KR102197757B1 - Stabilization system of distribution line - Google Patents

Abstract

The present invention relates to a stabilization system of a distribution line and, more specifically, to a stabilization system of a distribution line which prevents disconnection of the distribution line by wind power while stably supporting a jumper line, and allows easy replacement when a pivot rotation tool is worn to stably rotate an insulator main body in accordance with an external pressure.

Description

Stabilization system of distribution line {STABILIZATION SYSTEM OF DISTRIBUTION LINE}

The present invention relates to a stabilization system for an overhead distribution line in the field of distribution technology, and more particularly, to prevent disconnection of the distribution line by wind power while stably supporting jumper lines, and easy replacement when the pivot rotation tool is worn. The present invention relates to a distribution line stabilization system for stably rotating the insulator body according to external pressurization.

In general, large power generated in a power plant is transmitted to each substation as high-voltage power through transmission lines such as transmission towers, and then a cable is used so that it can be used by customers such as homes or buildings through several stages of transformation at the substation. Therefore, it goes through a distribution process that is supplied to each region.

At this time, power supply to general customers is supplied through electric poles installed at regular intervals, and the connection of overhead wires in each electric pole is connected using jumper wires extending downward of Wancheol.

Such a conventional overhead wire connection has a problem in that a failure of the overhead wire frequently occurs due to contact with the electric pole due to wind pressure, and accordingly, an insulator fixing the jumper wire is installed in Wancheol.

However, when an insulator for fixing the jumper wire is installed on the wancheol, the jumper wire is disconnected because the stress is concentrated on the jumper wire fixed to the insulator because it cannot sufficiently absorb the wind when wind is generated.

As a conventional technology that partially improves this problem, Korean Patent Registration No. 10-0864963 (2008.10.27.) discloses an insulator structure for stable fixing of a processed transmission line.

However, such a conventional insulator structure for stable fixing of an overhead transmission line has a problem that it is not easy to replace when the pivot rotation tool is worn.

Accordingly, there is a problem in that it is difficult to expect a stable rotation as the insulator body is inclined or separated from the fixed plate.

Korean Patent Registration No. 10-0864963 (October 27, 2008)'Insulator structure for stable fixing of processed transmission lines'

The present invention was invented to solve the above-described problems, and an object of the present invention is to stably support jumper wires and prevent disconnection of distribution lines by wind power, while in the event of abrasion of the pivot rotation tool, replacement is easily made. It is to provide a stabilization system for distribution lines for stably rotating the insulator body according to external pressure.

The problem to be solved of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is provided with a fixing plate 11 having a mounting hole (h), and a spring installation portion 13 disposed under the fixing plate 11 in communication with the mounting hole (h) Case 10 fixed to the standing wancheol (F); A pivot rotation tool (20) rotatably seated in the seating hole (h); An insulator body 30 made of insulating material inserted into the spring installation part 13 and fixed to the pivot rotation tool 20; A fixing mechanism 40 provided at the lower end of the insulator body 30 exposed to the outside of the case 10 and engaged with and fixed to the jumper wire J; And at least three or more springs (S) installed on the spring installation part (13) to elastically support the insulator body (30) in all directions so that the insulator body (30) and the fixing mechanism (40) fixed thereto are correctly positioned. In the stabilization system of the distribution line including the buffer mechanism 50 consisting of), further comprising a detachable unit 100 to enable the inspection or replacement of the pivoting mechanism 20, the detachable unit 100 ), the lower plate 110 provided on both sides of the upper portion of the case 10; An upper plate 120 provided on both sides of the wancheol (F) so as to face up and down with the lower plate 110; And a support means 130 for supporting the lower plate 110 to the upper plate 120, wherein the support means 130 has a head 131a formed at an upper portion thereof, and the upper and lower plates 120,110 ) Through the support bar 131; A separation preventing member 132 provided under the support bar 131; And an elastic member 133 coupled to the outside of the support bar 131 so as to be positioned between the head portion 131a and the top plate 120, wherein the support bar 131 includes the fastening member (B) As the fastening is released from the case 10, the elastic member 133 moves downward with the case 10, and the elastic member 133 disengages the fastening member B from the case 10. The case 10 is contracted by the pressure of the support bar 131 descending together with the case 10 to buffer the impact, while allowing the case 10 to descend slowly, and the case 10 has a hollow ( 10a) is formed, and as the fastening member (B) is disengaged from the case 10, as it moves downward, it is spaced apart from the wancheol (F), and the pivot rotating hole 20 through the hollow (10a) It provides a stabilization system for distribution lines, characterized in that it is possible to check or replace for.

