KR102618243B1 - Manufacturing method of utility pole for distribution line having vertical force - Google Patents

Abstract

This technology relates to a method of manufacturing electric poles for distribution lines to provide electric poles that can maintain an upright position when the poles are damaged by an external impact. More specifically, 1) a PC steel wire having a cylindrical shape and a standing maintenance means forming a reinforcing bar structure so that it is connected; 2) inserting the reinforcing bar structure into a removable pretension device; 3) placing a concrete structure in the pretensioning device and rotating the pretensioning device; 4) After the concrete structure has hardened, it is characterized in that it includes the step of removing the pretension device to obtain a telephone pole.

Description

{Manufacturing method of utility pole for distribution line having vertical force}

The present invention relates to a method of manufacturing a utility pole for a distribution line that can be maintained upright. More specifically, when an external shock is applied to a pole made of concrete, the applied shock is reduced and the vertical force is applied without the pole falling or tilting at a large inclination. It relates to a method of manufacturing a utility pole for a distribution line that can be maintained upright, which provides a pole that can maintain an upright position and prevent damage.

In general, concrete electric poles to which electric wires are connected are manufactured using the pretension method, which places multiple PC steel wires radially inside the structure, and multiple distribution lines are connected to the top to distribute the necessary power.

In the case of these concrete electric poles, the load required for electric poles is rapidly increasing due to the rapid increase in domestic power and communication demand and natural disasters, and the demand for concrete electric poles with higher strength is continuously increasing to ensure the reliability of distribution lines. am.

A typical electric pole is in the form of a cylinder with a gentle slope, and is manufactured in various lengths from 10 to 16 m. Since the outer diameter of the end buried in the ground is larger than the outer diameter of the opposite side, these electric poles are generally formed in a tapered form with a gentle slope rather than in the form of a complete cylinder.

On the other hand, the electric pole is equipped with a body of hardened concrete and a plurality of PC steel wires that form the pole's framework. When an external shock is applied by a car, etc., the pole is damaged due to damage to the concrete and bending of the steel wire. It may fall or tilt at a large angle, causing secondary accidents such as accidents of other pedestrians, power outages, or short circuits.

This is because, in the case of electric poles made of concrete, there is no special structure that can maintain vertical force due to a large impact applied from the outside.

Domestic registered patent No. 10-1056329 (announcement date: 2011.08.11.) Domestic Published Patent No. 10-2012-56120 (Publication Date: 2012.06.11.)

In order to solve the above-described conventional problems, the present invention provides a utility pole that can reduce the impact when an external shock is applied to a utility pole made of concrete and at the same time maintain a vertical force to prevent the pole from falling or tilting at a large inclination. The purpose is to provide a manufacturing method.

In order to solve the above-described technical problem, the method of manufacturing a utility pole for a distribution line capable of standing upright according to the present invention is 1) a reinforcing bar structure (100) so that a PC steel wire (110) having a cylindrical shape and a standing maintaining means (300) are connected. forming a , 2) inserting the reinforcing bar structure 100 into the removable pretension device 200, and 3) placing the concrete structure into the pretension device 200, then placing the pretension device ( 200) and 4) removing the pretension device 200 after the concrete structure has hardened to obtain the telephone pole (P).

In addition, the standing maintenance means 300 is made of a corrugated pipe shape that can be bent, and the outer surface has a concave portion 311 and a convex portion 313 that are inserted through the PC steel wire 110 and fixed to the reinforcing bar structure 100. The outer body 310 is formed alternately in the longitudinal direction and has the shape of a coil spring, and is inserted and installed inside the outer body 310 so as to be located inside the convex portion 313, so that the outer body 310 is moved by elastic force. ) is provided so that the elastic body 320 is always in an upright state, and a hollow part 331 is formed inside the elastic body 320 through which the cable penetrates in the longitudinal direction, to protect against shock applied from the outside of the telephone pole (P). It is preferable to include a shock absorber 330 that absorbs shock together with the elastic body 320.

In addition, the outer body 310 extends in an outward direction from the outer surface of the convex portion 313, and is connected to the reinforcing bar by a plurality of flanges 315 formed with through holes 317 through which the PC steel wire 110 is inserted. It is desirable to enable it to be fixed to the structure 100.

According to the present invention, the effect of increasing the bonding force to the utility pole is expected by absorbing the shock applied from the outside in stages through the standing maintenance means, differently from the prior art.

