JP2019113569A - Inspection method and inspection system of reinforcing bar in concrete pole - Google Patents

Abstract

To provide an inspection method of a reinforcing bar in a concrete pole capable of easily and appropriately inspecting a state of the reinforcing bar including an underground buried part of the concrete pole reinforced by the reinforcing bar.SOLUTION: In an inspection method of a reinforcing bar 10 in a cylindrical concrete pole 1 formed by integrating many cylindrically arranged reinforcing bars 10 and concrete filled among the reinforcing bars 10, infrared temperature detecting means is disposed inside the vicinity of an underground portion (1A) inside the concrete pole 1 and an underground portion (1A) on an earth's surface (2A) side, and a state of the reinforcing bars 10 is inspected by detecting temperature distribution of the reinforcing bars 10 from the inner peripheral surface side of the concrete pole 1 with the infrared temperature detecting means.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an inspection method and an inspection system for reinforcing bars in a concrete column, and is particularly useful when applied to maintenance inspection of a concrete pole reinforced with reinforcing bars.

  A telephone pole is known as a pillar for bridging electric wires in the air. A concrete pillar is widely used as a representative example of such a utility pole. The concrete column is formed by arranging a large number of long reinforcing bars in a cylindrical shape, filling the concrete, and integrating the reinforcing bars and the concrete into a cylindrical shape. As a result, the weak point of concrete which is strong in compressive force but weak in tensile force is complemented by reinforcing bars to form a concrete column having a predetermined strength. That is, by integrating the reinforcing bar with the reinforcing bar, the reinforcing bar receives the tensile force, and the tensile force and the compressive force have sufficient strength.

  In this type of concrete column, maintenance management of rebar becomes a problem. Therefore, a nondestructive inspection method as disclosed in Patent Document 1 has been proposed as a method for nondestructive inspection of an abnormal state such as breakage of a reinforcing bar of a concrete column. In this patent document 1, it is a nondestructive inspection method which inspects the breakage of the reinforcing bar of the concrete body, and by moving the permanent magnet on the concrete body along the longitudinal direction of the reinforcing bar, the reinforcing bar is magnetized to make the reinforcing bar A magnetic field is generated along the longitudinal direction, and then the permanent magnet is removed, and the rebar remains on the surface of the concrete body while moving the magnetic sensor along the longitudinal direction of the rebar over the concrete body The magnetic flux density is measured by measuring the magnetic flux density component in the direction perpendicular to the longitudinal direction of the reinforcing bar, and determining the presence or absence of the fracture based on the distribution of the magnetic flux density component along the longitudinal direction of the reinforcing bar. A destructive inspection method is disclosed.

Japanese Patent Application Publication No. 2006-177841

  When applying the nondestructive inspection disclosed in Patent Document 1 to inspect the condition such as breakage of the reinforcing bars of the concrete column, 20 to 30 reinforcing bars are used for the concrete column, so one reinforcing bar, After magnetizing one, it is necessary to check the condition of the magnetic field. Therefore, it has a big problem that a lot of time is required for inspection work. Moreover, the nondestructive inspection disclosed in Patent Document 1 can not be applied to a part buried in the ground. On the other hand, among the concrete columns, the underground burial portion buried in the ground directly receives moisture from the ground, making it an environment in which rebars are easily corroded. That is, even if the above-ground part is sound, the case where deterioration is progressing in the underground burial part is considered, and the countermeasure becomes a subject.

  In view of the above-described prior art, the present invention provides an inspection method and an inspection system for reinforcing bars in a concrete column which can inspect the state of the reinforcing bars easily and appropriately including the underground burial portion of the concrete column reinforced with reinforcing bars. Intended to be provided.

The first aspect of the present invention for achieving the above object is
A method of inspecting reinforcing bars in a cylindrical concrete column having a plurality of cylindrically arranged reinforcing bars and concrete embedded between the reinforcing bars and having a buried portion (1A), the concrete column Infrared temperature detection means is disposed in the vicinity of the underground burial portion (1A) inside the underground and the underground burial portion (1A) on the ground surface (2A) side, and the infrared temperature A method of inspecting reinforcing bars in a concrete column is characterized in that the state of the reinforcing bars is inspected by detecting the temperature distribution or heat distribution (hereinafter referred to as a temperature distribution) of the reinforcing bars from the surface side.

  According to this aspect, the state of corrosion, breakage or the like of the reinforcing bar can be favorably inspected including the embedded portion of the concrete column.

