KR101747649B1 - The system for making and managing a block structure of water supply facilities using sdi system - Google Patents

Abstract

According to the present invention, it is possible to easily design a block diagram on an operator interface by linking an operator interface and a database, and block attribute information is stored for each block object in a block database according to the designed block diagram, The present invention relates to a block system management system that automatically reflects block changes that can construct an optimal block system of a water supply network through history management of a block system. The block system management system comprises: an operator interface unit for showing a water network block system as a block diagram; A basic data base for collecting actual data and storing the data for the basic blocks in a time-wise manner; A block database for reconstructing data of the basic data database according to block information and block codes according to a block system shown in a block diagram shown by the operator interface unit as needed and storing related data; A block generator for generating new block information and a block code when a block is changed or a new block is generated on the operator interface unit and generating and storing data for the block in the block database; And a consistency determination unit for determining a required item of the new block generated by the block generation unit and determining the consistency and the error.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water system block generation and management system using SDI (Structure Design Interface)

More particularly, the present invention relates to a system for managing a block system of a water pipe network, and more particularly, it is possible to easily design a block diagram on an operator interface by linking an operator interface and a database, A block system management system that enables rapid response and maintenance according to block changes stored in block objects, and block changes that can construct the optimal block system of the water distribution network are automatically reflected through the history management of the block system will be.

 A typical water network management system consists of a monitoring system for measurement data (flow rate, water pressure, water quality) collected on site and an analysis system for processing and analyzing the collected data. Currently, the water supply network is being changed to a block-type pipe network system in order to introduce the ease of maintenance and effective analysis technique in the existing simple network of dendritic knowledge.

This block type network structure is effective in proper flow rate, water pressure, water quality management, and provides the block unit oil / leak analysis result, so it is effective to diagnose the effect of the maintenance priority and the retrofit construction. The water network management system according to the block type network system is constructed by the system building process shown in FIG. 1, and the measurement data (time series) is stored in the DB As shown in FIG. 2, flow / water pressure data based on a block system is used to perform oil / leak analysis, thereby achieving high operating efficiency.

However, in such a block-like network system, the block configuration is not permanent and must be changed at all times. This is because, in some areas other than the mountainous provinces, block type adjustments are frequently caused by the addition of improved construction and new water supply areas or changes in the water supply system.

Therefore, the changed block system and the measured instrument information should be reflected in the management system. However, in the existing management system, it is difficult to update quickly and instantly because the change of the block type is beyond the management level of the general waterworks operator, It is true.

However, as shown in FIG. 3, in the network management system, the fault analysis is continuously performed based on the existing block system and the meter information, and it is difficult to accurately determine the block diagnosis. In the management system, It is difficult to carry out the experimental system operation for the operator 's optimal water distribution network because it is difficult to reflect the change of the block system.

In addition, since the existing management system provides the block diagram of the image form, there is also a problem that the maintenance cost due to the improvement of the screen structure and the engine structure (flow / water pressure) according to the frequently changed block system is continuously generated.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and a method for linking an operator interface and a database so that block diagrams can be easily created on an operator interface, and block attribute information is stored for each block object in a block database according to the created block diagram, And to provide a block system management system in which block changes that can construct an optimum block system of a water supply network are automatically reflected through history management of a block system.

According to an aspect of the present invention, there is provided a block system management system in which a block change is automatically reflected, comprising: an operator interface unit showing a water network block system as a block diagram; A basic data base for collecting actual data and storing the data for the basic blocks in a time-wise manner; A block database for reconstructing data of the basic data database according to block information and block codes according to a block system shown in a block diagram shown by the operator interface unit as needed and storing related data; A block generator for generating new block information and a block code when a block is changed or a new block is generated on the operator interface unit and generating and storing data for the block in the block database; And a consistency determination unit for determining a required item of the new block generated by the block generation unit and determining the consistency and the error.

In the present invention, it is preferable that the operator interface unit directly generates a block system on the displayed screen and supports the editing of directionality and attributes of the blocks.

