KR101692640B1 - Apparatus for breakage detection of steel reinforcement - Google Patents

Abstract

The present invention relates to a device to detect a fracture of a reinforcing bar for an electric pole. The device to detect the fracture of the reinforcing bar for the electric pole comprises: a detection unit (10) attached along an outer surface of a circumferential direction of an electric pole, detecting a magnetic field generated from a reinforcing bar (3) at a position corresponding to the plurality of reinforcing bars (3) embedded in the electric pole (1); a data logger unit (20) receiving and storing magnetic field data on the reinforcing bar (3) which the detection unit (10) detects; and a fracture state detecting unit (30) detecting a fractured state of the reinforcing bar (3) based on an amount of change of the magnetic field in the magnetic field data stored in the data logger unit (20). According to the present invention, the device to detect the fracture of the reinforcing bar for the electric pole is able to perform a fracture state detection work on the plurality of reinforcing bars, and is able to easily perform the fracture state detection work on the reinforcing bar in various electric poles with different diameters.

Description

[0001] APPARATUS FOR BREAKAGE DETECTION OF STEEL REINFORCEMENT [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for detecting a breakage of a reinforcing bar for a pole, and more particularly to a device for detecting a breakage of a reinforcing bar in a structure having a reinforcing bar embedded in a concrete pole or the like.

Generally, most of the supports used in the distribution line are made of prestressed (P.S) concrete structure. P.S Concrete electric pole causes an accident that concrete is broken due to breakage of reinforcing bars inside the pole when used for a long time.

P.S The concrete structure is designed to support the bending moment by the tensile force of the reinforcing bar. Therefore, if the reinforcing bar inside the bending column is broken and the tensile force is lost, the concrete pole is damaged.

Recently, when a worker cuts a cable connected to a pole in order to replace a concrete pole, there is a case in which a pole is suddenly collapsed and a safety accident occurs because the balance of power is broken.

In Korea, where P and S concrete poles are used, various devices such as transformers and switchgears are installed in the poles, so the risk of accidents is very high due to the breakage of the reinforcing bars inside the concrete. Therefore, it is necessary to diagnose the fracture of the inner reinforced concrete and to replace or reinforce the pole before the collapse occurs.

A related patent is KR 10-2014-0042240 (published Apr. 4, 2014).

However, in the prior patent, it is difficult to diagnose the fracture of the reinforcing bar at the remote site because the reinforcing bar fracture can be diagnosed only near the fracture portion by using the sensor, which is one of smart phone functions, to diagnose the fracture portion of the reinforcing bar in the concrete pole.

1 (a), when a break (P) occurs in the upper part of the ground surface 2 of the concrete pole 1, the sensor is contacted to the concrete pole 1, However, as shown in Fig. 1 (b), when a rebound fracture 9 occurs in the lower part of the ground surface 2 of the electric pole 1, it is impossible to contact the sensor and it is impossible to detect the breakage of the rebar.

In order to inspect a plurality of reinforcing bars, the prior art must not only sequentially arrange the sensors along the circumference on the outer surface of the pole, but also check the condition of the reinforcing bars in the vertical direction There is a problem that the workability is greatly lowered as the time is increased.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a structure for detecting a plurality of reinforcing bar fracture states simultaneously by detecting a magnetic field generated from a plurality of reinforcing bars in close contact with an outer surface of a pole, And to provide a device for detecting a breakage of a steel bar for a steel bar.

It is still another object of the present invention to provide a device for detecting a breaking strain of a reinforcing bar with respect to an electric pole having a variable diameter, which can be easily carried out without replacing the detecting unit.

According to an aspect of the present invention for achieving the above object, the present invention provides a method of detecting a magnetic field generated from a reinforcing bar at a position corresponding to a plurality of reinforcing bars embedded in a circumferential outer surface of a pole, A data logger unit for receiving and storing the magnetic field data for the reinforcing bars detected by the detecting unit; and a rupture state detector for detecting the rupture state of the reinforcing bars based on the magnetic field variation amount of the magnetic field data stored in the data logger unit. .

