JP2016102404A - Mending and reinforcement structure of reinforced concrete structural object - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mending and reinforcement structure of a reinforced concrete structural object capable of making delivery and receipt of force between a steel plate and a filler be carried out preferably without necessitating to apply special surface treatment or careful surface cleaning to the steel plate, or to install a stud bolt, or to use an anchor bolt.SOLUTION: A mending and reinforcement structure 100 of a reinforced concrete structural object includes: a ribbed steel plate 20 arranged in a manner facing a reinforcement range 15 of a structural object surface 14 that is a surface of the reinforced concrete structural object 10 with a predetermined clearance 16, the reinforcement range 15 being a range to be reinforced; a filler 30 filled in the clearance 16 between the structural object surface 14 and the ribbed steel plate 20. In the ribbed steel plate 20, a rib 22 projecting from a steel plate surface 21 that is a face facing structural object surface 14 is formed by hot rolling.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a repair / reinforcement structure of a reinforced concrete structure, and more particularly to a repair / reinforcement structure of a reinforced concrete structure that repairs or reinforces a reinforced concrete structure of a civil engineering structure and a building structure.

Conventionally, civil engineering structures (bridges, pier beams, floor slabs / piers, concrete coverings for tunnels and vertical holes, box culverts, retaining walls, caissons, etc.) and building structures (building slab floor slabs, beams, columns) Many of them are built with reinforced concrete structures.
And in recent years, the purpose of ensuring the safety against enormous earthquakes such as the Great East Japan Earthquake and Nankai Trough Earthquake, and the initial construction due to the increase in vehicle traffic due to the widening and expansion of roads along with the increase in vehicle weight, etc. Reinforcing work to reinforce existing reinforced concrete structures is increasing for the purpose of ensuring safety against loads exceeding the assumed load.
In addition, since many reinforced concrete structures built during the period of high economic growth are deteriorating, large-scale repair life extension work is required to prolong life.

Conventionally, a “steel plate reinforcing method” has been used as a rational method for repairing and reinforcing such a reinforced concrete structure. In this method, a steel plate is installed on the surface of an existing reinforced concrete structure using anchor bolts or the like, and a gap formed between the surface of the reinforced concrete structure and the steel plate is filled with a filler, thereby providing a reinforced concrete structure. Repair and reinforcement are performed by integrating the object and the steel plate.
According to this method, the steel sheet functions as a formwork for filling the filler, and also serves as a reinforcing bar, thus reducing the work of reinforcing bars for repair and reinforcement and the process of removing the formwork. It can be used for many repairs and reinforcements because it can shorten the construction period and reduce costs.

  Moreover, in order to fully exhibit the effect of repair and reinforcement by this method, it is necessary to ensure the integration and to reliably transmit the force generated in the reinforced concrete structure to the steel plate. For example, in order to improve the adhesion between the adhesive filler and the steel plate, to carefully remove rust and dust on the surface of the steel plate, or to improve the transmission of force between the grout filler and the steel plate In order to directly transfer the force to the steel plate, the steel plate is fixed by anchor bolts fixed to the reinforced concrete structure (at this time, the anchor bolt The force is transmitted by the acting shear force).

Therefore, it is possible to apply a plated steel plate with excellent corrosion resistance, and use an adhesive (epoxy) filler, and can simplify the complicated pretreatment and painting processes compared to the conventional steel plate bonding. A construction method is disclosed (for example, see Patent Document 1).
In addition, a grout-based filler is used, which can facilitate the attachment of a steel plate to a concrete frame, and can reliably distribute the grout between the concrete frame and the steel plate. A seismic reinforcement structure is disclosed (for example, see Patent Document 2).

JP 2012-107398 A (page 9-10, FIG. 3) Japanese Patent Laying-Open No. 2013-189787 (page 3-4, FIG. 2)

However, the invention (adhesive filler) described in Patent Document 1 has the following problems.
(A) When corrosion protection is applied to a steel sheet by plating or painting, special treatment is required so that the roughness of the surface is appropriate for adhesion.
(Ii) The condition of the steel sheet surface (dust, dirt, squeeze, etc.) has a great influence on the bond strength, and construction quality control is important. In particular, repair and reinforcement sites are often narrow and have poor workability, and it may be difficult to ensure quality reliability.
(Iii) Long-term quality assurance of the resin used for bonding becomes a problem. For example, as one of the causes of pulling out of the anchor bolts for fixing the ceiling slab of Isogo tunnel, the possibility of resin deterioration has been raised, such as long-term temperature change, stress, wet and dry, chemical action, etc. Due to these factors, a decrease in adhesive strength with a steel plate has become a problem in terms of reliability.

In addition, the invention (grouting filler) described in Patent Document 2 has the following problems.
(E) It is necessary to use stud bolts, anchor bolts and through bolts in order to integrate the steel plate with the existing concrete structure and to exert its functions, and the construction period, equipment and cost for the construction are large.
(O) When anchor bolts or through bolts are used, there is interference with existing reinforced concrete rebars, so there are restrictions on the installation position of the bolts. There are cases where it is not possible.
When the stud bolt is installed on the steel plate, the gap between the surface of the existing reinforced concrete structure and the steel plate needs to be set larger than the length of the stud bolt, and the reinforcing area becomes wide. For this reason, the amount of grout to be filled increases (the volume increases), which may increase the cost or increase the weight of the reinforcing portion, which may be structurally disadvantageous.

  The present invention solves the above-mentioned problems, and is an anchor for performing special surface treatment and careful surface cleaning on a steel plate, installing stud bolts, or transmitting force directly from a concrete structure to a steel plate. An object of the present invention is to provide a repair / reinforcement structure for a reinforced concrete structure that can improve the transfer of force between a steel plate and a filler without using bolts.

(1) having a steel plate arranged facing the surface of the structure which is the surface of the reinforced concrete structure, and a filler filled in a gap between the structure surface and the steel plate,
A plurality of openings are formed in the steel plate, and the openings are closed by the filler.

(2) In said (1), a steel plate is arrange | positioned in contact with the structure surface which is the surface of a reinforced concrete structure, It is characterized by the above-mentioned.
(3) In the above (1) or (2), a plurality of protrusions are formed on a steel plate surface which is one surface of the steel plate.
(4) In any one of (1) to (3), a plurality of protrusions are formed on the back surface of the steel sheet, which is the other surface of the steel sheet, and the plurality of protrusions formed on the back surface of the steel sheet are formed on the filler. It is characterized by being surrounded.
(5) In any one of the above (1) to (4), the steel plate is a plurality of steel plates, and in any one pair of the steel plates, a part of the opening of one steel plate and the other steel plate The one steel plate and the other steel plate are overlapped with each other by the filler filled in the opening portion where the one steel plate overlaps and the opening portion where the other steel plate overlaps. Is characterized by being integrated.

(6) In any one of the above (1) to (5), the plurality of openings are formed by a plurality of slits formed in the steel plate being enlarged by a tensile process.
(7) In the above (3) or (4), the plurality of protrusions are formed integrally with the steel plate.
(8) In the above (3), (4) or (7), the plurality of protrusions have a distance of 30 mm to 40 mm, a height of 2.5 mm to 5.0 mm, and a tensile force generated in a reinforced concrete structure The base width of the protrusion when measured in the stress direction is 4 mm to 20 mm.

