KR101885223B1 - Spacer apparatus of power transmission line on steel tower - Google Patents

Abstract

The present invention relates to a spacer device of an overhead transmission tower. More specifically, the present invention relates to a spacer device of an overhead transmission tower which easily fixes a transmission line along a part in which a bent groove and a wire groove formed on a rotation plate and a base plate are coincided with each other and maintain an interval between the transmission lines. Also, the spacer device of an overhead transmission tower individually holds and rotates the base plate and the rotation plate, mutually bonds the rotation plate and the base plate in a state that a vertical part of the rotation plate and the wire groove of the base plate are coincided with each other, and smoothly inserts the transmission line into the vertical part and the wire groove. The spacer device of an overhead transmission tower comprises: the base plate (20); the rotation plate (30); a spring (40); a fixing bolt (50); and a temporary fixing ring (60).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spacer apparatus for a power transmission tower,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spacer apparatus for a transmission tower of a power transmission tower in transmission technology, and more particularly to a spacer apparatus for a transmission tower, While the grips of the base plate and the rotary plate are respectively held and rotated to connect the rotary plate and the base plate to each other in a state where the vertical portion of the rotary plate and the electric wire grooves of the base plate coincide with each other, To a spacer device of a machining transmission tower.

Generally, the shape of a steel tower used as a support for a transmission line varies depending on the transmission power, voltage, and topography of the line, and may be as high as 60 meters. The main material is a steel having an L-section in cross-section. The horizontal section is often square, and the foundation is also made of concrete at the apex of the square. The pylon of the transmission line usually supports three phases, two lines, ie six wires.

The distance between the steel towers is usually 20 to 30 meters, and the minimum height from the surface of the wires installed on the steel towers is determined by the electrical equipment technology. For example, when the line is 150,000 V, the minimum height is 6 meters.

In general, when a track crosses a wide river or a deep valley, a strong structure is required because the span is long and the tension of the wire becomes large.

There are small power transmission lines or pylons built on a single foundation as a support for power lines or telephone lines.

These steel towers for transmission lines connect a large number of transmission lines to each other. Such transmission lines are installed under high-temperature conditions such as wind, snow, rain, etc., do.

Accordingly, when strong winds are blown, the transmission lines are shaken up and down to cause friction between each other, which causes a serious safety accident such as short-circuit or short-circuit.

As a conventional technique in which such a problem is partially improved, Korean Patent Registration No. 10-0923216 (Oct. 27, 2009) discloses an 'interstage spacer for a steel tower with transmission line'.

However, in such a conventional phase-to-phase spacer for a power transmission line, it is necessary to hold the base plate and the handle of the rotating plate respectively and to insert the transmission line into the vertical portion and the bent groove in a state where the vertical portion of the rotating plate and the electric- Therefore, there is a problem that an artificial pressing such as grasping with a hand is required to prevent the base plate and the rotary plate from rotating with each other even when the vertical portion and the wire groove are aligned.