The detecting unit includes a gripping part for providing a gripping area to an operator, a detection body which is pivotably coupled to one side of the gripping part and is curved so that one side is closely contacted along the circumferential outer surface of the pole, And a plurality of magnetic field detecting portions provided at predetermined intervals along the longitudinal direction of the magnetic field detecting portion.

The detecting body is formed by bending a plurality of pivoting blocks by mutually rotatably connecting through a fixing member.

The fixing member is constituted by a bolt-nut type, and fixes the engagement state of the adjacent rotation block and the rotation block.

The magnetic field detection unit is installed in the rotation block.

Wherein the detecting unit includes a gripping portion for providing a gripping area to an operator, a barb extending from the gripping portion and extending on the other side in a direction away from the gripping portion, The other side of which is connected to the barb via elastic means and whose one side is in close contact with the circumferential outer surface by elastic deformation on one side of the pole, And a plurality of magnetic field detecting portions to be installed.

The detecting body includes a plurality of chain blocks rotatably coupled to each other through a pivoting member, and elastic bands connected between the chain blocks.

The magnetic field detection unit is installed in the chain block.

The present invention detects a magnetic field generated from a reinforcing bar at a position corresponding to a plurality of reinforcing bars embedded in a pole in close contact with the outer surface of the pole. Therefore, it is possible to simultaneously detect a plurality of reinforcing bar rupture states, and the workability can be greatly improved.

Further, in the present invention, the detection body is formed by combining a plurality of pivot blocks, and is fixed to the outer peripheral surface of the pole by fixing the angle of each pivot block. Therefore, there is an effect that it is possible to easily perform the operation of detecting the breaking condition of the reinforcing bar with respect to the electric pole having various diameters without changing the detection unit.

Further, in the present invention, the detecting body is formed by combining a plurality of chain blocks, and is brought into close contact with the outer circumferential surface of the pole by elastic deformation using elastic means and elastic band. Therefore, it is possible to easily detect the breaking condition of the reinforcing bars with respect to the poles of which the outer diameters of the upper and lower portions are different from each other as the diameter gradually increases from the upper portion to the lower portion.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an example of a rebound rupture of an upper portion and a lower portion of a ground surface of a concrete electric pole. Fig.
FIG. 2 and FIG. 3 are views showing a device for detecting a breaking strain for a pole according to an embodiment of the present invention. FIG.
4 is a view showing a method of detecting a break of a reinforcing bar by bringing an embodiment of the present invention into close contact with a circumferential outer surface of a pole.
5 is a view showing a device for detecting a breaking strain for a pole according to another embodiment of the present invention.
6 is a view showing a method of detecting a break of a reinforcing bar by bringing another embodiment of the present invention into close contact with a circumferential outer surface of a pole.

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

[Example]

As shown in Figs. 2 and 3, the apparatus for detecting a steel reinforcing bar fracture according to an embodiment of the present invention includes a detection unit 10, a data logger unit 20, and a fracture state detection unit 30. [

4, the detecting unit 10 is provided in the vicinity of the reinforcing bars 3 at a position corresponding to a plurality of reinforcing bars 3 that are closely attached along the circumferential outer surface of the electric pole 1 and buried in the electric pole 1, Magnetic field.

A plurality of reinforcing bars (3) are embedded in the electric pole (1) while maintaining a constant spacing in a circular shape. The length of the reinforcing bars 3 embedded in the inside of the electric pole 1 is approximately 2.5 m (in the case of a 16 m electric pole) from the ground surface to the floor.

In such a case, when a magnetic field is detected for a plurality of reinforcing bars 3 that are closely attached along the circumferential outer surface of the electric pole 1 and move in the vertical direction and embedded in the electric pole 1, (3) Breaking state detecting operation can be performed simultaneously.

The principle can be detected that the reinforcing bars 3 are in a fractured state in a portion where the amount of change of the magnetic field in the longitudinal direction of the reinforcing bars 3 is abrupt.

When a magnetic field is detected for a plurality of reinforcing bars 3 which are closely contacted along the circumferential outer surface at a predetermined height of the electric pole 1 and embedded in the electric pole 1, Can be detected.

The principle is that when magnetic field data for a plurality of reinforcing bars 3 are detected in a circumferential direction at a predetermined height above the surface of the pole 1, the reinforcing bars in the fractured state can be diagnosed by graphing the magnetic field data and comparing the magnetic field strength.

