JP6378255B2 - Column reinforcing method and column coated with coating resin material - Google Patents

Description

  The present invention relates to a column body reinforcing method and a column body coated with a coating resin material.

  In Patent Document 1, a reinforcing material having carbon fiber as a reinforcing fiber is wound around the surface of a concrete power pole to be repaired, and then a reinforcing fiber sheet of insulating fiber is wound around the outermost layer of the carbon fiber. There is disclosed a method for repairing a concrete electric pole characterized in that the exposure of the reinforcing material is eliminated, and thereafter, the thermosetting resin impregnated with these carbon fibers and insulating fibers is cured.

JP-A-5-332032

In recent years, with the improvement of the traffic environment, street lamps (12) and road sign posts (22) have been improved.
On the other hand, the pillars (11, 21) such as the street lamp (12) and the road sign post (22) are Γ-shaped, and a large load is applied to the vicinity of the embedded portion of the pillars (11, 21). Risk of the column (11, 21) collapsing or breaking when the column (11, 21) is deteriorated due to various factors, particularly when the vicinity of the embedded portion of these columns (11, 21) is deteriorated. Becomes higher.

  With the repair method disclosed in Patent Document 1, it is not easy to reduce the risk of column collapse or breakage simply by winding a reinforcing material around the surface of the deteriorated portion (12, 22) of such a column.

  The present invention relates to a method for reinforcing a column (11, 21) and a covering resin material (14-1 and 2) for preventing the column (11, 21) from collapsing or breaking due to deterioration of the column (11, 21). , 24-1 and 2) to provide the pillars (11, 21) covered.

The present invention
[1] Columns (11, 21) having the ends (11, 21) embedded in the bases (13, 23) and the columns (11, 21) fixed to the bases (13, 23) 21) The column body (11, 21) is a deteriorated portion (12, 22) on the side surface of the column body (11, 21) exposed on the base (13, 23). A side surface of the column body (11, 21) from a portion including the deteriorated portion (12, 22) of the column body (11, 21) to an embedded portion in the base (13, 23). Column bodies (11, 2) which are covered with coating resin materials (14-1 and 2, 24-1 and 2), embedded in the base (13, 23) and fixed to the base (13, 23) 21) Reinforcement method. (Hereinafter also referred to as the present invention 1), and [2] The method described in [1] or [2] above, which can be produced by the reinforcing method of the column (11, 21) described in [1] or [2] above Columns (11, 21) covered with the coating resin materials (14-1 and 2, 24-1 and 2) of [1] or [2] above, which are embedded and fixed in the base (13, 23) (Hereinafter also referred to as Invention 2).

  According to the present invention, the method of reinforcing the column (11, 21) and the covering resin material (14-1) for preventing the column (11, 21) from collapsing or breaking due to the deterioration of the column (11, 21). And columns (11, 21) coated with 2, 24-1 and 2).

