KR100933881B1 - Long axis reinforced concrete telegraph pole and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A longitudinal axis reinforced concrete telegraph pole and a manufacturing method thereof are provided to prevent earth leakage and to reduce manufacturing cost. CONSTITUTION: A longitudinal axis reinforced concrete telegraph pole comprises a first telegraph pole(20) and a second telegraph pole(30). The first telephone pole has a top jointing base(24) in one end and a bottom fixing base(22) in the other end. The first telephone pole comprises a plurality of first tension bars(26). The first telephone pole is connected to the bottom fixing base and the top jointing base. The first telephone pole is made of hollow reinforced concrete. A connector(34) is installed in one end of the second telephone pole. The connector is connected to the top jointing base and a second tension bar(32). The second telephone pole is made of the hollow reinforced concrete.

Description

Long axis reinforced concrete telegraph pole and manufacturing method

The present invention relates to reinforced concrete telegraph poles, and more particularly, to a long-axis reinforced concrete telegraph poles and a method of manufacturing the same to be able to overcome the limitation of the height installed on the ground by making reinforced concrete telegraph poles with long axes.

Currently, the longest length of reinforced concrete telegraph poles in Korea is within 16 ~ 17m (maximum length of production to be supplied to KEPCO), and the actual height is only 14m because it is inserted more than 2m underground for fixing and supporting the poles.

However, when higher heights are required due to urbanization, large-scale construction, or jamming of the structure, the height of reinforced concrete is inevitably forced to rely on steel structures.

When the steel structure is applied, the price becomes high and the problem of taking up the installation area is wide. In addition, steel structures should act as conductors, taking into account the risk of leakage. In addition, the steel structure has a problem that the volume is not easy to manufacture and transport.

Therefore, the present invention was created in view of the above circumstances, and occupies a small installation area, there is no fear of leakage, and is cheaper than steel structures, and the long-axis reinforced concrete telegraph pole that can form a long axis up to several tens of meters and Its purpose is to provide a manufacturing method thereof.

Long-axis reinforced concrete telegraph pole of the present invention for achieving the above object,

A first telegraph pole made of reinforced concrete having a lower fixing base at one end and an upper joining base at the other end, and including a plurality of first tension muscles tensionedly connected to the lower fixing base and the upper joining base;

A second telegraph pole made of reinforced concrete disposed uniaxially on the first telegraph pole;

The second telegraph pole is connected to the upper joining base at one end and is characterized in that the connection brackets are connected to a plurality of second muscles.

Also according to the invention,

The upper joining base and the connecting bracket are formed of a flange having the same number of fastening holes in the metal parts, which are in contact with each other, and bolts and nuts are fastened to the fastening holes to connect the first telegraph pole and the second telegraph pole. .

In addition, the long-axis reinforced concrete telegraph pole of the present invention, the upper joining base and the connecting bracket is welded as a metal material, characterized in that the first telegraph pole and the second telegraph pole is connected.

In addition, the long-axis reinforced concrete telegraph pole of the present invention, characterized in that the upper joint base and the connecting bracket is riveted as a metal material, the first telegraph pole and the second telegraph pole is connected.

In addition, the manufacturing method of the long-axis reinforced concrete telegraph pole according to the present invention,

The lower fixing base and the upper joining base are arranged at both ends of the formwork, connected through a plurality of first muscles, and then mixed with concrete, and a tensile form is applied to the first muscles, followed by a rotary centrifugal process. Producing a first telegraph pole;

After arranging at least one connecting bracket at both ends or at one end of the formwork, a plurality of second tendons are connected to mix concrete, a tensile force is applied to the second tendons, and the hollow form is made through a rotary centrifugal process. 2 preparing a whole body of liquor;

And arranging the first telegraph pole and the second telegraph pole uniaxially and then joining the upper joining base and the connecting bracket to each other and joining them with a joining means.

Here, the joining means is selected from among bolts and nuts, rivets and welding.

According to the long-axis reinforced concrete telephone pole of the present invention and its manufacturing method, since the long-axis reinforced concrete telephone pole is made of a prefabricated, it can be transported by dividing by unit, the transportation is easy. In addition, it is easy to assemble at the construction site, and after assembly, the long axis of up to 30m or more can be configured when the slope is 1/75 or 1/100, so that it is possible to replace the expensive steel structure, so that the pole can be constructed inexpensively. Can be.

