KR20190043702A - The apparatus to rearrange reinforcement ULBON for prestressed concrete pole - Google Patents

Abstract

The present invention relates to a device for rearranging steel wires of an electric concrete pole and, more specifically, to a device for rearranging steel wires of an electric concrete pole, capable of improving durability to external force by placing at least 12 steel wires in the bottom of an electric pole which is the most strained part without increasing the size of the electric pole larger by making the arrangement of steel wires different from conventional methods. To achieve the purpose, the device includes: a first combination plate including a first hollow hole vertically penetrated in the center, and multiple steel wire fixing grooves arranged radially around the center of the hollow hole; a second combination plate placed vertically at a distance from the vertical central axis of the first combination plate, and including a second hollow hole vertically penetrated in the center and multiple steel wire fixing grooves arranged radially around the center of the second hollow hole; and a connecting pipe fixed to the first and second combination plates, and including a hollow hole vertically penetrated in the center. The first steel wire fixing grooves are placed along at least two different circumferences.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a reinforcement device for a prestressed concrete pole,

The present invention relates to an apparatus for re-arranging a concrete pole wire, and more particularly, to an apparatus for re-arranging a concrete pole wire, more specifically, by arranging a steel wire arranged in a concrete core body differently from a conventional one, and increasing the number of steel wires without increasing the size of the pole, To a concrete pole steel wire re-arrangement device.

In general, electric poles constituting distribution lines are arranged at a ratio of about 96% for concrete poles and about 4% for steel poles. Concrete poles occupy most of the poles in distribution lines.

Recently, due to the increase of electric power and communication demand in Korea, the load required for the electric pole is rapidly increasing, and the electric pole of the concrete is damaged due to the increased load at some sites. Therefore, the demand for high strength poles with a design load of more than 2000Kgf is continuously increasing to ensure the reliability of distribution lines. However, there is a technical limitation that the maximum design load which can be manufactured is only 1000Kgf because the specification of concrete poles is limited to 190mm in KS.

As described above, in spite of the fact that the concrete pole which occupies most of the electric pole by the distribution line can be manufactured at low cost and mass production, the design load can not be made up to 2,000 Kgf, and thus expensive steel pipe pole is installed.

In general, the pole is a cylindrical shape with a gentle slope, and is manufactured in various lengths of 8 to 16 m. This pole is generally formed to have a tapered shape rather than a perfect cylindrical shape because the outer diameter of the end embedded in the ground is larger than the outer diameter of the opposite pole. On the other hand, the ground buried end portion of the electric pole is referred to as a full circle, and the opposite end portion is generally referred to as a rear portion. Hereinafter, these end portions will be abbreviated as commonly used terms.

A concrete pole having a length of 16 m used in Korea is a cylindrical shape having a design load of 700 kg for heavy load and a design load of 1,000 kg for high strength and is gradually reduced from a diameter of 403 mm to a diameter of 190 mm in accordance with the domestic standard. Eight tensile roots to support the main load of the poles and eight reinforcement rods to reinforce the load are integrally installed from the original to the end of the arc through the welding of the helical springs.

In order to increase the design load of the concrete pole to 2,000 kg, the number of tensile roots must be increased to at least 12 or the diameter of the steel wire must be 19 mm or more. However, in a narrow space having a diameter of 190 mm, impossible. Therefore, due to the existing external standard and steel wire laying method, there is a structural limit that can not produce super high strength concrete pole with a design load of 2000Kgf or more.

In order to solve this problem, as shown in FIG. 2, a method of increasing the number of steel wires by 12 or increasing the design load by increasing the steel wire thickness to 19 mm or more by increasing the size of the concrete pole is widely known However, if the ultra-high-strength concrete pole is larger than the existing pole, the size of the existing brackets must be increased. Therefore, the development cost and the cost of the additional gold alloy are increased.

0001. Registration Practical Utility Model No. 20-0359029 (Registered on August 5, 2004)

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to arrange more than twelve steel wires at the lower end of the pole, The present invention provides a steel wire re-arrangement apparatus for a high-strength concrete electric pole capable of producing a concrete pole having a high design load.

According to an aspect of the present invention, there is provided an apparatus for manufacturing a steel plate, comprising: a first joint plate having a first joint plate hollow penetrating vertically at a center thereof and having a plurality of first steel wire fixing grooves radially disposed around the first joint plate hollow, A second coupling plate cavity spaced vertically from the vertical center axis of the first coupling plate and penetrating up and down at the center and having a plurality of second coupling plate cavities arranged radially about the second coupling plate cavity, And a connection pipe fixedly coupled to the first and second coupling plates and having a connection pipe hollow vertically passing through the center thereof, The grooves are characterized in that they are arranged along at least two different circumferences.