The side surface of the column (11) and the vicinity of the embedded portion of the column (11) in which the column (11) (street light) in Embodiment 1 is embedded and fixed to the base (13) (hardened concrete) Schematic diagram of the base (13) (FIG. 1 (a)), and a schematic diagram of the side surface of the column S (13) and the cross section of the base (13) surrounded by the broken line in FIG. 1 (a) (FIG. 1B). In embodiment example 1, a schematic diagram (FIG. 2 (a)) of a state in which the embedded portion in the base (13) of the column (11) is exposed by excavating the base (13), and FIG. It is a schematic diagram (FIG.2 (b)) of the cross section of the part S enclosed with the broken line of (a). In embodiment example 1, the side surface of the column (11) from the portion including the deteriorated portion (12) of the column (11) to the embedded portion in the base (13) is defined as the first coating resin material (14-1). 4 is a schematic diagram (FIG. 3A) in a state of being covered with), and a schematic diagram (FIG. 3B) of a cross section of a portion S surrounded by a broken line in FIG. In Embodiment Example 1, a schematic diagram (FIG. 4A) of a state in which the first coating resin material (14-1) is further covered with the second coating resin material (14-2) and covered, It is a schematic diagram (Drawing 4 (b)) of the section of portion S surrounded by the dashed line of Drawing 4 (a). The portion embedded under the base (13) of the column (11) while being covered with the first coating resin materials (14-1) and 2 (14-2) is again replaced with the base (13 ) A schematic diagram (FIG. 5A) of the state of the columnar body 11 embedded in and fixed to the base 13 (FIG. 5A), and a cross-section of the portion S surrounded by the broken line in FIG. It is a schematic diagram (FIG.5 (b)). The side surface of the column body (21) and the embedded portion of the column body (21) in which the column body (21) (road sign post) in Embodiment 2 is embedded and fixed to the base (23) (hardened concrete body). Schematic diagram of the base (23) in the vicinity (FIG. 6 (a)), and a schematic view of the side of the column (23) of the part S surrounded by the broken line in FIG. 6 (a) and the cross section of the base (23) It is a figure (FIG.6 (b)). In embodiment example 2, the curable composition charging hole (21-5) for filling the curable composition into the pipe of the columnar body (21) on the upper side surface of the deteriorated portion (22) of the columnar body (21). Schematic diagram (Fig. 7 (a)) of the state provided with a side view of the column (23) of the part S surrounded by the broken line in Fig. 7 (a) and a schematic diagram of the cross section of the base (23) (Fig. 7 (b)). In the embodiment example 2, a schematic diagram (FIG. 8A) in a state where a reinforcing bar 25-2 is installed in the pipe of the column body 21, and a portion S surrounded by a broken line in FIG. It is a schematic diagram (FIG.8 (b)) of the cross section of the side surface of this column body (23), and a base (23). In Embodiment Example 2, a schematic diagram (FIG. 9A) of a state in which the tube of the columnar body 21 is filled with the curable composition 25-3 above the deteriorated portion 22, and FIG. It is a schematic diagram (Drawing 9 (b)) of a section of column (23) of section S surrounded by a dashed line of (a), and a section of base (23). It is. In embodiment example 2, after the curable composition (25-3) is filled into the pipe of the columnar body (21), the curable composition charging hole (21-5) is replaced with the filler charging hole sealing metal cap (25). -4) Schematic diagram (FIG. 10 (a)) in a state of being blocked, and a schematic diagram of the cross section of the side surface of the column (23) and the base (23) of the portion S surrounded by the broken line in FIG. 10 (a). It is a figure (FIG.10 (b)). In Embodiment 2 of the present invention, a schematic diagram (FIG. 11 (a)) of a state where the embedded portion in the base (23) of the column (21) is exposed by excavating the base (23), and FIG. It is a schematic diagram (FIG.11 (b)) of the cross section of the part S enclosed with the broken line of (a). In embodiment example 2, the side surface of the column body (21) from the portion including the deteriorated portion (22) of the column body (21) to the embedded portion in the base (23) is covered with the first coating resin material (24). It is the schematic diagram (FIG.12 (a)) of the coat | covered state, and the schematic diagram (FIG.12 (b)) of the cross section of the part S enclosed by the broken line of Fig.12 (a). In Embodiment 2, a schematic diagram (FIG. 13A) of a state in which the second coating resin material (24-1) is further covered with the second coating resin material (24-2) and covered, It is a schematic diagram (FIG.13 (b)) of the cross section of the part S enclosed with the broken line of Fig.13 (a). The portion embedded under the base (23) of the column (21) while being covered with the first coating resin materials (24-1) and 2 (24-2) is again replaced with the base (23 ) A schematic diagram (FIG. 14A) of the state of the columnar body (21) embedded in and fixed to the base (23), and a cross section of a portion S surrounded by a broken line in FIG. It is a schematic diagram (FIG.14 (b)).

[Invention 1]
The present invention 1 is a column in which the ends of the columns (11, 21) are embedded in the base (13, 23) and the columns (11, 21) are fixed to the base (13, 23). This is the reinforcing method (11, 21).

