KR102156736B1 - Anchor structure system of transmission steel tower - Google Patents

Abstract

The present invention relates to a cable protecting anchor apparatus for a power distribution line of a steel tower in an industrial complex and, more specifically, to a cable protecting anchor apparatus for a power distribution line of a steel tower in an industrial complex, which can have stiffness against a load applied from the power distribution steel tower, pressure transmitted in accordance with earth pressure deformation, strong winds, ground subsidence and ground movement to prevent accidents caused by the overturn of the power distribution steel tower in advance and allow the power distribution steel tower to be restored in an original state while buffering impact when the power distribution steel tower is shaken by external force such as the strong winds or earthquakes.

Description

Anchor device for cable protection of distribution lines of steel towers in industrial complexes {ANCHOR STRUCTURE SYSTEM OF TRANSMISSION STEEL TOWER}

The present invention relates to a cable protection anchor device for a distribution line of an industrial complex in the field of distribution technology, and more particularly, to the load applied from the distribution tower and the pressure transmitted according to the earth pressure deformation, strong wind, ground subsidence, and ground behavior. The industry aims to prevent safety accidents caused by the overturning of the power distribution tower by making it strong against the power of the power distribution tower, while buffering the shock when the power distribution tower shakes due to external forces such as strong winds or earthquakes, while ensuring smooth return to its original state. It only relates to the cable protection anchor device of the pylon distribution line.

There are many houses in the residential area of the public, and new houses are continually being built. Since people reside in each house, it is essential to supply power in order to operate home appliances necessary for human residence.

In order to supply power to each house, there are several paths from the power plant to the house. Distribution lines from residential areas to houses are generally through telephone poles.

However, places outside the city, such as rural areas, are far from the power plant. In addition, in order to reach a place that requires electricity, various types of topographic features are located, and distribution towers are generally installed to pass the topographic features.

As shown in Fig. 1, the distribution tower 1 is a truss-type steel structure constructed at a height of several tens of meters in order to construct a distribution line, and its own weight is a heavy object ranging from tens to several hundred tons. Consists of

This distribution tower has four bridges arranged in a square shape, and the lower ends of each bridge are supported on the ground by being connected to the foundation concrete structure 2 buried in the ground.

In order to install such a distribution tower (1), first, the ground is excavated to form a horizontally smooth concrete surface, and then four foundation concrete structures (2) arranged in a square shape are constructed thereon, and each foundation concrete Angles having a certain length are sequentially assembled in a truss shape up to the required height on the main pillars, which are buried at an appropriate angle in the structure and the top is exposed.

However, such a distribution tower 1 has a problem that a fall occurs due to strong winds, ground subsidence, and ground behavior, and thus, an accident such as a power failure in a nearby residential area and a large-scale accident such as damage due to overturning occur.

As a prior art that partially improved this problem, Korean Utility Model Registration No. 20-0138260 (1999.04.01.) discloses a'lock anchor structure for a steel tower'.

However, such a conventional lock anchor structure for a distribution tower has a problem in that it is difficult to buffer an impact while preventing the shaking when the distribution tower is shaken by external force such as strong wind or earthquake.

Republic of Korea Utility Model Registration No. 20-0138260 (1999.04.01.)'Rock Anchor Structure for Steel Tower'

The present invention was devised to solve the above-described problems, and an object of the present invention is to provide rigidity to the load applied from the distribution tower and the pressure transmitted according to the earth pressure deformation, strong winds, ground subsidence, and ground behavior. Cables for distribution lines in industrial complexes to prevent safety accidents due to the tower's overturning, and to smoothly return to the original state while buffering the shock when the distribution tower is shaken by external forces such as strong winds or earthquakes. It is to provide a protective anchor device.