In the present invention, the block generating unit may include a block information extracting unit that extracts block attribute information from the basic data base when a block is changed or a new block is generated on the operator interface unit; When a block is changed or a new block is created on the operator interface unit, a block code for the block is generated, and the block code is given to the block attribute information extracted by the block information extracting unit, And a block code generator for storing the block code.

In the present invention, it is preferable that the block generating unit further include a meter code generating unit for providing a meter code for the meter when the meter is generated on the operator interface unit, and providing the meter code to the consistency determining unit and the block database.

According to another aspect of the present invention, the block database may further include a history management unit for assigning a flowchart code for each block diagram displayed by the operator interface unit, and separately storing data on the flowchart.

According to another aspect of the present invention, the block database further includes a version-by-version comparison unit for comparing the data stored by the flowchart codes and providing differences.

According to the block system management system in which the block changes of the present invention are automatically reflected, as shown in FIG. 5, when a block change occurs, the block change and drawing operation It is possible to achieve a remarkable effect of constructing an optimum block system of a water supply network through history management of a block system.

FIG. 1 is a flowchart showing a process of establishing a water supply network management system according to a conventional block-type pipe network system.
Figure 2 is an illustration of a typical block-type network system.
3 is a diagram showing an example of an analysis system change according to a block change.
4 is a block diagram illustrating the configuration of a system for managing a water network block system according to an embodiment of the present invention.
FIG. 5 is a diagram comparing a drawing process according to a block change according to an embodiment of the present invention and a conventional technique.
6 is a diagram illustrating a state in which a block changing function by a block changing unit according to an exemplary embodiment of the present invention is displayed on an operator interface unit.
FIG. 7 is a diagram illustrating a state in which an altered block consistency determination function by a consistency determination unit according to an exemplary embodiment of the present invention is displayed on an operator interface unit.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, the block system management system 100, in which the block changes according to the present embodiment are automatically reflected, includes an operator interface unit 110, a basic data base 120, a block database 130, A generation unit 140 and a consistency determination unit 150. [

First, the operator interface unit 110 is a component that shows a block diagram of a water pipe network system in a block network structure. Actually, the operator interface unit 110 functions as an interface through which an operator can touch a screen presented by the system and can control the system, and can be configured as a display device capable of displaying an image. In particular, in the present embodiment, the operator interface unit 110 should be equipped with a function of directly creating a block system on the displayed screen and editing the directionality and attributes of the blocks.

Accordingly, the operator interface unit 110 may be equipped with a touch screen panel function. In the operator interface unit 110, an area defining a water pipe network, that is, an icon defining a block and a function of defining a water direction between the blocks, A function of generating a connection relationship between blocks in the form of a DB table may be provided in various ways. For example, an operator interface as shown in FIG. 6 may be displayed to directly generate a block system A function that can be changed is provided.

Next, the basic data base 120 is a component for storing data on a basic block that has been collected by the water network and actual data measured by the built-in infrastructure. Here, 'basic infrastructure' refers to a TM facility such as a field measurement control facility, a communication facility, and a network, as shown in FIG. Therefore, the basic data base 120 stores data continuously measured by the basic infrastructure in a time series manner.

4, the block database 130 is installed in connection with the basic data base 120, and is installed in the block database 130 shown in the block diagram shown by the operator interface unit 110 And reconstructs and stores the data of the basic data base 120 according to block information and block codes. That is, the block database 130 is provided with block object attribute information as the data mapping structure definition of the database, thereby providing simplification and intuitiveness of the operation.

In the present exemplary embodiment, the block database 130 may further include a history management unit 132 for assigning a flowchart code for each block diagram displayed by the operator interface unit and separately storing data on the block diagram . That is, the history management unit assigns a unique flowchart code to each of the block diagrams for the block diagrams that are confirmed to be consistent by the consistency determination unit 150 described later, and transmits the data on the block diagrams to the block database 130 . Therefore, the data of the individual block diagrams can be immediately retrieved and utilized by using the schematic code for the specific block diagram.