(9) In any one of the above (1) to (8), the steel plate is supported by a suspension bolt installed on the reinforced concrete structure and protruding from the surface of the structure.
(10) In any one of the above (1) to (9), the reinforced concrete structure includes the structure surface and a pair of structure side surfaces connected to the structure surface,
A steel plate support member comprising a support member cross member disposed in parallel with the structure surface and a pair of support member longitudinal members disposed in parallel with the pair of structure side surfaces, and installed in the reinforced concrete structure. And a support bolt protruding from the side surface of the pair of structures,
The steel plate support member is installed in the reinforced concrete structure by the support bolts penetrating through the vertical member through holes formed in the pair of support member vertical members,
The steel plate is installed on a support member cross member of the steel plate support member.
(11) In the above (10), the vertical member through-hole has a long direction perpendicular to the support member cross member,
The support member cross member is provided with a height adjustment bolt that is movable in a direction perpendicular to the support member cross member and whose tip abuts on the support bolt.
When the height adjustment bolt is rotated, the steel plate support member is moved in a direction perpendicular to the structure surface.

(12) In the above (10) or (11), a guide protrusion is provided on the steel plate back surface, which is the surface opposite to the steel plate surface,
A support member guide groove into which the guide protrusion enters the support member cross member is formed,
The steel plate is movable relative to the steel plate support member by moving the guide ridge while being guided by the support member guide groove.
(13) In any one of (10) to (12), the support member cross member and the support member vertical member are detachably connected by a fixing bolt.
(14) In any one of the above (1) to (13), the steel plate includes a pair of steel plate side wall portions formed on the steel plate surface side continuously to both side edges. .

(15) In any one of the above (1) to (8), the steel plate is bent into a U-shaped cross section having a bottom surface portion and a pair of side surface portions,
A bar that penetrates the structure through-hole formed in the reinforced concrete structure is installed,
The steel plate is supported by the reinforced concrete structure when the bar penetrates the opening.
(16) In any one of the above (1) to (15), the steel plate is ordinary steel, high-tensile steel, stainless steel, or weathering steel.
(17) In any one of the above (1) to (16), the filler is mortar, non-shrink mortar, polymer cement mortar, resin mortar, fiber reinforced concrete, fluidized concrete, high strength concrete, epoxy resin injection It is characterized by being a material, a urethane resin type injection material, or a water glass type injection material.

The repair / reinforcement structure for a reinforced concrete structure according to the present invention has the following effects.
(I) A plurality of protrusions are formed on the steel sheet surface facing the structure surface, and a filler is filled in a gap between the structure surface and the steel sheet surface. Meshing with each other so that a shearing force can be transmitted between them.
Therefore, when a bending load is applied to the reinforced concrete structure, the steel plate behaves integrally with the reinforced concrete structure. Therefore, the tensile stress on the surface of the structure is shared by the steel plate and the range is reinforced. If the area is damaged, the damage is repaired.
(Ii) Furthermore, since the filler filled in the gap between the structure surface and the steel plate closes the plurality of openings formed in the steel plate, the filler mechanically meshes with the plurality of openings. The shearing force can be transmitted between the two. Therefore, the same effect as (i) can be obtained.

(Iii) Further, in the repair / reinforcement structure for a reinforced concrete structure according to the present invention, the opening of the steel plate disposed in contact with the surface of the structure is filled with the filler. The portion surrounding the opening) is mechanically engaged with the filler so that shearing force can be transmitted between the structure surface and the steel plate. Therefore, the effect (i) is achieved.
(Iv) In addition, since the protrusion formed on the back surface of the steel plate is surrounded by the filler, the adhesion between the steel plate and the filler becomes firm, and the effect (i) is promoted.
(V) Moreover, since a pair of steel plates are integrated by the filler filled in the opening part of each steel plate of the range which overlapped and overlapped a part of a pair of steel plates, welding a pair of steel plates, There is no need to connect with the connecting member, and therefore the construction is facilitated. In the present invention, “integrated” means a state in which force is transmitted between steel plates, and a case where a part of each steel plate is in contact with each other and a case where each steel plate is in direct contact. There are cases where it does not.

(Vi) Moreover, since a plurality of slits are enlarged by pulling, the opening is easy to process, and the construction cost can be reduced and the construction period can be shortened.
(Vii) Further, since the steel sheet on which the protrusions are formed is manufactured by hot rolling, special processing is not required in the factory for preparing the member or the construction site, so the construction cost is reduced and the construction period is reduced. Can be shortened.
(Viii) The steel plate is supported by a suspension bolt protruding from the surface of the structure, and the suspension bolt does not transmit the force acting on the reinforced concrete structure to the steel plate, but transmits the force acting on the reinforced concrete structure to the steel plate. This eliminates the need for shear anchor bolts to reduce the number of members, reduces the member cost, and eliminates the need for drilling holes for installing the shear anchor bolts. Since the workability at the construction site is improved, it is possible to reduce the construction cost and shorten the construction period.

(Ix) In addition, the steel plate was installed on the support member cross member of the steel plate support member including the support member cross member and the pair of support member vertical members, and the pair of support member vertical members was installed on the structure side surface. Since it is supported by the support bolt, the installation of the support bolt is easy and the workability is improved.
(X) Furthermore, since the steel plate support member is moved in a direction perpendicular to the structure surface by rotating the height adjusting bolt, the construction is facilitated and the steel plate support member is moved to the structure surface of the steel plate support member. On the other hand, the arrangement accuracy in the vertical direction is improved.
(Xi) Since the guide ribs are guided and moved by the support member guide grooves, the steel plate is relatively movable with respect to the steel plate support member. The arrangement accuracy in the direction parallel to the structure surface is improved.
(Xii) Since the support member cross member and the support member vertical member are connected to each other by a fixing bolt so as to be separable, storage and transportation are facilitated, so that the construction cost can be reduced.