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, in the present invention, a plurality of support walls 11 are formed at equal intervals along the circumference of the side, so that the receiving grooves 11a are formed between the support walls 11, and the upper surface has an edge. Accordingly, an upper plate 12 having a through hole 12a communicating with the receiving groove 11a is formed, and a lower plate having a support groove 13a communicating with the receiving groove 11a along the circumference thereof (13) Anchor material 10 is formed; The upper part protrudes above the through hole 12a of the upper plate 12 constituting the anchor material 10, and the through hole 12a of the upper plate 12 and the anchor material 10 are accommodated from the lower portion thereof. A pressure tensile rod 20 inserted into the soft layer by sequentially passing through the groove 11a and the support groove 13a of the lower plate 13; The whole is made of a cylindrical shape having the same outer diameter and accommodates the pressure tensile rod 20 in the inner space, while the through hole 12a of the upper plate 12 and the receiving groove 11a of the anchor material 10 and the lower plate 13 ) Sequentially through the support groove (13a) and inserted into the soft paper layer, the upper part protrudes above the through hole (12a) of the anchor member 10, and the lower part of the support groove ( Reinforcing anchor support pipe 30 mounted on 13a); A through hole 41 through which the pressure tensile rod 20 passes, and a mortar injection hole 42 for introducing the mortar M into the fragile layer through the support pipe 30 for reinforcing anchors are formed, and the A seating portion 40 that is seated on the upper end of the reinforcing anchor support pipe 30; It is fastened to a screw wire 20a formed on the upper part of the pressure tensile rod 20, and moves the pressure tensile rod 20 upward through a tightening force so that the lower part of the support pipe 30 for the reinforcing anchor becomes radial. In the cable protection anchor device of the industrial complex pylon distribution line consisting of a fastening member 50 to achieve, further comprising a buffer unit 100 for preventing shaking of the power distribution tower 1 by external force, and the buffer The part 100 includes a fixed bar 110 whose lower part is buried in the basic concrete structure 2, and the upper part extends upwardly; A buffering means 120 provided on the top of the fixed bar 110; A rotating bar 130 provided at an upper portion of the buffer means 120 with one end fixed to the leg of the distribution tower 1 and the other end extending outwardly; And a fixing means 140 for fixing the buffering means 120 to the fixing bar 110, and the rotating bar 130 rotates together according to the shaking of the distribution tower 1 by an external force. The buffer means 120 is pressurized, and the buffer means 120 is contracted by the pressure of the rotating bar 130 to buffer the impact, while the distribution tower 1 is smoothly returned to its original state while being relaxed. It provides a cable protection anchor device of an industrial complex steel tower distribution line, characterized in that to be.

According to the present invention, it is possible to prevent safety accidents due to overturning of the distribution tower by making it rigid against the load applied from the distribution tower, the pressure transmitted according to the earth pressure deformation, strong wind, ground subsidence, and ground behavior. It works.

In addition, when the distribution tower is shaken by an external force such as a strong wind or an earthquake, it is possible to smoothly return to its original state while buffering the impact.

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 showing a distribution tower according to the prior art.
Figure 2 is a cross-sectional view showing the cable protection anchor device of the industrial complex steel tower distribution line according to the present invention.
3 is a perspective view showing a cable protection anchor device of an industrial complex steel tower distribution line according to the present invention.
Figure 4 is an exploded perspective view showing the cable protection anchor device of the industrial complex steel tower distribution line according to the present invention.
5 to 7 are perspective views showing the installation process of the cable protection anchor device of the industrial complex pylon distribution line according to the present invention.
8 is a front view showing a state in which a buffer unit is provided in the cable protection anchor device of a power distribution line in an industrial complex according to the present invention.
9 is a partially enlarged view showing the buffer unit in FIG. 9.
And
10 is an exploded perspective view showing a buffer part in FIG. 9.

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

Referring to Figures 1 to 4, the cable protection anchor device of the industrial complex steel tower distribution line according to the present invention is an anchor material 10, a pressure tensile rod 20, a support pipe for reinforcing anchors 30, a seating part ( 40) and a tightening member 50.

The anchor members 10 are each coupled to the lower end of the distribution tower 1 to stably support the distribution tower 1, and a plurality of support walls 11 for supporting the distribution tower 1 along the side circumference ) Are formed at equal intervals to form a receiving groove (11a) between the support walls (11), a through hole (12a) communicating with the receiving groove (11a) is provided along the edge of the upper surface, and the distribution tower ( 1) A top plate 12 that is welded or bolted together is formed, and a lower plate 13 having a support groove 13a communicating with the receiving groove 11a is formed along the circumference thereof.

The anchor material 10 has a structure that is integrated with the bridge of the distribution tower 1 together with the basic concrete structure 2 formed by casting and training in the stratum.

The pressure tensile rod 20 has an upper part protruding above the through hole 12a of the upper plate 12 constituting the anchor material 10, and the through hole of the upper plate 12 ( 12a) and the receiving groove 11a of the anchor member 10 and the support groove 13a of the lower plate 13 are sequentially penetrated and inserted into the soft layer.