The first wire fixing groove may include an insertion portion having a different diameter and a fixing portion. One end of the wire is inserted into the insertion portion and then moved to the fixing portion to fix the position thereof.

The connection pipe may further include a reinforcing member formed to have a diameter corresponding to the diameter of the connection pipe hollow and being coupled to the connection pipe hollow.

Further, the connection pipe is characterized in that the outer rim of the first and second coupling plates is integrally fixed to the inner circumferential surface of the connection pipe hollow and has an extension formed on the outer rim of the connection pipe in the vertical direction .

The present invention as described above has an advantage that it is possible to arrange more steel wires at the lower end of the pole which receives the largest load while maintaining the existing standard and to form a high strength concrete pillar, There is an advantage in that it is economically advantageous to provide a concrete pillar having a high design load at an inexpensive price.

1 is a schematic view showing a conventional concrete pole.
2 is a schematic view showing still another conventional concrete pole.
3 is a schematic view showing a concrete pole wire arrangement apparatus according to an embodiment of the present invention;
FIG. 4 is a view showing a state of use of a concrete pole wire arrangement apparatus according to an embodiment of the present invention; FIG.
5 is a schematic view showing a concrete pole wire arrangement apparatus and a reinforcing member according to another embodiment of the present invention.
FIG. 6 is a schematic view showing a concrete pole wire arrangement apparatus according to another embodiment of the present invention; FIG.

Hereinafter, other objects and features of the present invention will be apparent from the following description of embodiments with reference to the accompanying drawings.

The concrete pole wire arranging apparatus 1 according to the present invention comprises a first engaging plate 10, a second engaging plate 20 and a connecting pipe 30.

As shown in FIGS. 3 and 4, the first coupling plate 10 is formed as a generally flat disk and has a first coupling plate hollow 11 vertically penetrating at the center thereof, and the first coupling plate hollow A plurality of first steel wire fixing grooves 12 penetrating radially upward and downward are formed with the center axis 11 as a center.

At this time, the arrangement of the first wire fixing grooves 12 is arranged along a virtual circle having at least two different radii. 3, the first wire fixing grooves 12 are radially arranged and have two radii with different diameters, so that the diameter of the bulb tip of the former main body 500 is different from that of the other main portion of the former main body It is possible to arrange a plurality of steel wires even in a relatively small area.

The first wire fixing groove 12 may be formed as a circular through hole or may include a first insertion portion 13 and a first fixing portion 14 having different diameters as shown in the figure, 600 are inserted into the first insertion portion 13 and then moved to the first fixing portion 14 so as to be fixed in position.

That is, the first inserting portion 13 is formed to have a relatively larger diameter than the first fixing portion 14 so that the inserting of the steel wire 600 is facilitated, and the first securing portion 14 is inserted into the steel wire 600 so that the steel wire 600 is prevented from being detached to maintain the inserted position.

At this time, the end of the steel wire 600 is hemispherically protruded outwardly compared to the diameter of the end surface, and it is preferable that the end of the steel wire 600 is prevented from being detached in the longitudinal direction while being fitted to the first inserting portion 13.

The first coupling plate 10 constructed as described above is coupled with the steel wire 600 arranged on the male end side of the main body 500. When the end diameter of the main body 500 is different from that of the other main body 500 A relatively large number of steel wires can be arranged as compared with the conventional steel wire arrangement by adjusting the arrangement position of the first steel wire fixing grooves 12. [

As shown in FIGS. 3 and 4, the second coupling plate 20 is formed as an entirely flat disk and has a second coupling plate hollow 21 penetrating vertically at the center thereof, and the second coupling plate hollow A plurality of second steel wire fixing grooves 22 are formed radially upward and downward around the center axis 21 and are disposed at positions spaced apart from the first engaging plate 10.

A plurality of second wire fixing grooves 22 are radially arranged around the second engaging plate hollow 21 and the first wire fixing grooves 12 of the first insertion portions 13, The first inserting portion 23 and the second inserting portion 24 having the same function as the first fixing portion 14 are formed.

The end of the steel wire 600 coupled to the second engaging plate 20 is connected to the end of the second engaging plate 20, So as to prevent the second wire fixing groove 22 from being detached from the second wire fixing groove 22 and then being detached downward.