According to the present invention, there is an effect of preventing disconnection of a jump line fixed to the fixing mechanism by providing a sufficient buffering force to the insulator body and the fixing mechanism.

In addition, there is an effect that the rotation of the insulator body according to external pressure can be made stably because the rotation of the insulator body can be stably performed when the pivot rotating tool is worn out.

The effects of the present invention are not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a front view schematically showing a stabilization system for a distribution line according to the present invention.
2 is a plan view schematically showing a stabilization system for a distribution line according to the present invention.
3 is a cross-sectional view illustrating a fixing mechanism of a stabilization system for a distribution line according to the present invention.
4 is a cross-sectional view showing a stabilization system for a distribution line according to the present invention.
5 is an AA cross-sectional view of FIG. 4.
6 is a use state diagram showing the operation of the stabilization system of the distribution line according to the present invention.
7 is a cross-sectional view showing a state in which a support part is provided in the stabilization system of a distribution line according to the present invention.
And
8 is a partially enlarged cross-sectional view showing the support in FIG. 7.

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

Referring to Figures 1 to 6, the stabilization system of a distribution line according to the present invention includes a case 10 fixed to a wancheol (F), a pivot rotating tool 20 installed on the case 10 in a spherical shape, and , An insulator body 30 of insulating material having one end fixed to the pivot rotation tool 20, a fixing mechanism 40 provided at the lower end of the insulator body 30 to fix the jumper wire J, and the insulator body ( It consists of a buffer mechanism 50 for elastically supporting 30).

The case 10 is installed at the lower end of the wancheol (F) via the fastening member (B).

The fastening member (B) is a long bolt, which penetrates through the wancheol (F) and the case 10 and is screwed to each of the wancheol (F) and the case 10, thereby fixing the wancheol (F) and the case 10 to each other. do.

The inside of the case 10 is divided into a rotating hole exposed portion 12 and a spring installation portion 13 by a fixing plate 11 formed in a horizontal direction.

The fixing plate 11 has a seating hole h penetrating vertically in the center thereof.

The seating hole (h) is rounded toward the inside, which is when the lower surface of the pivoting rotating sphere 20 is inserted into the mounting hole (h), the pivoting rotating sphere 20 and the mounting hole (h) contact the maximum surface By doing this, the fixing plate 11 is to stably support the pivoting rotating sphere 20.

The pivot rotation tool 20 has a spherical shape, and its lower surface is seated in the seating hole h of the case 10, and the upper surface is exposed to the rotation tool exposed portion 12. At this time, the pivot rotation tool 20 is rotatable in all directions.

The insulator body 30 is made of an insulating material, and the pivoting rotation tool 20 is screwed at the upper end, and the fixing mechanism 40 is screwed at the lower end.

The fixing mechanism 40 is a support member 41 in the shape of a'C' in which a groove (g) in which a jumper line J is seated is formed on the bottom surface, and the support member 41 through a separate fastening member. It is composed of a fixing member 42 for closely fixing the jumper wire J which is fastened and seated in the groove g of the support member 41, and is fixed to the lower end of the insulator body 30.

