KR20240020605A - Circuit type reinforced concrete electric pole for easy reinforced disconnected diagnostic - Google Patents

Abstract

The circuit-type reinforced concrete electric pole of the present invention, which facilitates diagnosis of reinforcing bar disconnection, has internal reinforcing bars (130) by connecting reinforcing bars (138) arranged alternately up and down at the top and bottom of the plurality of tension bars (132) and reinforcing bars (134). Since the entire structure is connected in a zigzag manner (series circuit method), there is an advantage in that the replacement of the electric pole 100 can be clearly determined by increasing the accuracy when determining whether the internal reinforcing bar 130 is disconnected using diagnostic equipment.

Description

Circuit-type reinforced concrete pole for easy diagnosis of rebar disconnection {CIRCUIT TYPE REINFORCED CONCRETE ELECTRIC POLE FOR EASY REINFORCED DISCONNECTED DIAGNOSTIC}

The present invention relates to a circuit-type reinforced concrete electric pole that facilitates the diagnosis of rebar breakage. More specifically, it relates to a circuit-type reinforced concrete electric pole that is easy to diagnose rebar breakage by directly contacting the rebar inside the concrete and making it possible to clarify the judgment result when diagnosing the breakage of the rebar. This relates to circuit-type reinforced concrete electric poles.

In general, concrete electric poles are used as supports for overhead power distribution facilities, and are manufactured as reinforced concrete poles with reinforcing steel bars (tensile bars, rebars) inside to compensate for the weak tensile stress, which is a weak point of concrete.

Figure 1 is a longitudinal cross-sectional view of a conventional reinforced concrete electric pole, Figure 2 is a transverse cross-sectional view of a conventional reinforced concrete electric pole, and Figure 3 is a three-dimensional illustration showing the internal reinforcing bar network structure formed inside the conventional reinforced concrete electric pole. .

As shown, the internal reinforcing bars consist of tension bars (21, 23, 25, 27) and reinforcing bars (22, 24, 26, 28) that make up the longitudinal reinforcing bars, and circular reinforcing bars (32 ~ 37) distributed in a circular shape. They are welded together to form a mesh, placed in a rotating mold, and poured into concrete (10) while rotating to cure it. After curing is completed, the reinforcing bars exposed to the outside of the electric pole body among the tension bars that were pulled from both ends of the rotating frame to provide tension are cut off and the manufacturing is completed.

Meanwhile, cracks occur in concrete 10 due to the effects of materials, mixing, manufacturing, environment, external forces, etc. over time, and it is currently difficult to completely remove cracks. Through these cracks, external moisture or foreign substances penetrate into the interior of the concrete pole, which causes corrosion of the rebar and weakens its tensile strength.

In urban areas, calcium chloride is sprayed for snow removal in winter, and if this dissolved calcium chloride water penetrates into the interior of the pole through cracks in the pole, it poses a serious threat of corroding the reinforcing bars inside the concrete pole.

If the internal rebar is corroded and damaged or cut, the electric pole may collapse with just a slight lateral load, which may cause a safety accident to the general public and physical property damage. In addition, social distrust in the safety of power facilities causes the NIMBY phenomenon, in which people request to relocate power facilities in front of their homes or oppose their installation.

Therefore, in the past, reinforced concrete electric poles have been proposed that can directly connect diagnostic equipment to the internal reinforcing bars to diagnose whether the internal reinforcing bars are disconnected. However, these reinforced concrete electric poles have a plurality of tension bars and reinforcing bars that make up the internal reinforcing bars individually. Because the circular reinforcing bars are arranged at regular intervals along the circumferential direction and welded together with the circular reinforcing bars to form a network-shaped structure, many tension bars and reinforcing bars may not be welded to the circular reinforcing bars at the manufacturing stage, or some welded parts may be damaged after installing the poles. If it falls, even if the diagnostic equipment is connected to the internal rebar, it is not possible to accurately diagnose whether the internal rebar is broken, and accordingly, there is a problem in that the judgment result cannot be clarified when diagnosing whether the internal rebar is broken.

