KR102229725B1 - Stabilization system of distribution line - Google Patents

Abstract

The present invention relates to a stabilization system of an overhead distribution line and, more specifically, to a stabilization system of an overhead distribution line for preventing separation of an insulator that a fixed plate may be deformed or worn by friction with a pivot rotating ball by stably supporting a jumper wire and preventing the breakage of an overhead distribution line due to wind power while supporting a pivot rotating ball on an inner upper surface of a case.

Description

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 overhead distribution line by wind power while stably supporting a jumper line, while a pivot rotation tool is provided on the inner upper part of the case. The present invention relates to a stabilization system for an overhead distribution line to prevent separation of an insulator body that may be caused by deformation or abrasion of a fixed plate by friction with a pivoting rotating tool by being supported on a surface.

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 various stages of transformation process at the substation. Therefore, it goes through the 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 at 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, if an insulator for fixing the jumper wire is installed in 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 in that when the insulator body is rotated due to external pressure such as wind power, the fixing plate is worn due to friction with the pivot rotation tool.

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 overhead distribution lines caused by wind power, while a pivot rotation tool is provided on the inner upper surface of the case. It is to provide a stabilization system for an overhead distribution line to prevent separation of the insulator body that may be caused by deformation or abrasion of the fixed plate by friction with the pivoting rotating sphere by being supported.

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 seating hole h, and a spring installation part 13 disposed under the fixing plate 11 in communication with the seating 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 an insulating material that is 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 a 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 properly positioned. In the stabilization system of the overhead distribution line including the buffer mechanism 50 consisting of), the pivoting rotation tool 20 further comprises a support portion 100 to be supported on the inner upper surface of the case 10, The support part 100 may include a support roller 110 provided on an inner upper surface of the case 10 so as to be positioned above the pivot rotation tool 20; A guide roller 120 provided on an inner side of the case 10; A support line 130 having one end fixed to the pivot rotation tool 20, the other end passing through the fixing plate 11, and supported by the support roller 110 and the guide roller 120 between both ends; A pressing plate 140 fixed to a lower portion of the support line 130; A plate spring 150 coupled to the outside of the support line 130 so as to be positioned between the pressure plate 140 and the fixing plate 11 while forming a shape like'⊃'; A support plate 160 fixed to an inner side of the case 10 and on which the pressure plate 140 is seated; And a reinforcing member 180 for preventing deformation of the leaf spring 150.

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, since the pivoting rotation tool is supported on the inner upper surface of the case, there is an effect of preventing separation of the insulator body that may occur when the fixing plate is deformed or worn by friction with the pivoting rotation tool.

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 an overhead distribution line according to the present invention.
2 is a plan view schematically showing a stabilization system for an overhead distribution line according to the present invention.
3 is a cross-sectional view showing a fixing mechanism of the stabilization system for an overhead distribution line according to the present invention.
4 is a cross-sectional view showing a stabilization system for an overhead distribution line according to the present invention.
5 is an AA cross-sectional view of FIG. 4.
6 is a state diagram showing the operation of the stabilization system of the overhead distribution line according to the present invention.
7 is a cross-sectional view showing a state in which a support is provided in the stabilization system of an overhead distribution line according to the present invention.
8 is a partially enlarged cross-sectional view showing the support in FIG. 7.
And
9 is a partially enlarged cross-sectional view showing a state in which a reinforcing member is provided as a leaf spring in FIG.

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 an overhead distribution line according to the present invention includes a case 10 fixed to a wancheol (F), and a pivot rotating tool 20 installed on the case 10 in a spherical shape. Wow, the insulator body 30 of an 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 is formed with a seating hole (h) penetrating up and down in the center.

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 so, 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 having a'C' shape in which a groove g in which a jumper line J is mounted is formed on the bottom surface, and the support member 41 through a separate fastening member. It is composed of a fixing member 42 that closely fixes the jumper wire J that 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 mounting 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 of the overhead 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, and 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 overhead distribution line according to the present invention is sufficient 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. A buffering force is provided so that stress is not 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 for an overhead distribution line according to the present invention further includes a support part 100 for supporting the pivoting rotation tool 20 on the inner upper surface of the case 10 as shown in FIGS. 7 to 9.