Even in the case of the bottom reinforcing bar fracture, the fractured reinforcing bars can be detected because the strength of the magnetic field strength is different from that of the unbroken reinforcing bars.

When the strength of the magnetic field of the circumferential direction reinforcing bars (3) is compared, the strength of the unbreakled reinforcing bars is almost the same as that of the reinforcing bars.

The detection unit 10 includes a grip portion 11, a detection body 13, and a magnetic field detection portion 19. [

The grip portion 11 is a portion that provides a gripping area to an operator so that the operator can move the detection body 13 in the vertical direction of the electric pole 1. [ The grip portion 11 may be formed in a bar shape having a predetermined length so as to be easily grasped by an operator.

The detection body 13 is rotatably coupled to one side of the grip portion 11. [ The detecting body 13 provides the mounting area of the magnetic field detecting section 19 and is brought into close contact with the outer surface of the electric pole 1 so that the magnetic field detecting section 19 detects the magnetic field of the reinforcing bar 3 embedded in the electric pole 1 .

The detection body 13 may be curved in a shape corresponding to the circumferential outer surface of the electric pole 1. [ As the detection body 13 is formed to be curved, one side can be closely contacted along the circumferential outer surface of the electric pole 1. [

The detecting body 13 can be formed to be curved by coupling a plurality of turning blocks 15 with each other through a fixing member 17 so as to be rotatable.

The fixing member 17 connects the pivot blocks 15 to form the detection body 13 and fixes the angles of the pivot blocks 15 connected to each other so that a magnetic field detection unit 19 to be described later is embedded in the pole 1 So as to be disposed at a position corresponding to the reinforced bar 3.

3, a through hole 16 to which the fixing member 17 is coupled is formed at both ends of each of the rotation blocks 15, and the fixing member 17 is fixed by a bolt 17a, a nut 17b, .

The fixing member 17 is coupled to the through hole 16 of the adjacent turning block 15a and the turning block 15b to fix the combined state of the turning block 15a and the turning block 15b.

The magnetic field detecting unit 19 may be a plurality of magnetic field detecting units 19 installed at regular intervals along the longitudinal direction of the detecting body 13.

Specifically, the magnetic field detection unit 19 is provided on one side of the plurality of rotation blocks 15, and generates a magnetic field generated from the reinforcing bars 3 in a state in which the plurality of rotation blocks 15 are in close contact with the outer surface of the electric pole 1 . The magnetic field detection unit 19 may be embedded in one side of each of the rotation blocks 15. In the present embodiment, the magnetic field detecting portion 19 is embedded in the center of each of the rotation blocks 15.

The magnetic field detection unit 19 may be a magnetic sensor for measuring a magnetic field, which is a current generated in the reinforcing bar 3 by an electromagnetic induction phenomenon.

As described above, the detection body 13 can be formed so as to surround the outer surface of the electric pole 1 in the circumferential direction by connecting a plurality of the rotation blocks 15. However, it is preferable that the detection body 13 is formed to have a length of about 1/2 of the size of the circumferential circumference in consideration of the noise generated between the neighboring magnetic field detecting portions 19 when the magnetic field is detected.

The data logger unit 20 receives and stores the magnetic field data for the reinforcing bars 3 detected by the detecting unit 10. [ The data logger unit 20 is electrically connected to the detection unit 10 and substantially receives and stores magnetic field data for the reinforcing bars 3 detected by the magnetic field detection unit 19 of the detection unit 10. [

The fracture state detecting section 30 detects the fracture state of the reinforcing bars based on the magnetic field change amount of the magnetic field data stored in the data logger unit 20. [ Specifically, the breakage state detecting unit 30 can receive the magnetic field data stored in the data logger unit 20, which is electrically connected to the data logger unit 20, The breakage state of the reinforcing bars is detected.

Hereinafter, the operation of the present invention will be described.

A method of detecting the breakage of a reinforcing bar by closely contacting the detecting body along the circumferential outer surface of the pole will be described.

