KR101659548B1 - The seperate commongrounding method using3-phase power cable network system with disconnected the first and second concentric neutral conductor cable in sections - Google Patents

Abstract

The present invention relates to a non-uniform common ground contact method using a three-phase power cable distribution system including first and second concentric neutral wires cut in each section. According to an embodiment of the present invention, the three-phase power cable distribution system including multiple concentric neutral wires includes multiple first and second concentric neutral wires formed on the power cables to be cut in each section to correspond to each phase of a three-phase power cable, has the front ends of the first concentric neutral wires connected to a ground power surface through connection wires, has the back end of one among the first concentric neutral wires connected to the ground power source with a front end of one among the second concentric neutral wires, and has the back end of the second concentric neutral wires connected individually to the front end of the following first concentric neutral wires through the connection wires. The present invention can repeat the patterns of maintaining and opening the connection wires connecting the concentric neutral wires in the three-phase power cable in each connection section to reduce work time and reduce the installation cost by not having to connect all connection sections of the concentric neutral wires with the connection wires.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a three-phase power cable distribution system formed by first and second concentric neutral lines,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a three-phase power cable distribution system and a non-collective common ground method using the same. More particularly, the present invention discloses a technique for easily performing a common collective grounding operation of a three-phase power cable.

Recently, there is a serious energy crisis all over the world. In particular, Korea relies on imports for more than 90% of its energy resources. In the case of Korea, the distribution system is 22.9kV-y multiple grounding system. In the case of urban or rural area, it is in the form of machining line. In the places where people come and go frequently such as the center of the metropolis, , And the multiple grounding method is adopted to ground the neutral line to the distribution line in the line operation.

Since the neutral ground is directly grounded to the ground, it is easy to detect the insulation and ground fault current of the power equipment because the voltage rise of the ground is low when the ground fault occurs, and the protection relay operates quickly. In order to prevent the propagation disturbance caused by the rise of the potential of the concentric neutral wire due to system accidents, the central neutral wire is operated as a collective grounding method for each cable connection section. This allows the unbalanced load current to flow normally and the ground potential rise of the concentric neutral line to be less than a certain value when the ground fault occurs.

The common grounding technique using CNCV cable used in the conventional distribution line uses the CNCV underground cable as a neutral wire only in one of the three cores without structural modification and the three cores on the power source side are treated as a common ground by using the common Is a method of cutting the cable connection material neutral wire which is the circulation current path of the underground distribution line.

However, in the conventional non-collective common grounding technique, the circulating currents of the two lines used for one-side grounding among the three concentric neutral lines are completely removed, but the remaining one line for multiple grounding is used for the neutral line, Floating phenomenon can occur due to operator error at the time of construction of joint grounding and grounding point of operator or misunderstanding of connection line to be opened, which may result in increase of work time delay and installation cost.

The technology of the background of the present invention is described in Korean Patent Registration No. 10-0787488 (Dec. 31, 2007).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a three-phase power cable distribution system formed by first and second concentric neutral lines separated by sections, And to reduce the installation cost by not connecting the connection sections of all concentric neutral lines to the connection lines.

A three-phase power cable distribution system formed by first and second concentric neutral lines separated by intervals according to an embodiment of the present invention is a three-phase power cable distribution system including a plurality of concentric neutral lines, Wherein a plurality of first concentric neutral lines and a plurality of second concentric neutral lines are formed in a section of the electric power cable corresponding to each phase, the front end portions of the plurality of first concentric neutral lines being connected to a ground power source through mutual connection lines, The rear end portion of any one of the plurality of first concentric neutral lines is connected to the ground power source together with the front end portion of any one of the plurality of second concentric neutral lines, The rear end portions of the two concentric neutral lines are connected to the front end portions of the plurality of first concentric neutral lines trailing through the connecting lines, respectively.

The plurality of first concentric neutral lines and the plurality of second concentric neutral lines may be sequentially and repeatedly formed.