(Pillar)
The column (11, 21) (hereinafter also referred to as the column (11, 21)) targeted by the present invention 1 has the end of the column (11, 21) embedded in the base (13, 23). It is fixed (an example of the street light (12) and road sign post in FIGS. 1 and 5 is shown). Below, the end embedded in the base (13, 23) of the column (11, 21) is the fixed end (11-3, 21-3), and the base (13, 23) of the column (11, 21). The end that is not embedded in () is the support end, the portion exposed to the outside of the column (11, 21), and the portion in the vicinity of the embedded portion is called the root.

As the pillars (11, 21), for example, power poles, road sign pillars (22), street lamps (12), curved mirrors, pillars for industrial / life infrastructure installed outside such as pedestrian bridge pillars. A heavy object such as a transformer or a road sign, or a functional part such as an electric light is installed on the support end side of the cylinder. (11, 21) are mentioned, and it is preferable to target the columnar body (11, 21) having a Γ-shape.

Examples of the material of the column (11, 21) include metals, plastics, ceramics, concrete, and the like, but it is preferable to target metals that are more affected by deterioration of the side surfaces of the columns (11, 21). Iron, stainless steel, precious metal, lead, etc. can be mentioned, but it is preferable to target iron that is widely used for industrial and daily life bases and that is more affected by deterioration of the side surfaces of the pillars (11, 21).

The column (11, 21) may be a tube having a hollow inside or not, but the tube is more affected by the deterioration of the side surface of the column (11, 21). It is preferable to target a body, more preferably a metal tube, a plastic tube, a ceramic tube, a concrete tube, etc., more preferably a metal tube, and still more preferably an iron tube.

(Deteriorated part)
The columnar bodies (11, 21) that are the subject of the present invention 1 have deteriorated portions (12, 22) on the side surfaces. Deteriorated parts (12, 22) are made of surface materials of the pillars (11, 21): salt in the atmosphere; sulfur gas; carbon dioxide and other harmful gases; sulfuric acid and other acids; There are cases where the damage is chemically progressed by this, and physical damage caused by contact / collision of a person, a bicycle, a car or the like.

Deteriorated portions (12, 22) at the base side surfaces of the pillars (11, 21) are not only physically damaged due to contact / collision of people, bicycles, cars, etc., but also the surface of the pillars (11, 21). It is also conceivable that the material progresses in contact with excrement such as humans, dogs and cats.

When the column (11, 21) is a tubular body, the deteriorated portion is corroded over a length of half or more around the column (11, 21) in the vicinity of the root, and the metal outer tube portion (11- In some cases, 1.21-1) is lost, and the inside of the pipe communicates with the outside.

In the case of the column (11, 21) having a load on the base, from the viewpoint that the column (11, 21) is easily connected due to collapse or breakage, a deteriorated portion (12 , 22) is preferable, and it is more preferable to target the degraded portion (12, 22) at a height of 50 cm or less from the base (13, 23) on the side surface of the column (11, 21). Preferably, it is more preferable to target the deteriorated portions (12, 22) at a height of 30 cm or less, and more preferable to target the deteriorated portions (12, 22) at a height of 10 cm or less. It is more preferable to target the deteriorated portions (12, 22) at the height, and it is more preferable to target the deteriorated portions (12, 22) from these heights to the root.

(Base)
As for the base (13, 23) which this invention 1 makes object, the fixed end (11-3, 21-3) side of a column (11, 21) is embed | buried, and a column (11, 21) is fixed. The base (13, 23) may be the earth itself made of soil, or may be formed of soil filled in a fixed formwork, and in this case, the fixed end of the column (11, 21) ( The 11-3 and 21-3) sides are directly embedded in the soil. The base (13, 23) may be a hardened body of a curable resin composition or a hardened body of a hydraulic composition or a hardened body thereof, and paving stones for sidewalks such as decorative bricks may be laid, In many cases, the column is a cured body of a hydraulic composition such as concrete.

( Reinforcement method 1)
The first aspect of the present invention provides a base (13
, 23) The side surfaces of the column bodies (11, 21) up to the embedded portion in the substrate are covered with the coating resin materials (14-1 and 2, 24-1 and 2) and embedded in the base (13, 23). This is a method of reinforcing the column (11, 21) to be fixed to the base (13, 23).

