JP6421312B2 - Repair method and repair kit to repair the corroded part caused by red rust - Google Patents

Description

  The present invention relates to a method and a repair kit for repairing a corroded portion of a metal structure such as a pole (post) due to red rust.

  In Patent Document 1, as a method of repairing a corroded portion of a metal column, first, the corroded portion of the corroded portion is removed, and the surface thereof is subjected to a kelen treatment, and the surface is further subjected to an uncured repair fiber reinforced resin. Paste the sheet. And the fiber reinforced resin sheet is ultraviolet-cured and the repair method which reinforces a corrosion part with metal reinforcements is disclosed.

JP 2003-213645 A

  However, according to the repair method described above, the keren treatment must be performed before the fiber reinforced resin sheet is attached, and the rust prevention treatment or the waterproof treatment is not performed after the repair. For this reason, the construction time takes time, and corrosion or the like may recur in the repaired portion after the repair. Therefore, there has been a demand for a method that can be applied in a shorter time than the above repair method and that prevents the recurrence of corrosion or the like at the repair portion.

  In order to solve the above-mentioned problems, the present invention eliminates the need for keren treatment and provides rust prevention treatment and waterproof treatment so that the repaired portion is not corroded again by rust or the like, and is necessary for the repair. A complete repair kit.

  The repair method of the 1st viewpoint repairs the corrosion part by the red rust which generate | occur | produced in the outer surface of the iron pole installed in the ground surface, and the boundary with the ground surface. And the repair method is the first application process of applying the paint with the rust conversion agent that converts the red rust to the black rust on the ground surface around the iron pole, and the rust conversion. After the paint containing the agent is dried, an uncured belt-shaped first fiber reinforced resin sheet is attached to the corroded portion in the circumferential direction, and the first fiber reinforced resin sheet is cured, and the first fiber reinforced resin sheet is cured. A second application step of applying an adhesive paint to the first fiber-reinforced resin sheet and the ground surface, and an adhesive paint A waterproof coating step of applying a waterproof paint to the surface of the film.

  Furthermore, after the second coating step and before the waterproof coating step, a band-like second fiber reinforced resin sheet that is radially uncured is applied from the first fiber reinforced resin sheet to the ground surface, and the second fiber reinforced resin sheet is attached. After curing the second fiber reinforced resin sheet, an uncured flat third fiber reinforced resin sheet surrounding the iron pole is pasted on the ground surface, and the third fiber reinforced resin sheet And a fourth application step of applying an adhesive paint to the first fiber reinforced resin sheet and the third fiber reinforced resin sheet. The waterproof coating process may be performed after the fourth coating process.

  Furthermore, after the second fiber reinforced resin sheet is cured, the fourth application step of applying an adhesive paint to the first fiber reinforced resin sheet and the second fiber reinforced resin sheet, and after the adhesive paint is dried, And a fifth application step of applying a waterproof paint to the surface of the adhesive paint.

  The repair method of a 2nd viewpoint repairs the corrosion part by the red rust of an iron part. This repair method consists of the first application step of applying a paint containing a rust conversion agent that converts red rust to black rust on the corrosion part caused by red rust, and after the paint containing the rust conversion agent is dried, the corrosion part is uncured. A step of attaching a fiber reinforced resin sheet and curing the fiber reinforced resin sheet, a second application step of applying an adhesive paint to the cured fiber reinforced resin sheet, and the adhesion after the adhesive paint is dried And a third application step of applying a waterproof paint to the surface of the conductive paint.

The repair kit according to the third aspect repairs a corroded portion caused by red rust generated on the outer surface of the iron pole installed on the ground surface and the boundary with the ground surface. This repair kit includes a spray containing a paint containing a rust converting agent that converts from red rust to black rust, an uncured belt-like fiber reinforced resin sheet,
A spray containing a fiber-reinforced resin sheet or a paint containing an adhesion to the ground surface, an opening that matches the cross-sectional shape of an iron pole, an uncured flat fiber-reinforced resin sheet, and a belt-like and flat plate-like shape A spray containing a liquid-proof paint that prevents liquid from entering the fiber-reinforced resin sheet;
Is provided.
Moreover, the spray containing the coating material containing a rust conversion agent and the spray containing the coating material which provides adhesiveness may be integrated.