The reference example of the present invention is
In the method of inspecting reinforcing bars in a concrete column according to the first aspect, an infrared fiber (optical fiber for infrared ray transmission) is inserted into the inside of the concrete column, and the inside of the concrete column collected via the infrared fiber In the inspection method for reinforcing bars in a concrete column, the state of the reinforcing bars is inspected by taking the infrared image of the above into the infrared temperature detecting means and detecting the temperature distribution on the inner peripheral surface side of the concrete columns.

  As a result, since the infrared fiber has a small diameter, it is possible to insert the infrared fiber into the inside of the concrete column by using the hole after removing the scaffold bolt of the concrete column, and the inner circumference of the concrete column By detecting the temperature distribution from the surface side, the state of corrosion, breakage, etc. of the reinforcing bar can be inspected well.

The second aspect of the present invention is
In the inspection method of the reinforcing bar in the concrete column described in the first aspect, the reinforcing bar of the concrete column is heated from the outside by a heating unit.

  According to this aspect, in the rebar after heating, it is possible to inspect the state of corrosion, breakage, etc. of the rebar easily and in a short time by utilizing the fact that the temperature distribution is largely different due to the presence of the corrosion and the broken part. .

The third aspect of the present invention is
In the method of inspecting reinforcing bars in a concrete column according to the second aspect, the heating is performed by a heating means wound around the concrete column.

  According to this aspect, since the heating means is wound around the concrete column, all the reinforcing bars can be heated collectively and easily.

The fourth aspect of the present invention is
In the method of inspecting reinforcing bars in a concrete column described in the second or third aspect, the heating is performed by induction heating means using a coil, in the method of inspecting reinforcing bars in a concrete column.

  According to this aspect, only the rebar can be heated by the induction heating means.

The fifth aspect of the present invention is
An inspection system for reinforcing bars in a cylindrical concrete column having a large number of cylindrically arranged reinforcing bars and concrete between the reinforcing bars and having a buried portion (1A), the inside of the concrete columns The underground burial portion (1A) of the concrete pillar is disposed in the vicinity of the underground burial portion (1A) on the side of the underground burial portion (1A) and the ground surface (2A) from the inner peripheral surface side of the concrete pillar There is an infrared temperature detecting means for detecting a temperature distribution in the vicinity of the underground burial portion (1A) on the ground surface (2A) side to inspect the condition of the rebar, and there is an inspection system of rebar in concrete column .

  According to this aspect, the state of corrosion, breakage or the like of the reinforcing bar can be favorably inspected including the embedded portion of the concrete column.

The reference example of the present invention is
In the inspection system for reinforcing bars in a concrete column described in the fifth aspect, the infrared temperature detection means comprises an infrared fiber inserted into the inside of the concrete column to collect an infrared image of the inside of the concrete column, The inspection system for reinforcing bars in a concrete column is characterized in that the condition of the reinforcing bars is inspected on the basis of the temperature distribution based on the image from the inner peripheral surface side of the concrete column collected through the infrared fiber. .

  As a result, since the infrared fiber has a small diameter, it is possible to insert the infrared fiber into the inside of the concrete column by using the hole after removing the scaffold bolt of the concrete column, and the inner circumference of the concrete column By detecting the temperature distribution from the surface side, the state of corrosion, breakage, etc. of the reinforcing bar can be inspected well.

The sixth aspect of the present invention is
In the inspection system for reinforcing bars in concrete columns according to the fifth aspect, the system for inspecting reinforcement bars in concrete columns includes heating means for heating the reinforcing bars of the concrete columns from the outside of the concrete columns. .

  According to this aspect, in the rebar after heating, it is possible to inspect the state of corrosion, breakage, etc. of the rebar easily and in a short time by utilizing the fact that the temperature distribution is largely different due to the presence of the corrosion and the broken part. .

The seventh aspect of the present invention is
In the inspection system for reinforcing bars in a concrete column described in the sixth aspect, the heating means is in the inspection system for reinforcing bars in a concrete column characterized in that the heating means is wound around the concrete columns.

  According to this aspect, since the heating means is wound around the concrete column, all the reinforcing bars can be heated collectively and easily.

The eighth aspect of the present invention is
In the inspection system for reinforcing bars in a concrete column according to the sixth or seventh aspect, the heating means is an induction heating means using a coil. In the inspection system for reinforcing bars in a concrete column, the heating means is provided.

  According to this aspect, only the rebar can be heated by the induction heating means.