To do this, as shown in FIG. 4, a worker rotates a work (not shown) of a turning block 15 which is rotatably coupled to a grip 11 of a plurality of turning blocks 15 while gripping the grip 11 And supports the side surface on the outer surface of the electric pole (1).

Next, the remaining plurality of pivot blocks 15 are rotated in a direction close to the outer surface of the electric pole 1 so that one side of the plurality of pivot blocks 15 is brought into close contact with the outer surface of the pole 1. [

Next, the fixing members 17 connecting the respective turning blocks 15, that is, the bolts and the nuts are tightened to fix the state in which the turning blocks 15 are rotated.

The detection body 13 composed of the plurality of rotation blocks 15 can be held in close contact with the outer surface of the electric pole 1 and the magnetic field detection portion 19 provided in each rotation block 15 It is possible to detect the magnetic field of the reinforcing bar 3 at the corresponding position.

Thereafter, as the gripper 11 moves upward, the plurality of turning blocks 15 are moved upward together, and the magnetic field detecting unit 19 detects the magnetic field of the reinforcing bar 3 in the longitudinal direction.

That is, when the grip portion 11 moves upward, a plurality of rotation blocks 15 connected to the grip portion 11 are moved upward in contact with the outer surface of the electric pole 1, Can be detected along the longitudinal direction of the reinforcing bar (3).

The magnetic field data for the reinforcing bars 3 detected by the magnetic field detecting unit 19 is stored in the data logger unit 20. [

The break condition detector 30 detects the change of the magnetic field with respect to each reinforcing bar 3 based on the magnetic field data stored in the data logger unit 20 and detects the break condition of the reinforcing bar according to the amount of change in the magnetic field.

For example, when magnetic field data in the longitudinal direction with respect to any one of the plurality of reinforcing bars is shown, it can be detected that the reinforcing bars are in a broken state in a portion where the amount of change in the magnetic field is abrupt.

In addition, when the magnetic field data of a plurality of reinforcing bars detected in the circumferential direction at a predetermined height above the ground surface of the electric pole are compared, if the strength of the magnetic field is different, the reinforcing bars in the fractured state It can be diagnosed.

As described above, according to the present invention, the detecting body 13 is brought into close contact with the outer surface of the electric pole 1 to detect a magnetic field generated from the reinforcing bars 3 at positions corresponding to the plurality of reinforcing bars 3, The break condition can be detected at the same time.

Since the detecting body 13 is fixed to the outer circumferential surface of the electric pole 1 by fixing the angle of the rotating blocks 15, it is possible to easily perform the operation of detecting the condition of the reinforcing bar rupture with respect to the electric pole 1 having various diameters.

[Other Embodiments]

Since the configuration of the detection unit differs from that of the first embodiment in other embodiments, only the configuration of the detection unit will be described in detail.

5, the detection unit 40 includes a grip section 41, a rib 43, a detection body 47, and a magnetic field detection section 55. [

The grip portion 41 is a portion that provides a grip region to an operator so that the operator can move the rod 43 and the detection main body 47 in the vertical direction of the electric pole 1. [

The gripping portion may be formed in a bar shape having a predetermined length so as to be easily grasped by an operator. In addition, the grip portion 41 may be made of a plastic material or the like so that the grip portion 41 can be easily grasped by an operator.

The rod 43 is for supporting the detection body 47. The rib 43 is formed to provide a space that can be elastically deformed when the detection body 47 is brought into close contact with the outer surface of the electric pole 1. [ The rib 43 is fixed to one side extending from the grip portion 41 and the other side is formed to extend in a curved direction in the direction away from the grip portion 41.

One side of the barb 43 may be fixed to one side of the handle 41 by bolts or the like. A fixing hole 43a is formed on the other side of the rib 43. A connecting portion 46 for fixing the other side of the detecting body 47 may be fixed to the fixing hole 43a. The barb 43 may be formed of a metal material to secure rigidity.

The detection main body 47 provides the mounting area of the magnetic field detection part 55 and is brought into close contact with the outer surface of the electric pole 1 so that the magnetic field detection part 55 detects the magnetic field of the reinforcing bar 3 embedded in the electric pole 1 .

One end of the detection body 47 is rotatably coupled to one side extending from the grip portion 41 and the other side is connected to the rib 43 via elastic means 45. [ Further, the detection main body 47 is closely attached to the circumferential outer surface at one side by elastic deformation.

