JPH09137497A - Correction method of concrete wall face - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily seal mutually adjacent panels when a concrete wall face is covered with a plurality of panels with gaps. SOLUTION: A panel 10 for correction of a wall face is provided with a rectangular flat panel body 11 and frame materials 12 attached to respective longitudinal ends. A holder 11c of a sealing member 13 is provided at one breadthwise edge of the panel body 11 and a fitting part lid to the seal holder 11c is provided at the other side edge. Recessed grooves 12a are formed in respective frame materials 12 and a seal material 14 is put in one of recessed grooves.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of rehabilitating a concrete wall surface such as a box culvert having a rectangular cross section, a sewer pipe having a circular cross section or an oval cross section, and the like.

[0002]

2. Description of the Related Art Box culverts having a rectangular cross section are
If it is used for a long time, the inner surface will be corroded by the sewage flowing inside. For this reason, attempts have been made to rehabilitate the inner surface of the box culvert.

The inner surface of the box culvert is usually rehabilitated with concrete. When calibrating with concrete, first clean or corrode the corroded inner surface of the box culvert, and then leave the formwork made of plywood, etc. in a state with an appropriate space left from the inner surface of the box culvert. Install. The formwork is in a state of being supported by the supporting work, and between the formwork and the inner surface of the box culvert, concrete is grout-filled for curing and hardening. After that, by removing the formwork, the inner surface of the box culvert is in a state of being rehabilitated with concrete.

In such a box culvert rehabilitation method, the inner surface of the box culvert is in a state of being rehabilitated by the concrete, but since the surface of the concrete is exposed in the box culvert, the time elapses with time. There is a problem of corrosion. Also, carry the formwork into the box culvert where sewage flows, and further,
There is also a problem that the work must be carried out from the form box culvert after the concrete has hardened, which requires a lot of labor.

Japanese Unexamined Patent Publication No. 6-49971 discloses a method for preventing corrosion of concrete wall surfaces such as a sewage treatment tank. In this anticorrosion method, an inner and outer formwork is formed by a precast plate having an anticorrosion sheet fixed to the surface and an anchor provided on the back, and concrete is placed and cured in the inner and outer formwork. . The side edge portions of the anticorrosion sheets of the adjacent precast plates are welded with resin of the same material as the anticorrosion sheet.

Further, a plastic molded body (profile) formed by drawing with polyvinyl chloride (PVC) or the like is arranged with an appropriate gap from a concrete wall surface, and adjacent plastic molded bodies are sealed. Then, after supporting and supporting by the supporting work composed of joist material and grouting the concrete between the plastic molded body and the concrete wall surface and curing and hardening, the supporting work is removed to form the plastic molding on the concrete surface. A method of rehabilitating a concrete wall with an integrated body has also been developed.

[0007]

In the anticorrosion method disclosed in the above method, the precast plates adjacent to each other are sealed by welding the side edges of the anticorrosion sheet. There is a problem that the work of is troublesome. In addition, the adjacent precast plates must be placed in close contact with each other, and it is not easy to cover the concrete wall surface with the precast plates in close contact with each other on site.

Further, in the method of rehabilitating the concrete wall surface by the plastic molded body, it is not easy to put the adjacent plastic molded bodies into a sealed state, and it is also possible to firmly connect the adjacent plastic molded bodies to each other. There is a problem that it is not easy. In particular, when rehabilitating an existing concrete sewer pipe, there is a problem that the adhesive cannot be used because the sewage is flowing.

The present invention is intended to solve such a problem, and an object thereof is to easily seal adjacent panels when covering a concrete wall surface with a plurality of panels with a predetermined gap. It is to provide a method of calibrating a concrete wall surface that can be

Another object of the present invention is to provide a method for calibrating a concrete wall surface, which is capable of firmly connecting adjacent panels when the concrete wall surface is covered with a plurality of panels with a predetermined gap left therebetween. Especially.

[0011]

A concrete wall surface rectifying method according to the present invention is a method in which a sealing member made of an elastic material is provided along one of the side surfaces of a face plate portion made of plastic into a flat plate shape. Adjacent panel bodies are placed with a predetermined gap from the concrete wall so that adjacent panel bodies are sealed by the sealing material, and concrete is grouted between the panel body and the concrete wall. And curing
It is characterized by including.