From the viewpoints of strength and corrosion resistance, the coating resin materials (14-1 and 2, 24-1 and 2)
It is preferably a fiber net, a resin film, a fiber reinforced resin (FRP (Fiber Reinforced Plastics)) sheet, more preferably a resin film and / or a fiber reinforced resin sheet, and further a fiber reinforced resin sheet. preferable.

As fiber nets, conventional resin fibers such as nylon; Teijin Techno Products "Technora""Twaron" (registered trademark), Toray DuPont "Kevlar" (registered trademark), etc. Aramid fiber; ultra high molecular weight polyethylene fiber such as Toyobo “Dyneema” (registered trademark); polyarylate fiber such as Kuraray “Vectran” (registered trademark); and PBO (poly) such as Toyobo “Zylon” (registered trademark) Paraphenylene benzobisoxazar) fiber;
Consists of at least one fiber selected from the group consisting of carbon fibers such as Toray "Torexa" (registered trademark), Toho Tenax "Tenax" (registered trademark), Mitsubishi Rayon "Pyrofil" (registered trademark), etc. The net is preferred.

  Engineers of polyethylene, modified polyethylene, polypropylene, modified polypropylene, polybutene, polyester, vinyl ester, polyvinyl chloride, ethylene vinyl acetate copolymer, epoxy resin, fluororesin, thermoplastic elastomer, silicone rubber, polyimide, etc. A plastic film made by adjusting the manufacturing conditions such as thickness and stretching conditions according to the desired strength can be used. Commercially available products include biaxially stretched polyester films such as Toray “Lumirror” (registered trademark), PET such as Teijin DuPont Films “Teijin Tetron Film” “Melinex” “Mylar” “Teflex” (registered trademark), etc. Film: PEN (polyethylene naphthalate) film such as “Teonex” (registered trademark) by Teijin DuPont Films.

  As a fiber reinforced resin sheet, a fiber or glass fiber of a suitable resin mentioned in the fiber net and resin film is kneaded to form a film, or a sheet obtained by netting these resins as a skeleton base material is a netted sheet In addition, for example, those formed by impregnating and curing a curable resin such as an acrylate type or an epoxy type that are cured by light or heat are preferable.

  The thickness of the coating resin material (14-1 and 2, 24-1 and 2) is adjusted to achieve a desired strength, but the appearance of the coated column (11, 21) portion, the base ( 13, 23) From the viewpoint of the fixability when embedded, it is preferable not to become excessively large, preferably 0.1 to 20 mm, more preferably 1 to 15 mm, and still more preferably 2 to 10 mm.

  In the present invention 1, in the base (13, 23) from the portion including the deteriorated portion (12, 22) of the column (11, 21) with the coating resin material (14-1 and 2, 24-1 and 2). The side surfaces of the pillars (11, 21) up to the buried portion are covered.

  The covering height of the covering resin material (14-1 and 2, 24-1 and 2) is at least covered from the base (13, 23) surface to the deteriorated portion (12, 22) of the column (11, 21). It is preferable that the height is such that it covers at least 5 cm higher than the highest end of the deteriorated portion (12, 22) of the column (11, 21). More preferably, the height is such that it covers at least 10 cm higher than the highest end of the deteriorated portions (12, 22) of (11, 21).

  About the embed | buried part in the base (13,23) of a column (11,21), covering resin material (14-1 and 2, 24-1 and 2) is base (13,23) surface (23 -1) It is preferable to cover the side surface of the portion having the same cross-sectional diameter as the columnar body (11, 21) exposed above, and to cover the side surface to the fixed end (11-3, 21-3) More preferably.

  From the viewpoint of stably fixing the column bodies (11, 21), the column bodies (11, 21) are arranged on the fixed end side of the column bodies (11, 21) embedded in the bases (13, 23). For example, two, four, six, and eight anchor ribs are preferably provided so as to project axially symmetrically from the axial direction of the body (11, 21) into the base (13, 23). More preferably, the anchor ribs are fixed to the bottom plate perpendicular to the axial direction together with the fixed ends of the columns (11, 21).