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

As shown in FIGS. 1A to 2, the long-axis reinforced concrete telephone pole 10 of the present invention basically includes a first telegraph pole 20 and a second telegraph pole 30.

The first telegraph pole 20 has a lower fixing base 22 at one end and an upper joining base 24 at the other end, and is tensioned and connected to the lower fixing base 22 and the upper joining base 24. A plurality of first tension muscles 26 are included to be made of hollow reinforced concrete.

The second telegraph pole 30 is connected to the upper joining base 24 at one end thereof, and at the same time, a plurality of second brackets 32 are connected to each other so that the coupling brackets 34 are installed and are made of hollow reinforced concrete. .

The upper joining base 24 and the connecting bracket 34 are made of metal. In this case, the upper joining base 24 and the connection bracket 34 may be formed with flanges 124 and 134 having the same number of fastening holes 124a and 134a in contact with each other as shown in FIG. 1A. Bolts 40 may be inserted into the fastening holes 124a and 134a to be fastened by the nuts 42, or the upper joining base 24 and the connection bracket 34 may be joined to each other through rivets (not shown). .

Here, the upper joining base 24 and the connection bracket 34 may be configured in the same structure having the flanges 124 and 134 as shown in FIG. 1A or a cylindrical structure having no flange as shown in FIG. 3.

As an example, when the lengths of the first telegraph pole 20 and the second telegraph pole 30 are 10 to 15 m, respectively, the total length of the long-axis reinforced concrete telegraph pole 10 may be implemented to 20 to 30 m.

The manufacturing method of the long-axis reinforced concrete telephone pole 10 configured as described above will be described with reference to FIG. 4.

First, each of the first telegraph pole 20 and the second telegraph pole 30 is produced.

The manufacturing method of the 1st telephone pole 20 is demonstrated.

The lower fixing base 22 is disposed at one end of the formwork and the upper joining base 24 is disposed at the other end. (S11)

Next, after connecting a plurality of first tension muscles 26 to the lower fixing base 22 and the upper joining base 22, cement is used as a mixing ratio used when manufacturing ordinary concrete telegraph poles into the formwork. Mixing concrete, aggregate, water and admixture are added to the mixing concrete. (S12) Thereafter, a tensile force is applied to the first tendon 26 through a tensioner to introduce tension.

Then, when the tensile force applying step is completed, the formwork is assembled and then the formwork is placed on the rotary centrifuge and undergoes a rotary centrifugal process for a suitable time. (S14)

Then, when the centrifugal process is completed, the mold is supplied with steam from a curing chamber to perform wet curing. (S15) When curing and demolding, the first telegraph pole 20 is manufactured in a hollow form.

Accordingly, both ends of the first telegraph pole 20 have a structure in which the lower fixing base 22 and the upper joining base 22 are installed. In this case, the first telegraph pole 20 and the second telegraph pole 30 to be described later have, for example, a slope of 1/75 or 1/100 to prevent buckling.

Next, the manufacturing method of the second telegraph pole 30 will be described.

Also in the case of the second electric pole 30 is produced in the same order (S21 ~ S25) as the first electric pole 20.

First, the connection bracket 34 is installed at one end of the formwork, and the other end of the upper joining base 24 may or may not be arranged in some cases. If a third telephone pole is needed, an upper joint base 24 is installed. (See FIG. 2).

Next, after connecting a plurality of second tension muscles 32 to the connection bracket 34 and the upper joining base 24, mixing concrete is introduced, and a tensile force is applied to the second tension muscles 32 through a tensioner. Introduce tension.

Here, when there is no upper jointing base 24, the second tense muscle 32 is one end is connected to the mold side, the other end to the connection bracket (34).

Then, after assembling the formwork, the formwork undergoes a rotary centrifugal process, and after curing the wet curing in the curing room, the second telegraph column 30 is manufactured in a hollow form.

