JP2559342B2 - Reinforcement structure of existing concrete floor slab - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing structure for an existing concrete floor slab.

[0002]

2. Description of the Related Art Conventionally, as a reinforcing structure for an existing concrete floor slab, a structure in which a steel plate is attached to the existing concrete floor slab has been adopted. This reinforcement structure, as shown in FIG.
A steel plate 21 is fixed to the lower surface of the existing concrete floor slab 2 with anchor bolts 22, and a resin filler 20 is injected into a gap between the existing concrete floor slab 2 and the steel plate 21 from an injection pipe 24 provided in the steel plate 21. 21 and the existing concrete floor slab 2 are bonded and formed. That is, this reinforcing structure is intended to improve the load bearing performance of the existing concrete floor slab 2 by bearing the tensile stress acting on the lower surface of the existing concrete floor slab 2 by the steel plate 21 as the tensile reinforcing material. is there.

Other than this, as shown in FIG.
Directly on the bottom surface of the existing concrete floor slab 2, carbon fiber cloth 1b
To the existing concrete floor slab with a resin adhesive
There are also those that try to improve the load bearing performance of.

[0004]

However, in the reinforcing structure which is reinforced by the steel plate 21, the work of fixing the steel plate 21 to the existing concrete floor slab 2 or the gap between the existing concrete floor slab 2 and the steel plate 21 is filled with resin. The work of pouring the material 20 must be performed by the worker facing upwards at a high place, and since the weight of the steel plate itself is large, the work was not easy.

In addition, in the reinforcing structure in which the carbon fiber cloth 1b is attached to the lower surface of the existing concrete floor slab 2, although the carbon fiber cloth 1b is lightweight and easy to install, it is thin and resistant to tensile stress. Since there is a limit, the effect of reinforcing the existing concrete floor slab 2 is also limited.

The present invention has been made to solve the above-mentioned problems, and its purpose is to minimize the upward work of the worker in the reinforcement work of the concrete floor slab and to achieve the load-bearing performance of the existing concrete floor slab. The present invention aims to provide a reinforcing structure for a concrete floor slab that can be easily constructed by improving the property and reducing the weight of the reinforcing material used for the reinforcing work.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above objects, and its gist is to form a reinforcing plate by previously adhering a reinforcing fiber cloth on one side of a lightweight cellular concrete plate. The reinforcing structure of the existing concrete floor slab is obtained by sticking the lightweight cellular concrete slab surface of the reinforcing plate to the back surface of the existing concrete floor slab.

In the reinforcing structure of the existing concrete floor slab of the present invention, the reinforcing fiber cloth is made of any one material of glass fiber, carbon fiber and vinyl fiber, or
A material formed by mixing some of these materials as a main raw material can be used.

[0009]

The function of the existing concrete floor slab of the present invention is as follows:
By attaching a lightweight cellular concrete slab and a carbon fiber cloth to the back side of the existing concrete floor slab, the distance from the upper surface of the existing concrete floor slab to the neutral axis is the case of the existing concrete floor slab only, or the existing concrete floor slab. The size will be larger than when the carbon fiber cloth is simply attached to the back of the plate. Therefore, if the load acting on these existing concrete floor slabs is the same, the compressive stress level acting on the compression side concrete of the existing concrete floor slab and the tensile stress acting on the tensile side reinforcing bars and carbon fiber cloth of the existing concrete floor slab As a result, the load-bearing performance can be improved as compared with that before the reinforcement and the existing concrete floor slab to which only the carbon fiber cloth is attached.

[0010]

EXAMPLES The reinforcing structure for an existing concrete floor slab of the present invention is adopted as a reinforcing structure for a concrete floor slab of an existing bridge, and an example thereof will be described in detail with reference to the accompanying drawings.

FIG. 1 is a cross-sectional view of an existing bridge which is being reinforced by adopting the reinforcing structure for an existing concrete floor slab of the present invention, and FIG. 2 is a cross-section taken along line II-II of FIG. FIG. 3 (b) is a partially enlarged sectional view of the existing concrete floor slab of FIG. 1 simply shown. The reinforcing structure of the existing concrete floor slab of the present invention is, as shown in FIGS. 1, 2 and 3 (b), a carbon fiber cloth 1b as a reinforcing fiber cloth in advance.
Is attached to one side of the lightweight cellular concrete slab 1a with an adhesive to form a reinforcing plate 1, and the surface of the lightweight cellular concrete slab 1a of the reinforcing plate 1 is attached to the back surface of the existing concrete floor slab 2. Form.

Here, inside the lightweight cellular concrete slab 1a, reinforcing bars or mesh bars (not shown) as reinforcing bars are provided.
Is embedded, and such a lightweight cellular concrete slab 1
For a, the one manufactured in advance in the factory is used. Further, the work of adhering the carbon fiber cloth 1b to the lightweight cellular concrete slab 1a can be performed in a manufacturing plant of the lightweight cellular concrete slab, a stockyard at a construction site, or the like. In addition,
The present invention is not limited to the concrete floor slab of the existing bridge illustrated in the present embodiment, but can be applied to other buildings and civil engineering structures.

Next, a method of constructing a reinforcing structure for an existing concrete floor slab of the present invention will be described.

