KR20210017793A - Breakage diagnosis device of steel reinforcement for electric pole and diagnosis method using the same - Google Patents

Abstract

The present invention provides a steel wire breakage diagnosis device, which comprises: an arc-shaped sensor unit surrounding an outer surface of an electric pole; a control unit coupled to a center portion of the sensor unit; and a cable connecting the sensor unit and the control unit. The sensor unit comprises a plurality of units which are hinged and coupled to each other, and the cables are coupled to the entire units to control the control unit to reduce curvature of the sensor unit when pulling the cable. Therefore, work convenience and life of the diagnosis device are improved.

Description

Steel wire breakage diagnosis device for electric pole and diagnosis method using the same {BREAKAGE DIAGNOSIS DEVICE OF STEEL REINFORCEMENT FOR ELECTRIC POLE AND DIAGNOSIS METHOD USING THE SAME}

The present invention relates to an apparatus for diagnosing breakage of a steel wire for electric poles and a diagnosis method using the same, and more particularly, a device capable of diagnosing the breakage of a steel wire on the ground in a structure in which a steel wire is buried inside such as a concrete pole, and a steel wire using the same It relates to a fracture diagnosis method.

Inside the concrete pole, a steel wire (tensile muscle) that applies pre-stress and a steel wire (reinforcement muscle) that does not apply pre-stress are installed to support the load received by the pole. That is, a plurality of steel wires are installed inside the electric pole.

Electric poles should generally be able to resist bending loads, i.e. moments, but if the steel wire is cut, there is a risk of accidents in which the poles collapse because they cannot resist the bending loads.

1 shows the breakage phenomenon of the steel wire inside the concrete pole in the ground and underground. However, if a steel wire break occurs near the ground (within a height of about 1.8m), the risk of a collapse of a pole is very high, and this part is known as a part to which a large moment is applied.

Therefore, a diagnostic device capable of diagnosing whether a steel wire near the ground is broken at the outer surface of the pole is used. However, since the arc-shaped sensor unit in which the diagnosis device is in close contact with the outer surface of the electric pole is bent so as to be in close contact with the outer surface of the electric pole, that is, the force acts in the direction in which the curvature increases. There is a problem in that frequent failures occur as a result of the lateral load acting on the constituent parts by the frictional force and causing an excessive force.

An object of the present invention is to provide an apparatus for diagnosing breakage of a steel wire for electric poles and a diagnostic method using the same, which can adjust the curvature when the electric pole is brought into close contact with the outer surface of the electric pole.

The present invention to achieve the object as described above, the arc-shaped sensor unit surrounding the outer surface of the electric pole; An operation unit coupled to the center of the sensor unit; A cable connecting the sensor unit and the operation unit, wherein the sensor unit is hingedly coupled to each other, and the cable is coupled to all of the plurality of units, and when the operation unit is operated to pull the cable, the It provides a breakage diagnostic apparatus for electric poles, characterized in that the curvature of the sensor unit is reduced.

The unit may include a sensor for detecting a magnetic field for diagnosis of a steel wire inside the electric pole; It may include; a roller contacting the outer surface of the electric pole to support the vertical movement of the sensor unit.

The hinge may be provided with a spring that provides elasticity in a direction in which the curvature of the sensor unit increases.

The spring may be provided as a torsion spring.

The operation unit includes a lever to which one end of the cable is coupled, and the cable can be pulled when the lever is pulled.

The sensor unit may be formed to have a length surrounding at least half of the outer surface of the electric pole.

In addition, the present invention is a diagnostic method using a steel wire breakage diagnosis apparatus for electric poles, the first step of selecting a diagnosis target electric pole; A second step of preparing an apparatus for diagnosing breakage of the steel wire for electric poles; A third step of manipulating the manipulation unit to bring a part of the sensor unit into contact with the outer surface of the electric pole; A fourth step of releasing the manipulation of the manipulation unit and measuring magnetic field data of the steel wire while the sensor unit is in close contact with the outer surface of the electric pole; A fifth step of checking and analyzing magnetic field data measured from the sensor unit; A sixth step of examining the safety of the electric pole using the analysis result of the magnetic field data; including, a method for diagnosing breakage of a steel wire for electric poles.

The fourth step may further include a process of measuring magnetic field data of the steel wire while moving the sensor unit up and down while in close contact with the outer surface of the electric pole.

In the fifth step, it is possible to diagnose whether the steel wire is broken using the visualized graph.

In the fourth step, the sensor unit may be moved from the ground surface to the nearest footrest among footboards provided on the electric pole.

In the steel wire breakage diagnosis apparatus for electric poles and a diagnostic method using the same according to the present invention, the curvature can be adjusted in the process of contacting the outer surface of the electric pole, so that the parts are not strained, so that operation convenience and the lifespan of the diagnostic device are improved.