  According to the repairing method and the repair kit of the present invention, the cleansing process of the repaired part is not required, and the work efficiency is improved, and the repaired part is not corroded again by rusting or the like by applying the rustproofing process and the waterproofing process.

(A) is a perspective view after repairing the iron pole installed outdoors. (B) is the perspective view which the corrosion part has generate | occur | produced in the iron pole before repair. It is a flowchart which repairs the corrosion part which generate | occur | produced near the ground surface of iron poles. (A1)-(c1) is the perspective view which showed the repair process of the square tube pillar 10. FIG. (A2)-(c2) is sectional drawing which showed the repair process of the square tube pillar 10. As shown in FIG. (A1)-(c1) is the perspective view which showed the repair process of the square tube pillar 10. FIG. (A2)-(c2) is sectional drawing which showed the repair process of the square tube pillar 10. As shown in FIG. It is the top view which showed the state which affixed the fiber reinforced resin sheet from the various poles to the ground surface of the concrete 50. FIG. This is a breakdown of the repair kits sold. It is a flowchart which repairs the corrosion part which generate | occur | produced in the position away from the ground surface.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It should be noted that the scope of the present invention is not limited to these forms unless otherwise specified in the following description. The corroded portion in the description of the embodiment includes not only a case where only the metal surface is corroded by red rust, but also a portion where the corroded metal is cracked or lost due to red rust.

(First embodiment)
FIG. 1A is a perspective view showing a state after repairing an iron pole (post) installed outdoors using a fiber reinforced resin sheet or the like. FIG.1 (b) is a perspective view in which the corrosion part RU has generate | occur | produced in the iron pole before repair. In FIGS. 1A and 1B, a cap or the like for preventing rain or the like is attached to the upper end of an iron pole installed outdoors, but the cap and the like are omitted.

  The pole is generally fixed upright vertically with concrete or asphalt (hereinafter, described as concrete). The pole includes, for example, a square tube column 10 whose section is a square tube, an H-shaped steel column 80 whose section is H-shaped, and a circular tube column 90 whose section is a circular tube. Although not shown, the first embodiment can also be applied to an I-beam column having an I-shaped cross section, a C-type steel column having a C-shaped cross section, an angle steel column having a L-shaped cross section, and the like.

In general, iron poles installed vertically on concrete tend to generate red rust (ferric oxide: Fe ₂ O ₃ ) at the boundary with the ground surface of the concrete and on the outer peripheral surface of the pole. In FIG. 1B, the square tube column 10, the H-shaped steel column 80, and the circular tube column 90 are in a state where a corroded portion RU due to red rust is generated near the boundary with the ground surface. Red rust makes the surface of an iron pole tattered and goes deeper into the metal structure. For this reason, an iron pole is not only cracked but also cracked or broken.

In the first embodiment, the red rust of the corroded portion RU of the iron square tube column 10, the H-shaped steel column 80 and the circular tube column 90 is converted to black rust, and the steel square tube column 10 and the H-shaped steel with a fiber reinforced resin sheet. The pillar 80 and the circular pipe pillar 90 are reinforced. Further, as shown in FIG. 1A, when cured, the fiber reinforced resin sheet is covered with a rubber film 22 having elasticity. As a result, the iron square tube column 10, the H-shaped steel column 80, and the circular tube column 90 are repaired again so that the repaired portion does not corrode due to red rust or the like.
Hereinafter, a method for repairing a corroded portion caused by red rust of an iron pole will be described with reference to FIGS. 3 to FIG. 4, the details will be described using an iron square tube column 10, but the H-type steel column 80 and the circular tube column 90 are also a similar repair method.

<Method of repairing the corroded portion caused by red rust on an iron pole>
FIG. 2 is a flowchart of a construction procedure for repairing a corroded portion caused by red rust on an iron pole. 3 and 4 are perspective views showing the repair process of the square tube column 10, and (a2) to (f2) are cross sections showing the repair process of the square tube column 10. FIG.

  As shown in FIGS. 3 (a1) and 3 (a2), the corroded portion RU is generated in the square column 10 near the boundary with the ground surface GR of the concrete. In general, when a corroded portion RU is generated near the ground surface GR of concrete, the corroded portion RU is often generated also in the concrete.