Korea Patent Registration No. 10-0923216 (October 27, 2009) 'Interphase Spacer for Steel Tower with Transmission Line'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of fixing a transmission line along a portion where a bent groove formed in a rotating plate and a base plate coincides with a wire groove, On the other hand, when the grips of the base plate and the rotary plate are respectively held and rotated, the rotary plate and the base plate are mutually coupled in a state where the vertical portion of the rotary plate and the electric wire grooves of the base plate are aligned with each other to smoothly insert the transmission line into the vertical portion and the electric wire groove And to provide a spacer device for a machining transmission tower.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention is characterized in that a wire groove (23) is formed at a predetermined interval around a circular plate body (21) made of an insulating material and a central hole And arc-shaped grooves 24 are formed in the lower portion of the inner side surface of the circular plate 21 with the center hole 22 as a center and fixing projections 25 are formed on one side of the arcuate grooves 24 A base plate 20 protruding from the circular plate body 21 and having two U-shaped tabs 27 formed on the outer surface of the circular plate body 21 and having a plurality of ventilation holes 26 formed in the circular plate body 21; A folding groove 33 is formed at a predetermined interval around the circular plate 31 having the same material and size as those of the base plate 20. A center hole 32 is formed in the center of the circular plate 31, Arc-shaped grooves 34 are formed at the same positions as the base plate 20 on the lower side of the inner side surface of the circular plate 31 with the center hole 32 as the center, Fixing protrusions 35 protrude from the base plate 20 so as to be symmetrical with the fixing protrusions 25 of the base plate 20. Two U-shaped tabs 37 are formed on the outer surface of the circular plate 31 at the upper portion thereof, The bent grooves 33 are formed integrally with the vertical portions 33-1 so that the bent portions 33-2 are formed in the bent portions of the wire grooves 33-2 of the base plate 20 23); A spring 40 having one end fixed to the fixing protrusion 25 of the base plate 20 and the other end fixed to the fixing protrusion 35 of the rotary plate 30 so as to be elastically pulled from each other; A fixing bolt (50) penetrating the center hole (22) of the base plate (20) and the center hole (32) of the rotary plate (30) and fixed to the base plate (20) ); Shaped and formed in an S-shape so that the electric line groove 23 of the base plate 20 and the vertical portion 33-1 of the bent groove 33 of the rotary plate 30 coincide with each other, 33. A spacer apparatus for a working transmission tower, comprising a provisional fixing ring (60) fixedly connected to a transmission line (1) and a grip (27, 37) when inserting two transmission lines (1) 1 and the electric wire grooves 23 are connected to each other so that the rotary plate 30 and the base plate 20 are connected to each other and the electric power transmission lines 1 (100) includes a first support plate (110) extending upward from an upper portion of the rotation plate (30), and a second support plate (110) extending upward from the upper portion of the rotation plate (30). And a second groove extending in an upward direction from an upper portion of the base plate so as to face the first support plate with reference to a state where the vertical portion and the electric wire groove are aligned, A second support plate 120 having a lock hole 121 formed on an inner surface thereof opposite to the support plate 110; A lock bar (130) movably connected to the first support plate (110) so as to be movable in the longitudinal direction so that one end thereof faces the second support plate (120); The lock bar 130 is pressed by the second support plate 120 so that one end of the lock bar 130 is inserted into the lock hole 121 and the rotation plate 30 and the base plate 20 are connected to each other Wherein the lock means (140) comprises: a compression ring (141) provided outside one end of the lock bar (130); And an elastic member 142 coupled to the outside of the lock bar 130 so as to be positioned between the compression ring 141 and the first support plate 110, The vertical portion 33-1 of the rotary plate 30 and the electric wire groove 23 of the base plate 20 are brought into contact with each other by holding the handle 20 and the handles 27 and 37 of the rotary plate 30, One end of the lock bar 130 is kept in contact with the second support plate 120 while the vertical portion 33-1 and the electric wire groove 23 are aligned with each other, And one end of the lock bar (130) is drawn into the lock hole (121) by pressing the compression ring (141) while being loosened.

According to the present invention, first, when a power spring is rotated to extend the springs installed on the rotating plate and the base plate, the transmission line is inserted into the corresponding bent groove vertical portion and the electric wire groove, There is an effect that the transmission line is located at the portion and is easily fixed.

Second, since it is formed of a light insulation material, it does not affect the weight of the transmission line much, and it is effective to less influence of wind due to ventilation holes.

Third, it is effective to fix the upper two transmission lines with a temporary fixing ring at the time of installation, and to easily fix them by removing the force after inserting the lower two transmission lines.

Fourth, the grips of the base plate and the rotary plate are respectively held and rotated, so that the vertical portion of the rotary plate and the wire grooves of the base plate coincide with each other. There is an effect that can be achieved.

