KR101206495B1 - Connection support apparatus for changing pylon - Google Patents

Abstract

Disclosed is a connection support device for replacing a tower. According to an embodiment of the present invention, in the connection support device for replacing the iron tower and the old pylon, the pylon tower side fixing portion surrounding the outer of the main tower material; Old tower side fixing portion surrounding the outer tower of the old tower main material; A new steel tower side support part connected to the new steel tower side fixing part to fix the new steel tower main material; A spherical tower side support part connected to the spherical tower side fixing part to fix the spherical tower main material; And one side is coupled to the pylon side support portion to maintain the distance between the pylon tower side fixing portion and the old tower side fixing portion and the other side is provided with a connection support device for replacing the tower including a coupling portion coupled to the pylon side support.

Description

CONNECTION SUPPORT APPARATUS FOR CHANGING PYLON}

The present invention relates to a connection support device for replacing a pylon, and in particular, the present invention relates to a device for connecting and supporting a new pylon and an old pylon to increase the height of the pylon or replace the pylon.

In general, steel towers are steel or steel column towers, which are mainly used for supporting transmission lines. The shape of the pylon depends on the line's transmission power, voltage, and terrain. Say the tower made.

The height of the tower is 60m in height, and in recent years, it has become more than 100m due to the development of technology. The material of a steel tower is steel materials whose cross section is L-shaped, and many horizontal cross sections are square. The foundation of the pylon is made by concrete hardening at square vertices.

Transmission towers usually support three phase, two, or six wires as insulators. The distance between the towers is between 300 and 400 m, and the minimum height from the surface of the wires laid on the tower is determined by the safety clearances for each terrain by the electrical installation technology.

Steel towers were built during the economic development leap of the 1960s and 1970s, and more and more steel towers are lacking in safety separation distances due to surrounding development such as the growth of trees under the transmission line and the expansion of new buildings. If the tower is left as it is, it is impossible to guarantee the failure of the equipment and the safety of the livestock, so the tower must be replaced or the height must be increased.

In this case, the method of replacing the pylon to secure a safe separation distance between the transmission line and the ground replaces the pylon after temporarily installing a line bypassing the construction section in order to cease all the transmission lines or continue to supply electric power. Accordingly, the conventional method for replacing a pylon requires enormous construction costs, and it is impossible to replace the pylon at a precise time due to the deepening of the tower tower. In order to apply the construction method of the tower, which increases the height of the existing steel towers installed, only half of the new steel towers are assembled. In the conventional method of replacing the steel tower or increasing the height, a problem occurs in replacing the steel tower because the fixing part is shaken and the grasp is insufficient because it is fixed by tying and replacing the wire with the main body of the steel tower.

The present invention is to provide a connection support device for replacing the tower that can be applied to all of the various types of towers.

In addition, the present invention is to provide a pylon replacement connection support device that can fix the main material of the pylon so as not to be shaken by wind or vibration.

In addition, the present invention is to provide a connection support device for replacing the steel tower that can withstand the wind load and steel tower weight.

According to an aspect of the present invention, there is provided a connection support device for replacing a pylon to connect an old pylon and a new pylon.

According to an embodiment of the present invention, in the connection support device for replacing the iron tower and the old pylon, the pylon tower side fixing portion surrounding the outer of the main tower material; Old tower side fixing portion surrounding the outer tower of the old tower main material; A new steel tower side support part connected to the new steel tower side fixing part to fix the main body of the new steel tower; A spherical tower side support part connected to the spherical tower side fixing part to fix the spherical tower main material; And one side coupled with the new pylon side support and the other side coupled with the old pylon side support so as to maintain a gap between the pylon side fixing part and the old pylon side fixing part. do.

The new pylon-side support is bent and formed, and includes a first support surface and a first release preventing surface, and the old tower support side is formed by being bent and includes a second support surface and a second release preventing surface.

In this case, the coupling part includes first and second connecting rods connected to the new pylon side support and the old tower support.