  In this case, the portion other than the anchor ribs is used to cover the side surface of the column (11, 21) from the portion including the deteriorated portion (12, 22) of the column (11, 21) to the fixed end. (14-1, 24-1), and the side surface above the anchor ribs is overlapped on the first coating resin material (14-1, 24-1), and the second coating resin material ( 14-2, 24-2) may be covered. The second covering resin material (14-2, 24-2) may be covered with a horizontal winding around the shaft.

  When the first coating resin material (14-1, 24-1) and the second coating resin material (14-2, 24-2) are thus coated, the first coating resin material (14-1, 24-1) is embedded again in the base (13, 23) and fixed in the base material (13, 23), so that the second covering resin material (14-2, 24-2) is axial. The deviation to the can be suppressed.

  In the present invention 1, the embedded part in the base (13, 23) of the column (11, 21) digs out the constituent members of the base (13, 23) along the column (11, 21), The embedded part in the base (13, 23) of the column (11, 21) is exposed, and the exposed part is covered with the covering resin material (14-1 and 2, 24-1 and 2), and then excavated. If the components of the base (13, 23) are backfilled or the components (13, 23) of the base (13, 23) are destroyed and crushed and dug along the pillars (11, 21), they will be dug out. Instead of the constituent members of the base (13, 23), a curable composition such as concrete is poured around the exposed portion and cured to form a new constituent member of the base (13, 23).

  In the first aspect of the present invention, in order to suppress corrosion of the deteriorated portion, it is preferable that the deteriorated portion is impregnated with the curable resin as described above and then cured after the rust and dirt are removed. It is preferable to stick the patch members (15-2, 25-2).

  The patch members (15-2, 25-2) (15-2, 25-2) need only have an area sufficient to cover the repair target part, and may be formed into a quadrilateral, a circle, a triangle, or the like. It may be a polygon.

  The patch member (15-2, 25-2) preferably has flexibility or elasticity so that the deteriorated portion can be covered along the surface of the column (11, 21). In order to construct the patch member (15-2, 25-2) having flexibility or elasticity, the patch member (15-2, 25-2) is a plate-like member made of glass, synthetic resin or metal. It is preferable that

  When the patch members (15-2, 25-2) are made of glass or metal, the patch members (15-2, 25-2) may be in the form of a cloth made of glass cloth or metal fibers. When the patch member (15-2, 25-2) is made of synthetic resin or metal, it may be a thin sheet having flexibility or elasticity, or may be a hard sheet. However, from the viewpoint of imparting flexibility, it is preferable that a variable portion extending in a predetermined direction is formed, and this variable portion may be a portion that is made thin by forming a groove, for example, and can be easily bent. .

  When the patch member (15-2, 25-2) is made of a synthetic resin, the synthetic resin includes polyethylene, modified polyethylene, polypropylene, modified polypropylene, from the viewpoint of strength, flexibility, elasticity, and waterproofness. Engineered plastics or rubbers such as polybutene, polyester, vinyl ester, polyvinyl chloride, ethylene vinyl acetate copolymer, epoxy resin, fluororesin, thermoplastic elastomer, silicone rubber, polyimide, etc. are preferred. Vinyl esters or epoxy resins are preferable, and even if the liquid is a solvent, vinyl esters having excellent solvent resistance are more preferable.

The patch members (15-2, 25-2) are preferably FRP (Fiber Reinforced Plastics) made of synthetic resin and fiber from the viewpoints of strength, flexibility, elasticity and waterproofness.
In the case of FRP, the synthetic resin is polyester, epoxy resin, and vinyl ester, and the fiber is more preferably glass fiber.

  The thickness of the patch member (15-2, 25-2) is preferably thin from the viewpoint of preventing the size of the enveloping cover that covers and surrounds the metal tube in step 2 from being unnecessarily large. 0.1 to 10 mm is preferable, 0.2 to 5 mm is more preferable, 0.3 to 3 mm is more preferable, 0.4 to 2 mm is further preferable, and 0.4 to 1 mm is still more preferable.