  According to the present invention, when the reinforcing bar is heated, the state of the reinforcing bar such as corrosion or breakage can be inspected easily and in a short time by utilizing the fact that the temperature distribution largely varies due to the corrosion of the reinforcing bar and the presence of the broken portion. it can.

It is an explanatory view shown in the state where the inspection system of the rebar in the concrete pillar concerning a 1st embodiment of the present invention was equipped with the concrete pillar. It is a figure which extracts and expands and shows an important section of Drawing 1, and (a) is a longitudinal section, and (b) is an AA 'line sectional view of Drawing 1. As shown in FIG. It is principal part sectional drawing which shows the principal part of the inspection system of the reinforcement in the concrete pillar which concerns on the 2nd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

First Embodiment
FIG. 1 is an explanatory view showing an inspection system of reinforcing bars in a concrete column according to a first embodiment of the present invention in a state of being attached to the concrete column. 2A and 2B are diagrams showing the main parts of FIG. 1 extracted and enlarged, in which FIG. 2A is a longitudinal sectional view and FIG. 2B is a sectional view taken along line AA '. As shown in both figures, the concrete column 1 is a long cylindrical rebar 10 and a cylindrical power column integrated by filling concrete between the rebars 10, and the top is It is closed by a cap 9. The lower end of the concrete column 1 is buried in the ground 2 and is erected on the ground 2A. That is, it has underground burial part 1A.

  A coil 3 is wound around the entire circumference of the concrete column 1 in the vicinity of the ground surface 2A. The coil 3 is connected to a high frequency power supply 4. The induction heating means 5 is constituted by the coil 3 and the high frequency power source 4, and by supplying a predetermined high frequency current to the coil 3 from the high frequency power source 4, the concrete column 1, particularly its reinforcing bar 10 which is a conductor, is induction heated. When the rebar 10 is selectively heated by the induction heating, the rebar 10 is uniformly heated if the rebar 10 is sound. On the other hand, when corrosion, breakage or the like occurs, the heat transfer mode changes at the corrosion or broken portion. That is, since the heat transmission becomes worse or cut off, the temperature difference is significantly different between one side of the reinforcing bar 10 in the axial direction and the other side in the same direction, which sandwich the corrosion or fracture portion of the reinforcing bar 10 Is recognized.

  In the case of the present embodiment, the infrared temperature detection means 6 is a concrete column 1 collected via an infrared fiber 7 (optical fiber for infrared transmission) inserted into the inside of the concrete column 1 using the hole from which the scaffold bolt 8 is removed. The temperature distribution of the inner circumferential surface of the reinforcing bar 10 is analyzed to evaluate the temperature distribution of the reinforcing bar 10, and the state of the reinforcing bar 10 such as corrosion and breakage is inspected. For this reason, the infrared temperature detection means 6 is an infrared temperature detector 6A that takes in the information collected by the infrared fiber 7 as an image representing a temperature distribution, and an information processing unit 6B that analyzes the temperature distribution information taken in by the infrared temperature detector 6A. And the display part 6C which displays the result after performing predetermined | prescribed information processing in the information processing part 6B.

That is, the infrared temperature detection means 6 in this embodiment collects the infrared image of the inside of the concrete column 1 while being inserted into the inside of the concrete column 1 and moving the inside of the concrete column 1 along the longitudinal direction of the reinforcing bar 10 While having the infrared fiber 7, the state of the reinforcing bar 10 is inspected based on the temperature distribution based on the infrared image from the inner peripheral surface side of the concrete column 1 collected through the infrared fiber 7. Here, a guide 11 is fixed to a hole for screwing in the scaffolding bolt 8 into which the infrared fiber 7 is inserted, through its base end, and the tip end is made to project inside the concrete column 1 It is Thus, the infrared fiber 7 is inserted into the inside of the concrete column 1 along the guide 11 using the hole for mounting the scaffold bolt 8 and guided to the tip of the guide 11 and then inserted vertically downward. Ru. As a result, even in the underground buried portion 1A of the concrete column 1, the infrared image of the inner peripheral surface of the concrete column 1 can be collected easily and properly.

  An objective lens 13 such as a fisheye lens, for example, is integrally fixed to the tip of the infrared fiber 7, and an infrared image of the surroundings is formed on the end face of the infrared fiber 7 by the objective lens 13 to detect infrared temperature Transmit towards 6. Here, the infrared temperature detection means 6 can be suitably formed by an infrared temperature detector, an infrared camera, infrared thermography or the like.