Further, the method for calibrating a concrete wall surface according to the present invention comprises a core material holding portion internally holding a core material into which a wood screw is screwed, along any one side edge portion of a face plate portion made of plastic into a flat plate shape. A plurality of panel bodies provided with are arranged with a predetermined gap from the concrete wall surface, and adjacent panel bodies are joined by wood screws screwed into the core material, and the panel body and the concrete wall surface. And a step of grouting with concrete and hardening the concrete.

[0013]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 (a) is a front view showing an example of a wall surface reconditioning panel used for carrying out the method for reconditioning an inner wall surface of concrete according to the present invention, (b) is a bottom view thereof, and (c) is a cross section thereof. It is a side view.

The wall surface rectifying panel 10 is used, for example, to rehabilitate the inner wall surface of a box culvert having a rectangular cross section, and has a rectangular flat plate-like panel body 11 made of glass fiber reinforced plastic. The panel body 11 has a pair of frame members 12 arranged at respective ends in the longitudinal direction along the width direction.

The panel body 11 has a face plate portion 11a formed in a rectangular flat plate shape, and a plurality of ribs 1 having a T-shaped cross section provided along the longitudinal direction on the back surface of the face plate portion 11a.
1b. Two sets of ribs 11b are arranged close to each other in the central portion of the face plate portion 11a excluding the side edge portions.

At one side edge portion of the face plate portion 11a in the width direction, a sealing material holding portion 11c extending toward the back side is provided along the longitudinal direction. The sealing material holding portion 11c has a U-shaped cross-section that is open toward the outside, and the rubber sealing material 13 in the form of a band is provided in the sealing material holding portion 11c in the entire longitudinal direction. Are fitted over. The sealing material 13 is the sealing material holding portion 11
The side edge portion is entirely projected from c.

At the other side edge of the face plate portion 11a in the width direction, a fitting portion 11d is provided along the longitudinal direction and extends at a right angle from the side surface of the face plate portion 11a to the rear side. ing. The fitting portion 11d extends at a right angle from the face plate portion 11a, is bent at a right angle to the outside, and its tip is bent to the front side in a short L-shape. The fitting portion 11d is sized so that the sealing material holding portion 11c provided on the other side edge portion of the face plate portion 11a can fit inside.

Each frame member 12 arranged at each end of the panel body 11 in the longitudinal direction has a rectangular cross section, and is brought into contact with the back surface of each end of the face plate portion 11a so as to be adhesive or the like. Installed by. Each frame member 12 is a face plate portion 1.
It is in a state of protruding from each end surface of 1a, and a groove 12a having a rectangular cross section is provided on the outer surface thereof.
A band-shaped rubber seal material 14 having a rectangular cross section is fitted in one of the grooves 12a. This sealing material 1
4 is in a state of protruding from the outer side surface of the frame member 12.

The panel body 11 is made of, for example, a glass fiber reinforced plastic reinforced with a short glass fiber or a long glass fiber (roving) of polyester resin, urethane resin, epoxy resin, etc., and has a thickness of about 10 to 30 mm and a specific gravity.
1.3 to 2.2, bending strength (width direction) about 2000 to 12000kgf /
cm ² , Young's modulus of bending (width direction) is about 10 × 10 ⁴ to 40 × 10
It is composed of ⁴ kgf / cm ² . The panel body 11 is manufactured, for example, by using a glass long fiber as a core material, arranging a surface mat around it, and impregnating it with a polyester resin or the like, and drawing it from a mold.

The surface of the face plate portion 11a of each panel body 11 is made smooth, but if the existing pipe such as a box culvert is greatly worn by running water, a reinforcing layer may be formed on the surface thereof. Alternatively, a sheet-like material made of a material having excellent wear resistance such as ultra-high molecular weight polyethylene or MC nylon may be integrally drawn and molded.

The band-shaped sealing materials 13 and 14 are made of SBR.
Water-expandable rubber, foam, silicone, etc. with excellent corrosion resistance
It is composed of an elastic body such as a sealant.

