KR20100035010A - Monitoring system for underground power lines and equipments - Google Patents

Abstract

PURPOSE: A monitoring system for underground power lines and equipment is provided to use 3D graphic/moving picture information, facility detail information and GIS(Geographical Information System) information under an NDIS environment, thereby preventing accident by facility and accident type according to decrepitude of various facilities. CONSTITUTION: An NDIS(New Distribution Information System)(10) generates field inspection data through facility register/IMS(Information Management System) data. The NDIS generates various code data and map information about a facility. A facility management server(20) separately stores basic facility information and location information of an underground power distribution facility. A user terminal(30) performs access, search, input and storage about the NDIS and facility management server.

Description

Monitoring system for underground power lines and equipments

The present invention relates to a monitoring system for underground power distribution facilities, and more particularly, to a monitoring system for underground power distribution facilities for the prevention of poor construction and optimal follow-up while constructing underground facilities.

In general, electric power generated from hydroelectric power, thermal power, or a nuclear power plant is transferred to the final consumer side of a home, office, factory, etc., and reaches the final consumer side via a substation and a transformer in an intermediate stage.

The power generated in the power plant is typically supplied to the substation at a high pressure of 154 KV or 345 KV, and the substation is then again brought down to a high pressure of typically 22.9 KV and supplied to the transformer, which is just before the final consumer side. In the transformer, the voltage is converted to a voltage of 110 V or 220 V, which is suitable for use on the final consumer side and supplied to the final consumer side.

Such a transformer includes a residential transformer installed in a pole and a underground distribution line transformer installed on the ground or underground.

Among these, the columnar transformer has a relatively small capacity, and thus is relatively small and light in weight, and is usually installed in a pole and the like to lower the high pressure from the substation to a low pressure and supply it to the final customer side.

However, in crowded metropolitan areas, it is very dangerous to drag high-voltage (22.9 KV) power distribution lines from substations through electric poles in congested urban areas. Therefore, underground underground power lines are usually used underground to provide power to final customers. Supplying the situation.

In other words, we are conducting underground wiring business to expand the power supply capacity, prevent accidents due to natural disasters, improve aesthetics, and minimize harmful electromagnetic wave effects from high-voltage cables, and map such underground distribution lines ((NDIS; New Distribution Information System), but only the grasp of facility status of overhead distribution line and underground distribution line, it is insufficient to respond to the accident of underground distribution line.

In other words, if a failure occurs due to deterioration of the underground facility after a certain period of time, there is a problem that the document or manpower at the time of construction does not remain, so that a long time is required for recovery.

More specifically, it is difficult to check whether the underground power distribution facilities are poorly constructed after underground laying, and when the construction site is constructed in a wide and dispersed state, it is difficult to supervise the transfer. The problem is that it is difficult to confirm whether the construction procedure and safety standards are observed.

Therefore, the present invention has been invented to solve the above problems, to improve the construction quality and to comply with safety rules, even if a long time after construction construction of underground facilities so that can be used when checking and repairing the construction conditions of underground facilities It aims to provide a monitoring system for underground power distribution facilities that combines management technology with 3D and real-time video information technology.

In order to achieve the above object, the present invention generates data by using a national basic map, a topographic map of each region, a ground, processing, a lead line, etc. by a scanner, and computerized work for existing power distribution facilities. NDIS for generating field survey data from facility account book / IMS data, generating and storing various code data for the facility and drawing information; The facility management server, which stores basic facility information and location information of the underground power distribution facility stored in the NDIS separately, inputs and stores construction information, defect repair, video, and 3D graphic information through a web browser. ; And a user terminal used for accessing the NDIS and the facility management server and performing a search, an input, and a storage.

In a preferred embodiment, the user terminal is a wired communication network, a wireless communication network, a wired and wireless communication network that is a mixture of wired and wireless, characterized in that any one selected.

As described above, according to the monitoring system for underground power distribution facilities according to the present invention, in the NDIS (New Distribution Information System) environment, various facilities using 3D graphics and moving picture information, facility details, GIS information Accidents according to the degree of aging can be prevented in advance and accidents for each facility can be prevented in advance, and the facility can be reasonably managed and operated to support the restoration of underground facilities.

As a result, it is possible not only to reduce the cost of repair work, but also to improve the electrical quality and customer satisfaction by reducing the breakdown time.