  Therefore, in step S101 in the flowchart of FIG. 2, the worker cuts the concrete around the square tube column 10. Then, the corroded part RU of the square tube column 10 which is covered with concrete and hidden appears. FIGS. 3B1 and 3B2 show a state in which the corroded portion RU of the square tube column 10 appears. The depth D1 at which the worker cuts the concrete is 5 to 30 cm, and is appropriately changed according to the situation of the corroded part RU. Moreover, if the side which cuts concrete is 100 mm on one side of a square tube, an operator cuts concrete whose side W1 is about 200 to 500 mm. In FIG. 3 (b1), the concrete is cut into a quadrangle in accordance with the square tube column 10, but it may be cut into a circle having a diameter of about 200 to 500 mm.

In step S102 of FIG. 2, when the corroded portion RU has floating rust, the operator removes the floating rust with a brush or the like to obtain a corroded portion RU with red rust remaining on the surface of the square tube column 10. . If there is no rusting, the operator does not need to do anything. Then, the worker applies the rust converting agent-containing paint 11 to the red rust corroded portion RU remaining in the square tube column 10. The paint 11 with a rust conversion agent contains a rust conversion agent that converts red rust to black rust. For example, the rust conversion agent includes tannic acid. The rust conversion agent gives electrons (e-) to red rust (ferric oxide: Fe ₂ O ₃ ), cuts off the bound oxygen (O 2), and hard black rust (magnetite, triiron tetroxide ( Fe ₃ O ₄ ) The rust converting agent-containing paint 11 is a low-viscosity liquid with a small non-volatile content applied to improve the adhesion of the adherend (fiber reinforced resin sheet 14), If it is a low-viscosity liquid, but the paint 11 with rust conversion agent does not penetrate to the deep red rust position, the worker can dilute the conversion agent-containing paint 11 with a diluent to undercoat. Then, the conversion agent-containing paint 11 is penetrated to a deep position, and after the diluted conversion agent-containing paint 11 is dried, the operator preferably applies the conversion agent-containing paint 11 that is hardly diluted.

  Conventionally, power tools such as wire foil and disc sander, or hand tools such as scrapers and wire brushes, etc. are used against corroded parts such as poles, and workers remove red rust until the steel surface of the iron pole is visible. Keren treatment to do. And the operator degreased the steel surface with acetone etc. after the keren treatment, and then primed the steel surface. In this embodiment, it is only necessary to apply the paint 11 containing the rust converting agent to the red rust corroded portion RU remaining on the square tube column 10, and the working time of the worker is reduced to 1/3 to 1/7 of the conventional one. Become.

  Next, in step S103, the operator sticks a strip-like fiber reinforced resin sheet 14 having a width of 5 to 20 cm in the circumferential direction of the square tube column 10 so as to cover the corroded portion. The fiber reinforced resin sheet 14 may be attached in the circumferential direction for one or two rounds. Thereafter, the fiber reinforced resin sheet 14 is cured by sunlight or ultraviolet rays of an ultraviolet irradiation device. If the fiber reinforced resin sheet 14 is affixed for three or more rounds, ultraviolet rays may not reach the lowermost layer and it takes a long time to cure, which is not preferable. When the corroded portion RU is in a state where a hole has penetrated due to the progress of red rust, the operator may attach the fiber reinforced resin sheet 14 cut around 30 mm or more larger than the hole. desirable.

  The fiber reinforced resin sheet 14 has waterproofness, and is formed by, for example, forming a resin mixture made of a lining resin such as an unsaturated polyester resin and glass fibers into a sheet shape. That in which both surfaces of the sheet-like material are covered with a protective sheet is used. An adhesive layer is provided on the back surface of the sheet-like material. When the fiber reinforced resin sheet 14 is attached, the protective sheet on the back side is peeled off, and the adhesive layer is exposed to the front and attached to the square tube column 10. 3 (c1) and 3 (c2), the rust conversion agent-containing paint 11 is applied to the corroded portion RU of the square tube column 10, and the fiber reinforced resin sheet 14 is wound in the circumferential direction of the square tube column 10. It shows the state.

  Next, in step S <b> 104, the operator refills the concrete shaved around the square tube column 10 with new concrete 50. FIGS. 4D1 and 4D2 show a state where the concrete is refilled with new concrete 50. FIG. When repairing is completed, when a waterproof rubber layer, which will be described later, and the ground surface GR of the original concrete are made to be the same surface (the same height), the surface RR of the new concrete 50 is changed when the new concrete 50 is refilled. The predetermined height D2 is lower than the ground surface GR. The predetermined height D2 is 5 to 10 mm. This is because the fiber reinforced resin sheets 16 and 20 and the rubber layer 22 to be described later are attached to the surface RR of the new concrete 50, so that their thickness becomes 4 to 9 mm.