  Here, in the present embodiment, a fisheye lens is used as the objective lens 13 to collect an infrared image of the inner peripheral surface of the concrete column 1, particularly the underground buried portion 1A, but similar functions use a normal lens. Even in this case, the distal end of the infrared fiber 7 can be formed to be bendable at an arbitrary angle with respect to the axial direction, that is, by adopting the structure of a medical endoscope. Also, a normal optical fiber in which a light guide for illumination is integrated with the infrared fiber 7 or in place of the infrared fiber 7 can be used. In this case, since the visible light image of the inner peripheral surface of the concrete column 1 can be collected, the state of the inner peripheral surface of the concrete column 1 can also be inspected based on the visible light image.

  According to the present embodiment as described above, by supplying a high frequency current to the coil 3 from the high frequency power source 4, the reinforcing bar 10 is inductively heated and the temperature rises. The change in temperature distribution of the reinforcing bar 10 accompanying this is sent to the infrared temperature detection means 6 through the infrared fiber 7, and further, the information processing section 6B performs predetermined information processing, and the result is displayed on the display section 6C. Be done. Here, since the coil 3 of the induction heating means 5 is wound around the outer peripheral surface of the concrete column 1, it is possible to uniformly and easily heat all the reinforcing bars 10 collectively. Moreover, since the concrete portion other than the reinforcing bar 10 of the concrete column 1 is a dielectric, there is no temperature rise due to induction heating. That is, only rebar 10 is selectively heated efficiently. Here, if the selectively heated reinforcing bars 10 are sound, the temperature of the reinforcing bars 10 uniformly rises by induction heating. On the other hand, when corrosion, breakage or the like occurs, the heat transfer mode changes at the corrosion or broken portion. That is, since the heat transmission becomes worse or cut off, the temperature distribution of the reinforcing bar 10 is significantly different between one side of the reinforcing bar 10 in the axial direction and the other side of the same side of the reinforcing bar 10 sandwiching the corrosion or fracture portion. Occurs.

  Information on the temperature distribution inside the concrete column 1 is transmitted to the infrared temperature detector 6A via the infrared fiber 7 to detect the temperature, and based on the temperature information, information on the inner circumferential surface position of the concrete column 1, etc. The temperature distribution of the inner peripheral surface of the concrete column 1 is detected by performing predetermined information processing. Since this result is visualized and displayed on the display unit 6C, a worker or the like inspects the state of the reinforcing bar 10 inside the concrete column 1. Thus, since the temperature distribution after induction heating largely differs due to the corrosion of the reinforcing bar 10 and the presence of the fracture portion, the state of the reinforcing bar 10 such as corrosion and breakage can be inspected easily and in a short time.

Second Embodiment
FIG. 3 is a sectional view of an essential part showing a main part of a system for inspecting reinforcing bars in a concrete column according to a second embodiment of the present invention. In the figure, the same parts as in FIG. 1 and FIG. 2 will be assigned the same reference numerals and overlapping explanations will be omitted. As shown in the figure, in the present embodiment, the cap 9 closing the top of the concrete column 1 is removed, and the infrared temperature detector 16A fixed to the tip of the cord 12 in the concrete column 1 is suspended from the opening at the top. While inserting, the infrared image of the desired area is collected. Also in this embodiment, the infrared temperature detection means 16 comprises an infrared temperature detector 16A, an information processing section 16B and a display section 16C, and the infrared temperature detection means 16 comprises an infrared temperature detector as in the first embodiment. , Infrared camera, infrared thermography, etc.

  As a result, when the reinforcing bar 10 is inductively heated by supplying a high frequency current from the high frequency power source 4 to the coil 3 and the temperature rises, the change in the temperature distribution of the reinforcing bar 10 accompanying this is in the concrete column via the cord 12 It is collected as image information by the suspended infrared temperature detector 16A. The image information collected by the infrared temperature detector 16A is analyzed in a predetermined temperature distribution by the information processing unit 16B, and the result is displayed on the display unit 16C. Thus, as in the first embodiment, it is possible to perform a predetermined inspection including the state of corrosion, breakage and the like of the reinforcing bars 10 inside the concrete column 1.

  In the above embodiment, the cap 9 closing the top of the concrete column 1 is removed and the infrared temperature detector 16A is inserted from the opening at the top, but it is not necessary to be limited to this. If the infrared temperature detector 16A is small in size, it can be inserted into the inside of the concrete column 1 using the hole for mounting the scaffold bolt 8 as in the first embodiment.

