KR101007492B1 - Maintenance system for power transmission and distribution underground facilities - Google Patents

Abstract

PURPOSE: A system for maintaining underground power facility for the transmission and the distribution of power is provided to collectively manage the power facility. CONSTITUTION: A field server(103) is installed to a mobile sewage processing machine and implements data communication in a wireless internet environment. A field monitoring camera(105) transmits field images of underground power facility for the transmission and the distribution of power. A thermal image camera transmits thermal images of the underground power facility for the transmission and the distribution of power to the field server. A terminal(109) receives a global positioning system signal and searches the location of the underground power facility. A result with respect to the underground power facility is transmitted to the field server. A power unit(111) distributes power generated from the mobile sewage processing machine. A steam generator(113) converts the purified water into steam.

Description

Underground power facility maintenance system for power distribution and distribution {MAINTENANCE SYSTEM FOR POWER TRANSMISSION AND DISTRIBUTION UNDERGROUND FACILITIES}

The present invention is a system for maintaining underground power equipment for power transmission and distribution, more specifically, to comprehensively manage various power equipment in order to clean and check power facilities periodically to maintain underground power equipment for power distribution. It is about a system.

There are two ways to provide consumers with electricity generated by power plants. First, a process of transferring electricity produced at a power plant to a substation is called power transmission, and a process of transferring power from a substation to a consumer (consumer) is called distribution. Many kinds of equipment, including power cables, must be installed to deliver electricity. Initially, power facilities were installed in the form of processing, which is installed on the ground, but it is gradually becoming underground due to the occurrence of safety accidents and hindrances.

Compared with the power facilities installed by the processing method, underground power facilities are particularly difficult to maintain because they are concealed to improve the aesthetics of the city. Because it is not easy to see, it is not easy to find the abnormality with the naked eye, and even if it is found, it requires technical skills in order to operate it, so it is difficult to respond quickly and it is easy to neglect management. There are many kinds of underground power facilities, but typical examples include transmission manholes, distribution manholes, handholes, ground breakers, and ground transformers. Conventionally, since these facilities have been individually managed, various problems, such as an increase in management costs, occurrence of duplicate locations, and a loss of consistency, are occurring.

The present invention is to solve the above-mentioned problems, and to provide a system for improving the construction quality and compliance with safety rules, and to maintain the convenience of maintenance by consistently maintaining underground power equipment for transmission and distribution do.

The present invention is a system for maintaining underground power equipment for transmission and distribution using a mobile sewage treatment equipment including a sewage purification device. In order to achieve the above object, the underground power equipment maintenance system for transmission and distribution according to the present invention is A field server installed in the mobile sewage treatment equipment to perform data communication in a wireless Internet environment; A site supervision camera for transmitting image data of an image of an on-site underground power facility for transmission and distribution to a site server; A thermal imaging camera which transmits thermal image data of the underground power facility for transmission and distribution to a field server; And receiving a GPS signal to search for locations of underground power and overhead power facilities for transmission and distribution, and receiving a result of performing maintenance work on underground power facilities for transmission and distribution, and receiving and transmitting a result to a field server.

In addition, according to an embodiment of the present invention, the underground power equipment maintenance system for transmission and distribution according to the present invention is to distribute the power generated from the mobile sewage treatment equipment to operate the sewage purification device even while the mobile sewage treatment equipment running It may further include a power unit.

In addition, according to another embodiment of the present invention, the underground power equipment maintenance system for power transmission and distribution according to the present invention by heating the purified water purified by the sewage purification apparatus to burner to clean the ground equipment enclosure using steam as a steam It may further include a steam generator to make.

According to the underground power equipment maintenance system for power transmission and distribution according to the present invention, the entire power equipment can be collectively maintained, thereby reducing the budget.

In addition, according to the present invention, because it is possible to collect and maintain facilities that perform similar functions and roles at one time, work efficiency may be improved to reduce the time required for work.

1 is a block diagram showing a underground power equipment maintenance system for power transmission and distribution according to the present invention.
Figure 2 is a schematic diagram showing the type of underground power equipment to which the underground power equipment maintenance system for transmission and distribution according to the present invention is applied.
3 is a schematic diagram showing a procedure for maintaining underground power equipment by the underground power equipment maintenance system for power transmission and distribution according to the present invention.
Figure 4 is a schematic diagram for explaining the effect by the underground power equipment maintenance system for transmission and distribution according to the present invention.

1 is a block diagram showing a underground power equipment maintenance system for power transmission and distribution according to the present invention.

As shown in FIG. 1, the underground power equipment maintenance system for transmission and distribution according to the present invention uses a mobile sewage treatment equipment 101 including a sewage purification device, and the underground power equipment maintenance system for transmission and distribution according to the present invention is used. Includes a field server 103, a field supervision camera 105, a thermal imaging camera 107, a work management terminal (UMPC) 109, a power unit 111, and a steam generator 113.

Mobile sewage treatment equipment 101 is a device that is used to check and clean the manhole as a device for sucking and purifying the sewage generated in the underground power manhole. The configuration of the mobile sewage treatment equipment is disclosed in Korean Patent No. 10-0674138-0000. The equipment is in the form of a large vehicle, which is in its constant driving state (starting state), capable of producing a small amount of power, providing power to other electronic equipment.

The field server 103 is installed in the mobile sewage treatment equipment to perform data communication in a wireless Internet environment. The wireless Internet environment may be configured using a WiBro service and a 3G mobile communication network, using a WiBro service using a WiBro terminal as a main communication path of the wireless Internet, and using a 3G mobile communication network in an area where WiBro service is not available.

The site supervision camera 105 transmits image data of an image of a site where the underground power facility for transmission and distribution is located to the field server 103. A CCD camera may be used as the scene supervision camera 105. The CCD camera is installed at the rear of the vehicle or at a short distance of the vehicle, and collects the captured image data by capturing the image information on the site. Can be sent and saved. The field server 103 can provide this image data to a place where image data is needed through a web environment. In addition, the image data stored in the field server 103 may be updated in real time to be downloaded directly from the office through a web environment.

The thermal imaging camera 107 transmits thermal image data of the thermal image of the underground power facility to the field server 103. The thermal image to be photographed by the thermal imaging camera 107 can be a thermal image of the underground cable connection point. The thermal imaging camera 107 is equipped with an internal storage battery, but since it is impossible to use for a long time, it can be charged by mounting a cradle on the vehicle, and when the vehicle is charged, the thermal image data captured in the meantime is transmitted from the field server. Can be stored. The field server 103 can provide this thermal image data to a place where thermal image data is needed through a web environment. In addition, the thermal image data stored in the field server 103 may be updated in real time to be downloaded directly from the office through a web environment.

UMPC, that is, the work management terminal device 109 receives the GPS signal to search for the location of underground power and overhead power facilities for transmission and distribution, and receives the result of performing maintenance work on underground power facilities for power distribution and receives the field server. Send to 103. The work management terminal device 109 also transmits the result of the inspection of the underground power equipment to the field server 103 in real time using Bluetooth communication, and the field server 103 transmits the result of the inspection to the web in real time. Provides access to the inspection results in real time.

The power unit 111 distributes the power generated by the mobile sewage treatment equipment so that the sewage purification apparatus can be operated even while the mobile sewage treatment equipment is running. The mobile sewage treatment equipment, ie, the power generated by the vehicle, can be used to drive the vehicle or to operate other equipment mounted on the vehicle, and since the two cannot be used at the same time, the power unit 111 Use to distribute power to drive other equipment or devices mounted on the vehicle while driving. For example, the power unit 111 can operate the sewage purification apparatus while the sewage treatment equipment is running, not only can operate the steam generator described below, but also operate the field server 103.

The steam generator 113 heats the purified water purified by the sewage purification apparatus with a burner so as to clean the ground apparatus enclosure by using steam to make steam. In other words, the steam generator 113 heats the purified water purified in the vehicle using a burner to make a steam state, and uses the steam to clean the enclosure of ground equipment such as a switchgear and a transformer.

Figure 2 is a schematic diagram showing the type of underground power equipment to which the transmission and power underground power equipment maintenance system according to the present invention, Figure 3 is to maintain the underground power equipment by the underground power equipment maintenance system for power distribution according to the present invention It is a schematic diagram which shows the procedure to manage.

The underground facility maintenance system for power transmission and distribution according to the present invention is a system for collectively maintaining and inspecting underground power facilities, and the specific target equipment is as shown in FIG. 2, and works similar to each other in similar functions and roles as shown in FIG. 3. Will proceed.

As shown in FIG. 2, underground power equipment for power transmission and distribution can be divided into power transmission equipment and power distribution equipment, and the power transmission equipment includes a power transmission manhole, a power transmission power outlet, and a ventilation hole, and a power distribution equipment is a power distribution manhole, power distribution power hole, and the ground. Includes transformers and ground breakers.

The order in FIG. 3 is the most optimal order of construction in implementing the method, but this order can be reversed because it is not always possible to meet the optimum conditions in the field. However, power transmission manholes and distribution manholes, power transmission and distribution power holes, ground transformers and ground switchgear must always work in a continuous order to enjoy the effects of the present invention. For example, you can work on a distribution manhole after a transmission manhole, or after you operate a distribution manhole, but you can work on a transmission transformer after working a transmission manhole. . However, if there is no facility, it is possible to work with the transmission manhole and then the ground transformer and the ground switch.

Figure 4 is a schematic diagram for explaining the effect by the underground power equipment maintenance system for transmission and distribution according to the present invention.

As shown in FIG. 4, the underground power facility maintenance system for power distribution and distribution according to the present invention collects data through a field server included in the sewage treatment equipment and transmits information or receives a work instruction. It can be used as an on-site information center. The field server receives the video data of the site from the field supervision camera that can be implemented as a CCD camera and provides this information through the web or stores it in a database server. This function can promote the site safety management. In addition, the field server receives the thermal image data of the underground power equipment from the thermal imaging camera to provide this information in real time through the web or to store in the database server, it is possible to manage the age of the power equipment by this function. In addition, the field server can receive the result of performing maintenance work from the work management terminal device (UMPC) to provide this information through the web or to store in the database server, the history of maintenance of underground power equipment by this function Can manage.

Claims (3)

As a system for maintaining underground power equipment for power distribution using mobile sewage treatment equipment including a sewage purification device,
A field server installed in the mobile sewage treatment equipment to perform data communication in a wireless Internet environment;
A site supervision camera for transmitting image data of an image of an on-site underground power facility for transmission and distribution to a site server;
A thermal imaging camera which transmits thermal image data of the underground power facility for transmission and distribution to a field server;
Receiving a GPS signal to search the location of underground transmission and power facilities for power distribution, and a task management terminal device for receiving the results of performing maintenance work on the transmission and underground power equipment for transmission to the field server;
A power unit for distributing power generated from the mobile sewage treatment equipment so that the sewage purification apparatus can be operated while the mobile sewage treatment equipment is running; And
And a steam generator for heating the purified water purified by the sewage purification apparatus into a burner so as to clean the ground apparatus enclosure using steam, thereby generating steam.
The field server receives the image data from the field surveillance camera to provide in real time through the web or stored in the database,
The field server receives the thermal image data from the thermal imaging camera to be provided in real time through the web or stored in a database,
The field server receives the result of performing the maintenance work from the work management terminal device to be provided in real time through the web or stored in a database, and manages the history of underground power equipment maintenance underground transmission power, characterized in that Facility Maintenance System. delete delete

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