  Next, in step S105, the operator applies the adhesive paint 15 so as to extend between the pole and the ground surface. That is, the film of the adhesive paint 15 is formed on the fiber reinforced resin sheet 14 wound around the square tube column 10, and the film of the adhesive paint 15 is formed on the ground surface RR of the new concrete 50. Further, a belt-like fiber reinforced resin sheet 16 is affixed on the adhesive paint 15 so as to extend radially from the pole to the ground surface. In the case of the square tube column 10, four fiber reinforced resin sheets 16 are attached in a radial pattern from four surfaces of the square tube column 10. Thereafter, the four fiber reinforced resin sheets 16 are cured with ultraviolet rays.

The fiber reinforced resin sheet 16 has an adhesive layer under the protective sheet on the back surface. However, in order to improve the adhesion with the ground surface RR of the new concrete 50, even if the adhesive paint 15 is applied. Good.
4 (e1) and 4 (e2) show that four fiber reinforced resin sheets 16 extend from the four sides of the square tube column 10 to the ground surface of the concrete 50 on the film of the adhesive paint 15, and are 90 degrees there. It shows a state where the ground surface is extended by turning down.

  Next, in step S106, the operator applies the adhesive paint 17 so as to extend between the square tube column 10 and the ground surface. A strip-shaped fiber reinforced resin sheet 18 having a width of 5 to 20 cm in the circumferential direction of the square tube column 10 is bonded to the region of the square tube column 10 of the fiber reinforced resin sheet 16 that is bonded radially. In addition, in the area of the ground surface of the fiber reinforced resin sheet 16 that is radially attached, a hole AP (see FIG. 6A) having the same or slightly larger shape as the cross section of the square tube column 10 is vacant. A flat fiber-reinforced resin sheet 20 having a thickness of 50 to 100 cm is attached. Thereafter, the belt-like fiber reinforced resin sheet 18 and the plate-like fiber reinforced resin sheet 20 are cured with ultraviolet rays. The repair by the flat fiber reinforced resin sheet 20 is for further reinforcement of the square tube pillar 10, and the fiber reinforced resin sheet 20 is not necessarily pasted unless the hole penetrates the clothing part RU due to the progress of red rust. There is no need.

  Finally, in step S107, the operator applies a silicone rubber paint containing a binder agent from the fiber reinforced resin sheet 18 attached to the pole and the fiber reinforced resin sheet 20 on the ground surface. When the silicone rubber paint is cured, a rubber film 22 having elasticity is formed. The rubber film 22 has functions of water resistance, acid resistance and alkali resistance, and even if it touches a repaired part such as rain and urine, the possibility that the repaired part will corrode again due to rust or the like is extremely low. In addition, since the binder agent is contained, the rubber film 22 is firmly bonded and fixed on the fiber reinforced resin sheet 18 and the fiber reinforced resin sheet 20 without any primer treatment.

It is preferable that the surface of the rubber layer 22 be slightly higher than the ground surface GR. This is because if the rubber layer 22 is lower than the ground surface GR, rainwater collects and the pole is easily rusted.
4 (f1) and (f2) show a state where the four surfaces of the square tube column 10 to the ground surface of the concrete 50 are covered with a film such as a modified silicone resin.

  In steps S105 and S106 of the construction procedure in FIG. 2, the operator applies adhesive paint 17 to the pole or the ground surface before attaching the fiber reinforced resin sheet. However, if the fiber reinforced resin sheet, the pole or concrete, and the adhesive can be sufficiently bonded only by the adhesive layer on the sheet, the operator does not necessarily need to apply the adhesive paint 17. Further, when using a fiber reinforced resin sheet that does not have an adhesive layer, the operator needs to apply the adhesive paint 17 in steps S103, S105, and S106. Further, if the corroded portion of red rust is not so severe, steps S105 and S106 need not be performed.