1 is a cross-sectional view showing a rupture phenomenon of a steel wire inside a concrete pole on the ground and underground,
2 is a perspective view showing an apparatus for diagnosing breakage of a steel wire for electric poles according to an embodiment of the present invention;
Figure 3 is a plan view of Figure 2,
Figure 4 is a side view of Figure 2,
5 is a view showing data measured by a breakage diagnosis apparatus for electric poles according to an embodiment of the present invention;
6A is a diagram showing a diagnostic signal characteristic graph of an electric pole in which the steel wire is not damaged;
6B is a diagram showing a diagnostic signal characteristic graph of a damaged electric pole,
7 is a flowchart illustrating a method for diagnosing breakage of a steel wire for electric poles using the apparatus for diagnosing breakage of a steel wire for electric poles according to an embodiment of the present invention.

Hereinafter, an apparatus for diagnosing breakage of a steel wire for electric poles according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a perspective view showing an apparatus for diagnosing breakage of a steel wire according to an embodiment of the present invention, FIG. 3 is a plan view of FIG. 2, FIG. 4 is a side view of FIG. 2, and FIG. 5 is a power pole according to an embodiment of the present invention. A diagram showing the data measured by the steel wire breakage diagnosis apparatus, FIG. 6A is a diagram showing a diagnostic signal characteristic graph of an electric pole in which the steel wire is not damaged, and FIG. 6B is a diagram showing a diagnostic signal characteristic graph of the electric pole with a damaged steel wire. , FIG. 7 is a flow chart showing a method for diagnosing breakage of a steel wire for electric poles using the apparatus for diagnosing breakage of a steel wire for electric poles according to an embodiment of the present invention.

The apparatus 10 for diagnosing breakage of a steel wire for electric poles according to the present embodiment includes a sensor unit 100 that measures magnetic field data of the steel wire by being in close contact with the outer surface of the electric pole, and moves the sensor unit 100 up and down by gripping an operator. It can be, and is coupled to the operation unit 110 that can adjust the curvature of the sensor unit, the sensor unit 100 and the operation unit 110, respectively, the curvature of the sensor unit 100 according to the operation of the operation unit 110 It includes a cable 104 to make it smaller.

The sensor unit 100 is composed of a plurality of units 101, each of the plurality of units 101 is provided with a sensor for measuring a magnetic field.

The adjacent units 101 are hinged to 102 so that the units 101 may rotate to generate an angle with each other. The hinge 102 is provided with a spring 103 so that an elastic force acts in a direction in which the angle formed by the units 101 decreases, that is, a direction in which the units 101 are folded around the hinge 102. At this time, the spring 103 is provided as a torsion spring, and the spring constant may be selected to be an appropriate value capable of overcoming the elastic force of the spring 103 with a grip force of an operator without difficulty.

In a portion where the unit 101 is in close contact with the outer surface of the electric pole, a roller 107 that can be rotated in the vertical direction is provided so that the entire sensor unit 100 moves up and down in a state in close contact with the outer surface of the electric pole. It is possible. At this time, the roller 107 is provided on the upper and lower sides of the unit 101, respectively, so that the unit 101 can stably support a state in which the unit 101 is in close contact with the outer surface of the electric pole.

It is preferable that the entire length of the sensor unit 100 is formed to cover at least half of the circumference of the electric pole to be diagnosed. A plurality of steel wires are buried at regular intervals along the entire circumference of the electric pole. When the sensor unit 100 covers more than half of the electric pole, it is diagnosed at one side and then diagnosed at the other side, that is, 2 per pole. This is because it is possible to diagnose all steel wires only by meeting work.

The operation unit 110 is coupled to the middle portion of the sensor unit 100 and is provided in a frame 112 in which an open space is formed so that an operator can grip it, and is provided in a space formed in the frame 112, and the cable It includes a lever 114 that pulls the cable 104 by one end of the 104 is coupled.

In addition, the operation unit 110 is provided with a connector to transmit the magnetic field data measured from the sensor unit 100 to an analysis device (PC, etc.). By connecting a data cable or the like to the connector, magnetic field data can be transmitted to the analysis equipment.

A description will be given of the effect of the apparatus for diagnosing breakage of a steel wire for electric poles according to the embodiment described above.

The sensor unit 100 has an arc shape, but as described above, an elastic force acts in a direction in which the curvature increases by the spring 103. Therefore, there is an advantage that a separate operation is not required to intimate the sensor unit 100 to the outer surface of the electric pole.

However, in the process of bringing the sensor unit 100 into close contact with the outer surface of the electric pole, as described above, if the curvature of the sensor unit 100 is not adjusted to be small, the sensor unit 100 is forced into the electric pole. Will come in close contact. In this case, a lateral load due to frictional force is applied to the components including the roller 107 of the sensor unit 100, which leads to frequent failures.

In order to solve this problem, in this embodiment, when the lever 114 is pulled, the cable 104 is pulled, and the cable 104 is connected to all of the sensor unit 100 so that the cable 104 is pulled. On the ground, a force acts in the direction in which the sensor unit 100 is unfolded.