(Xiii) Furthermore, since the steel plate has a pair of steel plate side walls and functions as a mold when filling with the filler, it is not necessary to install or remove the mold, thereby shortening the construction period and reducing the cost. It becomes possible.
(Xiv) The steel plate having the opening is bent into a U-shaped cross section, and the bar installed in the reinforced concrete structure is supported by the reinforced concrete structure by passing through the opening. It becomes easy and the construction cost can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS It is an example of reinforcement explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 1 of this invention, Comprising: (a) is a front view which shows a part transparently, (b) is the cross section A of (a) -C is sectional drawing of side view in -A, (c) is sectional drawing of side view in the cross section BB of (a). The front view which expands and shows a part of steel plate which comprises the repair and reinforcement structure of the reinforced concrete structure shown in FIG. BRIEF DESCRIPTION OF THE DRAWINGS It is a repair example explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 1 of this invention, Comprising: (a) is a front view which shows a part seeing through, (b) is expanded a part. The front view which shows a part seeing through, (c) is sectional drawing of side view in the cross section AA of (a), (d) is sectional drawing of the side view in the cross section BB of (a). It is a repair example explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 2 of this invention, Comprising: (a) is a front view which shows a part transparently, (b) is the side surface in cross section AA Sectional drawing of view, (c) is sectional drawing of side view in the cross section BB. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 3 of the present invention, wherein (a) is a partially enlarged front view and (b) is a perspective view. Sectional drawing of the side view which expands and shows a part. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 4 of the present invention, wherein (a) is a partially enlarged front view and (b) is a perspective view. Sectional drawing of the side view which expands and shows a part. FIG. 7 is a diagram for explaining a steel plate used in the repair / reinforcement structure of the reinforced concrete structure shown in FIG. 6, wherein (a) is a partially enlarged front view and FIG. The side view which expands and shows a part. It is a repair example explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 5 of this invention, Comprising: (a) is a front view which shows a part transparently, (b) is the cross section A of (a) -C is sectional drawing of side view in -A, (c) is sectional drawing of side view in the cross section BB of (a). BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a steel plate used in a repair / reinforcement structure for a reinforced concrete structure according to a fifth embodiment of the present invention, wherein (a) is a front view showing a part of the steel sheet enlarged and partly seen through. FIG. 4B is an enlarged side view showing a part of the steel plate. It is a repair example explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 6 of this invention, Comprising: (a) is a front view which shows a part transparently, (b) is the cross section A of (a) Sectional drawing of the side view in -A, (c) is a bottom view which shows a repair example. It demonstrates the steel plate used for the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 6 of this invention, Comprising: (a) is a development top view of a steel plate, (b) is the original plate before processing. The top view to show, (c) is a top view which expands and shows a part of original plate before processing. The other form of the steel plate used for the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 6 of this invention is demonstrated, Comprising: (a) is a top view, (b) is a cross section of (a) Sectional view in BB, (c) is a sectional view in section CC in (a), (d) is a plan view showing the original sheet before processing the steel sheet, and (e) is a section A- in (d). Sectional drawing in A. FIG. The other form of the steel plate used for the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 6 of this invention is demonstrated, Comprising: (a) is a top view, (b) is before processing a steel plate. The top view which shows the original plate. The perspective view explaining the member kit for repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 7 of this invention. The front view which sees through and shows a part explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 8 of this invention. The front view which sees through and shows one part explaining the repair and reinforcement structure of the reinforced concrete structure which concerns on Embodiment 9 of this invention. BRIEF DESCRIPTION OF THE DRAWINGS The repair / reinforcement structure of the reinforced concrete structure based on Embodiment 10 of this invention is demonstrated, Comprising: (a) is a front view which shows a part transparently, (b) is a perspective view which shows a part.

[Embodiment 1]
The repair / reinforcement structure for a reinforced concrete structure according to Embodiment 1 of the present invention repairs or reinforces a reinforced concrete structure. Hereinafter, an example of reinforcement will be described with reference to FIGS. 1 and 2, and an example of repair will be described with reference to FIG. 3.

(Example of reinforcement)
1 and 2 are reinforcement examples for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 1 of the present invention, in which (a) of FIG. 1B is a cross-sectional view in side view in section AA in FIG. 1A, FIG. 1C is a cross-sectional view in side view in section BB in FIG. FIG. 2 is an enlarged front view showing a part of the steel plate. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

In FIG. 1, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 100 reinforces a reinforced concrete structure 10.
The reinforced concrete structure 10 is a floor, a beam, or a column, and is arranged in parallel to each other in the concrete 11 placed in a planar shape and in the longitudinal direction (left and right in FIG. 1A) in the concrete 11. And a hoop bar 13 arranged on a plane perpendicular to the bar 12 (the vertical plane in FIG. 1A) so as to surround the bar 12 in the concrete 11. ing.
Further, a predetermined range of one surface of the concrete 11 (hereinafter referred to as “structure surface 14”) is referred to as a reinforcing range 15. In FIG. 1A, in order to clarify the reinforcing range 15, the reinforcing range 15 has a surface with fine irregular irregularities, but the present invention is not limited to this, and the reinforcing range 15 May be flat. For example, the acting bending moment may be in a relatively large range.

  Then, the concrete 11 is provided with suspension bolts 40 (replaced) in the reinforcing range 15, and a part of the suspension bolts 40 protrudes from the structure surface 14 to form a steel plate (hereinafter referred to as “ribbed steel plate”) 20. It penetrates the formed through hole 23. A nut 41 is screwed onto the suspension bolt 40. That is, the ribbed steel plate 20 is disposed with a predetermined interval 16 facing the reinforcing range 15 (the same as part of the structure surface 14) by the suspension bolt 40 / nut 41 mechanism (impossible to move or not). It is impossible to fall). In addition, a filler 30 is filled in the interval 16.

(steel sheet)
In FIG. 2, the ribbed steel plate 20 is approximately 9 mm to 25 mm thick, and a plurality of protrusions (hereinafter referred to as “ribs”) 22 are formed on one surface (hereinafter referred to as “steel plate surface 21”). Has been. When the ribbed steel plate 20 is manufactured by hot rolling, the rib 22 is integrally formed by a groove formed on the surface of the rolling roll, and is in the direction perpendicular to the rolling (left and right in FIG. 2). Each interval is 30 mm to 40 mm, the height is 2.5 mm to 5.0 mm, and the width at the base (distance perpendicular to the rolling direction) is 4 mm to 20 mm. The cross-sectional shape of the rib 22 is not limited to a trapezoid, and may be a semicircular shape or a rectangular shape.
In addition, the present invention does not limit the components of the ribbed steel plate 20, and so long as the ribs 22 are formed by hot rolling, ordinary steel (carbon steel), high-tensile steel, stainless steel, or weather resistance. Any of alloy steels such as stainless steel may be used. Therefore, it can select suitably according to the conditions (environment, such as a load and the weather) to be installed.
For convenience of the following description, a surface opposite to the steel plate surface 21 is referred to as a “steel plate back surface 24”.

(Filler)
Further, the present invention does not limit the components of the filler 30, and examples of the grout filler include mortar, non-shrink mortar, polymer cement mortar, resin mortar, fiber reinforced concrete, fluidized concrete, high strength Concrete or the like may be used, and the adhesive filler may be, for example, an epoxy resin injection material, a urethane resin injection material, or a water glass injection material. Therefore, it can select suitably according to the conditions (environment, such as a load and the weather) to be installed.

(Function and effect)
The structure surface 14 is a surface on which tensile stress is generated, and the steel plate surface 21 of the ribbed steel plate 20 faces the structure surface 14. That is, the plurality of ribs 22 are in the form of biting into the filler 30 filled in the gap 16, and the ribs 22 are mechanically engaged with the filler 30, so that shear force can be transmitted between them. Yes. Further, the filler 30 is in close contact with the reinforcing range 15.
(A) Accordingly, when a bending load is applied to the concrete 11, the ribbed steel plate 20 behaves integrally with the concrete 11. Therefore, since the tensile stress in the structure surface 14 is shared by the ribbed steel plate 20 in the reinforcement range 15, the reinforcement range 15 is reinforced.
(B) At this time, as described above, since the rib 22 is mechanically engaged with the filler 30 and shear force is transmitted between them, the surface roughness of the steel plate surface 21 and the dust adhered to the steel plate surface 21 For example, the reinforcement is not insufficient and the reliability of the reinforcement is high.
(C) Further, since a shear anchor bolt for transmitting the force acting on the concrete 11 to the ribbed steel plate 20 is not required, the member cost is reduced, and further, no drilling for installing the shear anchor bolt is required. Therefore, since no drilling device is required and the workability in a narrow construction site is improved, it is possible to reduce the construction cost and shorten the construction period.
(D) Moreover, since the ribbed steel plate 20 with the ribs 22 formed thereon is manufactured by hot rolling, no special processing is required in a factory or a construction site where members of the repair / reinforcement structure 100 are prepared. Therefore, it becomes possible to further reduce the construction cost and shorten the construction period.
(E) Furthermore, since the suspension bolt 40 does not transmit the force acting on the concrete 11 to the ribbed steel plate 20, it may be thin enough to support the weight of the ribbed steel plate 20. Further, since the hanging bolt 40 does not need to exchange force with the reinforcing bar 12 or the hoop bar 13 through the concrete 11 in the vicinity of the reinforcing bar 12 or the hoop bar 13, the degree of freedom of the position where the hanging bolt 40 is installed is increased. high.
(F) Moreover, since the ribbed steel plate 20 itself functions as a mold when the filler 30 is filled, costs associated with installation and withdrawal of the mold are not required. Therefore, also in this point, the reduction of the construction cost and the shortening of the construction period are promoted.

