leak point more accurately and save the national budget which is wasted in the leakage exploration service.

In addition, according to the repair section selection method of the present invention, it is possible to provide a repair cost for a unit block estimated as a repair target candidate, thereby improving the maintenance target unit block according to the budget, the oil flow rate, It has an advantage that it can be easily selected.

In addition, according to the method for selecting a repair interval of a water supply network of the present invention, information on a unit block is provided to a constructor interface applied as an augmented reality, thereby improving the accessibility of a unit block to be repaired.

1 is a block diagram showing a method for selecting a repair interval of a water supply network according to an embodiment of the present invention.
FIG. 2 is a block diagram of a water supply network according to an embodiment of the present invention. Referring to FIG.
3 is a view showing an example of a constructor interface provided by a repair interval selection method of a water supply network according to the present invention.

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

1 is a block diagram showing a method for selecting a repair interval of a water supply network according to the present invention.

Referring to FIG. 1, a repair interval selection method of a water supply network according to an embodiment of the present invention is a repair interval selection method that allows a repair target unit block to be easily selected by providing a repair cost for each unit block, First, a step of dividing the water network into blocks is performed (S100).

Referring to FIG. 2, the water network includes a large block A, a small block AA, and a small block ABA. And unit blocks ABAA and ABAB.

For example, the large block (A) is divided into water supply systems of the water purification plant, and the middle blocks (AA, AB) are constituent blocks of the large block (A) Is a constituent block of the above-mentioned middle block (AA), and the unit blocks (ABAA, ABAB) are partitioned into units of water supply with a constituent block of the small block (ABA).

Next, a step of estimating a unit block candidate group to be a target of the divided unit blocks is performed (S200).

In this case, the unit block candidate group estimating step analyzes the flow rate of the inflow flowing into the small blocks and the used flow rates of the unit blocks in a time-wise manner to extract a unit block showing an abnormal usage pattern.

In other words, in the unit block candidate group estimating step, the sum of the inflow flow amount flowing into the small blocks and the used flow rate of the unit blocks is compared, and if the flow rate exceeds the predetermined flow rate, After the analysis, the unit blocks showing an abnormal pattern of the constant usage amount are extracted as the repair target unit block candidates.

This enables accurate identification of leak points and saves the national budget, which is wasted on leakage exploration services for leakage exploration, because the flow rate can be determined for all units.

Next, a step of calculating a repair cost of each unit block is performed for the estimated unit block candidate group (S300).

At this time, the repair cost of the unit block is calculated as a product of a pipe length of the unit block, a work input population, a week, a material cost, and a correction constant.

Next, a step of providing information reflecting the repair cost of the estimated unit block and the mapping information of the block partitioned water pipe network is performed (S400).

At this time, the maintenance cost of the estimated unit block and the mapping information of the water pipe network are provided as an administrator interface applied as an augmented reality.

This makes it possible for the manager (the policy maker or the person in charge of setting the maintenance section of the water supply network) to easily select the unit block to be repaired according to the budget, the oil flow rate, the degree of deterioration of the channel,

Also, the manager interface can be implemented to express the flow direction and flow rate of the water pipe, and the water pipe of the unit block estimated as the object of repair and the water pipe of the unit block that is not estimated as the object to be repaired can be expressed have.

This has the advantage of being more convenient in policy decision making.

For example, the maintenance object can be expressed in different colors by the water pipe of the estimated unit block and the water pipe of the unit block not estimated as the maintenance object. However, it is not limited thereto.

Next, a step of selecting a repair target unit block using the manager interface is performed (S500).

At this time, the repair target unit block may be determined by reflecting budget, flow rate, degree of deterioration of pipe, and water pressure in the pipe.

Next, a step of providing information on the selected unit block to be repaired to the constructor interface applied as the augmented reality is performed (S600).

3 is a view showing an example of a constructor interface according to the present invention.

Referring to FIG. 3, the constructor interface may be expressed by partitioning a water pipe P1 of a unit block selected as a repair object and a water pipe P2 of a unit block not selected as a maintenance object.

In addition, the constructor interface can selectively express information such as the hydraulic pressure in the pipe, the valve position, the flow rate, the flow direction, the pipe length, etc., and the position information function of the selected repair target unit block is mounted, / RTI >

This has the advantage that the contractor can improve the accessibility of the unit block to be repaired and efficiently provide the information on the unit block to be repaired.

In addition, the method for selecting a repair interval of a water supply network according to the present invention is performed by a computer system provided with a repair interval determining program of a water supply network.

That is, the present invention may be provided in the form of a system for determining a repair interval of a computer and a water supply network in which the repair interval determination program of the water supply network is stored.

As described above, according to the present invention, the repair point selection method of the water supply network can grasp the leakage point by unit block, and the repair cost for the unit block is provided, so that the budget, the oil yield, Accordingly, it is possible to easily select a repair target unit block.

Furthermore, since the information on the selected unit block to be repaired can be provided to the constructor while being applied to the augmented reality, the contractor can improve the ease of accessing the unit block to be repaired and improve the efficiency of the work .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

Claims (5)

Wherein the middle block is a building block of the large block and the small block is a building block of the middle block, and the small block is a building block of 500 to 1000 water supply Dividing the unit block into units of water supply as constituent blocks of the small blocks;
Comparing a flow rate of the inflow flowing into the small block with a sum of a flow rate of use in each unit block constituting the small block and checking whether the flow rate according to the comparison result exceeds a preset predetermined value;
Estimating a unit block showing an abnormal pattern as a repair object candidate by analyzing a constant usage amount in each unit block when the water flow rate exceeds the predetermined value;
Estimating each repair cost for a unit block estimated as a repair target candidate;
The management interface is provided with the information reflecting the calculated maintenance cost and the mapping information of the block partitioned water supply network together as an augmented reality. In the manager interface, a water pipe line of a unit block estimated as a maintenance candidate and a water pipe line estimated as a maintenance candidate So that the water pipes of the unit blocks are expressed in different colors; And
The maintenance object is selected by reflecting information on the budget, the water flow rate, the degree of the water pipe age, the water pressure in the pipe, etc. estimated for the unit block estimated as the maintenance target candidates by using the manager interface, To a constructor interface applied as an augmented reality.
delete delete The method according to claim 1,
The constructor interface is configured such that a water pipe of a unit block selected as a repair object and a water pipe of a unit block not selected as a maintenance object are delimited from each other, and the water pressure, valve position, flow rate, And a location guidance function of the selected unit block to be repaired is installed and provided to a terminal of the constructor.
A program for determining a repair interval of a water supply network stored in a medium for performing a repair interval selection method of a water supply network using the maintenance expenses of the above items 1 or 4.

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