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

1 is a perspective view showing a spacer device of a machining transmission tower according to the present invention.
2 is an exploded perspective view showing a spacer device of a machining transmission tower according to the present invention.
3 is a front view showing a state in which a transmission line is fixed in a spacer apparatus of a machining transmission tower according to the present invention.
4 is an operational state diagram showing a state in which a transmission line is inserted in FIG.
5 is a side view showing a spacer device of a machining transmission tower according to the present invention.
6 is a front view showing a rotating plate in the spacer device of the machining transmission tower according to the present invention.
FIG. 7 is a rear view of a base plate in a spacer apparatus for a working transmission steel tow according to the present invention. FIG.
FIG. 8 is a side view showing a state in which the locking part is provided in FIG.
And
FIG. 9 is a use state diagram showing the operating state of the lock portion in FIG. 8. FIG.

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

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention utilizes the same as described in the above-mentioned Japanese Laid-open Patent No. 0923216. Therefore, all of the features of the device configuration described below can be understood as those described in Japanese Patent No. 0923216.

However, in the present invention, the 'interspacing spacer for transmission tower with iron tower' is replaced with 'a spacer apparatus for transmission transmission tower' among the configurations disclosed in the above-mentioned Japanese Patent No. 0923216, A structure for mutually binding plates and a description of the operation thereof are further included, and this part constitutes the most essential constitutional feature.

Therefore, the device structure, characteristics, and operating relationship described below will be referred to as the contents of the above-mentioned JP 0923216, and the configuration related to the main features of the present invention will be described in detail at the rear end.

1 to 7, a spacer device (hereinafter referred to as a "spacer device") 10 of a machining power transmission tower according to the present invention includes a base plate 20 and a rotating plate 30 Four wire grooves 23 are formed in the base plate 20 and four bent grooves 33 corresponding to the base plate 20 are formed on the rotary plate 30 so as to be connected to the transmission wire 1. [ In a simple manner.

The base plate 20 is formed around the circular plate body 21 made of an insulating material with the wire grooves 23 directed toward the center at regular intervals and four wire grooves 23 are formed at an angle of 90 degrees.

Two of the wire grooves 23 are located on the same horizontal line and the remaining two of the wire grooves 23 are located on the same horizontal line at the bottom and the two transmission lines 1 are fixed at the upper and lower sides, give.

A center hole 22 is formed at the center of the circular plate body 21 so as to extend in the front and rear directions and an arcuate groove 24 is formed at the lower side of the inner surface of the circular plate body 21 about the center hole 22. A fixing protrusion 25 protrudes from one side of the arcuate groove 24 and fixes one end of a spring 40 described later.

Two U-shaped tabs 27 are formed on the outer surface of the disk 21 of the base plate 20 and a plurality of ventilation holes 26 are formed in the disk 21.

The rotary plate 30 is formed with a bent groove 33 at a predetermined interval around the circular plate 31 made of the same material and size as those of the base plate 20, (32) are formed so as to pass through the front and rear.

The rotary plate 30 is formed with arc-shaped grooves 34 at the same position as the base plate 20 on the lower side of the inner surface of the circular plate 31 with the center hole 32 as the center, Fixing protrusions 35 protrude from the base plate 20 at positions symmetrical with the fixing protrusions 25 thereof.

The rotary plate 30 is formed with two U-shaped tabs 37 on the outer surface of the disk 31 and a plurality of vent holes 36 formed in the disk 31. The bent groove 33 is formed integrally with the vertical portion 33-1 so as to be selectively in contact with the wire groove 23 of the base plate 20.

The ventilation holes 36 are formed in the ventilation holes of the base plate 20 when the bent portions 33-2 of the bent plate 33 of the rotary plate 30 and the electric wire grooves 23 of the base plate 20 are aligned with each other. 26), so that the wind can be passed and the damage by the personality is prevented.

One end of the spring 40 is fixed to the fixing protrusion 25 of the base plate 20 and the other end is fixed to the fixing protrusion 35 of the rotary plate 30 so as to be elastically pulled from each other. The rotary plate 30 and the base plate 20 are rotated around the fixing bolt 50. When the force is removed, the rotary plate 30 and the base plate 20 are returned to the positions where the spring 40 is pulled, Respectively.