As described above, when the first telegraph pole 20 and the second telegraph pole 30 are manufactured, the first telegraph pole 20 and the second telegraph pole 30 are disposed to face each other in a straight line, and then the upper joining base 24 is disposed. And the connection bracket 34 are joined by a jointing means. (S30)

When the fastening holes 124a and 134a are provided, they are fastened through the bolt 40 and the nut 42 or the rivet. When there is no fastening hole, as shown in FIG. The circumference is welded 50 to complete the production of the long-axis reinforced concrete telephone pole 10.

In the present embodiment, a long telescopic concrete pole was constructed by combining one second telegraph pole 30 with the first telegraph pole 20, but the present invention connects both ends of the second telegraph pole 30 as shown in FIG. When installed, the second telegraph pole 30 can be configured by connecting two or more stages to construct a longer longitudinal concrete telegraph pole.

As described above, since the long-axis reinforced concrete telephone pole 10 of the present invention is prefabricated, it can be divided and transported by unit, thereby solving the problem of transportation. In addition, it is easy to assemble at the construction site, and after assembly, if the slope is 1/75 or 1/100, long axis can be composed of up to 30m or more. It can be.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

Figure 1a is a block diagram of a long-axis reinforced concrete telegraph pole in accordance with the present invention.

FIG. 1B is a cross sectional view taken along the line A-A of FIG. 1A; FIG.

Figure 2 is a state in which the connecting bracket is installed on both ends of the second telegraph pole applied to the present invention.

Figure 3 is a block diagram of a long-axis reinforced concrete telephone pole according to the variant of the joint of the present invention.

Figure 4 is a manufacturing process of the long-axis reinforced concrete telegraph pole in accordance with the present invention.

<Explanation of symbols for the main parts of the drawings>

20: First Telegraph

22: lower fixing base

24: joining base

26: first muscle muscle

30: Second Telegraph

32: second muscle muscle

34: Connecting bracket

124,134: flange

124a, 134a: fastener

Claims (6)

A plurality of first tension muscles having a lower fixing base 22 at one end and an upper joining base 24 at the other end, and being tensioned and connected to the lower fixing base 22 and the upper joining base 24; A first telegraph pole 20 made of reinforced concrete including 26); A second telegraph pole 30 made of reinforced concrete disposed uniaxially on the first telegraph pole 20; Longitudinal reinforced concrete characterized in that the second telegraph pole 30 is connected to the upper joining base 24 at one end thereof and at the same time a connecting bracket 34 to which a plurality of second tension muscles 32 are connected is installed. telegraph pole. The method of claim 1, The upper joining base 24 and the connecting bracket 34 are formed of flanges 124 and 134 having the same number of fastening holes 124a and 134a in abutting portion as a metal material, and in the fastening holes 124a and 134a. Longitudinal reinforced concrete telegraph pole characterized in that the bolt 40 and the nut 42 is fastened to connect the first telegraph pole 20 and the second telegraph pole 30. The method of claim 1, The upper joint base (24) and the connecting brackets (34) are welded as a metal material is a long-axis reinforced concrete telegraph pole characterized in that the first telegraph pole 20 and the second telegraph pole 30 is connected. The method of claim 1, The upper joining base 24 and the connecting brackets 34 are riveted as a metal material, and the first telescopic pole 20 and the second telegraph pole 30 are connected to each other. The lower fixing base 22 and the upper joining base 24 are disposed at both ends of the formwork and connected through a plurality of first muscles 26, and then mixed concrete is introduced into the first muscles 26. Manufacturing a first telegraph pole 20 in a hollow form through a centrifugal process after applying a tensile force; After arranging at least one connection bracket 34 at both ends or one end of the formwork, a plurality of second tendons 32 are connected to mix concrete, and a tensile force is applied to the second tendons 32. Manufacturing a second telegraph pole 30 in a hollow form through a rotary centrifugal process; And arranging the first telegraph pole 20 and the second telegraph pole 30 uniaxially and then joining the upper joining base 24 and the connection bracket 34 to each other and joining them with a joining means. Long axis reinforced concrete telegraph pole manufacturing method characterized in that it is. The method of claim 5, The joining means is a bolt (40) and nut (42), rivets, welding method of producing a long-axis reinforced concrete telegraph pole characterized in that the alternative.

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