At the lower end of the pressure tensile rod 20, a plurality of bars 22 are formed at equal intervals so that the mortar (M) flowing from the reinforcing anchor support pipe 30 to the soft layer is evenly distributed to form a radial shape. The top-shaped irregularities 21 are provided, and the bar 22 is formed in a triangular shape in which the center is bent so that the anchor bent portion 32 of the reinforcing anchor support pipe 30 to be described later is unfolded to form a radial shape.

The reinforcing anchor support pipe 30 is formed of a cylindrical shape having the same outer diameter as a whole, and the inner space accommodates the pressure tensile rod 20 while a through hole of the upper plate 12 constituting the anchor member 10 ( 12a) and through the receiving groove (11a) of the anchor member 10 and the support groove (13a) of the lower plate (13) is inserted into the soft layer.

In addition, since the mortar (M) flows into the inner space of the reinforcing anchor support pipe (30) and is cured, it is integrated with the pressure tensile rod (20) to have structural rigidity, and thus to the load applied from the distribution tower (1). It is not easily bent/deformed by

The reinforcing anchor support pipe 30 has a structure in which the upper portion has a larger diameter than the lower portion and is seated on the upper end of the anchor member 10, and the lower portion thereof is a support groove of the lower plate 13 ( Since it is mounted on 13a), the support pipe 30 for reinforcement anchors forms a diagonal shape and is located in the soft stratum, so that the load applied from the distribution tower 1 can be more stably supported.

The lower portion of the reinforcing anchor support pipe 30 is further formed with an anchor bent portion 32 in the form of a cut-out piece formed in a separate shape while a plurality of anchor bent portions 32 are in close contact with each other, and the pressure tensile rod 20 It is spread radially by the top-shaped unevenness 21 and is cured together with the mortar (M) so that the basic fall prevention structure of the distribution tower 1 of the present invention can secure structural stability.

The reinforcing anchor support pipe 30 has a plurality of mortar discharge holes 31 formed at equal intervals in the longitudinal direction thereof to discharge the mortar (M) flowing into the inside into the soft layer to discharge the reinforcing anchor support pipe 30 Is firmly fixed in the soft layer to prevent settlement and overturning.

The seating portion 40 may be, for example, a well-known washer, and a through hole 41 is formed in the central portion to accommodate a portion of the upper side of the pressure tensile rod 20 while receiving the support pipe 30 for the reinforcement anchor. ), and a mortar injection hole 42 is formed in a position adjacent to the through hole 41 to facilitate the mortar (M) in the soft layer through the internal space of the reinforcing anchor support pipe 30 You can fill it up.

The fastening member 50 may be, for example, a known nut, fastened to a screw wire 20a formed on the upper portion of the pressure tensile bar 20, and attach the fastening member 50 to the pressure tensile bar. When it is positioned and tightened along the screw line 20a of 20) to the upper end of the seating portion 40, the pressure tensile rod 20 moves upward by this tightening force, and accordingly, the pressure tensile rod 20 As the bulging-shaped irregularities are located inside the anchor bent portion 32 of the reinforcing anchor support pipe 30, the anchor bent portion 32 is radially expanded.

When the mortar (M) is injected into the interior of the reinforcing anchor support pipe (30) through the mortar injection hole (42) of the seating portion (40), the top-shaped irregularities (21) and the bent portion (M) are cured. Because it is integrated and settled stably in the fragile strata, it has rigidity against the load applied from the power distribution tower 1, the pressure transmitted according to the earth pressure deformation, strong winds, ground subsidence, and ground behavior. Since it is supported stably, the conduction of the power distribution tower 1 is effectively prevented.

In the drawings, reference numeral 3 denotes an injection device for injecting the mortar M into the interior of the reinforcing anchor support pipe 30 through the mortar injection hole 42 of the seating portion 40.

Hereinafter, the installation process of the cable protection anchor device of the steel tower distribution line in an industrial complex according to the present invention will be described with reference to FIGS. 5 to 7.

First, the ground is dug to the depth where the foundation concrete structure 2 and the reinforcing anchor support pipe 30 are inserted.