The wall surface rectifying panel 10 as described above is used to rehabilitate the inner wall surface of an existing pipe such as a box culvert, and is arranged at a proper distance from each inner wall surface. Each wall rehabilitation panel 10 typically has an inner diameter of 6
Since it is designed to be loaded from a 00 mm manhole, the width dimension will be 550 mm or less. In addition, the length of the wall surface repair panel 10 is set to 2000 so that it can be easily handled.
Configured to ~ 4000mm. The widthwise dimension and the longitudinal dimension of each wall surface rectifying panel 10 are appropriately set depending on the size, shape, and the like of the inner wall surface of the box culvert to be rehabilitated, and the number of ribs 11b, the interval, and the like are also appropriately changed. To be done.

Such a wall surface reconditioning panel 10 is shown in FIG.
As shown in, box culvert 20 with a square cross section
It is used to rehabilitate the inner wall of the. The box culvert 20 includes a horizontal lower inner wall surface 20a and an upper inner wall surface 20c, a pair of vertical inner wall surfaces 20b, each side inner wall surface 20b and an upper inner wall surface 20b. Wall 2
0c and the inclined inner wall surface 20d provided respectively.

Each inner wall surface 20a of the box culvert 20
Each of the inner wall surfaces 2 to 20d is formed by a water jet when it is rehabilitated by a plurality of wall surface rehabilitation panels 10.
The corroded layers in 0a to 20d are cleaned or roughened. Then, each inner wall surface 20a that has been cleaned or roughened
An anchor material 21 extending in a straight line is attached to ~ 20d by anchor bolts 22. Each anchor material 21
Are made of square members, and are arranged at a predetermined pitch with respect to the axial direction of the box culvert 20 in a state along a direction orthogonal to the axial direction of the box culvert 20.

Each wall surface rectifying panel 10 can be easily carried into the box culvert 20 by using a work cart with wheels even if the inside of the box culvert 20 is in a running water state. Panel body 1
1 is arranged so that the surface of the face plate 11 a faces the inside of the box culvert 20 in a state where the longitudinal direction is along the axial direction of the box culvert 20, for example. Then, as shown in FIG. 3, the pair of wall surface rectifying panels 10 adjacent to each other in the width direction has a sealing material holding portion 11c in one wall surface calibrating panel 10 and a fitting portion 11d in the other wall surface calibrating panel 10. Are arranged so as to face each other, and the seal holding portion 11c is fitted in the fitting portion 11d. Then, the sealing material 13 held in the sealing material holding portion 11c is pressed against the inner surface of the fitting portion 11d.

Further, as shown in FIG. 4, the pair of wall surface rectifying panels 10 adjacent to each other in the longitudinal direction has a frame member 12 holding a sealing material 14 on one wall surface calibrating panel 10 and the other wall surface. The seal member 1 held by the frame member 12 is arranged so that the seal member 14 of the calibrating panel 10 and the frame member 12 not held by the frame member 12 face each other.
4 is press-fitted into the concave groove 12a of the other frame member 12.

The wall surface rectifying panels 10 arranged along the inner wall surface of the box culvert 20 are attached to the anchor material 21 by the anchor bolts 23. The inner wall surfaces 20a to 20b of the box culvert 20 are sequentially covered by the wall surface calibrating panels 10 arranged at appropriate intervals.

Inner wall surface 2 below the box culvert 20
0a and each side inner wall surface 20b perpendicular to each other, as shown in FIG. 2, each wall surface retouching panel 10 covering the lower inner wall surface 20a and the side inner wall surface 20c. A connecting member 30 is used to connect each wall surface calibrating panel 10 covering the above. The connecting member 30 extends along the axial direction of the box culvert 20 and has a long plate-like face plate portion 31 arranged in an inclined state so as to face a corner portion of the box culvert 20, and a width of the face plate portion 31. It has a pair of long plate-shaped legs 32 extending from the respective side edges in the direction toward the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20. At the tip of each leg portion 32, a long plate-shaped support portion 33 arranged along the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20 is provided. Anchor bolts 22 are attached to the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20.

At each side edge of each leg portion 32 close to the face plate portion 31, a fitting portion 34 having the same cross-sectional shape as the fitting portion 11c of the wall surface calibrating panel 10 is oriented outward. A seal holding portion 11c of the wall surface reconditioning panel 10 that covers the lower inner wall surface 20a of the box culvert 20 and a side inner wall surface 20c are provided in each fitting portion 34.
The seal holding portions 11c of the respective wall face rehabilitation panels 10 covering the above are fitted respectively. Each fitting part 3
When the seal holding portions 11c are fitted in the seal holders 4, the respective seal members 13 held in the seal holding portions 11c are pressed against the inner surface of the fitting portion 34.