  FIG. 5 is a plan view showing a state in which the fiber reinforced resin sheet is stretched and attached from the pole to the ground surface of the concrete 50. FIG. 5A is an example in which a fiber reinforced resin sheet 16 is attached to the square tube column 10, and is in the same state as the drawings shown in FIGS. 4E1 and 4E2. FIG. 5B is an example in which the fiber reinforced resin sheets 16A and 16B are attached to the H-shaped steel column 80, and FIG. 5C is an example in which the fiber reinforced resin sheet 16C is attached to the circular tube column 90.

  As shown in FIG. 5 (a), the length of one side of the square cross section of the square tube column 10 is defined by the JIS standard, and in accordance with the length, four belt-shaped fiber reinforced resin sheets 16 are provided. Is prepared. They are stuck in four directions from the square tube column 10 to the ground surface of the concrete 50.

  Further, as shown in FIG. 5B, the length of one side of the left and right plates of H and the length of the connecting plate are also stipulated in the JIS standard as shown in FIG. These two fiber-reinforced resin sheets 16A and two belt-shaped fiber-reinforced resin sheets 16B are prepared. The fiber reinforced resin sheet 16A is attached to the ground surface of the concrete 50 from the left and right plates of the H-shaped steel pillar 80, and the fiber reinforced resin sheet 16B is attached to the ground surface of the concrete 50 from the connecting plate.

  Further, as shown in FIG. 5 (c), the diameter of the circular pipe column 90 is also defined by the JIS standard, and the eight fiber reinforced resin sheets 16C having a band-like width determined in consideration of the diameter are provided. It is prepared. The fiber reinforced resin sheet 16 </ b> C is radially attached from the circular column 90 to the ground surface of the concrete 50.

<Repair kit>
FIG. 6 is a breakdown of repair kits sold. Details of repair kit fiber reinforced resin sheet and spray can. A repair kit 100 shown in FIG. 6A is a kit for repairing the rectangular column 10 in which the corroded portion RU due to red rust has occurred. The repair kit 100 includes one spray can RS, one spray can RL, one fiber reinforced resin sheet 14, four fiber reinforced resin sheets 16, one fiber reinforced resin sheet 18, and 1 It consists of a sheet of flat fiber-reinforced resin sheet 20. In addition, the fiber reinforced resin sheet 14 and the fiber reinforced resin sheet 18 differ only in the order in which they are attached, and the sheets have substantially the same width and the same length.

  In the first embodiment, the spray can RS includes a rust conversion agent-containing paint 11 and an adhesive paint 17 having a rust conversion agent that converts red rust to black rust. A repair kit may be a can for painting with a brush instead of a spray using gas. Moreover, the paint 11 containing a rust converting agent and the adhesive paint 17 may be put in separate spray cans.

  The spray can RL is a two-component type spray that forms the rubber film 22. Before spraying, the two liquids can be mixed thoroughly by turning the screw cap, etc., and then sprayed using gas. Two cans for painting with a brush instead of a gas spray may be used as a repair kit.

  In the flat fiber reinforced resin sheet 20, a hole AP having a shape that is the same as or slightly larger than the cross section of the square tube column 10 is formed in the center, and a slit SL is formed from the hole AP to the outer periphery. Since the slit SL is formed, it is easy to install the fiber reinforced resin sheet 20.

  A repair kit 800 shown in FIG. 6B is a kit for repairing the H-shaped steel column 80 in which the corroded portion RU caused by red rust has occurred. The repair kit 800 includes one spray can RS, one spray can RL, one fiber reinforced resin sheet 14, two fiber reinforced resin sheets 16A and 16B, and one fiber reinforced resin sheet 18, respectively. And one flat fiber-reinforced resin sheet 20A.

  In order to obtain a sheet extending radially from the H-shaped steel column 80 to the ground surface, the fiber reinforced resin sheets 16A and 16B have different lengths. The central hole AP of the fiber reinforced resin sheet 20A is formed in an H shape. Others are the same as those of the repair kit 100, and the description is omitted.

  A repair kit 900 shown in FIG. 6C is a kit for repairing the circular column 90 in which the corroded portion RU caused by red rust has occurred. The repair kit 900 includes one spray can RS, one spray can RL, one fiber reinforced resin sheet 14, eight fiber reinforced resin sheets 16C, one fiber reinforced resin sheet 18, It consists of a sheet-like flat fiber-reinforced resin sheet 20C.

  Since the circular cylindrical column 90 has a circular cross section, a fiber-reinforced resin sheet 16C having a narrow width is prepared because wrinkles are likely to occur in a wide sheet when the sheet is stretched radially. The central hole AP of the fiber reinforced resin sheet 20C is formed in a circular shape. Others are the same as those of the repair kit 100, and the description is omitted.