This is bound to be an arbitrary judgment depending on the inspector's perspective, and if a strict judgment standard is applied, healthy electric poles will be replaced, and if a lax judgment standard is applied, a safety accident may occur due to the pole collapse.

Republic of Korea Patent Publication No. 10-1895206 (2018.08.30.)

The purpose of the present invention is to determine whether the internal reinforcing bars are disconnected using diagnostic equipment by configuring them in a vertical zigzag manner (series circuit method) to connect the tension bars and reinforcing bars of the internal reinforcing bars in one line. The goal is to provide a circuit-type reinforced concrete electric pole that is easy to diagnose whether a rebar is disconnected, which can increase accuracy when making a clear decision on pole replacement.

In order to solve the above technical problem, a circuit-type reinforced concrete electric pole for easy diagnosis of rebar disconnection according to an embodiment of the present invention includes a plurality of tension bars 132, reinforcing bars 134, and circular reinforcing bars 136 in the electric pole 100. ), and the plurality of tension bars 132 and reinforcing bars 134 are arranged in a zigzag manner (series circuit method) to be connected in one line.

As another embodiment, the plurality of tension muscles 132 and reinforcing bars 134 of the present invention are connected in an up and down zigzag manner (series circuit method) at regular intervals alternating with each other in the circumferential direction within the electric pole 100. It is characterized by

As another embodiment, the plurality of tension bars 132 and reinforcing bars 134 of the present invention are characterized in that the upper and lower ends are alternately connected to each other by connecting reinforcing bars 138.

As another embodiment, the connecting reinforcing bars 138 of the present invention are characterized in that they are connected by welding.

As another embodiment, the plurality of tension bars 132 and reinforcing bars 134 of the present invention are characterized in that they are in close contact with the inner peripheral surface of the circular reinforcing bars 136.

As another embodiment, the first diagnostic terminal 140 is connected to any one of the plurality of tension muscles 132 of the present invention so as to be exposed to the outside of the electric pole 100, and any one of the plurality of reinforcing muscles 134 One is characterized in that the second diagnostic terminal 142 is connected to the outside of the electric pole 100.

In another embodiment, the first diagnostic terminal 140 and the second diagnostic terminal 142 of the present invention are arranged in parallel at the same height.

As another embodiment, the first diagnostic terminal 140 and the second diagnostic terminal 142 of the present invention are connected by welding.

As another embodiment, the first diagnostic terminal 140 and the second diagnostic terminal 142 of the present invention are characterized in that they are reinforcing bars or coated copper wires.

As another embodiment, the internal reinforcing bars 130 comprised within the concrete portion 120 of the electric pole 100 of the present invention include a plurality of internal reinforcing bars 130 arranged vertically at regular intervals alternately in the circumferential direction within the concrete portion 120. tensile muscles (132) and a plurality of reinforcing muscles (134); Circular reinforcing bars 136 that hold the plurality of tension bars 132 and the plurality of reinforcing bars 134 to be arranged in a circular mesh shape; A plurality of tension muscles 132 and a plurality of reinforcement bars 134 are connected to the upper and lower ends of the plurality of tension muscles 132 and the plurality of reinforcement bars 134 so that the plurality of tension muscles 132 and the plurality of reinforcement bars 134 are connected in a zigzag manner (series circuit method). Connecting rebar (138); A first diagnostic terminal 140 connected to one of the plurality of tension muscles 132 and exposed to the outer peripheral surface of the concrete part 120; And a second diagnostic terminal 142 connected to one of the plurality of reinforcing bars 134 and exposed to the outer peripheral surface of the concrete part 120.

The circuit-type reinforced concrete pole of the present invention, which facilitates the diagnosis of reinforcing bar disconnection, has all internal reinforcing bars connected in a zigzag manner (series circuit method) by connecting reinforcing bars arranged alternately up and down at the top and bottom of the plurality of tension bars and reinforcing bars. Because it has a built-in structure, it has the advantage of increasing accuracy when determining whether internal reinforcing bars are disconnected using diagnostic equipment, making the decision to replace electric poles clearer.