The support part 100 distributes the load of the insulator body 30 acting as the fixing plate 11 to prevent deformation or abrasion of the fixing plate 11 when the insulator body 30 rotates due to external pressure. It prevents the insulator body 30 from being separated from (11) together with the pivoting rotation tool (20).

The support part 100 is a support roller 110 provided on the inner upper surface of the case 10 so as to be located above the pivot rotation tool 20, and the inner work of the case 10 to be located at one side of the support roller 110. The guide roller 120 provided on the side, one end is fixed to the pivoting hole 20, the other end passes through the fixing plate 11, and a support line supported by the support roller 110 and the guide roller 120 between both ends (130), the pressure plate 140 fixed to the lower portion of the support line 130, the plate spring 150 positioned between the pressure plate 140 and the fixed plate 11, and the inner side of the case 10 are fixed to one side of the pressure plate ( 140) includes a support plate 160 on which it is seated.

While the support roller 110 is rotatably fixed to the inner upper surface of the case 10 and supports between both ends of the support line 130, the support line 130 is rotated according to the movement of the support line 130 To ensure smooth movement.

While the guide roller 120 is rotatably fixed to the inner side of the case 10 so as to be positioned on one side of the support roller 110, the guide roller 120 supports the support between both ends of the support line 130 together with the support roller 110, As the support line 130 rotates according to the movement of the support line 130, the support line 130 moves smoothly.

The support line 130 may be formed of a wire or the like, and one end is fixed to the upper portion of the pivoting rotation tool 20 and the other end is positioned inside the spring installation part 13 while passing through the fixing plate 11.

The support line 130 may be moved in the direction of both ends when the insulator body 30 is rotated by an external force while being supported by the support roller 110 and the guide roller 120 between both ends.

The fixing plate 11 is formed with a hollow 11a through which the other end of the support line 130 passes.

The pressure plate 140 is positioned under the fixing plate 11 and the other end of the support line 130 passing through the hollow 11a is fixed.

The plate spring 150 is arranged between the fixing plate 11 and the pressure plate 140 while forming a shape such as'⊃', and the through hole 151a through which the support line 130 passes is formed, and the outer side of the support line 130 is formed. Can be combined.

The plate spring 150 includes a lower plate 151 in contact with the pressing plate 140, an upper plate 152 in contact with the fixing plate 11, and a curved plate 153 connecting one side of the upper and lower plates 152 and 151.

The through hole 151a is formed in the upper and lower plates 152 and 151, respectively, so that the support line 130 passes through the upper and lower plates 151 and 152 to be fixed to the pressing plate 140.

The plate spring 150 is normally held in a relaxed state, but when the insulator body 30 is rotated due to external pressure, the plate spring 150 contracts as the pressure plate 140 is pulled upward, while restoring to its original state while the support line (130) makes it possible to move a certain length.

A guide groove 13a into which the curved plate 153 is inserted may be formed on an inner side surface of the spring installation part 13.

The guide groove 13a guides the contraction and relaxation of the leaf spring 150 and prevents movement in the left and right directions.

The support part 100 may further include a protective tube 170 coupled to the outside of the support line 130 so that the lower part is seated on the upper plate 152 and the upper part passes through the hollow 11a.

The protective tube 170 may be made of a silicone or rubber material, and is coupled to the outside of the support line 130 to prevent the support line 130 from contacting the circumference forming the through hole 151.

The support part 100 may further include a guide means 180 for guiding the movement of the support line 130.

The guide means 180 includes a first guide ring 181 and a first guide ring 181 coupled to the outside of the support line 130 so as to be positioned between the pivot rotation tool 20 and the support roller 110. ), a second guide ring 183 and a second guide ring 183 coupled to the outside of the support line 130 so as to be positioned between the fixing plate 11 and the guide roller 120. ) And a horizontal bar (184) for fixing the inner side of the case (10).