A rib 35 having a T-shaped cross section is arranged in the central portion on the back side of the face plate portion 31 along the longitudinal direction.

Inner wall surface 2 on the side of the box culvert 20
0b each wall surface remediation panel 10 and the upper inner wall surface 20
Each of the wall face rehabilitation panels 10 covering c is also connected by the connecting member 30. In this case, Box Culvert 20
When the width dimension of the inclined inner wall surface 20d provided between the side inner wall surface 20b and the upper inner wall surface 20c is large,
The face plate portion 31 is sized so as to cover the inclined inner wall surface 20d, and each leg portion 32 is configured separately from the face plate portion 31 of the connector 30, as shown in FIG. Further, according to the size of the face plate portion 31, a plurality of ribs 35 are provided on the back surface at appropriate intervals. A flange portion 36 that abuts each leg portion 32 is provided on each side edge portion of the face plate portion 31, and the flange portion 36 and the fitting portion 34 provided on each leg portion 32 are provided with a wood screw 37. Etc. are attached integrally.

As described above, when the inner wall surfaces 20a to 20d of the box culvert 20 are covered with the wall surface calibrating panel 10 and the connecting members 30, the supporting member for supporting the formwork as necessary. The work is built. Then, between each wall surface retouching panel 10 and each connector 30 and the inner wall surface 20a to 20d of the box culvert 20,
The concrete is grout filled and the filled concrete is cured and cured. As a result, the ribs 11b of the wall surface reconditioning panel 10 and the ribs 3 of the connector 30 are provided.
5 is embedded in the hardened concrete, and the wall surface rectifying panel 10 and the connecting members 30 are integrated with the hardened concrete. As a result, each inner wall surface 20a to 20d of the box culvert 20
Is in a state of being rehabilitated by the wall surface reconditioning panel 10 made of glass fiber reinforced plastic.

The configuration of each side edge portion in the width direction of the wall surface rectifying panel 10 is not limited to the above-described embodiment, and, for example, as shown in FIG. The fitting portions 11d are formed at the edges, and the belt-shaped rubber seal material 15 having a circular cross-section is fitted into the fitting portions 11d, and the fitting portions are adjacent to each other. A band-shaped joining piece 16 having a U-shaped cross section, which is open toward the back side of the face plate portion 11a, may be fitted between 11d to join the wall surface calibrating panels 10 to each other.

Each inner wall surface 20a of the box culvert 20
The anchor member 21 attached to each of the mold panels 10 to 20d is not limited to a square member, and may be, for example,
As shown in FIG. 6 (a), strips 25 such as reinforcing bars whose flanges extend in different directions are assembled into a mesh as shown in FIG. 6 (b), and as shown in FIG. 6 (c). In addition, one flange portion of each strip 25 may be locked to each inner wall surface 20 a to 20 d of the box culvert 20 in the unfolded state. The band 25 is a box culvert 20.
It suffices if a flange portion that is locked to each of the inner wall surfaces 20a to 20d is provided. For example, as shown in FIG. 6D, a channel member 26 having a U-shaped cross section is further provided on one flange portion. It may be connected.

FIG. 7 (a) is a front view showing another example of the wall surface rectifying panel used for carrying out the method for calibrating the concrete inner wall surface of the present invention, FIG. 7 (b) is a bottom view, and FIG. FIG.

The wall surface rectifying panel 40 has a rectangular flat plate-shaped panel body 41 made of glass fiber reinforced plastic. Rectangular heart material holder 41
c are respectively provided along the longitudinal direction. A strip-shaped core material 43 made of glass fiber reinforced plastic foam is provided in each core material holding portion 41c. The core material 43 may be any material as long as it has a linear expansion coefficient similar to that of the panel body 41 and hardness and strength that can be stopped by a wood screw. For example, the specific gravity is 0.3 to 0.8 and the bending strength is A glass fiber reinforced plastic foam of about 300 to 1200 kgf / cm ² is suitable.

On the back surface of the face plate portion 41a, a plurality of ribs 41b having a T-shaped cross section are provided at equal intervals. A frame member 42 is provided at each end of the face plate portion 41a similarly to the above-described wall surface rectifying panel 10, and a strip-shaped seal member 44 is fitted into the concave groove 42a of one frame member 42 over the entire length. Has been done.