At this time, the jumper wire (J) serves to connect the overhead wire (L) from the substation and the overhead wire (L) from the customer, which is fixed to the wancheol (F) through a separate insulator (A), It stretches downward of Wancheol (F).

The buffer mechanism 50 is installed in the spring installation portion 13 of the case 10, so that the insulator body 30 and the fixing mechanism 40 fixed thereto are in place, the insulator body 30 is pressed in all directions. It consists of at least three or more springs (S) to support.

Four of the springs S are installed along the surface of the spring installation part 13. At this time, each spring (S) is fixed to the lower end of the spring installation portion 13 of the case 10, the other end is connected to the upper end of the insulator body 30 via the spring fixing member (K), The body 30 is elastically supported in the horizontal direction.

The operating state of the stabilization system for the distribution line according to the present invention will be described with reference to FIG. 6 as follows.

First, in the state as shown in FIG. 4, when wind power acts on the insulator body 30, the insulator body 30 rotates along the wind direction around the pivoting rotation tool 20 to become as shown in FIG. 6. At this time, the spring (S) in the direction in which the wind blows is tensioned and the spring (S) on the opposite side is contracted, while each spring (S) interacts, acting on the insulator body 30 and the fixing mechanism 40 Wind power is offset.

As described above, the stabilization system of the distribution line according to the present invention has a sufficient buffering force for the insulator body 30 and the fixing mechanism 40 through the buffer mechanism 50 while rotating the insulator body 30 and the fixing mechanism 40. To prevent the stress from being concentrated on the jumper wire (J) fixed to the fixing mechanism (40).

That is, while preventing the jumper wire J from contacting the electric pole P as much as possible, disconnection of the jumper wire J due to stress concentration is prevented, so that power is safely supplied to each customer.

The stabilization system of the distribution line according to the present invention further includes a detachable part 100 that enables replacement of the pivoting rotation tool 20 as shown in FIGS. 7 to 8.

The detachable part 100 allows the rotation of the insulator body 30 according to external pressure so that it can be easily replaced when the pivot rotation tool 20 is worn due to contact with the fixing plate 11. To lose.

The detachable part 100 includes a lower plate 110 provided on both sides of the upper part of the case 10, an upper plate 120 and a lower plate 110 provided on both sides of the wancheol (F) so as to face up and down with the lower plate 110. It includes a support means 130 for supporting 120).

The case 10 is formed with a hollow (10a) communicating with the rotating sphere exposed portion (12) on the top.

The detachable part 100 separates the fastening member B from the case 10, that is, when the case 10 is disengaged, the case 10 is supported by the wancheol F without dropping, and the pivot rotation tool through the hollow 10a ( 20) can be checked or replaced.

The support means 130 includes a support bar 131 having a head portion 131a formed at the upper portion thereof and the lower portion passing through the upper and lower plates 120 and 110, a separation preventing member 132 provided at the lower portion of the support bar 131, and It includes an elastic member 133 coupled to the outside of the support bar 131 so as to be positioned between the head 131a and the upper plate 120.

The support bar 131 may have a screw thread formed on the lower outer circumferential surface, and the separation preventing member 132 may be screwed into the support bar 131 while a thread is formed on the inner circumferential surface.

The lower plate 110 is lowered together with the case 10 as the fastening member B is separated from the case 10 and presses the separation preventing member 132 downward.

The elastic member 133 buffers the impact while being contracted by the pressure of the head 131a as the lower plate 110 presses the separation preventing member 132 downward, while the case 10 is gradually lowered. To lose.

Accordingly, the head portion 131a may not collide with the upper plate 120.

The case 10 moves downward as the fastening member (B) is disengaged from the case 10 and is spaced apart from the wancheol (F), and inspection or replacement of the pivot rotating hole 20 through the hollow (10a) is not possible. It is possible.

The detachable part 100 may further include an adjustment bar 140 having a lower portion connected to the pivot rotation tool 20 and an upper portion extending upwardly.