(Example of repair)
FIG. 3 is a repair example for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 1 of the present invention. FIG. 3 (a) is a front view showing a part of FIG. (B) is a front view showing a part of the repair example enlarged and seeing through a part thereof, FIG. 3 (c) is a cross-sectional view in a side view taken along a section AA of FIG. 3 (d) is a cross-sectional view in a side view taken along a cross section BB in FIG. 3 (a). In addition, each part is shown typically and this invention is not limited to the form (shape, quantity, etc.) illustrated. Also, the same reference numerals are given to the same or corresponding parts as those in FIG. 1, and a part of the description will be omitted.

In FIG. 3, the repair / reinforcement structure 100 repairs the reinforced concrete structure 10.
A part of the concrete 11 is dropped and a damaged surface 17 is formed in a predetermined range of the structure surface 14 of the reinforced concrete structure 10 due to corrosion or deterioration. Hereinafter, a range surrounded by the structure surface 14 before the concrete 11 is dropped and the damaged surface 17 formed by the dropping of the concrete 11 is referred to as a concrete dropping portion 31. In addition, in the concrete drop-off portion 31, a part of the reinforcing bar 12 is exposed, the part is corroded, and the outer diameter is narrowed. Hereinafter, a range where the outer diameter of the reinforcing bar 12 is narrowed is referred to as a “rebar corrosion deteriorated portion 12a”.

Then, the concrete 11 is provided with a suspension bolt 40 (post-worked) in the damaged surface 17, and a part of the suspension bolt 40 protrudes from the structure surface 14 via the concrete dropout portion 31. The suspension bolt 40 passes through the through hole 23 formed in the ribbed steel plate 20, and a nut 41 is screwed to the suspension bolt 40. At this time, the steel plate back surface 24 of the ribbed steel plate 20 is located in the same plane as the structure surface 14.
In other words, the ribbed steel plate 20 is disposed so as not to move or fall while being housed in the concrete dropout portion 31 by the suspension bolt 40 / nut 41 mechanism.
Furthermore, a filler 30 is filled between the steel plate surface 21 and the damaged surface 17 (corresponding to a volume obtained by removing the volume of the ribbed steel plate 20 from the concrete drop-off portion 31), and the rebar corrosion deterioration portion 12a is filled with the filler 30. It is in a state embedded in.

(Function and effect)
Therefore, the repair / reinforcement structure 100 can provide the same effects as reinforcement even in repair. At this time, the force acting on the rebar corrosion deteriorated portion 12 a is mainly shared by the ribbed steel plate 20 and repaired in terms of strength, and the corrosion of the rebar corrosion deteriorated portion 12 a is mainly stopped by the filler 30. And repairs are being made in terms of deterioration.

[Embodiment 2]
FIG. 4 is a repair example for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 2 of the present invention. FIG. 4 (a) is a front view showing a part thereof transparently, FIG. FIG. 4B is a side sectional view taken along a cross section AA of FIG. 4A, and FIG. 4C is a side sectional view taken along a cross section BB of FIG. In addition, the same code | symbol is attached | subjected to the part which is the same as that of Embodiment 1, or an equivalent part, and one part description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

(Example of repair)
In FIG. 4, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 200 uses a U-shaped steel plate support member 50 instead of the suspension bolt 40 in the repair / reinforcement structure 100. Is.
That is, the reinforced concrete structure 10 includes a structure surface 14 and a pair of structure side surfaces 18 connected to the structure surface 14, and is parallel to the structure surface 14 and straddles the pair of structure side surfaces 18. Thus, the structure through-hole 19 is formed. At this time, the pair of structure side surfaces 18 are perpendicular to the structure surface 14 and parallel to each other. However, the present invention is not limited to this, and the distance from each other increases as the distance from the structure surface 14 increases. It may be non-parallel to enlarge (inverted C shape).

The steel plate support member 50 is a support member cross member 51 disposed parallel to the structure surface 14 (more precisely, facing the damaged surface 17), and a pair of supports disposed parallel to the pair of structure side surfaces 18. A vertical member through hole 53 is formed in each of the pair of supporting member vertical members 52.
Then, both end portions of the support bolt 60 penetrating the structure through hole 19 protrude from the structure side surface 18, pass through the vertical material through hole 53, and nuts 61 are screwed to both ends. That is, the steel plate support member 50 is installed in the reinforced concrete structure 10 by the support bolt 60 that penetrates the structure through hole 19.
Further, the ribbed steel plate 20 is installed on the support member cross member 51 of the steel plate support member 50 with the steel plate surface 21 facing the damaged surface 17 (the steel plate back surface 24 is in contact with the support member cross member 51). A filler 30 is filled between the steel plate surface 21 and the damaged surface 17 (substantially corresponding to the concrete drop-off portion 31).

Therefore, the repair / reinforcement structure 200 can obtain the same effects in terms of strength and deterioration as the repair / reinforcement structure 100.
Furthermore, since the suspension bolt 40 is changed to the steel plate support member 50, it is a relatively easy operation for drilling the structure through-holes 19 in the lateral direction instead of the upright operation by the upward posture of the suspension bolt. Improvements have been made in terms of construction.

In the above description, both ends of the support bolt 60 protrude from the side surface 18 of the structure. However, the present invention is not limited to this, and the support bolt 60 is divided into two and the structure through hole 19 is provided. Each of the anchor bolts divided into two from the structure side surface 18 to a blind hole having a predetermined depth may be installed in the blind hole. Alternatively, the support bolt 60 may be a bar material in which male screws are formed only at both ends.
Further, the steel plate support member 50 is formed by integrally forming a support member transverse member 51 and a pair of support member longitudinal members 52 (for example, a bent shape of a plate member, or a lightweight section steel having a U-shaped cross section). Or a plate obtained by welding or mechanically bonding (screw / screw hole mechanism, fitting protrusion / fitting hole mechanism, etc.).

[Embodiment 3]
FIG. 5 illustrates a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 3 of the present invention. FIG. 5 (a) is a front view showing a part enlarged and a part seen through. FIG. 5B is a cross-sectional view in side view showing a part thereof in an enlarged manner. In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, 2, or an equivalent part, and a part of description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

  In FIG. 5, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 300 is an adjustment of the position of the steel plate support member 50 in the reinforced concrete structure repair / reinforcement structure 200. The portions other than this are the same as the repair / reinforcement structure 200 of the reinforced concrete structure. Therefore, only the portion where the position can be adjusted will be described.