The vertical bar 182 stably supports the first guide ring 181 fixed to the other end while one end is fixed to the inner upper surface of the case 10.

The horizontal bar 184 stably supports the second guide ring 183 fixed to the other end while one end is fixed to the inner one side of the case 10.

The first and second guide rings 181 and 183 are coupled to the outside of both ends of the support line 130 inward to prevent shaking against the support line 130 when the support line 130 is raised or lowered by an external force, While preventing the both ends of the support line 130 from being opened, the support line 130 is prevented from being separated from the first and second guide rings 181 and 182.

The support part 100 may further include a reinforcing member 190 coupled to the outside of the support line 130 so as to be positioned inside the plate spring 150.

The reinforcing member 190 may be made of a rubber material, etc., and is coupled to the outside of the support line 130 so as to be positioned between the upper and lower plates 152 and 151 to prevent the plate spring 150 from being deformed. 20) to ensure that the state of support is maintained.

For this reason, the support part 100 is deformed by wear due to contact with the pivot rotation tool 20 while the load of the insulator body 30 is concentrated around the circumference forming the seating hole h, or the seating hole ( It is possible to prevent separation of the insulator body 30 that may occur as the diameter forming h) increases.

What has been described above is only an embodiment for implementing the stabilization system for an overhead distribution line according to the present invention, and the present invention is not limited to the above embodiment, and as claimed in the claims below, Without departing from the gist, 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 changes can be implemented.

10: case 20: pivot rotating sphere
30: insulator body 40: fixing mechanism
50: buffer mechanism 100: support
110: support roller 120: guide roller
130: support line 140: pressure plate
150: leaf spring 160: support plate
170: protective tube 180: guide means
190: reinforcing member

Claims (1)

A case 10 fixed to the wancheol (F) with a spring installation part 13 disposed under the fixing plate 11 provided with the seating hole (h); An insulator body 30 fixed to the pivot rotating hole 20 rotatably seated in the mounting hole h; And in the stabilization system of the overhead distribution line comprising a buffer mechanism (50) consisting of at least three or more springs (S) installed in the spring installation portion (13) to elastically support the insulator body (30) in all directions,
When the insulator body 30 is rotated due to external pressure by distributing the load of the insulator body 30 acting as the fixing plate 11, a support 100 for preventing deformation or abrasion of the fixing plate 11 ) Further includes,
The support part 100,
A support roller 110 provided on the inner upper surface of the case 10 so as to be positioned above the pivot rotation tool 20;
A guide roller 120 provided on an inner side of the case 10;
One end is fixed to the pivot rotation tool 20, the other end passes through a hollow 11a formed in the fixing plate 11, and the support roller 110 and the guide roller 120 are supported between both ends. Support line 130;
A pressing plate 140 fixed to a lower portion of the support line 130;
A plate spring 150 coupled to the outside of the support line 130 so as to be positioned between the pressure plate 140 and the fixing plate 11 while forming a shape such as'⊃';
A support plate 160 fixed to an inner side of the case 10 and on which the pressure plate 140 is seated;
A protective tube 170 coupled to the outside of the support line 130 so that the lower part is seated on the upper part of the leaf spring 150 and the upper part passes through the hollow 11a;
The case 10 includes a first guide ring 181 coupled to the outside of the support line 130 so as to be positioned between the pivot rotation tool 20 and the support roller 110, and the first guide ring 181 The vertical bar 182 fixed to the upper surface of the second guide ring 183 and the second guide coupled to the outside of the support line 130 so as to be positioned between the fixing plate 11 and the guide roller 120 A guide means 180 for guiding the movement of the support line 130 while including a horizontal bar 184 for fixing the ring 183 to the inner side of the case 10; And
Stabilization of an overhead distribution line, characterized in that it includes a reinforcing member 190 that prevents deformation of the leaf spring 150 while being coupled to the outside of the support line 130 so as to be positioned inside the leaf spring 150 system.

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