Figure 1 is a longitudinal cross-sectional view of a conventional reinforced concrete electric pole.
Figure 2 is a transverse cross-sectional view of a conventional reinforced concrete electric pole.
Figure 3 is a three-dimensional illustration showing the internal reinforcing bar network structure formed inside a conventional reinforced concrete electric pole.
Figure 4 is a three-dimensional illustration showing a circuit-type rebar structure according to the present invention.
Figure 5 is a three-dimensional illustration showing a circuit-type rebar structure applied to a concrete electric pole according to the present invention.
Figure 6 is a plan view showing a circuit-type reinforcing bar structure applied to a reinforced concrete electric pole according to the present invention.

Hereinafter, in order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings FIGS. 4 to 6. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. It should be noted that the same configuration may be indicated by the same reference numeral in each drawing. Detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the gist of the present invention are omitted.

Referring to FIGS. 4 to 6, the circuit-type reinforced concrete electric pole 100, which facilitates diagnosis of reinforcing bar disconnection according to an embodiment of the present invention, has a plurality of tension bars 132 and reinforcing bars 134 within the concrete portion 120. ), circular reinforcing bars 136, connecting reinforcing bars 138, and an internal reinforcing bar 130 consisting of a first diagnostic terminal 140 and a second diagnostic terminal 142.

That is, the internal reinforcing bars 130 comprised in the concrete part 120 of the electric pole 100 are a plurality of tension bars 132 each arranged vertically at regular intervals alternately in the circumferential direction within the concrete part 120. and a plurality of reinforcement bars (134); Circular reinforcing bars 136 that hold the plurality of tension bars 132 and the plurality of reinforcing bars 134 to be arranged in a circular mesh shape; A plurality of connection reinforcing bars 138 connecting the upper and lower ends of the plurality of tension bars 132 and the plurality of reinforcing bars 134 so that the plurality of tension bars 132 and the plurality of reinforcing bars 134 are connected in series; A first diagnostic terminal 140 connected to one of the plurality of tension muscles 132 and exposed to the outer peripheral surface of the concrete part 120; And a second diagnostic terminal 142 connected to one of the plurality of reinforcing bars 134 and exposed to the outer peripheral surface of the concrete part 120.

At this time, it is preferable that the plurality of tension muscles 132 and reinforcing bars 134 are connected in an up and down zigzag manner (series circuit method) so as to be connected in one line.

It is preferable that the plurality of tension bars 132 and reinforcing bars 134 are alternately connected at the upper and lower ends by connecting reinforcing bars 138, and the connecting reinforcing bars 138 are connected by welding.

It is preferable that the plurality of tension bars 132 and reinforcing bars 134 are configured to be in close contact with the inner peripheral surface of the circular reinforcing bars 136.

The first diagnostic terminal 140 and the second diagnostic terminal 142 are arranged in parallel at the same height, and the ends of the first diagnostic terminal 140 and the second diagnostic terminal 142 are welded. It is desirable to be connected.

Additionally, the first diagnostic terminal 140 and the second diagnostic terminal 142 are preferably made of reinforcing bars or coated copper wires.

Here, the first diagnostic terminal 140 and the second diagnostic terminal 142 are connected to diagnostic equipment (not shown) and serve as a reinforcing bar circuit to diagnose whether the tension bar 132 and the reinforcing bar 134 are disconnected. do.

As such, the circuit-type reinforced concrete pole of the present invention, which facilitates the diagnosis of reinforcing bar disconnection, is formed by internal reinforcing bars (138) arranged alternately up and down at the top and bottom of the plurality of tension bars (132) and reinforcing bars (134). Since the entire structure of (130) is connected in a zigzag manner (series circuit method), the accuracy can be increased when determining whether the internal rebar is disconnected using diagnostic equipment, making it possible to clearly determine the replacement of the electric pole, which has the following advantages.

First, the time required for diagnosis can be shortened, and the judgment results are clear, eliminating the need for cross-checking, thereby increasing efficiency and reliability.

Second, no additional equipment and product development costs are incurred to produce distribution poles.

Third, diagnostic costs can be minimized by concurrently determining the condition of the pole (100) during regular inspection.

Fourth, a safe diagnostic method (resistance measurement) can minimize work risks and prevent major industrial accidents.