In addition, one side of the first connecting rod is coupled to the first support surface, the other side of the first connecting rod is coupled to one side of the second support surface, one side of the second connecting rod and one side of the first connecting rod Adjacently coupled with the first support surface, the other side of the second connecting rod is coupled with the other side of the second support surface.

One side of each of the first and second connecting rods is bolted to the first support surface.

Meanwhile, the spherical tower side support part includes a protrusion to which the first and second connecting rods are coupled.

At this time, the other side of the first and second connecting rods are coupled to the second support surface through the protrusion.

In addition, the pylon-side fixing part has a first cross-section contact rod contacting the first side of the pylon tower main material having an L-shaped cross section, and a second pylon-side contact rod contacting the second side of the pylon tower main material. It includes.

In addition, the first pylon-side contact rod and the second pylon-side contact rod are coupled to the first contact portion.

At this time, one side of the first pylon tower contact rod is coupled through a first fastening nut through the first contact portion, one side of the second pylon tower side contact rod is coupled to the first fastening groove formed in the first contact portion. do.

In addition, a first extension tower insertion hole and a second extension tower insertion hole into which the first extension tower side contact rod and the second extension tower side contact rod are inserted are formed on the first separation prevention surface.

In addition, the other side of each of the first pylon side contact rod and the second pylon side contact rod passes through the first pylon tower side insertion hole and the second pylon tower side insertion hole and is fastened to the adjustment nut.

The other side of the first pylon-side contact rod and the second pylon-side contact rod are formed in the form of a screw thread, and an adjustment nut is fastened according to the size of the pylon tower main material.

Meanwhile, the spherical tower side fixing part includes a first spherical tower side contact rod in contact with a first side surface of the spherical tower main body material having a cross-sectional L shape, and a spur tower side contact bar in contact with a second side surface of the spur tower main body material. do.

At this time, the first spherical tower side contact rod and the second spherical tower side contact rod are coupled to the second contact portion.

And, one side of the first spherical tower side contact rod is coupled through a second fastening nut through the second contact portion, one side of the second spherical tower side contact rod is coupled to a second fastening groove formed in the second contact portion. do.

In addition, a first spherical tower side insertion hole and a second spherical tower side insertion hole into which each of the first spherical tower side contact rod and the second spherical tower side contact rod are inserted are formed on the second separation preventing surface.

Meanwhile, the other side of each of the first spherical tower side contact rod and the second spherical tower side contact rod passes through the first spherical tower side insertion hole and the second spherical tower side insertion hole and is fastened to the adjustment nut.

In addition, the other side of the first spherical tower-side contact bar and the second spherical tower-side contact bar is formed in the form of a screw thread and the adjustment nut is fastened according to the size of the spun tower main body.

Connection support device for replacing the pylon according to an embodiment of the present invention can be applied to all of the pylon is formed differently according to the voltage of the transmission line.

In addition, the connection support device for replacing the pylon according to the embodiment of the present invention can be easily replaced because the fixing of the main tower of the steel tower so as not to be shaken by wind or vibration, etc. excellent grip.

In addition, the connection support device for replacing the pylon according to the embodiment of the present invention may secure a gap between the new pylon and the old pylon.

In addition, the connection support device for replacing the tower according to an embodiment of the present invention can withstand the wind load and the tower load.

1 is a perspective view showing a state in which the connection support device for replacing the steel tower according to an embodiment of the present invention is coupled to the new steel tower main material and the old steel tower main material.
Figure 2 is a plan view showing a support device for replacing the tower according to an embodiment of the present invention.
Figure 3 is a front view showing a pylon replacement connection support apparatus according to an embodiment of the present invention.
Figure 4 is a plan view showing a separate portion of the fixing support for replacing the tower replacement according to an embodiment of the present invention.
Figure 5 is a perspective view showing a new steel tower side of the support for replacing the tower support according to an embodiment of the present invention.
Figure 6 is a front view showing the separation of the coupling portion of the support for replacing the tower replacement according to an embodiment of the present invention.
7 is a perspective view showing an extension, a fastening part, a coupling bolt and a coupling nut of the pylon replacement connection support apparatus according to an exemplary embodiment of the present invention.
Figure 8 is a perspective view showing the old tower support side of the tower replacement connection support apparatus according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, with reference to the accompanying drawings, an embodiment of a pylon replacement connection support device according to the present invention will be described in detail, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference number and Duplicate explanations will be omitted.