( Reinforcement method 2)
When the column (11, 21) is a tubular body, it is preferable to repair the deteriorated portion after securing the strength near the deteriorated portion (12, 22) of the column (11, 21). From the point of view, it is curable from the embedded portion in the base (13, 23) to the height of the portion including the deteriorated portion (12, 22) of the column (11, 21) in the pipe of the column (11, 21). Preferably, the composition is filled and cured.

  Examples of the curable composition include a curable resin composition that is cured by heating, light irradiation, mixed heat generation of two components, or a hydraulic composition such as concrete. A hydraulic composition is preferred.

In the case where the tube of the columnar body (11, 21) is filled with a curable composition and cured, from the viewpoint of improving the strength in the vicinity of the deteriorated portion (12, 22) of the columnar body (11, 21),
The filling height of the curable composition is preferably at least the height of the deteriorated portion (12, 22) of the column (11, 21) from the surface of the base (13, 23), from the highest end. Is more preferably at least 10 cm higher and even more preferably at least 20 cm higher than the highest end.

  Even when the deteriorated portion is at a low position near the base of the column (11, 21), it is embedded in the base (13, 23) from the base surface (1-1, 23-1). It is preferable to fill the curable composition to a height of preferably 10 to 100%, more preferably 20 to 80%, and even more preferably about 40 to 60% of the filling depth of the portion.

In the case where the curable composition is filled in the pipe of the column (11, 21) and cured, the coating height of the coating resin materials (14-1 and 2, 24-1 and 2) is
It is preferably at least the same as the filling height of the curable composition,
Load applied to the column (11, 21) in the vicinity of the filling height of the curable composition due to the toughness / elasticity of the column (11, 21) being different between the higher and lower portions than the filling height of the curable composition. From the viewpoint of reinforcement with respect to the curable composition, it is more preferably at least 10 cm higher than the filling height of the curable composition, more preferably at least 20 cm higher, and the deteriorated portion is in a low position near the base of the column (11, 21). Even if it is a case, Preferably it is 10 to 100% of the filling height of the curable composition on the base surface (1-1, 23-1), More preferably, it is 20 to 80%, More preferably, it is 40 to It is about 60% high.

(Effect of the present invention 1)
According to the first aspect of the present invention, it is possible to easily reinforce the deteriorated portions (12, 22) of the column bodies (11, 21) sufficiently to prevent the column bodies (11, 21) from being collapsed or broken. it can.

  The present invention 1 further includes a deteriorated portion (12, 22) in the vicinity of the base of the column (11, 21). For example, a telephone pole, a road sign post (22), a street light (12), a curve mirror, a pedestrian bridge It is a pillar for industry and daily life that is installed outside the pillar, etc. It is a Γ-shape with heavy objects such as transformers and road signs and functional parts such as electric lights installed on the support end side of the pillar. Effective reinforcement is possible even when a large load is applied to the root.

  The present invention 1 has the above effects and can be used as it is without replacing the column bodies (11, 21) by reinforcing the column bodies (11, 21) in which the deteriorated portions (12, 22) are problematic. Therefore, not only has a great economic effect, but also, for example, a highly designed street lamp (12) designed by a designer can be used over a long period of time, which is useful for the maintenance of a cityscape.

[Invention 2]
The present invention 2 is coated with a coating resin material (14-1 and 2, 24-1 and 2) which can be manufactured by the present invention 1 and is embedded and fixed to the base (13, 23) in the present invention 1. Column (11, 21).

  According to the second aspect of the present invention, for example, a utility pole, a road sign post (22), a street light (12), a curved mirror, a pillar for a footbridge, etc., which is installed outside and has high safety and economic efficiency. It can be used without suppressing an increase in cost. For example, it can be maintained for design of a cityscape because it can maintain a design property designed by a designer.

Embodiment Example 1

(Column) (1) Γ-shaped street light (12): An iron pipe with a height of about 10 m, an arm length of about 3 m, and a wall thickness of about 1 cm, and the portion embedded in the base (13) is about 50 cm. In the vicinity of the fixed end of the body (11), eight triangular anchor ribs (11-2) are projected at an angle of 45 ° around the axis, and the bottom plate is fixed together with the fixed end ( Only 4 sheets are shown in the drawing). The bottom plate is further screwed and fixed to the base (13) with bolts (not shown). (2) Base (13): Hardened concrete

(Deteriorated portion) From the base of the base (13) to the height of 5 cm from the surface, corrosion spreads in a range of half a circumference around the base.