  The steel plate support member 50 in the repair / reinforcement structure 300 is a long hole in which the vertical member through-hole 53 is long in the direction perpendicular to the support member cross member 51. What is the support member cross member 51 of the support member vertical member 52? On the opposite end surface (hereinafter referred to as “vertical member upper end surface”) 54, a screw hole 55 reaching the vertical member through hole 53 is formed. The height adjustment bolt 71 is screwed into the screw hole 55, and the tip of the height adjustment bolt 71 is in contact with the support bolt 60.

Therefore, by rotating the height adjustment bolt 71, the steel plate support member 50 moves up and down with respect to the support bolt 60.
Therefore, even if the position of the structure through-hole 19 is not accurate (displaced) in the vertical direction, the position of the steel plate support member 50 is set to the normal position by rotating the height adjustment bolt 71. can do.
Further, the steel plate support member 50 is installed so that the position of the support member cross member 51 is a low position away from the structure surface 14, and in this state, the ribbed steel plate 20 is parallel to the structure surface 14. The ribbed steel plate 20 may be waited to a normal position by moving and sliding on the support member cross member 51 and then rotating the height adjusting bolt 71.

Therefore, according to the repair / reinforcement structure 300, the construction is further facilitated, and the effects of the repair / reinforcement structure 200 can be further promoted.
In FIG. 5, a spacer 63 is disposed between the structure side surface 18 and the support member vertical member 52, and the nut 61 presses the support member vertical member 52 against the structure side surface 18 via a fixed washer 62. .

[Embodiment 4]
6 and 7 illustrate a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 4 of the present invention. FIG. 6 (a) is an enlarged view of a portion thereof. FIG. 6B is a cross-sectional view in side view showing an enlarged part, FIG. 7A is a front view showing an enlarged part of the steel sheet and seeing through a part thereof, FIG. 7B is an enlarged side view showing a part of the steel plate. In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, 2, or an equivalent part, and a part of description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

  In FIG. 7, longitudinal guide protrusions 25 are provided on the steel plate rear surface 24 of the ribbed steel plate 20. The guide protrusion 25 has a substantially trapezoidal cross section, and becomes wider as the distance from the back surface 24 of the steel plate increases.

In FIG. 6, a repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 400 of a reinforced concrete structure 400 is formed in a guide groove 56 in a support member cross member 51 of a steel plate support member 50 in the repair / reinforcement structure 200 of a reinforced concrete structure. Is provided. The guide groove 56 is wider at the back (bottom) than at the mouth.
And in the state which the steel plate back surface 24 of the steel plate 20 with a rib contact | abutted the supporting member cross member 51, the guide protrusion 25 can move to the guide groove 56 in a longitudinal direction, and has penetrate | invaded so that it cannot detach in the up-down direction.
Therefore, even if the position of the structure through-hole 19 is not accurate (displaced) in the longitudinal direction, the ribbed steel plate 20 is placed on the support member cross member 51 and moved in the longitudinal direction. And the steel plate 20 with a rib can be arrange | positioned in a regular position. At this time, the position in the width direction is maintained by the guide protrusion 25 / guide groove 56 mechanism.

Therefore, according to the repair / reinforcement structure 400, the construction is further facilitated, and the effects of the repair / reinforcement structure 200 can be further promoted.
Further, in FIG. 6, the support member cross member 51 and the support member vertical member 52 are separable, and a screw hole 57 is provided on a side end surface of the support member cross member 51, and a lower end portion of the support member vertical member 52 is provided. A through hole 58 is provided. The steel plate support member 50 is formed by a fixing bolt 72 that passes through the through hole 58 and is screwed into the screw hole 57. Therefore, since the support member cross member 51 and the support member vertical member 52 are separated, they can be brought into the construction site and the steel plate support member 50 can be easily formed. Contributes to the reduction of construction costs.
Note that a vertical member locking portion 59 in which a part of the side edge of the support member cross member 51 is locked is formed at the lower end portion of the support member vertical member 52, and the load acting on the support member cross member 51 is a vertical member. In the locking portion 59, it is transmitted to the support member vertical member 52. Accordingly, the fixing bolt 72 has a structure in which a shearing force does not act.
The guide groove 56 may be provided in the support member cross member 51 of the integrally formed steel plate support member 50 that is not an assembly type.

[Embodiment 5]
8 and 9 are repair examples for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 5 of the present invention, in which (a) of FIG. 8B is a cross-sectional view in a side view in a cross-section AA in FIG. 8A, FIG. 8C is a cross-sectional view in a side view in a cross-section BB in FIG. FIG. 9A is a front view showing a part of a steel plate in an enlarged manner and a part thereof being seen through, and FIG.
In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, 2, or an equivalent part, and a part of description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

  In FIG. 9, a repair / reinforcement structure 500 for a reinforced concrete structure (hereinafter referred to as “repair / reinforcement structure”) uses a steel plate with side walls 80, and the steel plate with side walls 80 includes a steel plate 20 with ribs, Each of the ribbed steel plates 20 is provided with a pair of steel plate side wall portions 26 that function as side molds, respectively.

  In FIG. 8, the upper end of the steel plate side wall portion 26 of the steel plate with side walls 80 is located above the damaged surface 17, and the upper end portion of the steel plate side wall portion 26 is in contact with the structure side surface 18. Therefore, the concrete dropout portion 31 is surrounded by the steel plate surface 21 and the pair of steel plate side wall portions 26 (more precisely, the surface of the pair of steel plate side wall portions 26 on the concrete dropout portion 31 side).

(Steel with side wall)
That is, the upper end of the steel plate side wall portion 26 of the steel plate with side walls 80 is located above the damaged surface 17, and the upper end portion of the steel plate side wall portion 26 is in contact with the structure side surface 18. Therefore, the concrete dropout portion 31 is surrounded by the ribbed steel plate 20 and the pair of steel plate side wall portions 26 (more precisely, the steel plate surface 21 and the surface of the pair of steel plate side wall portions 26 on the concrete dropout portion 31 side). ing.
Therefore, since the steel plate side wall portion 26 functions as a mold frame when filling the filler 30, it is not necessary to separately install a mold frame on the side (width direction) of the concrete dropout portion 31. Installation and withdrawal is no longer necessary, making construction simpler and faster.

That is, according to the repair / reinforcement structure 500, in addition to the same effects as the repair / reinforcement structure 200, it is possible to reduce the construction cost by improving workability.
In addition, the steel plate 80 with a side wall is not limited to the second embodiment, and may be used in any one of the first, third, and fourth embodiments. The same effect as when used is obtained.

[Embodiment 6]
FIGS. 10 and 11 are repair examples for explaining a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 6 of the present invention, and FIG. 10 (b) is a cross-sectional view in side view of the cross section AA in FIG. 10 (a), FIG. 10 (c) is a bottom view showing a repair example, and FIG. 11 (a) is a developed plan view of the steel sheet. 11 (b) is a plan view showing the original plate before processing the steel plate, and FIG. 11 (c) is an enlarged plan view showing a part of the original plate before processing shown in FIG. 11 (b). It is.
In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, 2, or an equivalent part, and a part of description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

(Example of repair)
In FIG. 10, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 600 uses a steel plate (hereinafter referred to as “lattice steel plate”) 90.
The lattice steel plate 90 is a flat steel plate (original plate) in which a plurality of openings 93 are formed, and is bent into a U-shaped cross section including a bottom surface portion 97 and a pair of side surface portions 98. is there.
A structure through hole 19 is formed in the reinforced concrete structure 10, and both end portions of a bar material (hereinafter referred to as “PC steel bar”) 67 that penetrates the structure through hole 19 protrude from the structure side surface 18.