The elastic means 45 may be a spring coupled to the other side of the detection body 47. One side of the spring is coupled to the other side of the detection body 47, and the other side is fixed to the connection portion 46. The connecting portion 46 is fixed by being fastened to the fixing hole 43a of the bar 43 in the shape of a string so that the other side of the detecting body 47 is fixed to the bar 43 and the detecting body 47 is elastically deformed .

The detection body 47 includes a plurality of chain blocks 49 and elastic bands 53.

The detection body 47 connects the chain blocks 49 to form the detection body 47 and at the same time the angles of the chain blocks 49 connected to each other are adjusted by the elastic deformation so that the magnetic field detection unit 55, So as to be disposed at a position corresponding to the embedded reinforcing bar 3.

The chain blocks 49 may be interconnected in such a manner that their tips are substantially 'H' -shaped and their tips are held by being fixed to the rear-end turning portion 51 of the opposite chain block 49. Alternatively, the tip of the chain block 49 may be disposed so as to overlap the rear end of the chain block 49, and then the overlapping portion may be fixed to the turning portion 51.

The turning unit 51 may connect the adjacent chain block 49 and the chain block 49 to fix the combined state of the chain block 49 and the chain block 49. [

The elastic bands 53 are crossed and connected between the chain blocks 49. The elastic band 53 provides an elastic force in a direction in which the detection body 47 is brought into close contact with the circumferential outer surface of the electric pole 1. [ The elastic band 53 may be installed to pass between the chain blocks 49, and then the end of the elastic band 53 may be fixed to the elastic band 53 using an adhesive or the like.

When the detection main body 47 is brought into close contact with the outer surface of the electric pole, the angle of each of the chain blocks 49 is adjusted by the resilient means 45 in the direction of the rib 43 to correspond to the outer surface of the electric pole 1. In this process, the elastic band 53 installed to pass between the chain blocks 49 pushes the respective chain blocks 49 in the circumferential direction, so that the detection body 47 can be brought into close contact with the outer surface of the pole.

That is, the elastic means for resiliently deforming the detection body in the bar direction and the elastic band for pushing the detection body in the direction of the electromagnetism interact with each other, thereby bringing the detection body into close contact with the outer surface of the pole.

If the elastic member is not provided and only the elastic member is provided, the detecting body 47 is hardly brought into close contact with the outer surface of the electric pole 1 according to the outer diameter of the electric pole and the floating portion between the electric pole 1 and the detecting body 47 Lt; / RTI >

The magnetic field detecting unit 55 may include a plurality of magnetic field detecting units 55 installed at predetermined intervals along the longitudinal direction of the detecting body 47.

More specifically, the magnetic field detecting unit 55 is provided on one side of the plurality of chain blocks 49 and detects a magnetic field generated from the reinforcing bars 3 in a state in which the plurality of chain blocks 49 are in close contact with the outer surface of the electric pole 1 . The magnetic field detecting unit 55 may be embedded in one side of each chain block 49. In this embodiment, the magnetic field detecting unit 55 is embedded in the center of each chain block 49. [

The magnetic field detection unit 55 may be a magnetic sensor for measuring a magnetic field, which is a current generated in the reinforcing bar 3 by electromagnetic induction.

And a receiving unit 57 is further provided on one side extending from the gripper 41. [ The receiving unit 57 receives the magnetic field signal detected by the magnetic field detecting unit 55 and transfers the received magnetic field signal to the data logger unit 20. The receiving unit 57 may be box-shaped and equipped with various devices for receiving a magnetic field signal.

The operation of another embodiment will be described below.

A method of detecting the breakage of a reinforcing bar by closely contacting the detecting body along the circumferential outer surface of the pole will be described.

To this end, as shown in Fig. 6, the operator closely contacts the outer surface of the electric pole with the grip portion 41 held by the operator.