1 is a perspective view showing a state in which the connection support device for replacing the pylon according to an embodiment of the present invention is coupled to the new steel tower main material and the old steel tower main material, Figure 2 is for replacing the steel tower according to an embodiment of the present invention 3 is a plan view illustrating the connection support device, and FIG. 3 is a front view illustrating the connection support device for replacing a tower according to an embodiment of the present invention.

1 to 3, the connection support device 100 for replacing the steel tower is fastened with the old steel tower main material 50 and the new steel tower main material 30 to replace the old steel tower with the new steel tower. Maintain the interval between the 50 and the new steel tower main material (30). To this end, the connection support device 100 for replacing the pylon is the new pylon side fixing part 110, the new pylon side supporting part 160, the coupling part 200, the old pylon side fixing part 310 and the old pylon side support ( 360).

New pylon side fixing portion 110 is formed surrounding the outer periphery of the new pylon main material (30). To this end, the pylon-side fixing part 110 includes a first pylon-side contact rod 120, a first contact portion 140, and a second pylon-side contact rod 130.

The first pylon tower contact rod 120 is in contact with one side of the pylon tower main material (30). The first pylon tower contact rod 120 adjusts the first adjustment nut 127 according to the size of the pylon tower main material 30 to fix the pylon tower main material 30 through the new pylon side support 160. Let's do it.

The first contact portion 140 couples the first pylon-side contact rod 120 and the second pylon-side contact rod 130. That is, the first pylon tower contact rod 120 penetrates one side of the first contact portion 140 and is fastened to the first fastening nut 149 to be coupled to the first contact portion 140. The second pylon-side contact rod 130 is inserted into the other side of the first contact portion 140 and coupled to the first contact portion 140. Thus, the first pylon-side contact rod 120 and the second pylon-side contact rod 130 are coupled through the first contact portion 140.

The second pylon tower contact rod 130 is connected to the other side of the pylon tower main material 30 to adjust the second adjustment nut 137 to fix the pylon tower support 160 and the new pylon main material 30. Let's do it.

This, the pylon side fixing portion 110 will be described in detail with reference to FIG.

The pylon tower support unit 160 fixes the pylon tower main body 30 through the pylon tower side fixing unit 110. To this end, the pylon-side support 160 is connected to one side of the pylon-side fixing part 110 and the coupling portion 200. The new pylon-side support 160 is bent to include a first support surface 180 and a first departure preventing surface 170. That is, the first support surface 180 of the pylon-side support part 160 is coupled to one side of the coupling part 200, and the first separation prevention surface 170 penetrates the pylon-side fixing part 110. It is coupled with the pylon side fixing part (110). As shown in FIG. 2, the pylon-side support part 160 and the pylon-side fixing part 110 may be formed in a triangular shape to fix the pylon main body 30 having an L-shaped cross section. This, the pylon-side support 160 will be described in detail with reference to FIG.

Coupling unit 200 to maintain the interval between the old steel tower main material (50) and the new steel tower main material (30) to replace the old iron tower to the old steel tower main material (50) and new steel tower main material (30) It is formed between. The coupling part 200 includes a first connecting rod 210 and a second connecting rod 230 that are connected to the new pylon side support 160 and the old pylon side support 360. One side of the first connecting rod 210 is formed adjacent to one side of the second connecting rod 230. One side of the first connecting rod 210 and the second connecting rod 230 is coupled to the first support surface 180 of the pylon tower side support 160.

At this time, in order to couple one side of the first connecting rod 210 and the second connecting rod 230 with the first support surface 180, the coupling portion 200 is the first and second coupling bolts (183, 187) and the first And second coupling nuts 185 and 189. Each of the first and second coupling bolts 183 and 187 penetrates through the first support surface 180 to engage with each of the first and second coupling nuts 185 and 189. Each of the first and second coupling bolts 183 and 187 is inserted into each of the first and second extensions 191 and 195 so that the first and second extensions 191 and 195 and the first support surface 180 are respectively. Combine.