In addition, the block database 130 may further include a version-by-version comparison unit for comparing the data stored by the flowchart codes by the flowchart codes and providing the differences. That is, when a command to compare the specific genealogies codes for each genealogy code is inputted on the operator interface unit 110, the comparison unit for each version stores the data stored for each genealogy code stored in the block database 130 The optimal block diagram can be selected.

4, the block generating unit 140 is connected to the block database 130 and the operator interface unit 110. The block generating unit 140 may be provided in the form of a block on the operator interface unit 110, When a block is generated, new block information and a block code are generated, and the block database 130 generates and stores data for the block.

To this end, the block generator 140 may be configured to include a block information extractor 142 and a block code generator 144, as shown in FIG. First, the block information extracting unit 142 extracts block attribute information from the basic data base 120 when a block is changed or a new block is created on the operator interface unit 110. Here, the 'block property information' refers to the area inside the block boundary, the price of the customer, the channel, and altitude information.

The block code generation unit 144 generates a block code for the block when the block is changed or a new block is generated on the operator interface unit 110 and the block code is generated by the block information extraction unit 142 Adds the block code to the block attribute information, and stores the block code in the block database 130 for each block code.

The block generator 142 and the block code generator 144 generate a new block on the operator interface 110 and store block attribute information for each block code in the block database 130 .

In addition, in the present embodiment, it is preferable that the block generator 140 further includes a meter code generator 146 as shown in FIG. The instrument code generation unit 146 may be configured to provide a meter code for the instrument when the instrument is created on the operator interface unit 110 and to provide the instrument code to the consistency determination unit 150 and the block database 130 to be. The meter code thus provided is stored in the block database 130 in association with the block code.

4, the consistency determination unit 150 is connected to the block generation unit 140 and the interlocking database 130, and the consistency determination unit 150 may be implemented by the block generation unit 140, And determines the consistency of the new block or the virtual block by presenting a screen as shown in FIG. 7, for example.

Therefore, the consistency determination unit 150 determines the consistency of the block system generation and the instrument placement when a new block is generated. The new block determination unit 152 determines whether the necessary items for generating a virtual block And a virtual block determining unit 154 for performing a missing decision and an error review.

The interlocking database unit 130 formally performs the history management for the blocks whose consistency is recognized by the consistency determining unit 150. [

100: A block system management system in which a block change according to an embodiment of the present invention is automatically reflected
110: Operator interface part 120: Basic data base
130: block database 140: block generation unit
150:

Claims (5)

An operator interface unit for showing the water pipe network system as a block diagram;
A basic data base for collecting actual data and storing the data for the basic blocks in a time-wise manner;
A block database for reconstructing data of the basic data database according to block information and block codes according to a block system shown in a block diagram shown by the operator interface unit as needed and storing related data;
A block generator for generating new block information and a block code when a block is changed or a new block is generated on the operator interface unit and generating and storing data for the block in the block database;
A consistency determination unit for determining a necessary item of the new block generated by the block generation unit to determine a consistency and an error;
And a history management unit, provided in the block database, for assigning a flowchart code to the block diagrams displayed by the operator interface unit and separately storing data on the flowchart, wherein the block changes are automatically reflected. The apparatus of claim 1, wherein the operator interface unit comprises:
Wherein the block system is directly generated on the displayed screen, and the direction and the attribute of the block are edited, thereby automatically reflecting the block change. 3. The apparatus of claim 2,
A block information extracting unit for extracting block attribute information from the basic data base database when a block is changed or a new block is created on the screen of the operator interface unit;
When a block is changed or a new block is created on the screen of the operator interface unit, a block code for the block is generated, and the block code is given to the block attribute information extracted by the block information extracting unit, And a block code generation unit for generating a block code corresponding to the block change. delete The method according to claim 1,
And a version comparison unit for comparing the data stored by the systematic code with each other and providing a difference, is further provided.

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