The detection main body 47 is pushed in the direction of the rib 43 by the elastic means 45 and the angles of the chain blocks 49 are adjusted so that the electric pole 47 1). The elastic bands 53 provided so as to pass between the chain blocks 49 push the respective chain blocks 49 in the entire circumferential direction so that the detection body 47 is brought into close contact with the outer surface of the electric pole 1 And the magnetic field detecting portion 55 provided in each chain block 49 can detect the magnetic field of the reinforcing bar 3 at the position corresponding thereto.

Thereafter, as the gripper 41 moves upward, a plurality of chain blocks 49 are moved upward together with the barb 43, so that the magnetic field detecting unit 55 detects the magnetic field of the reinforcing bar 3 in the longitudinal direction .

The elastic bands 53 push the respective chain blocks 49 in the entire circumferential direction even when the diameters of the electric poles 1 change in the process of moving the grip portions 41 upward. The state of being in close contact with the outer surface can be maintained. So that the magnetic field generated from each reinforcing bar 3 can be detected along the longitudinal direction of the reinforcing bar 3.

The magnetic field data for the reinforcing bars 3 detected by the magnetic field detecting unit 55 are transmitted to the receiving unit 57 and then stored in the data logger unit 20. [

The breakage state detecting section 30 can detect a change in the magnetic field with respect to each reinforcing bar 3 based on the magnetic field data stored in the data logger unit 20 and detect the breakage state of the reinforcing bar in accordance with the amount of change in the magnetic field.

As described above, in another embodiment, it is not necessary to perform an operation of adjusting the angle of the detection body to correspond to the outer diameter of the pole, so that it is easy to use.

Even when the detection main body 47 is moved upward in contact with the outer surface of the electric pole 1 in the electric pole 1 having different diameters of the upper part and the lower part, It is possible to maintain the contact state at all times and to detect the magnetic field easily.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

1: pole 2: ground surface
P: Fracture 3: Reinforcement
10: Detection unit 11:
13: Detection body 15: Rotation block
16: through hole 17: fixing member
19: magnetic field detecting unit 20: data logger unit
30: Breaking state detection unit 40: Detection unit
41: grip part 43:
45: elastic means 47: detection body
49: chain block 51:
53: elastic band 55: magnetic field detection unit
57: Receiver

Claims (8)

A detecting unit which is closely attached along the circumferential outer surface of the pole to detect a magnetic field generated from the reinforcing bars at positions corresponding to a plurality of reinforcing bars embedded in the pole;
A data logger unit for receiving and storing magnetic field data for the reinforcing bars detected by the detecting unit; And
And a breakage state detection unit for detecting a breakage state of the reinforcing bar based on a magnetic field change amount of the magnetic field data stored in the data logger unit,
The detection unit
A gripping part for providing a gripping area to an operator,
A detection body rotatably coupled to one side of the grip portion and formed to be curved so that one side thereof is closely contacted along the circumferential outer surface of the pole,
And a plurality of magnetic field detecting portions provided at predetermined intervals along the longitudinal direction of the detecting body,
The detection body
A plurality of rotation blocks are formed to be curved by mutually rotatably coupling through a fixing member,
Wherein the fixing member is configured in a bolt-nut manner to fix the engagement state of the adjacent rotation block and the rotation block,
Wherein the magnetic field detecting unit is installed in the rotating block. delete delete delete delete A detecting unit which is closely attached along the circumferential outer surface of the pole to detect a magnetic field generated from the reinforcing bars at positions corresponding to a plurality of reinforcing bars embedded in the pole;
A data logger unit for receiving and storing magnetic field data for the reinforcing bars detected by the detecting unit; And
And a breakage state detection unit for detecting a breakage state of the reinforcing bar based on a magnetic field change amount of the magnetic field data stored in the data logger unit,
The detection unit
A gripping part for providing a gripping area to an operator,
A barb being fixed on one side extending from the grip portion and the other side being curved in a direction away from the grip portion,
A detecting body which is rotatably coupled to one side of the grip portion and which is connected to the other side via elastic means and whose one side is closely contacted to the circumferential outer surface of the pole by elastic deformation,
And a plurality of magnetic field detecting portions provided at predetermined intervals along the longitudinal direction of the detecting body,
The detection body
A plurality of chain blocks rotatably coupled through a pivoting member
And an elastic band connected between the chain blocks,
And the magnetic field detecting unit is installed in the chain block. delete delete

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