Subsequently, the anchor material 10 is mounted on one part of the excavation, and the bridge of the distribution tower 1 is connected to the upper end of the upper plate 12 constituting the anchor material 10, and the through hole of the top plate 12 After inserting the pressure-tensioning rods (20) into (12a), respectively, the reinforcing anchor support pipe (30) accommodates the pressure-tensioning rods (20), while The receiving groove 11a and the lower plate 13 are sequentially penetrated and inserted into the soft layer.

The upper end of the upper plate 12 is in a state in which the legs of the power distribution tower 1 are coupled, and the reinforcing anchor support pipe 30 is formed so that the upper part has a larger diameter than the lower part. It is seated on the top of the top plate 12 constituting (10).

After seating the seating portion 40 on the upper end of the reinforcing anchor support pipe 30, the tightening member 50 is positioned to the upper end of the seating portion 40 along the screw line 20a of the pressure tensile rod 20. When tightened, the pressure tensile rod 20 is moved upward by this clamping force, and accordingly, the swelling-type unevenness of the pressure tensile rod 20 is the anchor bent part 32 of the reinforcing anchor support pipe 30 As it is located inside, the anchor bent portion 32 is radially expanded.

Finally, the mortar (M) is injected into the interior of the reinforcing anchor support pipe 30 through the injection device 3.

The mortar (M) is filled into the inside of the reinforcing anchor support pipe 30, and a certain amount is discharged to the soft layer through the mortar discharge hole 31 of the reinforcing anchor support pipe 30 to be cured. By firmly fixing the pipe 30 and the pressure tensile rod 20, the conduction of the distribution tower 1 is effectively prevented.

Thereafter, an angle having a certain length is assembled to the leg portion of the power distribution tower 1 exposed from the basic concrete structure 2 in a truss shape to a required height.

The cable protection anchor device of the industrial complex pylon distribution line according to the present invention further includes a buffer unit 100 that prevents shaking of the distribution pylon 1 by external force as shown in FIGS. 8 to 10.

The buffer unit 100 prevents shaking of the power distribution tower 1 due to external forces such as earthquakes or typhoons, while buffering the impact to smoothly return to the original state.

The buffer unit 100 includes a fixing bar 110 having a lower part embedded in the basic concrete structure 2 and extending upwardly, a buffering means 120 provided on the upper part of the fixing bar 110, and one end of power distribution Fixing means for fixing the rotating bar 130 and the buffering means 120 provided on the upper part of the buffer means 120 by being fixed to the legs of the pylon 1 and extending outwardly at the other end ( 140).

The fixed bar 110 is made of a circular bar, and the lower part is embedded in the basic concrete structure 2. The basic concrete structure 2 may be cured while the lower portion of the fixing bar 110 is connected to the upper plate 12.

The buffering means 120 includes a leaf spring 121 and is provided on the top of the fixing bar 110.

The plate spring 121 is provided on the lower plate 122 fixed to the upper part of the fixing bar 110 by the fixing means 140, the upper plate 123 which is provided on the upper part of the lower plate 122 and the fixing bar 110 contacts, and It includes a connection plate 124 connecting one side of the upper and lower plates 123 and 122.

The connecting plate 124 has a curved surface and integrally connects the upper and lower plates 123 and 122. Accordingly, the leaf spring 121 has a shape such as'⊂'.

The lower plate 122 is formed with a hollow 122a through which the upper portion of the fixing bar 110 passes.

The fixing means 140 includes a pair of fixing members 141 that are screwed with a fixing bar 110 so as to be positioned at the upper and lower portions of the lower plate 122.

The fixing bar 110 has a screw thread formed on the outer circumferential surface, and the fixing member 141 is screwed into the fixing bar 110 while a screw thread is formed on the inner circumferential surface.

The fixing member 141 is detached according to the rotation so that separation and coupling with the plate spring 121 are smoothly performed.

In addition, as the fixing member 141 rises and descends in the longitudinal direction of the fixing bar 110 according to rotation, the height of the plate spring 121 may be appropriately adjusted.

The rotating bar 130 has one end fixed to the leg of the power distribution tower 1 so as to be positioned above the upper plate 123 and the other end adjacent to the upper plate 123.

The rotating bar 130 pressurizes or releases the upper plate 123 while rotating together according to the shaking of the distribution tower 1 by external force.

The buffering means 120, that is, the leaf spring 121, is contracted by the pressing of the rotating bar 130 to buffer the impact, while being relaxed, the distribution tower 1 is smoothly returned to its original state.