The bottom surface 97 of the lattice steel plate 90 is disposed in parallel to the structure surface 14, the side surface 98 is disposed in parallel to the structure side surface 18, and the lattice steel plate 90 surrounds the concrete dropout portion 31. . At this time, both end portions of the PC steel bar 67 pass through the openings 93 of the lattice steel plate 90, and the nuts 68 are screwed into the screw portions formed at both ends. Held in position. At this time, the PC bar 67 penetrates the washer 69. That is, the washer 69 is pressed against the lattice portion 94 between the openings 93 and is installed so as not to be pulled out by the nut 68.
Furthermore, the filler 30 is filled in the concrete dropping part 31 surrounded by the lattice steel plate 90, and the filler 30 closes the opening 93. That is, the filler 30 is a high-viscosity polymer cement mortar, for example, which passes through the opening 93 and is sprayed onto the concrete dropout 31.
In the above, the lattice steel plate 90 is used after being bent, but the present invention is not limited to this, and the ribbed steel plate in the repair / reinforcement structure 100 remains in a flat shape before bending. It may be used as a substitute for 20.

(Lattice steel plate)
In (a) of FIG. 11, a lattice steel plate 90 is a tangible lattice portion between a plurality of openings 93 (corresponding to grids) arranged in a grid pattern and the openings 93 that are spaces. 94 (corresponding to a grid line).
The lattice steel plate 90 is obtained by, for example, performing in-plane tensile processing on an original plate 91 (see FIG. 11B) in which a plurality of slits 92 (see FIG. 11C) are processed by a laser or the like. The slits 92 are enlarged to form a plurality of openings 93, and the discontinuous portions between the slits 92 are lattice portions 94 between the openings 93.
In the above, discontinuous portions of the slits 92 are arranged in a square shape in the original plate 91, and a rectangular opening 93 having a side parallel to a side edge of the grid steel plate 90 and a side perpendicular to the side is formed. However, the present invention does not limit the shape of the opening 93. For example, discontinuous portions of the slits 92 are arranged in a staggered manner on the original plate 91, and the sides inclined with respect to the side edges of the lattice steel plate 90 are arranged. The rhombus-shaped opening 93 provided may be formed.

(Function and effect)
As described above, since the repair / reinforcement structure 600 uses the lattice steel plate 90 instead of the steel plate 80 with the side wall, the opening 93 is blocked by the filler 30 filled in the concrete dropout portion 31 as described above. In addition, since the filler 30 bites into the opening 93 and mechanically meshes, the shearing force can be transmitted between them. Further, the filler 30 is in close contact with the damaged surface 17 exposed by part of the concrete 11 falling off.
(A) Therefore, when a bending load is applied to the concrete 11, the lattice steel plate 90 behaves integrally with the concrete 11. Therefore, according to the repair / reinforcement structure 600, the same effect as the repair / reinforcement structure 100 can be obtained.
(B) At this time, the surface roughness of the original plate 91, dust adhering to the original plate 91, and the like are not insufficiently repaired or reinforced, and the reliability of the repair or reinforcement is high.
(C) Since no support means such as the steel plate support member 50 is required, the member cost is reduced, and further, no drilling holes are required for installing the shear anchor bolts. Since the workability in a narrow construction site is improved, the construction cost can be reduced and the construction period can be shortened.
(D) In addition, the grid steel plate 90 is lighter in weight and easier to store and transport than the steel plate 80 with side walls, and is easy to handle during construction, so the construction cost is low.
(E) Since the opening 93 of the lattice steel plate 90 is closed by the filler 30 filled in the concrete dropout portion 31, the concrete dropout portion is checked by checking the state of the filler 30 closing the opening 93. It is possible to monitor the state of the filler 30 filled in 31 (presence of reliable filling, aging, etc.).
(F) Moreover, since the filler 30 can be filled in the concrete drop-off portion 31 by spraying the filler 30 through the openings 93 (the same between the lattice portions 94), there are construction options. In many cases, the construction cost can be kept low.
In addition, when the viscosity of the filler 30 is low, the lattice steel plate 90 does not function as a mold, so that it is necessary to give the filler 30 a viscosity that does not flow out from the opening 93.

(Other forms of lattice steel plate)
FIGS. 12A and 12B are diagrams for explaining other forms of the steel plate used in the repair / reinforcement structure for a reinforced concrete structure according to Embodiment 6 of the present invention. FIG. 12A is a plan view, and FIG. Sectional drawing in section BB of a), (c) Sectional view in section CC of (a), (d) is a plan view showing an original plate before processing a steel plate, (e) is (d). It is sectional drawing in the cross section A-A. In addition, the same code | symbol is attached | subjected to the part which is the same as that of FIG.
In FIG. 12E, the slits 92 processed into the original plate 91 are not perpendicular to the surface of the original plate 91, and the opposing slits 92 have a cross-section in cross section.
For this reason, when pulled parallel to the surface of the original plate 91, a trapezoidal lattice portion 94 as shown in FIGS. 12 (b) and 12 (c) and an opening 93 surrounded by the lattice portion 94 are formed. Yes.
Therefore, the meshing between the filler 30 and the lattice steel plate 90 is improved.

(Other forms of lattice steel plate)
FIGS. 13A and 13B are diagrams for explaining another form of the steel plate used in the repair / reinforcement structure for a reinforced concrete structure according to Embodiment 6 of the present invention. FIG. 13A is a plan view, and FIG. 13B is a steel plate. It is a top view which shows the original plate before processing. In addition, the same code | symbol is attached | subjected to the part which is the same as that of FIG.
In FIG. 13B, the slit 92 processed in the original plate 91 is not linear but is formed in a rectangular wave shape. For this reason, both side surfaces of the lattice portion 94 as shown in FIG. 13A are not linear but formed in a rectangular wave shape. That is, since a plurality of protrusions protruding from the opening 93 are formed in the lattice portion 94, the meshing between the filler 30 and the lattice steel plate 90 is improved.
The slit 92 shown in FIG. 13 (b) is rectangular wave-like and not perpendicular to the surface like the slit 92 shown in FIG. 12 (e), so that the filler 30 and the lattice steel plate 90 are engaged. The combination may be further improved.

[Embodiment 7]
FIG. 14 is a perspective view for explaining a member kit for repair / reinforcement structure of a reinforced concrete structure according to Embodiment 7 of the present invention, in which each member is separated and arranged at a position close to the use situation. . In addition, the same code | symbol is attached | subjected to the part which is the same as or equivalent to Embodiment 3-6, and a part of description is abbreviate | omitted. Each figure is shown schematically and the present invention is not limited to the illustrated form (shape, quantity, etc.).

In FIG. 14, a member kit for repair / reinforcement structure of a reinforced concrete structure (hereinafter referred to as “repair / reinforcement structure member kit”) 700 is added to a reinforced concrete structure 10 having a structure side surface 18 and a steel plate 80 with a side wall. Each of which is constituted by disassembled members.
That is, the steel plate with side walls 80 is integrated with the steel plate with ribs 20 and the steel plate side wall portion 26, and the guide ribs 25 are provided on the steel plate back surface 24 of the ribbed steel plate 20.
Further, the steel plate support member 50 is prepared by disassembling the support member cross member 51 and the support member vertical member 52 and fixing bolts 72 and height adjusting bolts 71 for fixing them. A guide groove 56 is provided in the support member cross member 51. Moreover, the support bolt 60 and the nut 61 for attaching the steel plate support member 50 to the reinforced concrete structure 10 are prepared.

Therefore, the member kit 700 for repair / reinforcement structure is obtained by disassembling each member described in Embodiments 3 to 5 and collecting them into a “member kit”, and therefore can be stored in a relatively small space. It can also be transported easily.
And since each member is assembled and installed in the reinforced concrete structure 10, the reinforced concrete structure 10 can be repaired or reinforced, Therefore It functions as the structure repair / reinforcement structure 300-500. In addition, the magnitude | size and quantity of each member are determined by the magnitude | size of the part to repair or reinforce.

[Embodiment 8]
FIG. 15 is a front view showing a part of the repair / reinforcement structure for a reinforced concrete structure according to Embodiment 8 of the present invention. In addition, the same code | symbol is attached | subjected to the part which is the same as that of Embodiment 1 or Embodiment 6, or an equivalent part, and description of one part is abbreviate | omitted. FIG. 15 schematically shows the present invention, and the present invention is not limited to the illustrated form (shape, quantity, etc.).
In FIG. 15, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 800 reinforces the reinforced concrete structure 10 using a lattice steel plate 890.
The lattice steel plate 890 corresponds to a structure obtained by removing the side surface portion 98 of the lattice steel plate 90 (Embodiment 6) to form only the bottom surface portion 97, and includes a lattice portion 94 and a plurality of openings 93.

A part of the lattice portion 94 of the lattice steel plate 890 is in contact with the structure surface 14 of the reinforced concrete structure 10.
At this time, since the filler 30 filled in the opening 93 of the lattice steel plate 890 is in close contact with the reinforcing range 15 of the structure surface 14, the lattice portion 94 of the lattice steel plate 890 is mechanically engaged with the filler 30. Thus, a shearing force can be transmitted between the structure surface 14 and the lattice steel plate 890. Therefore, there exists an effect similar to the repair and reinforcement structure 100 (Embodiment 1).
In the above description, the lattice steel plate 890 covers the reinforced region 15 with unevenness, but the present invention is not limited to this, and may cover a range without unevenness on the structure surface 14.
In the second to seventh embodiments, the lattice steel plate 890 may be in contact with the structure surface 14 using the lattice steel plate 890.

[Embodiment 9]
FIG. 16 is a front view showing a part of the repair / reinforcement structure for a reinforced concrete structure according to Embodiment 9 of the present invention. In addition, the same code | symbol is attached | subjected to the part which is the same as that of Embodiment 1 or Embodiment 6, or an equivalent part, and description of one part is abbreviate | omitted. FIG. 16 is a schematic view, and the present invention is not limited to the illustrated form (shape, quantity, etc.).
In FIG. 16, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 900 reinforces the reinforced concrete structure 10 using a lattice steel plate 990.
The lattice steel plate 990 is obtained by forming ribs 95 on the lattice portion 94 in the lattice steel plate 890 (Embodiment 8).

A part of the rib 95 of the lattice steel plate 990 is in contact with the structure surface 14 of the reinforced concrete structure 10.
At this time, the filler 30 filled in the opening 93 of the lattice steel plate 890 surrounds the rib 95 and is in close contact with the reinforcing range 15 of the structure surface 14. 95 is mechanically engaged with the filler 30 so that a shearing force can be transmitted between the structure surface 14 and the lattice steel plate 890. Therefore, there exists an effect similar to the repair and reinforcement structure 100 (Embodiment 1).
The shape of the rib 95 is not limited, and may be, for example, a truncated cone-shaped protrusion or a protrusion having a predetermined length. Moreover, although the lattice steel plate 990 has covered the uneven | corrugated reinforcement range 15 as mentioned above, this invention is not limited to this, You may cover the range without the unevenness | corrugation of the structure surface 14. FIG. Further, also in the second to seventh embodiments, the lattice steel plate 990 may be used so that the rib 95 of the lattice steel plate 890 contacts the structure surface 14.

Further, ribs 95 may be formed on both sides of the lattice portion 94 (not shown). At this time, since the ribs 95 formed on both surfaces are surrounded by the filler 30, the close contact between the lattice steel plate 980 and the filler 30 becomes firm, and is similar to the repair / reinforcement structure 100 (Embodiment 1). The effect of is promoted.
Further, the rib 95 is formed on the filler 30 such that the rib 95 of the lattice steel plate 890 is opposite to the structure surface 14 and a part of the surface of the lattice steel plate 890 without the rib 95 is in contact with the structure surface 14. You may be surrounded. Also at this time, the same effect as the repair / reinforcement structure 100 (Embodiment 1) can be obtained.

[Embodiment 10]
FIG. 17 illustrates a repair / reinforcement structure for a reinforced concrete structure according to Embodiment 10 of the present invention. FIG. 17 (a) is a front view showing a part thereof transparently, and FIG. It is a perspective view shown. In addition, the same code | symbol is attached | subjected to the part which is the same as that of Embodiment 8, or an equivalent part, and one part description is abbreviate | omitted. FIG. 17 schematically shows the present invention, and the present invention is not limited to the illustrated form (shape, quantity, etc.).
In FIG. 17, a reinforced concrete structure repair / reinforcement structure (hereinafter referred to as “repair / reinforcement structure”) 1000 includes two lattice steel plates 890 (hereinafter, one is referred to as lattice steel plate 890a and the other is referred to as lattice steel plate 890b). It is used to reinforce the reinforced concrete structure 10. In addition, description of the suspension bolt 40 and the nut 41 is abbreviate | omitted.

Then, a part of the opening 93a of the lattice steel plate 890a and a part of the opening 93b of the lattice steel plate 890b overlap (two places in FIG. 17), and a part of the lattice part 94a of the lattice steel plate 890a and the lattice of the lattice steel plate 890b. A portion of the portion 94b overlaps (three places in FIG. 17, hereinafter, the overlapping range is referred to as “wrap portion 890ab”).
At this time, the lattice steel plate 890a and the lattice steel plate 890b are integrated by the filler 30 filled in the opening portion 93a where the lattice steel plate 890a overlaps and the opening portion 93b where the lattice steel plate 890b overlaps. That is, the filler 30 filled in the wrap portion 890ab also functions as a “joint” that transmits force between the lattice steel plates 890a and 890b.

Further, a part of the lattice portion 94a of the lattice steel plate 890a and a part of the lattice portion 94b of the lattice steel plate 890b are in contact with the structure surface 14, respectively, and at the lap portion 890ab, the lattice portion a of the lattice steel plate 890a and the lattice steel plate 890b The lattice portion b of the lattice steel plate 890b is bent at the bending portion 96b so that the lattice portion b approaches or comes into contact with the lattice portion b.
Note that the bending in the bent portion 96b is abolished, and the lattice steel plates 890a and 890b are made flat, and a part of the lattice portion 94a of the lattice steel plate 890a is in contact with the structure surface 14, and the lattice portion of the lattice steel plate 890b. A part of 94b may face the structure surface 14 and be arranged with a predetermined gap.

In addition, although the two grid steel plates 890 have been described above, the present invention is not limited to this, and similarly, a part of three or more grid steel plates 890 may overlap each other.
Further, in the repair / reinforcement structure 900 (see the ninth embodiment), a plurality of lattice steel plates 990 may be similarly overlapped using a plurality of lattice steel plates 990. At this time, the rib 95 may be on one side or on both sides.
Further, similarly, a part of lattice steel plate 890 (Embodiment 8) may overlap with a part of lattice steel plate 990 (Embodiment 9).

  According to the present invention, since the force transfer between the steel plate and the filler can be improved, the repair / reinforcement structure of the reinforced concrete structure for repairing or reinforcing various reinforced concrete structures such as floors, beams or columns. Can be widely used as.

DESCRIPTION OF SYMBOLS 10: Reinforced concrete structure 11: Concrete 12: Reinforcing bar 12a: Reinforcing bar corrosion degradation part 13: Hoop bar 14: Structure surface 15: Reinforcement range 16: Gap 17: Damaged surface 18: Structure side 19: Structure through-hole 20: Ribbed steel plate 21: Steel plate surface 22: Rib 23: Through hole 24: Steel plate back surface 25: Guide rib 26: Steel plate side wall portion 30: Filler 31: Concrete dropout portion 40: Suspension bolt 41: Nut 50: Steel plate support member 51 : Support member cross member 52: support member vertical member 53: vertical member through hole 55: screw hole 56: guide groove 57: screw hole 58: through hole 59: vertical member locking part 60: support bolt 61: nut 62: fixed Washer 63: Spacer 67: PC bar 68: Nut 69: Washer 71: Height adjustment bolt 72: Fixing bolt 80: Steel plate 82 with side wall: Constant bolt 90: Lattice steel plate 91: Original plate 92: Slit 93: Opening portion 93a: Opening portion 93b: Opening portion 94: Lattice portion 94a: Lattice portion 94b: Lattice portion 95: Rib 96b: Bending portion 97: Bottom portion 98: Side surface Part 100: Repair / reinforcement structure 200: Repair / reinforcement structure 300: Repair / reinforcement structure 400: Repair / reinforcement structure 500: Repair / reinforcement structure 600: Repair / reinforcement structure 700: Repair / reinforcement structure member kit 800: Repair / reinforcement structure Reinforcement structure 890: Lattice steel plate 890a: Lattice steel plate 890b: Lattice steel plate 890ab: Lapping part 900: Repair / reinforcement structure 990: Lattice steel plate 1000: Repair / reinforcement structure

Claims (17)

A steel plate arranged facing the surface of the structure which is the surface of the reinforced concrete structure;
A filler filled in a gap between the structure surface and the steel sheet;
A repair / reinforcement structure for a reinforced concrete structure, wherein a plurality of openings are formed in the steel plate, and the openings are closed by the filler. The steel plate
The repair / reinforcement structure for a reinforced concrete structure according to claim 1, wherein the repair / reinforcement structure is disposed in contact with the surface of the structure.   The repair / reinforcement structure for a reinforced concrete structure according to claim 1, wherein a plurality of protrusions are formed on a surface of the steel plate which is one surface of the steel plate.   A plurality of protrusions are formed on the back surface of the steel sheet, which is the other surface of the steel sheet, and the plurality of protrusions formed on the back surface of the steel sheet are surrounded by the filler. Repair / reinforcement structure for reinforced concrete structures according to item 1.   A plurality of the steel plates, and in any one of the steel plates, a part of the opening of one steel plate and a part of the opening of the other steel plate overlap, and the one steel plate overlaps. The one steel plate and the other steel plate are integrated with each other by the filler filled in the opening and the opening overlapping the other steel plate. The repair / reinforcement structure of the reinforced concrete structure according to any one of 4. The plurality of openings are
The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 1 to 5, wherein the plurality of slits formed in the steel plate are enlarged by a tensile process. The plurality of protrusions are
The repair / reinforcement structure for a reinforced concrete structure according to claim 3 or 4, wherein the repair / reinforcement structure is formed integrally with the steel plate. The plurality of protrusions are
Each interval is 30 mm to 40 mm, the height is 2.5 mm to 5.0 mm, and the width of the base of the protrusion when measured in the direction of the tensile stress generated in the reinforced concrete structure is 4 mm to 20 mm. The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 3, 4 and 7.   The repair of a reinforced concrete structure according to any one of claims 1 to 8, wherein the steel plate is supported by a suspension bolt installed on the reinforced concrete structure and protruding from the surface of the structure.・ Reinforcement structure. The reinforced concrete structure comprises the structure surface and a pair of structure side surfaces connected to the structure surface,
A steel plate support member comprising a support member cross member disposed in parallel with the structure surface and a pair of support member longitudinal members disposed in parallel with the pair of structure side surfaces, and installed in the reinforced concrete structure. And a support bolt protruding from the side surface of the pair of structures,
The steel plate support member is
Installed in the reinforced concrete structure by the support bolts penetrating the vertical member through-holes formed in the pair of support member vertical members,
The steel plate
The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 1 to 9, wherein the repair / reinforcement structure is installed on a support member cross member of the steel plate support member. The vertical member through hole is
The direction perpendicular to the support member cross member is long,
The support member cross member is provided with a height adjustment bolt that is movable in a direction perpendicular to the support member cross member and whose tip abuts on the support bolt.
The repair / reinforcement of a reinforced concrete structure according to claim 10, wherein the steel plate support member is moved in a direction perpendicular to the structure surface by rotating the height adjusting bolt. Construction. Guide ridges are provided on the steel plate back surface, which is the surface opposite to the steel plate surface,
A support member guide groove into which the guide protrusion enters the support member cross member is formed,
The reinforced concrete according to claim 10 or 11, wherein the steel plate is relatively movable with respect to the steel plate support member by moving the guide protrusions while being guided by the support member guide grooves. Structure repair / reinforcement structure.   The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 10 to 12, wherein the support member cross member and the support member vertical member are connected to each other by a fixing bolt so as to be separable. . The steel plate
The repair / reinforcement of a reinforced concrete structure according to any one of claims 1 to 13, further comprising a pair of steel plate side wall portions formed on the surface side of the steel plate continuously to both side edges. Reinforced structure. The steel plate
Bending into a U-shaped cross section comprising a bottom portion and a pair of side portions,
A bar that penetrates the structure through-hole formed in the reinforced concrete structure is installed,
The repair / reinforcement of a reinforced concrete structure according to any one of claims 1 to 8, wherein the steel plate is supported by the reinforced concrete structure by passing the bar through the opening. Construction. The steel plate
The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 1 to 15, wherein the repair / reinforcement structure is ordinary steel, high-tensile steel, stainless steel, or weather-resistant steel. The filler is
Mortar, non-shrink mortar, polymer cement mortar, resin mortar, fiber reinforced concrete, fluidized concrete, high-strength concrete, epoxy resin-based injection material, urethane resin-based injection material, or water glass-based injection material The repair / reinforcement structure for a reinforced concrete structure according to any one of claims 1 to 16.

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