(Raw material of coating resin material) (1) Fiber net: Aramid fiber net (tensile strength of about 3000 MPa, fiber diameter of about 12 μm) (2) Curable resin: Thermosetting vinyl ester resin (liquid vinyl ester, curing agent and curing) Liquid mixture containing accelerators)
(3) Patch member (15-2, 25-2): A release agent is applied on a female mold, a curable resin is applied thereon, a fiber net is placed thereon, and further overlapped. Then, a curable resin is applied to form a patch member (15-2, 25-2) sheet. After the curable resin is cured, the patch member (15-2, 25-2) sheet is peeled off from the female mold, and cut into a length of about 15 cm, a width of about 10 cm, and a thickness of about 2.5 mm. 2, 25-2).

(Reinforcing method) (1) The base (13) part around the portion embedded in the base (13) of the column (11) is excavated with a drill, and the base (13) of the column (11) The portion embedded in) was exposed, and the dirt on the exposed portion was removed with high pressure water (FIG. 2). (2) After removing the rust and dirt from the deteriorated part to make it a glossy surface, fill the side of the deteriorated part and the column (11) near the deteriorated part with a curable resin as a deteriorated part filling resin (15-1). And the patch member (15-2, 25-2) was stuck from the top (FIG. 3). (3) The curable resin (15-1) is applied to the side surface of the column body (11) excluding the rib for anchoring from about 20 cm above the highest end of the deteriorated portion (12) to the fixed end of the column body (11). It is applied, and a fiber net is placed on top of it, and further, a curable resin is applied thereon, and the curable resin is cured to form a first coating resin material (14-1) (FIG. 3). ). (4) The upper surface of the anchor rib is above the upper end of the first coating resin material (14-1) to about 20 cm above the surface of the first coating resin material and the exposed column (11). A second coating resin material (14-2) is formed on the side surface in the same manner as the first coating resin material (14-1) (FIG. 4). (3) The component part of the base (13) was repaired by filling uncured concrete around the exposed part of the column (11) (FIG. 5). (4) The filled uncured concrete was cured and cured (FIG. 5).

Embodiment Example 2

(Column) (1) Γ-shaped street light (22): An iron pipe with a height of about 10 m, an arm length of about 5 m, and a wall thickness of about 1 cm, and the portion embedded in the base (23) is about 50 cm. In the vicinity of the fixed end of the body (21), eight triangular ribs (21-2) for anchoring project at an angle of 45 ° around the axis, and the bottom plate is fixed together with the fixed end ( Only 4 sheets are shown in the drawing). The bottom plate is further screwed and fixed to the base (23) with bolts (not shown). (2) Base (23): Concrete

(Deteriorated portion) From the base of the base (23) to the height of 5 cm from the surface, corrosion spreads in the range of a half circumference around the base.

(Raw material for coating resin)
The same raw materials as in Example 1 were used.

(Reinforcing method) (1) Cut and cure the curable composition charging hole (21-4) with a sander or the like so as to communicate with the pipe about 50 cm above the highest end of the deteriorated portion (22) of the column (21). The curable composition (uncured concrete) was filled up to 30 cm above the highest end of the deteriorated portion (22) from the hole for introducing the curable composition (21-4) (FIGS. 7 to 9). (2) The filled uncured concrete was cured and cured. (3) The curable composition charging hole (21-4) was sealed by fitting and welding the curable composition charging hole sealing metal cap (25-3) (FIG. 10). (3) After the filled uncured concrete is hardened, the base (23) around the portion embedded in the base (13, 23) of the column (21) is excavated, and the column (21) The part embedded in the base (23) was exposed, and the dirt on the exposed part was removed with high-pressure water (FIG. 11). (4) On the side surface of the column (21) excluding the ribs for anchors, from about 10 cm above the highest end of the metal cap (25-3) for closing the curable composition injection hole to the fixed end of the column (21). Then, the curable resin (25-1) is applied, the fiber net is arranged on top of the curable resin (25-1), the curable resin is further applied in an overlapping manner, the curable resin is cured, and the first coating resin material ( 24-1) is formed (FIG. 12). (4) The upper surface of the anchor rib is above the upper end of the first coating resin material (24-1) to about 20 cm above the surface of the first coating resin material and the exposed column (21). A second coating resin material (24-2) is formed on the side surface in the same manner as the first coating resin material (24-1) (FIG. 13). (5) The component part of the base (23) was repaired by filling uncured concrete around the exposed part of the column (21).