The fixing bolt 50 is passed through the center hole 22 of the base plate 20 and the center hole 32 of the rotation plate 30 so that the base plate 20 and the rotation plate 30 are rotatably supported by the nut 51 .

The provisional fixing ring 60 is formed in an S shape so that the electric wire groove 23 of the base plate 20 and the vertical portion 33-1 of the bending groove 33 of the rotary plate 30 are aligned, One end of the temporary fixing ring 60 is engaged with the power transmission line 1 and the other end of the temporary fixing ring 60 is connected to the handle 27 37, respectively.

4, when the grips of the base plate 20 and the rotary plate 30 are respectively held and rotated, the vertical portions 33-1 of the bent grooves 33 of the rotary plate 30 and the vertical portions 33-1 of the front plate 20 of the base plate 20, (23) are aligned, and the transmission line (1) is inserted into the coincided space. That is, after the upper two transmission lines 1 are inserted, temporarily fixed by fixing the temporary fixing ring 60, the lower two transmission lines 1 are inserted into the wire grooves 23 and the vertical part 33-1, The rotating plate 30 is rotated by the force of the spring 40. [

The bent portion 33-2 of the bending groove 33 comes to the position of the wire groove 23 as shown in Fig. 3, and in this state, the bending portion 33-2 of the vertical portion 33- 1) is blocked and the transmission line (1) can not escape.

As a result, the transmission line can be easily fixed.

In the present invention, as shown in FIG. 8 to FIG. 9, the vertical part 33-1 and the wire groove 23 coincide with each other and the rotation plate 30 and the base plate 20 are mutually coupled to each other.

The locking part 100 rotates the base plate 20 and the knobs 27 and 37 of the rotating plate 30 to rotate the vertical part 33-1 of the rotating plate 30 and the base plate 20 (30) and the base plate (20) in a state where the electric wire grooves (23) of the electric wire (1) are aligned with each other, So that insertion can be smoothly performed.

This is achieved by holding the base plate 20 and the grips 27 and 37 of the rotary plate 30 and rotating the grips 27 and 37 in a state where the vertical portion 33-1 and the wire groove 23 are in agreement, So that the vertical portion 33-1 and the electric wire groove 23 are kept in a state in which the vertical portion 33-1 and the electric wire groove 23 coincide with each other without being continuously pressurized to the vertical portion 33-1 and the electric wire groove 23 1) can be smoothly inserted.

The locking part 100 includes a first support plate 110 extending outwardly from the rotation plate 30 and a second support plate 110 extending from the rotation plate 30 in a state where the vertical part 33-1 and the wire groove 23 are aligned A second support plate 120 extending outwardly from the base plate 20 so as to face the first support plate 110 and having a lock hole 121 formed on an inner side surface facing the first support plate 110, A locking bar 130 whose one end is connected to the first supporting plate 110 so as to be movable in the longitudinal direction so as to face the second supporting plate 120; And locking means 140 for coupling the rotary plate 30 and the base plate 20 with one end of the lock bar 130 being inserted into the lock hole 121.

The first support plate 110 may have a rectangular shape and may extend upward from an upper portion of the rotation plate 30.

The first support plate 110 is formed with a guide hole 111 that coincides with the lock hole 121 on the basis of a state where the vertical portion 33-1 and the electric wire groove 23 are aligned with each other.

The second support plate 120 may have the same shape as the first support plate 110 and may extend upward from the upper surface of the base plate 20.

The locking bar 130 has a circular bar shape with both ends extending in the direction of the first and second supporting plates 110 and 120 and is movably coupled to the guide hole 111 in the longitudinal direction.

The locking bar 130 has a grip 131 protruding outward at the other end.

The gripper 131 is pulled in a direction opposite to the lock hole 121 in a state where the operator grips the gripper 130 by hand so that one end of the lock bar 130 is rotated in a direction opposite to the second support plate 120 .

The locking means 140 is provided outside the one end of the locking bar 130 so that one end of the locking bar 130 is pressed against the second supporting plate 120 in a state in which the locking hole 130 is drawn into the locking hole 121. [ A ring 141 and an elastic member 142 coupled to the outside of the lock bar 130 to be positioned between the compression ring 141 and the first support plate 110.