When the inner wall surfaces 20a to 20d of the box culvert 20 are covered with the respective wall surface calibrating panels 40, the pair of wall surface calibrating panels 40 adjacent to each other in the width direction, as shown in FIG. The joining member 51 in which the core material holding portions 41c of the operation panel 40 are band-shaped.
Are matched to each other via. The joining member 51 includes a flange portion 51 a fitted to the surface of each core material holding portion 41 c that is stepped down from the face plate portion 41 a, and each core material holding portion 4.
The flange portion 51b, which comes into contact with the back surface of the 1c, has a lateral cross-sectional H shape that is connected by a long plate-shaped connecting portion 51c that is inserted between the core material holding portions 41c. Between the connecting portion 51c of the joining member 51 and each core material holding portion 41c,
The strip-shaped sealing materials 52 are respectively interposed. In the holding member 51, the flange portion 51a and the respective core material holding portions 41c, which are in contact with the surfaces of the respective core material holding portions 41c, have the respective core material holding portions 41c.
wood screw 53 screwed into the core material 43 provided in c
It is fixed integrally by.

In such a structure, the core material holding portions 41c of the respective wall surface calibrating panels 40 and the connecting portions 51c of the joining members 51 are screwed into the core material 43 in the respective core material holding portions 41c by the wood screws 53. , And they are firmly integrated, and the two are joined in a state of being reliably sealed by the sealing material 52.

The pair of wall surface rectifying panels 40 adjacent to each other in the longitudinal direction, like the wall surface calibrating panel 10 described above, hold the frame member 42 holding the seal material 14 and the seal material 44. The frame member 42 is disposed so as to face each other, and is held by the frame member 42.
4 is press-fitted into the concave groove 42a of the other frame member 42. As a result, the wall surface calibrating panels 40 are joined in a state of being reliably sealed in the longitudinal direction as well.

In the joining member 51, as shown in FIG. 9, the flange portion 51b abutting on the back surface side of each core material holding portion 41c may be shorter than the flange portion 51a abutting on the front surface side. Good.

Further, in the case of joining the wall face rehabilitation panels 40 on site, it may be as shown in FIG. That is, the core material holding portion 4 of each wall surface calibrating panel 40
1c in a strip-shaped engaging member 54 having a U-shaped cross section,
They are fitted from the outside and are attached to the core material 43 by wood screws 53 so as to be integrated with each other. At this time, the seal material 52 is interposed between the bottom surface portion of each engaging member 54 and the core material holding portion 41c. And each engaging member 5
Each side portion of one strip-shaped joining member 55 for width adjustment having a seal member 52 attached to the back surface is abutted against the front surface of No. 4 and the wood screw 53 screwed into the core material 43 causes It is attached so as to be integrated with 43.
In this case, the sealing properties between the wall surface calibrating panels 40 are ensured by the sealing materials 52 integrally attached to the core material 43.

Further, as shown in FIG. 11, even in the case where the core material holding portion 41c is adjacent to the wall surface rectifying panel 40 in which the core material holding portion 43 is not provided on one side edge portion, The width adjustment is performed via the seal member 52 between the core material holding portion 41c into which the engaging member 54 having a U-shaped cross section is fitted and the face plate portion 41a of the wall surface calibrating panel 40 in which the core material holding portion 43 is not provided. The side portions of the joining member 55 for use may be brought into contact with each other and attached by the wood screws 52 to join them. In this case, the core material holding part 4
The engagement member 54 fitted to 1c is firmly attached to the core material holding portion 41c by a wood screw 52 screwed into the core material 43.

When the inner wall surfaces 20a to 20d of the box culvert 20 are covered with the wall surface rectifying panel 40 having the core material holding portions 41c at the respective side edge portions, the side which is perpendicular to the lower inner wall surface 20a. At the corner portion with the inner wall surface 20b on one side, as shown in FIG. 12, the wall surface calibrating panels 40 are connected to each other. That is, the core material holding portions 41c of the wall surface rectifying panels 40 in the mutually perpendicular state.
The inside of the belt-shaped engaging member 54 having a U-shaped cross section is fitted from the outside. At this time, each engaging member 54
A seal material 52 is interposed between the bottom surface of the core material and the core material holding portion 41c.