11 Column (Metallic street light)
11-1 Metal outer tube portion 11-2 of pillar body 11-2 Anchor rib 11-3 Fixed end 11-4 Bottom plate 12 Degraded portion 13 Base 13-1 Base surface 13-2 Exposed portion under base Excavation hole 14-1 formed for the purpose First coating resin material 14-2 Second coating resin material 15-1 Degraded part filling resin 15-2 Patch member

21 pillar (metal road sign post)
21-1 Metal outer tube part 21-2 Anchor rib 21-3 Fixed end 21-4 Bottom plate 21-5 Curable composition charging hole 22 Degraded part 23 Base (hardened concrete)
23-1 Base Surface 23-2 Base Excavation Hole 24 Exposed to Expose Embedded Part Under Base 24 Covering Resin Material 25-1 Degraded Part Filling Resin 25-2 Patch Member 25-2 Reinforcing Bar 25 -3 Filled concrete 25-4 Metal cap for curable composition injection hole sealing

Claims (9)

A column body reinforcing method in which the end of a column body is embedded in a base and the column body is fixed to the base,
The column body is a metal tube, and has a deteriorated portion on a side surface of the column body exposed on the base.
The metal outer tube portion is lost in at least one place of the deteriorated portion, and the inside and outside of the tube are in communication with each other from the portion including the deteriorated portion of the column body to the fixed end that is an embedded portion in the base. The side surface of the column is covered with a coating resin material, embedded in the base and fixed to the base ,
The coating resin material is a reinforcing method for a pillar body, which is a fiber-reinforced resin sheet that is cured by impregnating a curable resin into a sheet in which fibers are netted (however, the upper side of the coating resin material from the reinforcement method is An aspect of covering and repairing with a cylindrical reinforcing material corresponding to the cross section of the column body , and the outer surface of the column body when the coating resin material is a fiber reinforced resin sheet using filament fibers Except for a mode in which the filament fiber is oriented and coated in the axial direction around the periphery ). The outer part of the metal is lost at least at the deteriorated part on the side of the base of the pillar, and the inside and outside of the pipe are in communication with each other.
The fixed end side of the columnar body, the divergent in the axial direction of the columnar body, and Ri Oh provided overhanging anchor rib axisymmetrically,
A side surface of the column body from a portion including the deteriorated portion of the column body to a fixed end which is an embedded portion in the base is covered with a first coating resin material, and further above the anchor rib. The column body reinforcing method according to claim 1, wherein the side surface of the column body is overlaid on the first coating resin material to cover the second coating resin material, embedded in the base, and fixed to the base. .   The column body reinforcing method according to claim 1 or 2, wherein the column body is a tubular body. In the pipe of the column,
The column body reinforcing method according to claim 3, wherein the curable composition is filled and cured from an embedded portion in the base to a height of a portion including the deteriorated portion of the column body. The height of the part of the side surface covered with the coating resin material of the column body,
The column reinforcing method according to claim 4, wherein the column is larger than the height of the cured curable composition.   The column base reinforcing method according to any one of claims 1 to 5, wherein the base is a hardened body of soil or a hydraulic composition.   The column body reinforcing method according to claim 1, wherein the column body is a metal tube.   The column covering reinforcement method according to claim 1, wherein the coating resin material is a fiber-reinforced resin sheet. It can be manufactured by the column reinforcement method according to any one of claims 1 to 8.
The column body covered with the coating resin material according to claim 1, embedded in and fixed to the base according to claim 1.