It is preferable that the adjustment bar 140 has a length such that the rotation of the insulator body 30 does not contact the fastening member (B).

The adjustment bar 140 may be provided with a handle 141 at the top, and the case 10 is an insulator for the pivot rotation tool 20 through the grip through the hollow 10a in a state spaced apart from the wancheol (F). Separate and withdrawal from the main body 30 is possible.

After the inspection or replacement of the pivot rotation tool 20 is completed, the separation preventing member 132 may be tightened so that the case 10 is in contact with the wancheol F, and the fastening member B may be fastened. At this time, the elastic member 133 is in a contracted state.

Then, after the fastening member (B) is fastened to the case 10, the separation preventing member 132 is released so that the elastic member 133 is relaxed.

Due to this, the detachable part 100 allows the rotation of the insulator body 30 due to external pressure when the pivot rotation tool 20 is worn by contact with the fixing plate 11 so that replacement can be easily performed. It can be done stably.

What has been described above is merely an embodiment for implementing the system for stabilizing a distribution line according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the claims below, the gist of the present invention Without departing from, anyone of ordinary skill in the field to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be implemented.

10: case 20: pivot rotating sphere
30: insulator body 40: fixing mechanism
50: shock absorber 100: detachable part
110: lower plate 120: upper plate
130: support means 131: support bar
132: separation preventing member 133: elastic member
140: control bar

Claims (1)

A case 10 that communicates with the fixing plate 11 and the seating hole h, has a spring installation part 13 disposed under the fixing plate 11, and is fixed to the lower end of the wancheol (F) via a fastening member (B). ); A pivot rotating sphere 20 that is seated in a rotating state in the mounting hole h; An insulator body 30 inserted into the spring installation part 13 and fixed to the pivot rotation tool 20; A fixing mechanism 40 provided at the lower end of the insulator body 30 and fixed to the jumper wire J; And in the stabilization system of the distribution line comprising a shock absorber (50) consisting of three or more springs (S) installed in the spring installation portion (13) to elastically support the insulator body (30),
When the fastening member (B) is separated from the case (10), the case (10) is supported by the wancheol (F) without dropping, thereby enabling the inspection and replacement of the pivot rotation tool (20) It further includes a portion (100),
The detachable part 100,
Lower plates 110 provided on both upper sides of the case 10;
An upper plate 120 provided on both sides of the wancheol (F) so as to face up and down with the lower plate 110;
Support means (130) for supporting the lower plate (110) to the upper plate (120); And
A lower portion is connected to the pivoting tool 20 and includes an upper portion of the control bar 140 extending upwardly,
The support means 130,
A support bar 131 having a head portion 131a formed at the upper portion and passing through the upper and lower plates 120 and 110;
A separation preventing member 132 provided under the support bar 131; And
It includes an elastic member 133 coupled to the outside of the support bar 131 so as to be positioned between the head portion 131a and the top plate 120,
The lower plate 110,
As the fastening member (B) is separated from the case 10, as it descends together with the case 10, the separation preventing member 132 is pressed downward,
The support bar 131,
As the lower plate 110 presses the fastening member (B), it moves downward,
The elastic member 133,
As the fastening member (B) is disengaged from the case 10, it is contracted by the pressure of the support bar 131 descending together with the case 10 to buffer the impact, while the case 10 Let the descent take place gradually,
The case 10,
A hollow (10a) is formed in the upper portion, as the fastening member (B) is disengaged from the case (10), as it moves downward, it is separated from the wancheol (F), and the pivot rotates through the hollow (10a). To enable inspection and replacement of the old (20),
The control bar 140,
While the handle 141 is provided on the upper part, the case 10 is gripped through the hollow 10a while the case 10 is separated from the wancheol F from the insulator body 30 with respect to the pivot rotational tool 20 Stabilization system of a distribution line, characterized in that to enable the separate withdrawal of.

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