Figure 1 is a flow chart showing a method of manufacturing a utility pole for a distribution line that can remain upright according to the present invention.
Figures 2 and 3 are diagrams showing the electric pole manufacturing process for Figure 1.
Figure 4 is a usage state diagram showing the installation of the electric pole generated by Figure 1.
Figure 5 is a plan view of the standing maintenance means used in the method of manufacturing a utility pole for a distribution line capable of standing upright according to the present invention.
Figure 6 is a cross-sectional view taken along line AA' of Figure 5;
Figure 7 is an operational relationship diagram of the standing maintenance means for Figure 5.

Hereinafter, various embodiments will be described in more detail with reference to the attached drawings. The embodiments described herein may be modified in various ways. Specific embodiments may be depicted in the drawings and described in detail in the detailed description. However, the specific embodiments disclosed in the attached drawings are only intended to facilitate understanding of the various embodiments. Therefore, the technical idea is not limited to the specific embodiments disclosed in the attached drawings, and it should be understood that all equivalents or substitutes included in the spirit and technical scope of the invention are included.

Terms containing ordinal numbers, such as first, second, etc., may be used to describe various components, but these components are not limited by the above-mentioned terms. The above-mentioned terms are used only for the purpose of distinguishing one component from another.

In this specification, terms such as “comprise” or “have” are intended to indicate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof. When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be. On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between.

In addition, when describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof is abbreviated or omitted.

Hereinafter, with reference to the attached drawings, a method of manufacturing a utility pole for a distribution line capable of maintaining an upright position according to the present invention (hereinafter, briefly referred to as 'manufacturing method') will be described in detail.

First, as shown in Figures 1 to 3, the manufacturing method (1) according to the present invention is largely 1) a reinforcing bar structure (100) so that the PC steel wire (110) having a cylindrical shape and the standing maintenance means (300) are connected. ) forming a step (S10), 2) inserting the reinforcing bar structure 100 into the removable pretension device 200 (S20), and 3) placing a concrete structure into the pretension device 200. Afterwards, it includes the step of rotating the pretension device 200 (S30) and 4) the step of obtaining the telephone pole (P) by removing the pretension device 200 after the concrete structure has hardened (S40). .

In more detail, in order to obtain a telephone pole (P) equipped with standing maintenance means (300) through the manufacturing method (1) according to the present invention, the worker uses a plurality of PC steel wires (110) to create an overall pole shape. Step 1) of manufacturing the reinforcing bar structure 100 is performed.

In this process, the worker ensures that manufacturing is performed while inserting at least one standing maintenance means 300 into the steel structure 100, and installing the standing maintenance means 300. The position is maintained at a height (H) of 1.5 to 2.5 meters relative to the bottom of the pole (P) where external shocks such as cars occur most frequently when installing the utility pole (P) to be acquired later on the ground. The means 300 can be placed.

Through this, as shown, when an impact is applied to the outer surface of a telephone pole (P) due to a car, etc., the concrete forming the body of the telephone pole (P) is damaged and the reinforcing bar structure 100 is bent or cut due to the impact. The degree of bending of the telephone pole (P) is significantly reduced by the standing maintenance means (300) provided inside the reinforcing bar structure (100).

Meanwhile, the standing maintenance means 300 in the present invention may include an external body 310, an elastic body 320, and a shock absorber 330, as shown in FIGS. 4 to 6.

For example, as shown, the outer body 310 is formed in the shape of a corrugated pipe with concave portions 311 and convex portions 313 formed alternately in the longitudinal direction on the outer surface, and is a circular pipe with the upper and lower ends open. It can have a (PIPE) shape.

At this time, a flange 315 extending outwardly is formed on the outer surface of the convex portion 313 and protrudes in the shape of a plate, and a through hole 317 is formed on the outer surface of the flange 315 to form the PC steel wire 110 described above. ) It is desirable to allow it to be inserted through.

By allowing the through holes 317 formed on the outer surface of the plurality of flanges 315 to be inserted through the outer surface of the PC steel wire 110, the standing maintenance means 300 is stably placed inside the reinforcing bar structure 100 and at the same time, There is an advantage that the movement of the standing maintenance means 300 is prevented even when the pretension device 200 rotates.

In addition, the elastic body 320 having elastic force provided inside the external body 310 is molded to have the shape of a coil spring as shown, and preferably the spiral-shaped body is inserted and placed inside the convex portion 313. make it possible

Through this, the convex portions 313 and concave portions 311 of the outer body 310, which are molded from synthetic resin material, primarily absorb the shock applied from the side of the telephone pole (P), and secondarily, the elastic body (320) absorbs the shock, and thirdly, the shock absorber 330 provided inside the elastic body 320 absorbs the shock, and the telephone pole (P) bends through the vertical force of the elastic body 320. Minimize mess.