First, a scaffold for work is assembled on the back side of the existing concrete floor slab. This scaffold includes a rod-shaped support member 6 having an upper end 6a fixed to the back side of a bridge by anchor bolts, a steel pipe 7 fixed to a lower end 6c of the support member 6, and the steel pipe 7 in parallel with each other. The suspension scaffold 10 is suspended by a chain 8 downward by a predetermined length, and the scaffold plate 9 is fixed on the suspension scaffold 10 so as to be substantially orthogonal to the suspension scaffold 10.

Next, the reinforcing plate 1 is carried by a crane or the like onto the scaffolding plate 9, and the adhesive is applied to both the surface of the lightweight cellular concrete plate 1a of the reinforcing plate 1 and the back surface of the existing concrete floor slab 2 there. Apply. Then, the reinforcing plate 1 is lifted up to the back surface of the existing concrete floor slab 2, and the reinforcing plate 1 is supported by the reinforcing plate support member 5 while being pressure bonded to the back surface of the existing concrete floor slab 2. At this time, the reinforcing plate 1 has dimensions of length × width × thickness of about 200 × 50 × 3 cm to 200 × 70 × 3 cm and a weight of about 50 to 75 kg. The work can be easily performed by two workers.
Therefore, the other worker is working on the reinforcing plate supporting member 5
If the reinforcing plate 1 is fixed by, the reinforcing plate crimping step can be easily performed by about three workers. Here, the reinforcing plate support member 5 includes, for example, a support angle 5d formed by welding two angle members and overlapping them in a T shape.
At each end of this support angle 5d, two elastic members 5b pivotally attached by two pins 5c (in FIG. 1, since one elastic member 5b is hidden behind the other elastic member 5b, only one elastic member 5b is hidden). And the elastic material 5b.
Uses a turnbuckle 5a at the center.
When the reinforcing plate 1 is pushed up and supported by the support angle 5d, the turnbuckle 5a is used to stretch the elastic member 5b.
To stretch.

When the adhesive between the reinforcing plate 1 and the existing concrete floor slab 2 is sufficiently cured, the reinforcing plate supporting member 5 is removed.
By repeating the above steps, the target section of the reinforcing work of the existing concrete floor slab 2 is constructed.

Next, the operation of the reinforcing structure for the existing concrete floor slab of the present invention will be described with reference to FIG.

By attaching the lightweight cellular concrete slab 1a and the carbon fiber cloth 1b to the back surface of the existing concrete floor slab 2, the neutral axis N from the upper surface of the existing concrete floor slab 2 is attached.
Distance x ₁ to ₁ -N ₁ is as compared with the case of only existing concrete slab or if two or only existing concrete slab 2 of carbon fiber cloth 1b on the back surface, is are bonded (FIG. 4) growing. Therefore, if the load acting on the existing concrete floor slab 2, that is, the bending moment is the same, the compressive stress level acting on the concrete on the compression side (above the neutral axis) of the existing concrete floor slab 2 and the existing concrete floor slab 2 Reinforcing bar 4 on the tension side (below the neutral axis)
b, the tensile stress acting on the carbon fiber cloth 1b is also reduced, and as a result, as compared with the existing concrete floor slab 2 (Fig. 4) before reinforcement and on which only the carbon fiber cloth 1b is adhered,
The load bearing performance can be improved.

[0019]

The reinforcing structure of the existing concrete floor slab of the present invention is obtained by simply pasting the reinforcing plate having the reinforcing fiber cloth attached to one side of the lightweight cellular concrete slab on the back side of the existing concrete floor slab in advance. , It is possible to lower the neutral axis of the existing concrete slab, so that the compressive stress that acts on the concrete on the compression side of the existing concrete slab and the tensile force that acts on the reinforcing bars and carbon fiber cloth on the tensile side of the existing concrete slab. The stress level can also be reduced, and as a result, the load bearing performance of the existing concrete floor slab can be improved. Further, the tensile stress below the neutral axis caused by the load is borne by the reinforcing fiber cloth in addition to the reinforcing bars in the concrete, so that the load bearing performance can be further improved.

Since the existing concrete floor slab reinforcement structure of the present invention uses a lightweight cellular concrete slab,
The reinforcing plate can be made lighter in weight, and the reinforcing plate can be easily transported and lifted at the construction site.

Further, since the reinforcing structure of the existing concrete floor slab of the present invention is simply pasting the reinforcing plate on the back surface of the existing concrete floor slab, the upward work of the worker is performed by bonding the back surface of the existing concrete floor slab. It can be stopped only by the agent application work and the reinforcement plate lifting work.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of an existing bridge under construction in which the existing concrete floor slab reinforcement structure of the present invention is adopted for reinforcement.

FIG. 2 is a sectional view taken along line II-II of FIG.

FIG. 3 is a partially enlarged sectional view of FIG. 1 simply shown.

FIG. 4 is a partially enlarged sectional view showing a conventional example.

FIG. 5 is a cross-sectional view showing another conventional example.

[Explanation of symbols]

 1 Light-weight cellular concrete slab 2 Carbon fiber cloth (reinforcing fiber cloth) 3 Compressed PC steel 4 Existing concrete floor slab

Claims (1)

(57) [Claims] 1. A lightweight cellular concrete slab is preliminarily bonded to one side with a reinforcing fiber cloth to form a reinforcing plate, and the lightweight cellular concrete plate surface of the reinforced plate is bonded to the back surface of an existing concrete floor slab. Reinforcement structure of existing concrete floor slab.