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

1 is an overall configuration diagram illustrating a monitoring system for underground power distribution facilities according to the present invention, and FIGS. 2 to 7 are web browser screens illustrating a monitoring system for underground power distribution facilities according to the present invention.

The present invention focuses on enabling the systematic and rapid restoration of underground facilities using 3D graphics and moving picture information, facility information, and GIS information in an NDIS (New Distribution Information System) environment.

The NDIS 10 generates data through a scanner on a national base map, a topographic map of each region, a ground, processing, a incoming line, and the like, and computerizes existing power distribution facilities. It generates on-site survey data, generates various code data and drawing information about facilities and stores them in DB of the system server to build them.

Based on the NDIS (10), the 3D graphics and video information is additionally constructed and managed in addition to the information about the underground power distribution facility stored in the DB of the system server, as shown in FIG. The basic facility information and location information of the underground power distribution facility stored in the NDIS 10 is separately stored in the DB of the facility management server 20, and the user is connected to the facility management server 20 through a web browser of the terminal. The construction information, defect repair, video, and 3D graphics information is inputted and stored.

That is, a person in charge of underground distribution facility-related personnel uploads a video and a picture of the corresponding site at the underground distribution facility construction site through a web browser of the user terminal 30 to transmit and store it to the facility management server 20.

Through this, when checking and repairing, it is possible to call and output the data of the existing underground distribution facilities by using the web browser of the user terminal 30. Therefore, the facility can be reasonably managed and operated through 3D stereoscopic image and video information It becomes possible.

Here, the user terminal 30 preferably comprises a wired communication network, a wireless communication network, and a wired and wireless communication network in which wired and wireless are mixed.

2 to 7 show a web browser screen of the monitoring system for underground power distribution facilities. As shown in FIG. 2, the underground power distribution facilities are divided into ground and underground to enable three-dimensional confirmation. .

In addition, as shown in Figure 3, the underground buried portion of the underground power distribution facility is to be confirmed in three dimensions, it is possible to check the construction of the pipeline and the manhole, and the connection state thereof.

As shown in Figure 4, it is possible to check in real time the detailed information of the construction history of the underground power distribution equipment.

It is possible to check detailed information through a pop-up window when clicking the underground power distribution equipment on the web browser screen.

In addition, as shown in Figures 5 and 6, the measurement of the grounding and grounding resistance in the manhole of underground power distribution equipment, and site information at the time of construction, that is, excavation, depth measurement, flattening, rubble and sand laying, manhole settling , It is possible to check the whole process according to the work order such as concrete pouring of connection part.

This allows you to check the video and measured values through a pop-up window when you click the underground distribution facility on the web browser screen.

And, as shown in Figure 7, after completing the underground power distribution equipment, the inspection target list output and the person in charge to be notified through a web browser before the regular inspection reference date to prevent the omission of inspection of the underground power distribution equipment, performance management The function will be supported.

Therefore, the location of the underground power distribution equipment according to the present invention is to use a general NDIS (10), by enabling a systematic and rapid monitoring through detailed information of the underground power distribution equipment, GIS information, 3D graphics and video information, You will be able to support recovery quickly and accurately.

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 in the scope of the appended claims. It will be understood by those skilled in the art that various modifications may be made and equivalents may be resorted to without departing from the scope of the appended claims.

1 is an overall configuration diagram showing a monitoring system for underground power distribution equipment according to the present invention,

2 to 7 is a web browser screen showing a monitoring system for underground power distribution equipment according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: NDIS 20: Facility Management Server

30: user terminal

Claims (2)

Generates data from the national basic map, topographic maps of each region, ground, processing, incoming lines, etc. with scanners, and generates field survey data from facility ledger / IMS data established through computerization of existing power distribution facilities. NDIS for generating and storing various code data for the facilities and drawing information; The facility management server, which stores basic facility information and location information of the underground power distribution facility stored in the NDIS separately, inputs and stores construction information, defect repair, video, and 3D graphic information through a web browser. ; And a user terminal used for accessing the NDIS and the facility management server, and performing a search, an input, and a storage. The method of claim 1, The user terminal is a wired communication network, a wireless communication network, a wired and wireless communication network, a wired and wireless communication network, characterized in that any one selected from the monitoring system for underground power distribution equipment.

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