In addition, as shown, the shock absorber 330 is foamed to be located inside the elastic body 320 using a material such as urethane, thereby ensuring that the elastic body 320 is fixed inside the external body 310. It has the function of absorbing external shock from the telephone pole (P).

At this time, the shock absorber 330 is molded so that a hollow portion 331 is formed in the longitudinal direction inside so that cables such as ground wires (not shown) can penetrate, and at the same time, it absorbs the shock applied to the utility pole (P). Depending on the size, through the formation of the hollow portion 331, it is possible to minimize the transmission of the impact to the side where the impact is not additionally applied (see FIG. 7).

When the above-mentioned step 1) is completed, the worker includes an upper body 210 and a lower body 220 that can be removed and combined with each other to perform the step 2). It is inserted into the pretension device 200.

To elaborate, the worker inserts the reinforcing bar structure 100 equipped with the standing maintenance means 300 into the lower body 220 from which the upper body 210 is separated, but after the reinforcing bar structure 100 is inserted, the upper body 210 is inserted. The body 210 is coupled to the lower body 220 so that the reinforcing bar structure 100 can be provided inside the pretension device 200.

At this time, the pretension device 200 refers to a device used in a normal pretension method in which the concrete structure injected inside is hardened together with the reinforcing bar structure 100 by centrifugal force to have the shape of a telephone pole (P). Although not shown, a rotating means (not shown) such as a motor that provides power to generate centrifugal force is installed in the pretension device 200.

When the above-mentioned step 2) is completed, the worker uses the reinforcing bar structure 100 as a skeleton, inserts a concrete structure forming the body of the telephone pole (P) into the pretension device 200, and then inserts the pretension device (200) through a rotating means. 200) rotates to execute step 3) where the concrete can be hardened by centrifugal force.

When the above-mentioned step 3) is completed, the manufacturing method (1) according to the present invention is completed by removing the upper body 210 in the final step 4) and obtaining the telephone pole (P) obtained through hardening of the concrete. .

As described above, the telephone pole (P) obtained by the manufacturing method (1) according to the present invention absorbs the shock applied from the outside in stages through the standing maintenance means (300) differently from the conventional one. The effect of increasing the bonding force to the corresponding utility pole (P) is expected.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , those skilled in the art can make various modifications and variations from this description.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described later as well as all things that are equivalent or equivalent to the scope of this patent claim shall fall within the scope of the spirit of the present invention. .

100: steel structure 110: PC steel wire
200: Pretension device
210: upper body 220: lower body
300: Means for standing upright
310: outer body 311: concave portion
313: Convex portion 315: Flange
317: through hole 320: elastic body
330: shock absorber 331: hollow part

Claims (3)

delete 1) Forming the reinforcing bar structure 100 so that the PC steel wire 110 having a cylindrical shape and the standing maintenance means 300 are connected;
2) Inserting the reinforcing bar structure 100 into a removable pretension device 200;
3) After pouring the concrete structure into the pretension device 200, rotating the pretension device 200; and
4) After the concrete structure is hardened, remove the pretension device 200 to obtain a utility pole (P). In the method of manufacturing a pole for a distribution line that can be maintained upright, comprising:
The standing maintenance means 300 is
The outer body is made of a corrugated pipe shape that can be bent, but the outer surface is formed alternately in the longitudinal direction with concave portions 311 and convex portions 313 that are inserted through the PC steel wire 110 and fixed to the reinforcing bar structure 100. 310);
An elastic body 320 that has the shape of a coil spring and is inserted into the outer body 310 to be located inside the convex portion 313 so that the outer body 310 is always in an upright state by elastic force. ; and
A shock absorber 330 formed inside the elastic body 320, which has a hollow portion 331 through which the cable passes in the longitudinal direction, and which absorbs the shock applied from the outside of the utility pole (P) together with the elastic body 320; A method of manufacturing a utility pole for a distribution line that can be maintained upright, comprising:
According to paragraph 2,
The outer body 310 is formed to extend outward from the outer surface of the convex portion 313, and is formed by a plurality of flanges 315 with through holes 317 through which the PC steel wire 110 is inserted. 100) A method of manufacturing a utility pole for a distribution line that can be maintained upright, characterized in that it can be fixed to.

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