On the other hand, a connecting member 60 is provided so as to cover the corner portion between the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20. The connecting member 60 is provided on the inner wall surface 20 below the box culvert 20.
a and a support portion 63 arranged along the inner wall surface 20b on the side, leg portions 62 that extend vertically from the support portion 63 to the box culvert 20, and erected in an inclined state between the tips of the leg portions 62. And the face plate portion 61 is formed. The respective support portions 63 of the connecting member 60 are respectively brought into contact with the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20, and are anchored by the anchor bolts 22.
a and 20b respectively. Then, on each leg portion 62 of the connecting member 60, the inner wall surface 20 a on the lower side of the box culvert 20 and the inner wall surface 20 on the side of the box culvert 20 are attached.
The engaging members 54 fitted to the core material holding portions 41c of the wall surface rectifying panels 40 covering b are brought into contact with each other via the seal material 52, whereby the wall surface calibrating panels 40 are connected to each other. Supported by the state.

Inner wall surface 2 on the side of the box culvert 20
0b for each wall surface remediation panel 40 and the upper inner wall surface 20
As shown in FIG. 13, a connecting member 60 in which each leg portion 62 and the face plate portion 61 are separate bodies is used to connect with each wall surface calibrating panel 40 covering c. In this case, since the width dimension of the inclined inner wall surface 20d provided between the lateral inner wall surface 20b and the upper inner wall surface 20c of the box culvert 20 is large, the face plate portion 61 can cover the inclined inner wall surface 20d. The ribs 65 are provided according to the size of the face plate portion 61. A flange portion 66 that comes into contact with each leg portion 32 is provided at each side edge portion of the face plate portion 61, and the flange portion 66 and each leg portion 32 are in contact with each other via the sealing material 52. It is said that

Inner wall surface 2 on the side of the box culvert 20
0b and the inner wall surface 20c on the upper side, if the width dimension of the inclined inner wall surface 20d is further large, the face plate portion 61
Is divided into a pair of half body portions 61a, and each half body portion 61a
The side edges that are close to each other are joined by a long plate-like joining member 67 that abuts via the seal material 52.
A rib 65 is provided on each half 61a.

Further, for example, as shown in FIG. 15, when the wall surface reconditioning panel 40 covering the lower inner wall surface 20a of the box culvert 20 does not reach the connecting member 60,
A connecting member 60 that covers a corner between the lower inner wall surface 20a and the side inner wall surface 20b of the box culvert 20.
On the back side of the face plate portion 61 in the
1b is provided, the core member 68 having a quadrangular cross section is fitted therein, and the face plate portion 61 surface of the connecting member 60 and the surface of each face plate portion 41 of each wall face calibrating panel 40 are provided so as to extend over the interior. A joining member 67 for width adjustment, in which each side edge portion of the long plate member is bent, is abutted through the seal member 52,
It is firmly attached by a wood screw 53 screwed into the core material 43 of each wall face retouching panel 40 and a wood screw 53 screwed into the core material 68 of the connecting member 60.

Further, the wall surface rectifying panel 40 covering the inner wall surface 20c on the upper side of the box culvert 20 is formed by the inclined surface 20.
When the connecting member 60 that covers d is not reached, as shown in FIG. 16, the face plate portion 61 of the connecting member 60 and each leg portion 62 are separately configured, and the side plate portion 60 has a side edge portion. A flange portion 66 is provided, and in the vicinity of each flange portion 66,
Each of the rectangular tube-shaped core material holding portions 61b is provided. A core material 68 having a quadrangular cross section is fitted in each core material holding portion 61b.

Then, the side edge portion of the face plate portion 41 of the wall surface rectifying panel 40 covering the inner wall surface 20c on the upper side and the connecting member 60.
The joint member 67 for adjusting the width, which is bent in a V shape in the middle between the surface plate portion 61 and one surface of the side edge portion.
Are abutted through the sealing material 52, and are firmly attached by a wood screw 53 screwed into the core material 43 of the wall surface rectifying panel 40 and a wood screw 53 screwed into the core material 68 of the connecting member 60. The distance between the one side edge surface of the face plate portion 41 of the wall face rectifying panel 40 covering the side inner wall surface 20d and the one side edge portion surface of the face plate portion 61 of the connecting member 60 is also "medium". The joining member 67 bent in the shape of “” is brought into contact with the seal member 52 via the seal member 52, and is screwed into the core member 43 of the wall surface calibrating panel 40.
The wood screws 53 screwed into the core material 68 of the connecting member 60 are firmly attached to each.