Accordingly, the plate spring 121 is contracted and relaxed according to the pressing or releasing of the rotation bar 130 to buffer the impact, while preventing the distribution tower 1 from shaking and returning to the original state smoothly. do.

It is preferable that the rotation bar 130 has a hemispherical protrusion 131 formed at the lower portion thereof so that friction with the upper plate 123 is minimized.

The upper plate 123 may have a guide groove 123a that guides the progress of the protrusion 131 on the upper surface.

The buffering means 120 may further include a reinforcing member 125 provided between the upper and lower plates 123 and 122.

The reinforcing member 125 may be made of urethane foam, silicone, rubber material, etc., and when the plate spring 121 is contracted by an external force, deformation such as the connection plate 124 is cut.

It is preferable that the reinforcing member 125 has a lower portion fixed to the lower plate 122 and a sliding member 126 disposed thereon.

This is to prevent contraction of the plate spring 121 from being disturbed by friction when contacting the upper plate 123.

Accordingly, the buffer unit 100 may prevent shaking of the power distribution tower 1 due to external force such as an earthquake or typhoon, while buffering an impact and smoothly returning to the original state.

What has been described above is only an embodiment for implementing the cable protection anchoring device of an industrial complex pylon distribution line according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims. As such, without departing from the gist of the present invention, 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: anchor material 20: pressure tensile rod
30: support pipe for reinforcement anchor 40: seating portion
50: tightening member 100: buffer part
110: fixed bar 120: buffer means
130: rotating bar 140: fixing means

Claims (1)

A receiving groove (11a) is formed between the plurality of support walls (11) on the side, an upper plate (12) having a through hole (12a) is formed on the upper surface, and a lower plate (13a) is provided on the lower surface ( 13) is formed, the anchor material 10 that is integrated with the base concrete structure and the bridge of the distribution tower; A pressure tensile rod 20 having an upper portion protruding upward from the through hole 12a and sequentially passing through the through hole 12a, the receiving groove 11a, and the support groove 13a to be inserted into the fragile layer; A reinforcing anchor support pipe 30 coupled to the outside of the pressure tensile rod 20, the upper side protruding to the upper portion of the anchor material 10, and having a lower portion mounted on the support groove 13a; And the mortar injection hole 42 is formed, in the cable protection anchor device of the industrial complex steel tower distribution line consisting of; a seating portion 40 that is seated on the upper end of the support pipe 30 for reinforcement anchors,
Further comprising a buffer unit 100 for preventing shaking of the distribution tower 1 by external force,
The buffer unit 100,
A fixing bar (110) whose lower part is embedded in the basic concrete structure (2), and whose upper part is extended upwardly;
A buffer means 120 including a leaf spring 121 provided on the upper portion of the fixed bar 110;
A rotation bar 130 provided at an upper portion of the buffer means 120 with one end fixed to the leg of the power distribution tower 1 and the other end extending outwardly; And
It includes a fixing means 140 for fixing the buffer means 120 to the fixing bar 110,
The rotation bar 130,
A hemispherical protrusion 131 is formed in the lower part so that friction with the upper plate 123 of the leaf spring is minimized while rotating together in accordance with the shaking of the power distribution tower 1 by an external force. Become,
The top plate 123,
A guide groove 123a for guiding the progress of the protrusion 131 is formed on the upper surface,
The leaf spring 121,
A lower plate 122 which is fixed to the upper part of the fixing bar 110 by the fixing means 140 and has a hollow 122a through which the upper part of the fixing bar 110 passes;
An upper plate 123 provided on the upper part of the lower plate 122 and contacting the fixing bar 110; And
Containing a connection plate 124 connecting one side of the upper and lower plates 123 and 122 while being made of a curved surface,
The buffer means 120,
It is provided between the upper and lower plates 123 and 122, further comprising a reinforcing member 125 having a lower portion fixed to the lower plate 122 and having a sliding member 126 disposed thereon,
The fixing means 140,
It includes a pair of fixing members 141 screwed to the fixing bar 110 so as to be positioned at the upper and lower portions of the lower plate 122,
The fixing member 141,
The height of the plate spring 121 is adjusted while rising and falling in the longitudinal direction of the fixing bar 110 according to rotation,
The buffer means 120,
Cable protection anchoring device of an industrial complex pylon distribution line, characterized in that the power distribution tower (1) is smoothly returned to its original state while being contracted by the pressure of the rotation bar (130) to buffer the impact while relaxing.

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