That is, the operator pulls the lever 114 to unfold the sensor unit 100 and then closes the central portion of the sensor unit 100 to the electric pole, and slowly releases the lever 114 to release the sensor unit 100 By bending, it is brought into close contact with the outer surface of the electric pole. Therefore, there is an effect of improving the durability and life of the device by not exerting an excessive effort on the roller 107 or the hinge 102.

Hereinafter, a method for diagnosing breakage of a steel wire for electric poles using an apparatus for breaking a steel wire for electric poles according to an embodiment of the present invention will be described.

In the first step (S100), the electric pole to be diagnosed is selected. At this time, items that can be considered include the appearance of abnormalities such as tilting or cracking of the pole, the year of manufacture and the year of inspection of the pole.

In a second step (S200), an apparatus for diagnosing breakage of a steel wire for electric poles is prepared. This includes the process of connecting the diagnostic device and the analysis equipment.

In a third step (S300), the sensor unit 100 is opened by pulling the lever 114 of the operation unit 110, and then the central portion of the sensor unit 100 is brought into contact with the outer surface of the electric pole. At this time, accurate diagnosis of the steel wire is possible only when the sensor unit 100 is leveled.

In a fourth step (S400), the lever 114 of the operation unit 110 is released so that all of the units 101 of the sensor unit 100 are in close contact with the outer surface of the electric pole. Then, the sensor unit 100 is moved up and down while in close contact, and magnetic field data of the steel wire is measured. In this case, the moving range of the sensor unit 100, that is, the diagnosis range of the steel wire may be set to a footrest spaced about 1.8 m from the ground surface.

In a fifth step (S500), magnetic field data measured from the sensor unit 100 is checked and analyzed. In this case, as described above, it is possible to diagnose whether the steel wire is broken with a visualized graph output through an analysis device (PC, etc.) connected to the diagnosis device. An example of a graph output through the analysis equipment is shown in FIG. 5.

As shown in FIGS. 6A and 6B, the damaged electric pole and the non-damaged electric pole can be distinguished through magnetic field data. Specifically, electric poles with broken steel wires show a “S”-shaped graph form in which the N and S poles change rapidly, and poles with no steel wires broken do not appear.

In a sixth step (S600), safety is reviewed using the results analyzed in the fifth step. At this time, the safety of the pole is judged by comprehensively considering the degree of breakage of the steel wire and the location of the break. If it is diagnosed with a serious risk level, follow-up work such as replacing the electric pole may be required.

According to the diagnosis method using the apparatus for diagnosing breakage of a steel wire for electric poles according to the present invention described above, it is possible to effectively diagnose whether a steel wire located above the ground of a pole is broken. In addition, since the operator can control the curvature and the vertical movement of the sensor unit 100 while holding only the manipulation unit 110, work convenience is improved.

Claims (10)

An arc-shaped sensor unit surrounding the outer surface of the electric pole;
An operation unit coupled to the center of the sensor unit;
Includes; a cable connecting the sensor unit and the operation unit,
The sensor unit is hingedly coupled to a plurality of units,
The cable is coupled to all of the plurality of units,
When the cable is pulled by manipulating the control unit, the curvature of the sensor unit is reduced. The method of claim 1,
The unit,
A sensor detecting a magnetic field for diagnosing a wire inside the electric pole;
And a roller for supporting the vertical movement of the sensor unit by contacting the outer surface of the electric pole. The method of claim 1,
The hinge is provided with a spring for providing elasticity in a direction in which the curvature of the sensor unit increases. The method of claim 3,
The spring is a steel wire breakage diagnosis apparatus for electric pole, characterized in that provided with a torsion spring. The method of claim 1,
The operation unit includes a lever to which one end of the cable is coupled,
When the lever is pulled, the cable is pulled. The method of claim 1,
The sensor unit is formed to have a length surrounding at least half of the outer surface of the electric pole. A diagnostic method using the steel wire fracture diagnosis apparatus for electric poles according to any one of claims 1 to 6,
A first step of selecting an electric pole to be diagnosed;
A second step of preparing an apparatus for diagnosing breakage of the steel wire for electric poles;
A third step of manipulating the manipulation unit to bring a part of the sensor unit into contact with the outer surface of the electric pole;
A fourth step of releasing the manipulation of the manipulation unit and measuring magnetic field data of the steel wire while the sensor unit is in close contact with the outer surface of the electric pole;
A fifth step of checking and analyzing magnetic field data measured from the sensor unit;
A sixth step of reviewing the safety of the electric pole by using the analysis result of the magnetic field data; including, a method for diagnosing breakage of a steel wire for electric poles. The method of claim 7,
The fourth step further includes a process of measuring magnetic field data of the steel wire while moving the sensor unit up and down while in close contact with the outer surface of the electric pole. The method of claim 7,
The fifth step is a method for diagnosing breakage of a steel wire for electric poles, characterized in that it is diagnosed whether the steel wire is broken using a visualized graph. The method of claim 8,
In the fourth step, the method for diagnosing breakage of a steel wire for electric poles, characterized in that the sensor part is moved from the ground surface to the nearest one among the scaffolds provided on the pole.

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