  Moreover, in the said embodiment, although the coil 3 was wound around the outer peripheral surface of the concrete pillar 1, it does not need to be restricted to this. As another method of heating a plurality of reinforcing bars 10 dispersed in the circumferential direction of the concrete column 1 collectively, for example, heating with a ribbon heater (electric heating wire) wound around the outer peripheral surface of the concrete column 1 Means can also be formed.

  The heating means need not necessarily be wound around the outer peripheral surface of the concrete column 1. For example, by disposing the heating means at a part (or a plurality of parts) around the concrete column 1, it is possible to selectively heat only the part including the reinforcing bar to be inspected.

  Therefore, a flash lamp capable of heating the outer peripheral surface of the concrete column 1 may be used. Furthermore, there is no need to provide extra heating means. For example, since the concrete column 1 is also heated by sunlight, the object of the present invention can be achieved by detecting the temperature distribution due to such heating.

  However, according to the induction heating means 5, the effect that only predetermined reinforcing bars 10 can be selected and predetermined heating can be performed in a short time is obtained.

  Moreover, the image information in case the rebar 10 is healthy is memorize | stored in the said information processing part 16B, and all the rebars 10 are by comparing the image information in the case of this sound and the image information obtained as a result of measurement. However, even if the abnormality is difficult to inspect by the image alone, the abnormality of the reinforcing bar 10 can be inspected easily and reliably by comparing it with the image in the normal case.

  The present invention can be used in, for example, the electric power industry which holds a large number of concrete power poles and needs to rationally and properly carry out the maintenance and inspection.

DESCRIPTION OF SYMBOLS 1 concrete pillar 1A underground embedding part 2 underground 3 coil 4 high frequency power supply 5 induction heating means 6, 16 infrared temperature detection means 6A, 16A infrared temperature detector 6B, 16B information processing part 6C, 16C display part 7 infrared fiber 8 Scaffolding bolt 9 Cap 10 Rebar 11 Guide 12 Code 13 Objective lens

Claims (8)

An inspection method for reinforcing bars in a cylindrical concrete column having a number of cylindrically arranged reinforcing bars and concrete embedded between the reinforcing bars and having a buried portion (1A) underground,
An infrared temperature detection means is disposed in the vicinity of the underground burial portion (1A) inside the concrete pillar and the underground burial portion (1A) on the ground surface (2A) side, and the infrared pillar temperature detection means The inspection method of a reinforcing bar in a concrete column, characterized by inspecting the state of the reinforcing bar by detecting the temperature distribution of the reinforcing bar from the inner peripheral surface side of the. In the inspection method of the reinforcing bar in the concrete column according to claim 1,
The method of inspecting reinforcing bars in a concrete column, characterized in that the reinforcing bars of the concrete column are heated from the outside by a heating means. In the inspection method of the rebar in the concrete pillar according to claim 2,
The method of inspecting reinforcing bars in a concrete column, the heating is performed by a heating means wound around the concrete column. In the inspection method of the rebar in the concrete pillar according to claim 2 or claim 3,
The said heating is performed by the induction heating means using a coil, The inspection method of the reinforcement in the concrete pillar characterized by the above-mentioned. An inspection system for reinforcing bars in a cylindrical concrete column having a large number of cylindrically arranged reinforcing bars and concrete between the reinforcing bars and having an underground embedding portion (1A),
The concrete column is disposed in the vicinity of the underground burial portion (1A) inside the concrete pillar and the underground burial portion (1A) on the ground surface (2A) side, and the underground of the concrete pillar is placed from the inner peripheral surface side of the concrete pillar In a concrete column characterized by comprising infrared temperature detection means for detecting a temperature distribution in the vicinity of the buried portion (1A) on the side of the buried portion (1A) and the ground surface (2A), and inspecting the state of the reinforcing bar Rebar inspection system. In the inspection system of rebars in a concrete column according to claim 5,
The inspection system of the reinforcing bar in the concrete column, characterized by comprising a heating means for heating the reinforcing bar of the concrete column from the outside of the concrete column. In the inspection system of the rebar in the concrete column according to claim 6,
The inspection system for reinforcing bars in a concrete column, wherein the heating means is wound around the concrete column. In the inspection system of a reinforcing bar in a concrete column according to claim 6 or 7,
The said heating means is an induction heating means using a coil, The inspection system of the rebar in a concrete pillar characterized by the above-mentioned.

Images