The lock bar 130 may have threads formed on the outer circumferential surface thereof and the compression ring 141 may be screwed to the lock bar 130 while forming a thread on the inner circumferential surface thereof.

Accordingly, the compression ring 141 is moved in the longitudinal direction of the lock bar 130 in accordance with the rotation, and can appropriately adjust the pulling-in degree of the lock bar 130 that is drawn into the lock hole 121.

The elastic member 142 is formed of a spring in a general form and rotates by holding the base plate 20 and the handles 27 and 37 of the rotation plate 30 to rotate the vertical portions 33- 8 and the electric wire groove 23 of the base plate 20 are aligned with each other, as shown in FIG. 8, one end of the lock bar 130 is in contact with the second support plate 120, While the vertical portion 33-1 and the electric wire groove 23 are aligned with each other as shown in FIG. 9, the pressing ring 141 is pressed to press the compression bar 141, So that one end thereof is inserted into the lock hole 121.

The lock bar 130 is in a state in which one end portion is drawn into the lock hole 121 by the pressing of the elastic member 142 in a state where the vertical portion 33-1 and the electric wire groove 23 are aligned with each other .

The lock bar 130 is pulled out from the lock hole 121 by one end as the grip portion 131 is pulled in the direction opposite to the lock hole 121 and the rotation plate 30 and the base plate 20 Is released. At this time, the rotary plate 30 is rotated by the force of the spring 40 so that the vertical part 33-1 is blocked so that the transmission line 1 can not escape.

The locking part 100 may further include an elastic force adjusting unit 150 for adjusting the elastic force of the elastic member 142.

The elastic force adjusting means 150 includes an adjusting pipe 151 extending from the periphery of the guide hole 111 in the direction of the second supporting plate 120 and an elastic member 142 extending from the elastic supporting member 142 to the first supporting plate 110, And an adjusting ring 152 screwed to the outside of the adjusting tube 151 so as to be positioned between the adjusting ring 151 and the adjusting ring 151. [

The control tube 151 may be integrally formed with the first support plate 110, and a thread is formed on an outer circumferential surface thereof.

The control ring 152 is formed in a disk shape and threaded on the inner circumferential surface of the control ring 152 so as to be movable outside the control tube 151.

Accordingly, the adjustment ring 152 can adjust the elastic force of the elastic member 142 while being moved in the longitudinal direction of the adjustment pipe 151 according to the rotation.

The control ring 152 may have a side wall 153 extending from the outer circumferential surface thereof toward the second support plate 120.

The side wall 153 prevents the elastic member 142 from coming off, and allows the artificial grip to be smoothly performed.

The locking portion 100 is positioned at a position where the vertical portion 33-1 of the rotary plate 30 and the electric wire groove 23 of the base plate 20 are aligned with the rotation plate 30, It is possible to smoothly insert the transmission line 1 into the vertical portion 33-1 and the electric wire groove 23 by connecting the electric wire 20 to the vertical portion 33-1.

delete

1: transmission line 10: spacer device
20: base plate 23: electric wire groove
27: handle 30: spindle
33: bending groove 37: handle
40: spring 60: temporary retaining ring
100: locking part 110: first supporting plate
111: guide hole 120: second support plate
121: lock hole 130: lock bar
140: locking means 141: compression ring
142: elastic member 150: elastic force adjusting means
151: regulating tube 152: regulating ring

Claims (1)

A wire groove (23) is formed at a predetermined interval around a circular plate body (21) made of an insulating material. A center hole (22) is formed at the center of the circular plate (21) Shaped groove 24 is formed at a lower portion on the inner side surface of the circular plate body 21 with respect to the circular plate body 21 and a fixing protrusion 25 is formed on one side of the arc- A base plate 20 on which two U-shaped tabs 27 are formed on the upper side and a plurality of ventilation holes 26 are formed in the disk 21;
A folding groove 33 is formed at a predetermined interval around the circular plate 31 having the same material and size as those of the base plate 20. A center hole 32 is formed in the center of the circular plate 31, Arc-shaped grooves 34 are formed at the same positions as the base plate 20 on the lower side of the inner side surface of the circular plate 31 with the center hole 32 as the center, Fixing projections 35 protrude from the base plate 20 so as to be symmetrical with the fixing protrusions 25 of the base plate 20. Two U-shaped tabs 37 are formed on the outer surface of the circular plate 31 at the upper portion thereof, The bent grooves 33 are formed integrally with the vertical portions 33-1 so that the bent portions 33-2 are formed in the bent portions of the wire grooves 33-2 of the base plate 20 23);
A spring 40 having one end fixed to the fixing protrusion 25 of the base plate 20 and the other end fixed to the fixing protrusion 35 of the rotary plate 30 so as to be elastically pulled from each other;
A fixing bolt (50) penetrating the center hole (22) of the base plate (20) and the center hole (32) of the rotary plate (30) and fixed to the base plate (20) ); And
And the upper part 2 of the four transmission lines 1 is formed in an S shape and in a state in which the wire groove 23 of the base plate 20 and the vertical part 33-1 of the bent groove 33 of the rotary plate 30 are aligned, And a temporary fixing ring (60) fixed to the transmission line (1) and the grips (27, 37) when the transmission line (1) is inserted,
The vertical part 33-1 and the electric wire groove 23 are connected to each other so that the rotary plate 30 and the base plate 20 are connected to each other and the vertical part 33-1 and the electric wire groove 23 (100) for smoothly inserting the power transmission line (1) into the main body
The locking portion 100 may be formed,
A first support plate 110 extending upward from an upper portion of the rotary plate 30;
And a second groove extending in an upward direction from an upper portion of the base plate so as to face the first support plate with reference to a state where the vertical portion and the electric wire groove are aligned, A second support plate 120 having a lock hole 121 formed on an inner surface thereof opposite to the support plate 110;
And a grip portion 131 connected to the first support plate 110 so as to be movable in the longitudinal direction so as to face the second support plate 120 at one end thereof and protruding outward at the other end portion thereof, A locking bar 130;
The lock bar 130 is pressed by the second support plate 120 so that one end of the lock bar 130 is inserted into the lock hole 121 and the rotation plate 30 and the base plate 20 are connected to each other (140), the locking means
The locking means (140)
The lock bar 130 is inserted into the lock hole 130 while being moved in the longitudinal direction of the lock bar 130 as the lock bar 130 is rotated, A compression ring 141 for regulating the degree of drawing of the sheet material; And
And an elastic member (142) coupled to the outside of the lock bar (130) so as to be positioned between the compression ring (141) and the first support plate (110)
The elastic member (142)
The base plate 20 and the knobs 27 and 37 of the rotary plate 30 are respectively rotated to rotate the vertical portion 33-1 of the rotary plate 30 and the electric wire groove 23 of the base plate 20, One end of the lock bar 130 is kept in contact with the second support plate 120 while the vertical portion 33-1 and the wire groove 23 coincide with each other, The one end of the lock bar 130 is drawn into the lock hole 121 by pressing the compression ring 141,
The locking portion 100 may be formed,
Further comprising an elastic force adjusting means (150) for adjusting an elastic force of the elastic member (142)
The elastic force adjusting means (150)
A control tube (151) extending from the inner circumferential surface of the first support plate (110) in the direction of the second support plate (120) and forming a thread on the outer circumferential surface; And
And is screwed to the outside of the adjusting pipe 151 so as to be positioned between the elastic member 142 and the first supporting plate 110 and is moved in the longitudinal direction of the adjusting pipe 151 And an adjusting ring (152) for adjusting the elastic force of the elastic member (142)
The adjustment ring (152)
And a side wall (153) formed to extend from the outer circumferential surface toward the second support plate (120) while preventing the elastic member (142) from disengaging and allowing for artificial grasping. .

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