The first extension part 191 and the first fastening part 193 are fastened through the first connection bolt 241 and the first connection nut 243, and the second extension part 195 and the second fastening part 197 are fastened to each other. ) Is fastened through the second connecting bolt 245 and the second connecting nut 247. The first fastening portion 193 is coupled to one side of the first connecting rod 210, and the second fastening portion 197 is coupled to the other side of the second connecting rod 230. Accordingly, the first connecting rod 210 is coupled through the first support surface 180, the first extension part 191, and the first fastening portion 193, and the second connection rod 230 is the second support surface 380. And a second extension 195 and a second fastening 197.

The other side of the first connecting rod 210 and the second connecting rod 230 is coupled to the second support surface 380 of the support tower side support 360. The other side of the first connecting rod 210 and the second connecting rod 230 is coupled through the second support surface 380 and the first and second protrusions 383 and 385. In this case, each of the first and second protrusions 383 and 385 may be bolted to the second support surface 380 to be coupled to the second support surface 380.

The other side of the first connecting rod 210 is coupled to one side of the second support surface 380, and the other side of the second connecting rod 230 is coupled to the other side of the second support surface 380. That is, the first connecting rod 210 and the second connecting rod 230 are formed spaced apart. For example, the first connecting rod 210, the second connecting rod 230, and the spherical tower side support part 360 may be formed in a triangular shape.

Such a coupling unit 200 will be described in detail with reference to FIGS. 6 and 7.

The spherical tower side fixing part 310 surrounds the outer side of the spherical tower main material 50 and includes a first spherical tower side contact rod 320, a second contact portion 340, and a second spherical tower side contact rod 330. do.

The first spherical tower side contact rod 320 is in contact with one side of the spherical tower main body 50, and the second spherical tower side contact rod 330 is in contact with the other side of the spur tower main body 50.

The first spherical tower side contact rod 320 and the second spherical tower side contact rod 330 adjust the third adjustment nut 327 and the fourth adjustment nut 337 according to the size of the spur tower main body 50. By fixing the old tower main body 50 through the old tower support side (360).

The first spherical tower side contact rod 320 is coupled through the second spherical tower side contact rod 330 and the second contact portion 340. One side of the first spherical tower side contact rod 320 is coupled through the second fastening nut through the second contact portion 340, and one side of the second spherical tower side contact rod 330 is the second contact portion 340. Is inserted into and coupled to the second contact portion 340.

The spherical tower side support part 360 is connected to the coupling part 200 and the spherical tower side fixing part 310 to fix the spherical tower main body 50. The spherical tower side support part 360 is bent to include a second support surface 380 and a second departure preventing surface 370. The second support surface 380 of the spherical tower side support part 360 is coupled to the other side of the coupling part 200, and the second departure preventing surface 370 is coupled through the spherical tower side fixing part 310. The spherical tower side support part 360 and the spherical tower side fixing part 310 may be formed in a triangular shape to fix the spherical tower main material 50 as shown in FIG. 2. Such, the tower-side fixing part 310 will be described in detail with reference to FIG.

Accordingly, the connection support device 100 for replacing the pylon according to an embodiment of the present invention can be easily replaced with the pylon by using the bow-based tower method, which is one of the methods of replacing the old pylon with the new pylon. have.

Figure 4 is a plan view showing a separate portion of the fixing support for replacing the tower replacement according to an embodiment of the present invention.

Referring to FIG. 4, the pylon side fixing part 110 includes a first pylon side contact rod 120, a first contact portion 140, and a second pylon side contact rod 130.

The first pylon tower contact rod 120 is in contact with one side 43 of the pylon tower main material (30). At this time, the cross section of the new steel tower main material 30 is L-shaped.