In this case, when the width dimension of the inclined inner wall surface 20d provided between the inner wall surface 20b on the side of the box culvert 20 and the inner wall surface 20c on the upper side is large, the face plate portion 61 includes a pair of half plates. The body part 61a is divided into two parts, and each half part 6
The core material holding portions 41c are also provided on the side edges of the la 1a that are close to each other, and the core material 4 is provided in each core material holding portion 41c.
3 are held respectively. Then, a long plate-shaped joining member 67 is provided on the side edge portion of each half body portion 61 a with the sealing material 52 interposed therebetween.
Are abutted against each other, and are firmly attached by the wood screw 53 screwed into the core material 43 of the wall surface calibrating panel 40 and the wood screw 53 screwed into the core material 68 of the connecting member 60.

FIG. 18 shows still another example of the embodiment of the wall surface reconditioning panel, (a) is a front view thereof, (b) is a bottom view thereof, and (c) is a cross sectional view thereof. Is. In this wall surface rectifying panel 70, a core material holding portion 71c for holding a core material therein is provided at each side edge portion of the face plate portion 71a in the panel body 71, and a T-shaped cross section is provided on the back surface of the face plate portion 71a. A plurality of ribs 71b
Are provided along the longitudinal direction. Also,
A frame member 72 provided with a concave groove 72a is attached to each end of the panel body 71.
A band-shaped sealing material 74 is provided in the second groove 72a.

The ribs 71b provided on the respective side portions in the vicinity of the respective core material holding portions 71c are in a state of being extended to the back side, respectively, and at the tip portions of the ribs 71b,
A plurality of through holes are provided at a constant pitch along the longitudinal direction. Then, the reinforcing bars 75 are inserted into the through holes of the ribs 71b facing each other. Further, each reinforcing bar 75 is in a state of being supported by each reinforcing bar 76 extending in the longitudinal direction.

A box culvert 2 is provided on each rib 71b.
When each wall surface rectifying panel 70 is arranged with an appropriate gap between each of the inner wall surfaces 20a to 20d of 0, each rib 71 is provided when concrete is grouting in the gap.
A plurality of air holes 71d for preventing air from accumulating near b are provided respectively.

The wall surface rectifying panel 70 as described above is arranged with appropriate gaps between the inner wall surfaces 20a to 20d of the box culvert 20, and when the gaps are grout-filled with concrete, the respective reinforcing bars are reinforced. 75 and 76
Becomes embedded in the concrete and exerts an anchoring effect on each wall face rehabilitation panel 70. Since each of the reinforcing bars 75 and 76 is installed between the tip ends of the ribs 71b that extend to the rear side with a gap from the other short ribs 71b, the inner wall surfaces 20a to 20d of the box culvert 20 are each. Inner wall surface and each wall surface repair panel 7
The concrete filled between 0 and 0 ensures a sufficient amount of cover.

Further, when the grout is filled with concrete, the air accumulated in the vicinity of each rib 71b is
Since the air is discharged through the air vent hole 71d provided in b, there is no possibility that air will accumulate in the vicinity of each rib 71b.

[0058]

As described above, the concrete wall surface correcting method of the present invention covers the concrete wall surface with the plurality of panels provided with the sealing material, so that the adjacent panels can be easily sealed. The state can thus be reliably prevented from leaking between the panels grout-filled between the concrete wall and the panel.

Further, the adjacent panels are firmly joined by joining the adjacent panels with a wood screw screwed into the core material provided in each panel. Since the wood screw can be screwed in from the panel surface, workability is significantly improved.

[Brief description of the drawings]

FIG. 1 (a) is a front view showing an example of an embodiment of a wall surface reconditioning panel used in a method for reconditioning a concrete wall surface of the present invention, (b) is a bottom view thereof, and (c) is It is the cross-sectional view.

FIG. 2 is a sectional view of a main part of a box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 3 is an enlarged cross-sectional view showing an example of a connection state between wall surface rectifying panels that are adjacent to each other in the width direction.