The front end portions of the following plurality of first concentric neutral lines connected to the rear end portions of the plurality of second concentric neutral lines may be connected to the ground power source through mutual connection lines.

A rear end portion of the first concentric neutral line that is not connected to the ground power source is opened among the rear end portions of the plurality of first concentric neutral wires and a rear end portion of the rear end portion of the rear end portion of the second concentric neutral wire that is not connected to the ground power source 2 The shear part of the concentric neutral line can be opened.

A non-collective joint grounding method using a three-phase power cable distribution system according to another embodiment of the present invention is characterized in that in a three-phase power cable, a plurality of first concentric neutral lines and a plurality of second concentric neutral lines The method comprising the steps of connecting a front end portion of the plurality of first concentric neutral wires to a ground power source through a connection line to each other, Connecting the rear end portion of any one of the concentric neutral wires to the ground power source together with the front end portion of any one of the plurality of second concentric neutral wires among the plurality of second concentric neutral wires, To the front end portions of the plurality of first concentric neutral lines trailing through the connecting line, respectively.

The three-phase power cable distribution system and the non-collective common grounding method using the same according to the embodiment of the present invention repeat the pattern of maintaining the connection line and opening the connection line for each connection section of the concentric neutral line connected with the connection line in the three- And the installation cost can be reduced by not connecting the connection sections of all the concentric neutral wires with the connection wires.

1 is a configuration diagram of a three-phase power cable distribution system according to an embodiment of the present invention,
FIG. 2 is an illustration for explaining that a transformer is included in the three-phase power cable distribution system according to FIG. 1;
3 is a flowchart of a non-collective joint grounding method using a three-phase power cable distribution system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of the functions in the embodiments, and the meaning of the terms may vary depending on the user, the intention or the precedent of the operator, and the like. Therefore, the meaning of the terms used in the following embodiments is defined according to the definition when specifically defined in this specification, and unless otherwise defined, it should be interpreted in a sense generally recognized by those skilled in the art.

1 is a configuration diagram of a three-phase power cable distribution system according to an embodiment of the present invention.

Referring to Figure 1, a three-phase power cable distribution system 100 according to an embodiment of the present invention includes a plurality of concentric neutral lines 130, 140, and a plurality of concentric neutral lines 130, A plurality of first concentric neutral lines 130 and a plurality of second concentric neutral lines 140 are formed in a section of the power cable 110 corresponding to the first and second concentric neutral lines 130 and 140. In this case, the first concentric neutral line 130 and the second concentric neutral line 140 are formed of the same material and shape but may be formed to be separated from each other by a length of 100 m to 500 m. However, the present invention is not limited thereto. Can be set differently.

The front end portions of the plurality of first concentric neutral lines 130 are connected to the ground power source 120 through the connection line 150 and the first concentric neutral line 130 The rear end portion is connected to the ground power source 120 together with the front end portion of any one second concentric neutral line 140 among the plurality of second concentric neutral lines 140. That is, the front end portions of the first concentric neutral lines 130 of the respective phases are collectively grounded together, and only one of the rear end portions thereof is connected to the front end portion of the adjacent second concentric neutral line 140 through the connection line 150, 120, respectively. In this case, the rear end portion of the first concentric neutral line 130 and the front end portion of the second concentric neutral line 140 connected by the connection line 150 can be arbitrarily selected.

The second concentric neutral line 140 and the rear end portion of the first concentric neutral line 130 not connected to the ground power source 120 are opened in the rear end portion of the plurality of first concentric neutral lines 130. Therefore, the closed loop is not formed by the connection line 150 between the plurality of first concentric neutral lines 130 or the plurality of second concentric neutral lines 140, so that no circulating current is generated. In this case, although the closed loop is formed through the earth and the circulating current is not completely removed, the circulating loop through the earth greatly affects the equivalent ground resistance by the earth, so the circulating current is low, It is nothing but negligible.

The rear end portions of the plurality of second concentric neutral lines 140 are connected to the front end portions of the plurality of first concentric neutral lines 130 trailing through the connecting line 150, respectively. That is, the rear end of the second concentric neutral line 140 included in the power cable 110 of each phase is connected by the connecting line 150 between the following adjacent first concentric neutral lines 130, 2 rear end portion of the concentric neutral line 140 and the front end portion of the following first concentric neutral line 130 are connected to the ground power source 120. [ In this case, the rear end portion of the second concentric neutral line 140 included in the power cable 110 of each phase is not connected to each other, and the rear end portion of the second concentric neutral line 140 connected by the connection line 150 The front end portion of the first concentric neutral line 130 may be arbitrarily selected.

The front end portion of the succeeding first concentric neutral line 130 and the front end portion of the second concentric neutral line 140 not connected to the ground power supply 120 among the front end portions of the plurality of second concentric neutral lines 140 are opened . Therefore, the closed loop is not formed by the connection line 150 between the plurality of first concentric neutral lines 130 or the plurality of second concentric neutral lines 140, so that no circulating current is generated.

Also, in the three-phase power cable distribution system 100, a plurality of first concentric neutral lines 130 and a plurality of second concentric neutral lines 140 may be sequentially and repeatedly formed. For example, the [first concentric neutral line] - [the second concentric neutral line] - [the first concentric neutral line] - [the second concentric neutral line] The first concentric neutral line 130 and the second concentric neutral line 140 are repeatedly formed so that the connection relationship between the first concentric neutral line 130 and the second concentric neutral line 140 and the connection relationship between the second concentric neutral line 140 and the second concentric neutral line 140, 140 and the following first concentric neutral line 130 have a repetitive pattern.

FIG. 2 is an exemplary view for explaining that a transformer is included in the three-phase power cable distribution system according to FIG.

Referring to FIG. 2, a voltage is transformed through the transformer 260 in order to transfer power generated in the power plant to each home or factory. In the three-phase power cable distribution system 200, the transformer 260 is constituted by connecting a primary side and a secondary side inductor to a cable in which a concentric neutral line is formed on each phase of a power cable connected to the power cable 210 of each phase by Y- do. In this case, the transformer 260 may be connected in a Y-connection manner to the power cable 210 of the section where the first concentric neutral line 230 and the second concentric neutral line 240 are cut. Also, the transformer 260 may be connected in a Y-connection manner to the power cable 210 in the section where the second concentric neutral line 240 and the following first concentric neutral line 230 are cut.

The concentric neutral line included in the power cable 210 constituting the transformer 260 may be connected to the concentric neutral line of any one of the rear ends of the plurality of second concentric neutral lines 240, The plurality of concentric neutral lines included in the power cable 210 are connected to the adjacent concentric neutral line by a connection line 250, and one of the concentric neutral lines may be connected to the ground power source 220.

The concentric neutral line included in the power cable 210 constituting the transformer 260 may be formed of a plurality of first concentric neutral lines 230 and a plurality of second concentric neutral lines 240 cut from each other, The connection between the concentric neutral line 230 and the second concentric neutral line 240 may be connected in the same manner as the connection of FIG.

3 is a flowchart of a non-collective joint grounding method using a three-phase power cable distribution system according to another embodiment of the present invention.

Referring to FIG. 3, a non-collective common grounding method using a three-phase power cable distribution system according to an embodiment of the present invention includes a plurality of first concentric neutral lines and a plurality of In the three-phase power cable distribution system in which the second concentric neutral line is disconnected for each section, the front end portions of the plurality of first concentric neutral wires are connected to the ground power source through a connection line at step S310.

Next, the rear end portion of any one of the plurality of first concentric neutral lines is connected to the ground power source together with the front end portion of any one of the plurality of second concentric neutral wires at step S320. In this case, the rear end portion of the first concentric neutral line and the front end portion of the second concentric neutral line are connected by a connecting line and also connected to the ground power source.

Next, the rear end portions of the plurality of second concentric neutral lines are connected to the front end portions of the plurality of first concentric neutral lines trailing through the connecting line, respectively (S330). In this case, the front end portions of the plurality of succeeding first concentric neutral lines are connected by the connecting line, and one of the connecting lines is connected to the ground power source, so that the front end portion of the plurality of succeeding first concentric neutral lines has a potential of 0 do.

The method of steps S310 through S320 may be sequentially and repeatedly performed by connecting a plurality of first concentric neutral lines to a plurality of second concentric neutral lines in a three-phase power cable distribution system.

Meanwhile, in the non-collective joint grounding method using the three-phase power cable distribution system of the present invention, a plurality of first concentric neutral lines and a plurality of second concentric neutral lines are disconnected in each section on the power cable corresponding to each phase in the three- The first concentric neutral line and the second concentric neutral line of each phase are connected to each other by a connecting line, and the first concentric neutral line or the second concentric neutral line formed on the adjacent phase is disconnected It is also possible to perform non-collective joint grounding.

The connection between the front end portion of the first concentric neutral cable and the rear end portion of the first concentric neutral cable corresponding to each phase of the three-phase power cable is cut off and opened, The connecting line between the rear end portion of the first concentric neutral line and the front end portion of the second concentric neutral line corresponding to each phase holds only one of the connecting lines and cuts off all the other connecting lines. Further, all the connection lines between the second concentric neutral lines corresponding to each phase of the power cable are opened. Further, the connection line between the second concentric neutral line and the succeeding first concentric neutral line is maintained as it is.

In this way, in the three-phase power cable distribution system which is conventionally connected to the plurality of concentric neutral lines all through the connection line, the connection lines of some sections are cut off, thereby technically improving the workability in a narrow underground work space, Effect.

The three-phase power cable distribution system and the non-collective common grounding method using the same according to the embodiment of the present invention repeat the pattern of maintaining the connection line and opening the connection line for each connection section of the concentric neutral line connected with the connection line in the three- And the installation cost can be reduced by not connecting the connection sections of all the concentric neutral wires with the connection wires.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the present invention should be construed as a description of the claims which are intended to cover obvious variations that can be derived from the described embodiments.

100, 200: Three phase power cable distribution system
110, 210: Power cable
120, 220: Ground power source
130, 230: first concentric neutral line
140, 240: second concentric neutral line
150, 250: connection line
260: Transformer

Claims (3)

There is provided a non-collective common grounding method using a three-phase power cable distribution system in which a plurality of first concentric neutral lines and a plurality of second concentric neutral lines are disconnected from each other in a power cable corresponding to each phase in a three-
Connecting the front end portions of the plurality of first concentric neutral wires to a ground power source via a connection line;
The rear end portion of any one of the plurality of first concentric neutral lines is connected to the ground power source together with the front end portion of any one of the plurality of second concentric neutral lines, And a rear end portion of the first concentric neutral line that is not connected to the ground power source is opened among the rear end portions of the first concentric neutral wire and the front end portion of the second concentric neutral wire that is not connected to the ground power source, Is opened and the front end portions of the plurality of second concentric neutral lines are opened to each other; And
And connecting a rear end portion of the plurality of second concentric neutral lines to a front end portion of a plurality of first concentric neutral lines trailing through a connecting line,
Wherein the plurality of first concentric neutral lines and the plurality of second concentric neutral lines are sequentially and repeatedly formed. delete The method according to claim 1,
Connecting the rear end portions of the plurality of second concentric neutral lines to the front end portions of the plurality of first concentric neutral lines trailing through the connecting line, respectively,
Wherein a front end portion of the trailing plurality of first concentric neutral lines connected to a rear end portion of the plurality of second concentric neutral wires is connected to the ground power source through interconnecting lines.

Images