(Second Embodiment)
As described in the first embodiment, the iron pole is likely to generate red rust at the boundary with the concrete ground surface. However, red rust may be generated on the pole at a position away from the ground surface due to bird droppings or the like.
FIG. 7 is a flowchart for repairing a pole in which red rust has occurred at a position away from the ground surface.

  In step S121 of FIG. 7, when the corrosion part RU has floating rust, the worker removes the floating rust with a brush or the like to make the corrosion part RU with red rust remaining on the surface of the pole. If there is no rusting, the operator does not need to do anything. Then, the worker applies the paint 11 containing the rust converting agent to the red rust corroded portion RU remaining on the pole.

  Next, in step S122, the operator attaches a belt-shaped fiber reinforced resin sheet 14 having a width of 5 to 20 cm in the circumferential direction of the pole so as to cover the corroded portion. The fiber reinforced resin sheet 14 may be attached in the circumferential direction for one or two rounds. Thereafter, the fiber reinforced resin sheet 14 is cured by sunlight or ultraviolet rays of an ultraviolet irradiation device.

  Next, in step S123, the operator applies a silicone rubber paint containing a binder agent from above the fiber reinforced resin sheet 14 attached to the pole. When the silicone rubber paint containing the binder is cured, a rubber film 22 having elasticity is formed.

DESCRIPTION OF SYMBOLS 10 ... Square tube pillar 14,16,18 ... Strip | belt-shaped fiber reinforced resin sheet 11 ... Paint 15,17 containing a rust conversion agent ... Adhesive layer or adhesive paint 20 ... Flat fiber-reinforced resin sheet 80 ... H-shaped steel pillar 90 … Circular column

Claims (5)

In the repair method of repairing the corroded part due to red rust generated on the outer surface of the iron pole installed on the ground surface and the boundary with the ground surface,
Cutting the ground surface around the iron pole;
A first application step of applying a paint containing a rust conversion agent that converts red rust to black rust on the corroded portion caused by red rust;
After the paint containing the rust converting agent is dried, a step of pasting the uncured strip-like first fiber reinforced resin sheet in the circumferential direction on the corroded portion, and curing the first fiber reinforced resin sheet;
After curing the first fiber reinforced resin sheet, the step of refilling the shaved ground surface;
After the step of backfilling the ground surface, a second coating step of applying an adhesive paint to the first fiber reinforced resin sheet and the ground surface;
A waterproof application step of applying a waterproof paint to the surface of the adhesive paint;
A repair method comprising: Further, after the second coating step and before the waterproof coating step, an uncured band-like second fiber reinforced resin sheet is attached radially from the first fiber reinforced resin sheet to the ground surface, and the second fibers Curing the reinforced resin sheet;
After the second fiber reinforced resin sheet is cured, an uncured flat third fiber reinforced resin sheet surrounding the iron pole is pasted on the ground surface, and the third fiber reinforced resin sheet is cured. A process of
And a fourth application step of applying an adhesive paint to the first fiber reinforced resin sheet and the third fiber reinforced resin sheet,
The repair method according to claim 1, wherein the waterproof coating step is performed after the fourth coating step. Furthermore, after curing the second fiber reinforced resin sheet, a fourth application step of applying an adhesive paint to the first fiber reinforced resin sheet and the second fiber reinforced resin sheet;
A fifth application step of applying a waterproof paint to the surface of the adhesive paint after the adhesive paint is dried;
The repair method of Claim 2 provided with. In the repair kit to repair the corroded part caused by red rust generated on the outer surface of the iron pole installed on the ground surface and the boundary with the ground surface,
A spray containing paint containing a rust conversion agent that converts red rust to black rust;
An uncured belt-like fiber reinforced resin sheet;
A spray containing a paint that provides adhesion to the fiber-reinforced resin sheet or the ground surface;
An opening that matches the cross-sectional shape of the iron pole, an uncured flat fiber-reinforced resin sheet,
A spray containing a liquid-proof coating that prevents liquid from entering the belt-like and flat fiber-reinforced resin sheets; and
Repair kit with The repair kit according to claim 4 , wherein the spray containing the paint containing the rust converting agent and the spray containing the paint giving the adhesiveness are integrated.