FIG. 4 is an enlarged cross-sectional view showing an example of a connection state between wall surface rectifying panels that are adjacent to each other in the longitudinal direction.

FIG. 5 is an enlarged cross-sectional view showing another example of the connection state of the wall surface calibrating panels.

6 (a) is a cross-sectional view showing an example of a strip material constituting an anchor material used in the concrete wall surface reconditioning method of the present invention, FIG. 6 (b) is a perspective view of the anchor material, and FIG. ,
A perspective view showing a developed state of the anchor material, (d)
[Fig. 6] is a cross-sectional view showing another example of a strip material used for the anchor material.

FIG. 7 (a) is a front view showing another example of the embodiment of the wall surface reconditioning panel used in the concrete wall surface reconditioning method of the present invention, FIG. 7 (b) is its bottom view, and FIG. [Fig. 6] is a cross-sectional view thereof.

FIG. 8 is a cross-sectional view showing an example of a joined state of the wall surface rectifying panels that are adjacent to each other in the width direction.

FIG. 9 is a cross-sectional view showing another example of a joining member used for joining.

FIG. 10 is a cross-sectional view showing another example of a joined state of the wall surface rectifying panels that are adjacent to each other in the width direction.

FIG. 11 is a cross-sectional view showing still another example of a joined state of the wall surface rectifying panels that are adjacent to each other in the width direction.

FIG. 12 is a cross-sectional view showing an example of a main part of a box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 13 is a cross-sectional view showing another example of the main part of the box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 14 is a cross-sectional view showing still another example of the main part of the box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 15 is a cross-sectional view showing still another example of the main part of the box culvert whose inner surface is rehabilitated by the wall surface reconditioning panel.

FIG. 16 is a cross-sectional view showing still another example of the main part of the box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 17 is a cross-sectional view showing still another example of the main part of the box culvert whose inner surface is rehabilitated by the wall surface rehabilitation panel.

FIG. 18 (a) is a front view showing another example of the embodiment of the wall surface reconditioning panel used in the concrete wall surface reconditioning method of the present invention, FIG. 18 (b) is a bottom view thereof, and FIG. [Fig. 6] is a cross-sectional view thereof.

[Explanation of symbols]

 10 Wall Reconditioning Panel 11 Panel Main Body 11a Face Plate Part 11b Rib 11c Sealing Material Holding Part 11d Fitting Part 12 Frame Material 12a Recessed Groove 13 Sealing Material 14 Sealing Material 20 Box Culvert 21 Anchor Material 22 Anchor Bolt 23 Anchor Bolt 30 Connecting Member 31 Face plate part 32 Leg part 33 Support part 34 Fitting part 35 Rib 36 Flange part 37 Wood screw 40 Wall surface calibrating panel 41 Panel body 41a Face plate part 41b Rib 41c Core material holding part 42 Frame material 42a Groove 43 Core material 44 Seal material 51 Joining Member 51a Flange part 51b Flange part 51c Connecting part 52 Sealing material 53 Wood screw 54 Engaging member 55 Joining member 60 Connecting member 61 Face plate part 61a Half part 61b Core material holding part 62 Leg part 63 Support part 65 Rib 66 Flange part 67 Joining Member 68 Core material 70 Wall surface reconditioning panel 71 Panel body 71a Face plate portion 71b Rib 71d Air hole 72 Frame material 72a Recessed groove 74 Seal material 75 Reinforcing bar 76 Reinforcing bar

Claims (2)

[Claims] 1. A plurality of panel main bodies provided with a sealing material made of an elastic body along one of the side surfaces of a face plate portion made of plastic in a flat plate shape, and adjacent panel main bodies are sealed together. And a step of arranging the concrete wall so as to be sealed by a material with a predetermined gap therebetween, and a step of grout-filling concrete between the panel body and the concrete wall and hardening the concrete. How to calibrate concrete wall surface. 2. A plurality of panel main bodies provided with a core material holding portion internally holding a core material into which a wood screw is screwed, along one of side edges of a face plate portion made of plastic into a flat plate shape, Arranging with a predetermined gap from the concrete wall surface, joining adjacent panel bodies with wood screws that are screwed into the core material, and grouting with concrete between the panel body and concrete wall surface to cure A method of calibrating a concrete wall surface, which comprises: