JPH0784725B2 - External surface reinforcement method for concrete structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention is a concrete used for preventing the development of cracks or the like generated on the outer surface of a concrete structure such as a concrete floor slab installed on a bridge or the like. The present invention relates to a method for reinforcing the outer surface of a structure.

(B) Conventional Technology Conventionally, as a method for repairing cracks on the outer surface of a concrete structure such as a concrete floor slab, there are a method of spraying mortar on the cracked surface and a method of attaching an iron plate to the cracked surface.

(C) Problems to be Solved by the Invention However, the former method has a weak adhesion of mortar and insufficient tensile strength. Therefore, it has to be applied to a considerable thickness, and the loss due to scattering or dropping during construction is large, resulting in waste of material costs.

Also, in the latter method, water that has penetrated from above stays on the iron plate, corrodes and peels off the iron plate, and further, the iron plate conversely becomes a dead load and promotes the development of cracks. I was getting tired.

An object of the present invention is to provide a method for reinforcing the outer surface of a concrete structure, which can solve the problems of the conventional art.

(D) Means for Solving the Problems In order to solve the above problems, in the present invention, a composite polymer emulsion containing carboxy-modified styrene butadiene and cycloxyl methacrylate as a main component is prepared in advance with silicon oxide, calcium oxide, or oxidation. A main ingredient containing iron as a main component,
Mix it with mortar or concrete, mix the reinforcing material into the mixture, and then mold and dry the mixture containing the reinforcing material to produce a flat plate-shaped reinforcing panel, and bond the reinforcing panel with the same composition as the reinforcing panel. The agent is applied to the outer surface of a concrete structure such as a concrete floor slab to reinforce the outer surface of the concrete structure.

Here, as the reinforcing material, one or any combination of reinforcing bars, wholly aromatic polyamide fibers, glass fibers, carbon fibers, silicon nitride fibers, silicon carbide fibers, steel fibers, and the like can be used. Also, one or a combination of a rod shape, a net shape (including a lattice shape), a short piece, or the like can be used. The reinforcing method can be applied not only to reinforced concrete structures but also to PC structures and SRC structures.

(E) Action The outer surface of a concrete structure such as a concrete floor slab is made rough by using keren or the like to facilitate the subsequent attachment of the reinforcing panel. After that, a reinforcing panel made of the composite polymer emulsion and the main agent, mortar or concrete is attached to the outer surface with an adhesive having the same composition as the reinforcing panel so that they are integrated with each other to prevent the development of cracks.

In such repair, since the concrete structure is doubly reinforced with the reinforcing panel having a strong tensile strength and the adhesive by mixing the composite polymer emulsion and the reinforcing material, cracks generated on the outer surface of the concrete structure can be prevented. Strongly prevent development.

Further, when the concrete structure is a concrete floor slab, the composite polymer emulsion and the reinforcing panel composed of the main agent or mortar or concrete and the adhesive both have appropriate water permeability, so water that permeates from the upper part It can be escaped from the bottom surface of the floor slab, and it can also prevent corrosion of reinforcing bars and the like.

Further, since the reinforcing panel can be mass-produced in advance in a factory or the like, it can be manufactured at low cost.

(F) Effects With the configuration described above, the present invention has the following effects.

Reinforcement panels can be mass-produced in advance at the factory, which can shorten the time required for on-site construction and reduce construction costs.

Since the reinforcing panel can be mass-produced in advance in the factory, it is possible to manufacture a reinforcing panel having uniform quality and dimensions and perform accurate construction.

The reinforcing panel can be easily attached to the outer surface of the concrete structure, which eliminates the need for skilled workers, and also from this aspect, the construction cost can be reduced.

When the concrete structure is a concrete floor slab, both the reinforcing panel and the adhesive are made of a mixture of a composite polymer emulsion having an appropriate water permeability and a main agent, mortar or concrete, so that an appropriate water permeability is maintained. The water that permeates from the upper part can be released downward, and a peeling accident or the like due to the retention of water inside the floor slab can be prevented in advance.

Since the same material is used for the reinforcement panel and the adhesive,
Since the reinforcing panel and the adhesive material have physical properties close to those of concrete, they can be easily integrated with the concrete and can follow the movement of the concrete.

Reinforcement panel consisting of complex polymer emulsion and main agent and adhesive both have high adhesive strength and tensile strength, and further, addition of reinforcing material can further increase tensile strength, so that crack development is surely achieved. It can be prevented, and the concrete structure can be reinforced.

When installing the reinforcing panel, the method of installing via the spring is to use the vibration of the vehicle in the floor slab concrete reinforcement work without blocking the vehicle, conversely,
The tightening effect of the spring can be exerted, the adhesiveness can be improved, and convenience and economy can be brought about.

(G) Example Hereinafter, the present invention will be described in detail based on an example shown in the accompanying drawings. In this example, the concrete structure is a floor slab.

In FIG. 1, (1) is a concrete floor slab placed on a bridge or the like, and the floor slab (1) has a plurality of cracks (3) on its lower outer surface (2).

Further, in the figure, (4) is after being suspended by an electric chipping tool or the like, or after being washed by high-pressure water washing,
A reinforcing panel attached to the outer surface (2), wherein the reinforcing panel (4) contains the composite polymer emulsion and the main agent, mortar or concrete in a required mixing ratio (preferably 1: 3 to 7). It can be mass-produced in a factory by mixing and then curing it.

Further, in FIG. 1, a part of the reinforcing panel (4) is shown in an enlarged manner, and as shown in the figure, the reinforcing panel (4).
Has reinforcing bars (5) and (6) as reinforcing members inside, and has a thickness t1 (for example, about
1 mm) is smaller than the thickness t2 of the outer covering layer (for example, 5 mm or more). Further, the diameters and pitches of the reinforcing bars (5) and (6) are determined by the degree of damage of the concrete floor slab (1).

With such a configuration, the tensile strength of the reinforcing panel (4) as a whole can be improved together with the tensile strength of the mixture obtained by mixing the composite polymer emulsion and the main agent.

FIG. 2 shows the reinforcing panel (4) connecting parts A, and the adjacent reinforcing panels (4), (4) as shown in the figure.
Reinforcing bars (5) and (5) are connected by welding,
It can also be connected by lap joints and pressure welding.
After the connection, in the connection part A, the same composition as the reinforcing panel (4),
That is, it is also possible to fill a mixture of the composite polymer emulsion and the main ingredient or mortar.

As a reinforcing material, instead of the reinforcing bars (5) and (6),
Or as a part thereof, wholly aromatic polyamide fiber (aramid fiber), glass fiber, carbon fiber, silicon nitride fiber,
It is also possible to use silicon carbide fibers, steel fibers or the like in a rod shape, a short piece shape, or a net shape.

In this case, the fibers can be connected by binding, welding, bonding with an adhesive by shearing adhesive force, or a combination thereof.

The reinforcing panel (4) having the above structure can be strongly adhered to the outer surface of the floor slab (1) by using the adhesive (7) having the same composition as that of the reinforcing panel (4). The fixed connecting means B shown in FIG. 3 can be used simultaneously or separately.

That is, in FIG. 3, the fixed connecting means B is the floor slab (1).
Forming a connecting rod insertion hole (10) at an appropriate position on the base plate, inserting the base end of the connecting rod (11) into the insertion hole (10), and connecting the connecting rod (11) with the adhesive (12). The reinforcing bars (5) and (6) of the reinforcing panel (4) that are fixed and the distal extension of the connecting rod (11) is bonded to the outer surface of the concrete floor slab (1) with an adhesive (7). The hollow washer (13) fixed to the intersection is passed through and the threaded portion (1
The nut (16) is screwed onto the spring (15) (which may be a leaf spring) in (4).
The spring (15) exerts a tightening effect by vibration and improves the adhesiveness.

With this configuration, the fixed connecting means B can more strongly adhere the reinforcing panel (4) to the concrete floor slab (1).

Next, the procedure for attaching the reinforcing panel (4) to the concrete floor slab (1) when using the fixed connecting means B is described in
This will be described with reference to FIGS.

First, as shown in FIG. 4, a connecting rod insertion hole (10) is formed in a concrete floor slab (1) using a drill or the like. Then, as shown in FIG. 5, a temporary stopper (1
The adhesive (7) is applied to the outer surface (2) of the concrete floor slab (1) with 7) inserted. Thereafter, as shown in FIG. 6, the temporary plug (17) may be removed and an inorganic adhesive (12) (adhesive having the same composition as the adhesive (7) may be used in the insertion hole (10). ) Is filled. Then, the seventh
As shown in the figure, the connecting rod (11) is inserted into the insertion hole (10) and fixed. The reinforcing panel (4) is attached to the concrete floor slab (1) as shown in FIG. 8 while inserting the washer (13) through the extension of the tip of the connecting rod (11). afterwards,
As shown in FIG. 9, a nut (16) is screwed to the threaded portion (14) of the connecting rod (11) via a spring (15) to attach the reinforcing panel (4) to the concrete floor slab (1). Complete the attachment.

The reinforcing panel connecting means B is not limited to the structure shown in FIG. 4, but the spring (15) may be omitted as shown in FIG.

Further, as shown in FIGS. 11 to 13, a rivet washer (18) is fixedly connected to the reinforcing panel (4) in advance, and the reinforcing panel (19) is reinforced by the rivet anchor (19). 4) can also be fixedly connected to the concrete floor slab (1). Also, hole-in anchors, dry-it, chemical anchors, etc. can be used.

Note that FIG. 12 shows the case where the adhesive (7) is applied to the concrete floor slab (1) in advance, and FIG. 13 shows the case where the adhesive (7) is applied to the reinforcing panel (4) in advance. .

Further, in the above constitution, the composite polymer emulsion can be, for example, those disclosed in Japanese Patent Application No. 57-33499 and Japanese Patent Application No. 59-92112, and such a composite polymer emulsion has the following component constitution. .

Carboxy-modified styrene butadiene 45% Cyclohexyl methacrylate 24% Methanol 5% Fatty acid soda soap 1% Water 25% In addition, the reinforcing panel (4) and the adhesive (7) are prepared by using the following composite polymer emulsion having the above-mentioned composition. It can be produced by mixing with a main agent having

White cement 28% Silica sand (SiO ₂ ) 71.6% Iron powder (Fe ₃ O ₄ ) 0.2% Zinc white (ZnO) 0.1% Titanium white (TiO ₂ ) 0.1% The reinforcing panel (4) and adhesive (7) are Both have excellent physical and chemical properties, and in particular, the adhesive force and tensile strength possessed by them can effectively prevent the occurrence of cracks. In addition, the reinforcing panel (4) composed of the composite polymer emulsion and the main agent and the adhesive (7) are also excellent in water permeability, and can effectively prevent the retention of water in the floor slab (1), and the concrete. Corrosion of the floor slab (1) can be reliably prevented.

[Brief description of drawings]

FIG. 1 is a sectional side view of a floor slab portion reinforced by the method for reinforcing a concrete structure according to the present invention, FIG. 2 is a plan view of a connecting portion of a reinforcing panel, and FIG. 3 is a detail of a reinforcing panel connecting means. FIG. 4 to FIG. 9 are explanatory views of the structure of the reinforcing method using the reinforcing panel connecting means, FIG. 10 is a structural explanatory view of other reinforcing panel connecting means, and FIG. 11 to FIG. It is explanatory drawing of the reinforcement method using a rivet anchor. In the figure, (1): Concrete floor slab (2): Outer surface (3): Crack (4): Reinforcement panel (5): Reinforcing bar (6): Reinforcing bar (7): Adhesive (10): Inserting connecting rod Hole (11): Connecting rod (12): Adhesive (13): Washer (14): Thread (15): Spring (16): Nut (17): Temporary plug (18): Riveting washer (19) : Rivet anchor (A): Connection part (B): Fixed connection means

Claims (1)

[Claims] 1. A composite polymer emulsion containing carboxy-modified styrene butadiene and cycloxyl methacrylate as main components is mixed in advance with a base material containing silicon oxide, calcium oxide and iron oxide as main components, mortar or concrete. , A reinforcing material is further mixed into the mixture, and then the mixture containing the reinforcing material is molded and dried to produce a flat plate-shaped reinforcing panel, and the reinforcing panel is attached to the outer surface of a concrete structure such as a concrete floor slab. A method for reinforcing an outer surface of a concrete structure, which comprises reinforcing the outer surface of the concrete structure by adhering it with an adhesive having the same composition as that of the reinforcing panel.