Both sides of the first pylon-side contact rod 120 is formed in the form of a screw line. In other words, one side 123 of the first pylon-side contact rod 120 penetrates through the first fastening hole 143 of the first contact unit 140 to engage with the first contact unit 140, and then the first side. Is coupled through a fastening nut 149. At this time, the first fastening hole 143 may be formed in the form of a screw to fasten one side 123 of the first pylon-side contact bar 120.

The other side 125 of the first pylon-side contacting rod 120 is fastened to the first pylon-top insertion hole 173 (see FIG. 5) of the first detachment preventing surface 170, and the first detachment preventing surface 170 In order to fix), the other side 125 of the first pylon tower side contact rod 120 formed in the form of a screw thread may be fastened to the main tower material 30 by fastening the first adjustment nut 127.

The second pylon-side contact rod 130 is in contact with the other side 45 of the pylon tower main material 30. Both sides of the second pylon-side contact bar 130 is formed in the form of a screw line. That is, one side 133 of the second pylon-side contact rod 130 is fastened to the first fastening groove 145 of the first contact portion 140 to be coupled with the first contact portion 140. In this case, the first fastening groove 145 may be formed in the form of a screw line.

The other side 135 of the second pylon side contact rod 130 is fastened to the second pylon side insertion hole 175 (see FIG. 5) of the first separation preventing surface 170, and the second pylon side insertion The second adjustment nut 137 is fastened to prevent separation of the hole 175 and to fix the pylon tower main body 30.

Thus, the first adjustment nut 127 and the second adjustment nut 137 is fastened to the first steel tower side contact rod 120 and the second steel tower side contact rod 130, so that the steel tower main material 30 1 The anti-separation surface 170 can be fixed.

On the other hand, since the old tower tower fixing part 310 has the same structure and shape as the new tower tower fixing part 110 except that it is fixed with the old tower main body 50 for the old tower side fixing part (310) Detailed description will be omitted.

Figure 5 is a perspective view showing a new steel tower side of the support for replacing the tower support according to an embodiment of the present invention.

Referring to FIG. 5, the pylon-side support part 160 is bent to include a first support surface 180 and a first departure preventing surface 170.

The first holding surface 180 is a first steel tower side fixing hole into which the first steel tower side contact rod 120 and the second steel tower side contact rod 130 are inserted to fix the new steel tower main body 30. 163 and the second pylon-side fixing hole 165 is formed. Since the first pylon-side contact rod 120 and the second pylon-side contact rod 130 move according to the size of the new pylon tower main material 30, the first pylon-side fixing hole 163 and the second pylon The side fixing hole 165 is formed to be larger than the diameters of the first pylon-side contact rod 120 and the second pylon-side contact rod 130. That is, the first steel tower side fixing hole 163 and the first steel tower side contact rods 120 and the second steel tower side contact rods 130 move left and right according to the size of the new steel tower main material 30. The second pylon-side fixing hole 165 is larger than the diameter of the first pylon-side fixing hole 163 and the second pylon-side fixing hole 165.

The first detachment prevention surface 170 is formed with a first extension tower side insertion hole 173 through which the first coupling bolt 183 penetrates to be coupled to the first connecting rod 210, and the second connecting rod 230. In order to couple, a second extension tower side insertion hole 175 through which the second coupling bolt 187 penetrates is formed. At this time, the first coupling bolt 183 is coupled to the first coupling nut 185 through the first pylon side insertion hole 173, the second coupling bolt 187 is a second pylon side insertion hole ( 175 passes through and engages with second engagement nut 189.

Figure 6 is a front view showing the separation of the coupling portion of the support for replacing the tower replacement according to an embodiment of the present invention.

Referring to FIG. 6, the coupling part 200 includes a first connecting rod 210 and a second connecting rod 230. Here, the first connecting rod 210 will be described. On the other hand, the second connecting rod 230 has the same structure and function as the first connecting rod 210, so a description thereof will be omitted.

Both sides of the first connecting rod 210 is formed in a threaded form. Specifically, one side 213 of the first connecting rod 210 is screwed to the coupling groove 203 of the first fastening portion 193 to be connected to the first support surface 180. That is, the coupling groove 203 of the first fastening part 193 is formed in a threaded shape and is coupled to one side 213 of the first connecting rod 210.

The first fastening part 193 is bolted to the first extension part 191 as shown in FIG. 7. That is, in the first through hole formed in the first fastening part 193, the first connecting bolt 241 is fastened to the second through hole formed in the first extension part 191, and the first connecting bolt 241 is connected to the first through hole. The connecting nut 243 is fastened. Accordingly, the first fastening part 193 is coupled to the first extension part 191 through the first connection bolt 241 and the first connection nut 243.

A first insertion groove 209 is formed at the lower end of the first extension 191 to be coupled to the first support surface 180. The first coupling bolt 183 is inserted into the first insertion groove 209 to couple the first extension part 191 and the first support surface 180 to each other. In this case, the first support surface 180 is coupled to the first coupling bolt 183 and the first coupling nut 185 through the first fixing hole 173.

Accordingly, one side 213 of the first connecting rod 210 is supported by the first fastening part 193, the first extension part 191, the first coupling bolt 183, and the first coupling nut 185. Coupled with face 180.

The other side 215 of the first connecting rod 210 is coupled to the first protrusion 383 formed on the second support surface 380 to be coupled to the second support surface 380. The other side 215 of the first connecting rod 210 is coupled to the first support surface 180 through the first protrusion 383 and the first fixing nut 253 to fix the old tower main body 50. In addition, the first connecting rod 210 is formed between the first protrusion 383 formed on the second support surface 380 to prevent the moving tower support 360, the first fixing nut 253 and The third fixing nut 255 is coupled. Therefore, since the first protrusion 383 formed on the second support surface 380 is fixed by the first fixing nut 253 and the third fixing nut 255, the first protrusion 383 may prevent movement, and the support tower side support 360 may be prevented from moving. Since it is coupled by the first connecting rod 210 can be fixed to the old tower main material (50).

Figure 8 is a perspective view showing the old tower support side of the tower replacement connection support apparatus according to an embodiment of the present invention.

Referring to FIG. 8, the spherical tower side support part 360 is bent to include a second support surface 380 and a second departure preventing surface 370.

The second support surface 380 is the first spherical tower side fixing hole into which the first spherical tower side contact rod 320 and the second spherical tower side contact rod 330 are inserted to fix the spherical tower main material 50. 387 and the second spherical tower side fixing hole 389 are formed. Since the first spherical tower side contact rod 320 and the second spherical tower side contact rod 330 should be moved left and right according to the size of the spherical tower main material 50, the first spherical tower side fixing hole 387 and the The two spherical tower side fixing holes 389 are larger than the diameters of the first spherical tower side fixing holes 387 and the second spherical tower side fixing holes 389.

A first spherical tower insertion hole 373 and a second spherical tower insertion hole 375 are formed on the second separation preventing surface 370. In this case, the first spherical tower insertion hole 373 and the second spherical tower insertion hole 375 are used to fix the first connecting rod 210 and the second connecting rod 230 to the second departure preventing surface 370. A bolt is inserted to fix the first and second protrusions 383 and 385 coupled to the first connecting rod 210 and the second connecting rod 230. The first spherical tower insertion hole 373 is formed at one side of the second departure preventing surface 370, and the second spherical tower insertion hole 375 is formed at the other side of the second departure preventing surface 370. do. Thus, the first spherical tower insertion hole 373 is formed on one side of the second departure preventing surface 370, and the second spherical tower insertion hole 375 is formed on the other side of the second departure preventing surface 370. The reason is to form the first connecting rod 210 and the second connecting rod 230 spaced apart.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

30: President of the New Iron Tower
50: Old Steel Tower Owner
100: replacement support for steel tower replacement
110: new steel tower side fixing portion
160: new steel tower side support
200: coupling part
310: fixed tower side fixing part
360: Old tower support

Claims (19)

In the tower support connection support for connecting the old tower and the new tower,
New steel tower side fixing portion surrounding the outside of the steel tower main material;
Old tower side fixing portion surrounding the outer tower of the old tower main material;
A new steel tower side support part connected to the new steel tower side fixing part to fix the main body of the new steel tower;
A spherical tower side support part connected to the spherical tower side fixing part to fix the spherical tower main material; And
One side is coupled with the new pylon side support and the other side is coupled to the old tower support so as to maintain a gap between the fixed tower side fixing portion and the old tower side fixing portion,
The new pylon-side support is bent and formed of a first support surface and a first release preventing surface, and the old pylon-top support is formed to be bent and formed of a second support surface and a second release preventing surface,
The coupling part includes first and second connecting rods connected to the new pylon side support and the old tower support, and one side of the first connecting rod is coupled to the first support surface, and the other of the first connecting rod. The side is coupled to one side of the second support surface, one side of the second connecting rod is coupled to the first support surface adjacent to one side of the first connecting rod, the other side of the second connecting rod of the second support surface Connection support device for replacing the tower, characterized in that coupled to the other side.
delete delete delete The method according to claim 1,
One side of each of the first and second connecting rods is connected to the tower support device, characterized in that the bolt coupling with the first support surface.
The method of claim 1.
The spherical tower support portion is a replacement support device, characterized in that it comprises a protrusion coupled to the first and second connecting rods.
The method of claim 6,
The other side of the first and second connecting rods are connected to the support device for replacing the tower, characterized in that coupled to the second support surface through the projection.
The method according to claim 1,
The pylon-side fixing part includes a first pylon-side contact rod contacting the first side of the pylon tower main material having an L-shaped cross section, and a second pylon-side contact rod contacting the second side of the pylon tower main material. Connection support device for replacing the pylon.
The method of claim 8,
The first pylon-side contact rods and the second pylon-side contact rods are connected to each other by a first contact portion.
10. The method of claim 9,
One side of the first pylon tower contact rod is coupled through a first fastening nut through the first contact portion, and one side of the second pylon tower side contact rod is coupled to a first fastening groove formed in the first contact portion. Connection support device for replacing the tower.
The method of claim 8,
Wherein the first separation tower is characterized in that the first pylon-side insertion hole and the second pylon-side insertion hole is inserted into each of the first pylon-side contact rod and the second pylon-side contact rods are formed; Connection support for replacing towers.
12. The method of claim 11,
The other side of each of the first pylon side contact rod and the second pylon side contact rod penetrates the first pylon side insertion hole and the second pylon side insertion hole, respectively, and is fastened with an adjustment nut. Connection support for steel tower replacement.
12. The method of claim 11,
The other side of the first pylon-side contact rod and the second pylon-side contact rod is formed in the form of a screw thread and the adjustment nut is fastened according to the size of the pylon tower main material, the support support for replacing the tower.
The method of claim 9,
The spherical tower side fixing part includes a first spherical tower side contact rod in contact with the first side surface of the spherical tower main body material having a cross-sectional L shape, and a spur tower side contact bar in contact with the second side surface of the spur tower main body material. Connection support device for replacing the tower.
15. The method of claim 14,
Connection support device for a tower replacement, characterized in that the first spherical tower-side contact rod and the second spherical tower-side contact rod is coupled to the second contact portion.
The method of claim 15,
One side of the first spherical tower side contact rod is coupled through a second fastening nut through the second contact portion, and one side of the second spherical tower side contact rod is coupled to a second fastening groove formed in the second contact portion. Connection support device for replacing the tower.
15. The method of claim 14,
The second separation prevention surface is a steel tower, characterized in that the first spherical tower-side insertion hole and the second spherical tower-side insertion hole into which each of the first spherical tower side contact rod and the second spherical tower side contact rod are inserted are formed. Replacement connection support.
The method of claim 17,
The other side of each of the first spherical tower-side contact rod and the second spherical tower-side contact rod passes through each of the first spherical tower side insertion hole and the second spherical tower side insertion hole, and is fastened with an adjustment nut. Connection support for steel tower replacement.
The method of claim 17,
The other side of the first spherical tower-side contact rod and the second spherical tower-side contact rod is formed in the form of a screw thread and the adjustment nut is fastened according to the size of the spun tower main body material.

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