The coupling pipe 30 connects the first coupling plate 10 and the second coupling plate 20 and distributes and supports the load pressure. One end of the coupling pipe 30 is in contact with the first coupling plate 10 And the other end is disposed in contact with the second coupling plate 20 and has an inner hollow cylindrical body, and further includes a connection pipe hollow 31 formed to penetrate up and down.

Here, the connection pipe 30 may have a tapered shape gradually widening downward in order to prevent concentration of load pressure transmitted from above.

In the present invention as described above, it is possible to arrange more steel wires within the standard of the existing electric pole, and in particular, at least 12 steel wires can be disposed so as to withstand a design load of 2000 Kgf or more, which is a requirement of ultra- It is advantageous in that the deviation of the disposed steel wire is prevented and durability is improved.

5 shows another embodiment of the present invention. The reinforcement member 40 may be further disposed in the connection pipe hollow 31 formed at the center of the connection pipe 30 to provide higher durability .

The reinforcing member 40 is made of a metal material and is preferably formed in a cylindrical shape and has a diameter corresponding to the hollow diameter of the coupling pipe 30 and is coupled in an interference fit manner, Or at least one of the second coupling plate 20 or the coupling tube 30 by using a separate coupling means.

6 shows another embodiment of the present invention in which a steel wire reordering apparatus according to the present invention is disposed at a joint portion of a main body 500 made of a plurality of powders, And is arranged to surround the outside of the joining portion to prevent foreign matter and moisture from flowing through the joining portion, thereby enhancing durability.

The outer edge of the first coupling plate 10 and the second coupling plate 20 is integrally fixed to the inner circumferential surface of the coupling tube 30 and the coupling tube 30 is extended (32) is provided so that the extension portion (32) surrounds the outer side of the coupling portion of the main body.

6 (b), the first coupling plate 10 and the second coupling plate 20 are disposed on the inner peripheral surface of the coupling tube 30, and the first coupling plate 10 and the second coupling plate 20 The outer edge of the second coupling plate 20 is integrally fixed to the inner peripheral surface of the coupling tube 30. For this purpose, the inner diameter of the coupling tube 30 is larger than the inner diameter of the first coupling plate 10 and the second coupling plate 20, The extension part 32 extending upwardly and downwardly on the outer edge of the connection pipe 30 is arranged to surround the coupling part of the main body 500 from the outside so that the foreign body and the moisture So that the inflow can be minimized.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: Concrete pole wire arrangement device according to the present invention
10: first coupling plate
11: first coupling plate hollow 12: first steel wire fixing groove
13: first insertion portion 14: first fixing portion
20: second coupling plate
21: second joint plate hollow 22: second steel wire fixing groove
23: second insertion portion 24: second fixing portion
30: Connector
31: Connector Hollow 32: Extension
40: reinforcing member

Claims (4)

A first coupling plate (11) having a first coupling plate hollow (11) penetrating vertically at its center and having a plurality of first wire fixing grooves (12) radially arranged around the first coupling plate hollow (11) 10,
A second coupling plate hollow (21) is vertically disposed at a vertical center axis of the first coupling plate (10) and penetrates vertically at the center. A second coupling plate hollow is formed around the second coupling plate hollow (21) A second coupling plate 20 having a plurality of second steel wire fixing grooves 22 disposed therein,
And a connection pipe (30) fixedly coupled to the first and second coupling plates (10, 20) and having a connection pipe hollow (31) penetrating vertically at the center,
The first wire fixing groove (12)
Wherein the at least two concrete columns are arranged along at least two different circumferences. [2] The apparatus according to claim 1, wherein the first wire fixing groove (12)
The first fixing part 14 and the second fixing part 14 are formed of a first inserting part 13 and a first fixing part 14 having diameters different from each other and one end of the steel wire 600 is inserted into the first inserting part 13, So that the position is fixed. The connector according to claim 1, wherein the connection pipe (30)
Further comprising a reinforcing member (40) formed to correspond to the diameter of the connection pipe hollow (31) and coupled to the connection pipe hollow (31). 4. The connector according to any one of claims 1 to 3, wherein the connecting pipe (30)
The outer edge of the first coupling plate 10 and the second coupling plate 20 is integrally fixed to the inner peripheral surface of the coupling tube hollow 31,
And an enlarged portion (32) formed on the outer edge of the reinforcing member to extend in the vertical direction.

Images