Fifth, with the increase in diagnostic volume, it is possible to remove electric poles with insufficient strength in advance and reinforce them in a timely manner, thereby preventing major civil disasters.

Meanwhile, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and modifications without departing from the gist of the present invention, and the technical idea to which such modifications and modifications are applied also falls within the scope of the following patent claims. Must see.

100: Jeonju
120: concrete part
130: internal rebar
132: tensile muscle
134: reinforcement bar
136: circular rebar
138: Connecting rebar
140: first diagnostic terminal
142: Second diagnostic terminal

Claims (10)

Inside the electric pole 100, an internal reinforcing bar 130 is composed of a plurality of tension bars 132, reinforcing bars 134, and circular reinforcing bars 136,
A circuit-type reinforced concrete electric pole that is easy to diagnose whether the reinforcing bars are disconnected, characterized in that the plurality of tension bars 132 and reinforcing bars 134 are arranged in a zigzag manner (series circuit method) so as to be connected in one line. In claim 1,
Diagnosis of rebar disconnection, characterized in that the plurality of tension bars 132 and reinforcing bars 134 are connected in an up and down zigzag manner (series circuit method) at regular intervals alternating with each other in the circumferential direction within the electric pole 100. This easy circuit type reinforced concrete electric pole. In claim 2,
A circuit-type reinforced concrete electric pole that is easy to diagnose whether the reinforcing bars are disconnected, characterized in that the plurality of tension bars 132 and reinforcing bars 134 are alternately connected to each other at the upper and lower ends by connecting reinforcing bars 138. In claim 3,
The connecting reinforcing bars 138 are circuit-type reinforced concrete electric poles that facilitate diagnosis of broken reinforcing bars, characterized in that they are connected by welding. In claim 1,
A circuit-type reinforced concrete electric pole for easy diagnosis of rebar disconnection, characterized in that the plurality of tension bars 132 and reinforcing bars 134 are in close contact with the inner peripheral surface of the circular rebar 136. In claim 1,
A first diagnostic terminal 140 is connected to one of the plurality of tension muscles 132 so as to be exposed to the outside of the electric pole 100,
A circuit-type reinforced concrete electric pole for easy diagnosis of reinforcing bar disconnection, characterized in that a second diagnostic terminal 142 is connected to any one of the plurality of reinforcing bars 134 so as to be exposed to the outside of the electric pole 100. In claim 6,
The first diagnostic terminal 140 and the second diagnostic terminal 142 are arranged in parallel at the same height. A circuit-type reinforced concrete electric pole that facilitates diagnosis of broken rebar. In claim 6,
The first diagnostic terminal 140 and the second diagnostic terminal 142 are connected by welding. A circuit-type reinforced concrete electric pole that facilitates diagnosis of broken rebar. In claim 6,
The first diagnostic terminal 140 and the second diagnostic terminal 142 are circuit-type reinforced concrete electric poles that facilitate diagnosis of broken rebar, characterized in that the rebar or coated copper wire is used. The internal reinforcing bar 130 comprised in the concrete part 120 of the electric pole 100 is,
A plurality of tension bars 132 and a plurality of reinforcing bars 134 arranged vertically at regular intervals alternating in the circumferential direction within the concrete portion 120;
Circular reinforcing bars 136 that hold the plurality of tension bars 132 and the plurality of reinforcing bars 134 to be arranged in a circular mesh shape;
A plurality of tension muscles 132 and a plurality of reinforcement bars 134 are connected to the upper and lower ends of the plurality of tension muscles 132 and the plurality of reinforcement bars 134 so that the plurality of tension muscles 132 and the plurality of reinforcement bars 134 are connected in a zigzag manner (series circuit method). Connecting rebar (138);
A first diagnostic terminal 140 connected to one of the plurality of tension muscles 132 and exposed to the outer peripheral surface of the concrete part 120; and
A circuit-type reinforced concrete electric pole for easy diagnosis of rebar disconnection, characterized in that it includes a second diagnostic terminal 142 connected to one of the plurality of reinforcing bars 134 and exposed to the outer peripheral surface of the concrete part 120. .

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