KR20030059736A - Method of Construction of Concrete Structure For use Fiber-Reinforced Resin Fire Retardant Pannel - Google Patents

Abstract

PURPOSE: A process of reinforcing earthquake-proof bridge structure is provided to prevent a pier from being cracked by external vibrations, eroding by flowing water and corroding by salt water by means of fiber reinforced plastic. CONSTITUTION: The process of reinforcing earthquake-proof bridge structure is composed of: manufacturing fiber reinforced plastic panels(210a,210b) according to the shape of piers; arranging reinforcing bars; erecting the finished products around reinforcing bars; sealing and fixing the reinforced fiber reinforced plastic panels; pouring adhesive epoxy resin(240) through the panels to increase the adhesive force between concrete mortar and foundation concrete; placing concrete to make a reinforced pier.

Description

Method of construction of concrete structure for use fiber-reinforced resin fire retardant pannel

The present invention relates to a seismic reinforcement method using a fiber wrapping and fiber reinforced resin panel, and the construction method of the new structure using the same, in particular, the existing bridge piers (columns) long life by installing the reinforcing fiber wrapping and reinforcement fiber panel It relates to a method of reinforcing to withstand one vibration, and to the new structure to the durable reinforcement with a fiber reinforced panel that is integrated with concrete mortar that is poured into the reinforcement structure.

In general, when the construction of roads, railways, etc., when crossing obstacles such as rivers, roads, buildings, etc., bridges and overpasses will be constructed.

However, since the pier is exposed to the outside, after a long time after construction, there is a problem of cracking due to vibration applied from the outside and the strength of the pier being weakened by corrosion due to various pollutions. In addition to the above problems, the bridge piers installed in the seawater are not only eroded by water flow, but also in the case of sea water, which in turn causes weakening of the bridge's strength.

Conventionally, in order to solve the above problems, reinforcement by attaching concrete mortar to the cracked part of the pier or the part where the pier structure has fallen due to corrosion, or reinforce the steel plate by wrapping it around the pier. There is a method of reinforcing by injecting an epoxy resin, but the reinforcing effect is not obtained, such as corrosion occurs in the iron plate.

Accordingly, an object of the present invention is to solve the above-mentioned shortcomings, and to prevent cracks caused by vibration, neutralization caused by various pollutions, and water currents in existing piers (columns) or newly formed circular or rectangular pillars. It is to provide a seismic reinforcement method using fiber lapping and fiber reinforced resin panel which has improved strength and durability by preventing erosion and corrosion by salt.

Seismic reinforcement method using the fiber wrapping and fiber reinforced resin panel of the present invention to achieve the above object, in the reinforcement method of the column structure, such as bridges associated with the invention of claim 1, is coupled around the round or square pillar Preparing fibrous reinforcing panels of semi-circular or U-shaped cross-section structure; Wrapping the prepared reinforcing fibers along a periphery of the column for installing the fiber reinforcement panels to a predetermined thickness; Installing a pair of fiber reinforcement panels suitable for the pillars to the outside of the wrapped reinforcing fibers to wrap around the pillars, and sealing and fixing the joint portions; It is characterized in that it comprises the step of reinforcing by injecting the epoxy resin for adhesion to the reinforcing fiber side through the fiber reinforcement panel.

The reinforcing fiber is preferably one selected from fiber roving cloth, glass fiber, Kevlar fiber, aramid fiber, and carbon fiber.

In addition, the reinforcement method using the fiber reinforced resin panel of the present invention in the reinforcement method of the new structure related to the invention of claim 3, the fiber reinforced resin panel according to the shape of the structure, such as semi-circular, U-shaped so as to be disposed in the form of form around the structure Manufacturing step; Installing a pair of fiber reinforcement panels in the form of wrapping the reinforcement structures around the entire reinforcement structure for concrete mortar casting, and sealing and fixing the joint portions of the fiber reinforcement panels; And placing concrete mortar on the reinforced steel structure protected by the fiber reinforced panels to form a reinforced structure by integrating the fiber reinforced panels.

In the above, it is preferable to further perform an adhesive spraying step to ensure that the concrete before the concrete is laid and the concrete mortar.

In addition, the step is carried out the connection construction step of the fiber reinforced panel installed in the reinforcing bar structure.

In addition, the reinforcing fibers used in the fiber reinforced resin panel is any one selected from fiber roving cloth, glass fiber, Kevlar fiber, aramid fiber, and carbon fiber.

1 to 4 is a view showing the reinforcement work of the existing piers (columns) by the seismic reinforcement method using the fiber wrapping and fiber reinforced resin panel according to the present invention,

1 is a view showing a wrapping process of winding a reinforcing fiber on a column,

2 is a view showing a process of reinforcing by injecting epoxy resin after positioning the fiber reinforcement panels to the outside of the wrapped reinforcing fibers,

3 is a cross-sectional view taken along the line I-I of FIG. 1,

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

5 to 8 is a view showing a construction method using a fiber reinforced panel of a new piers (columns),

5 is a view showing a step of installing the reinforcing bar reinforcement on the foundation concrete as well as the form of the fiber reinforcement panel around,

6 is a cross-sectional view taken along line III-III of FIG. 5,

7 is a view showing a process of pouring concrete mortar on a reinforced steel structure protected by a fiber reinforced panel,

8 is a view showing a process of installing a reinforcement panel while constructing a joint connection to the upper part of the piers.

* Description of the symbols for the main parts of the drawings *

1: pier 3: foundation concrete

5: Rebar structure 100,400: 1st process

110: reinforcing fiber 200, 500: second process

210a, 210b, 410a, 410b, 460a, 460b: Fiber reinforced panel

220a, 220b, 420a, 420b, 480a, 480b: Joint area

430: concrete mortar 600: the third process

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

<Seismic Reinforcement Method of Existing Columns>

1 to 4 is a view showing the existing bridge reinforcement by the seismic reinforcement method using the fiber wrapping and fiber reinforced resin panel according to the present invention.

<1st process: 100>

FIG. 1 is a view illustrating a wrapping process of winding reinforcing fibers in a piers, and FIG. 3 is a cross-sectional view taken along the line I-I of FIG. 1.

The reinforcing fiber 110 prepared in advance over the entire circumference of the portion to be reinforced in the existing pier (1) is wrapped and fixed tightly (Wrapping) without a gap to a predetermined thickness. Wrapping method of the reinforcing fiber 110 is not a special method is carried out by workers by hand. In addition, the reinforcing fibers used are Fiber Roving Cloth, Glass Fiber, Kevlar Fiber, Aramide Fiber and Carbon Fiber.

<2nd step: 200>

2 is a view showing a process of positioning the fiber reinforcement panels to the outside of the wrapped reinforcing fibers.

After the pair of fiber reinforced panels 210a and 210b, which are pre-fabricated to the pillars outside the reinforcing fiber 110 wrapped in the pier 1, are installed in close contact with the pier to surround the pier 1 Sealing the joints (220a, 220b) by fixing.

The fiber reinforcement panels (210a, 210b) is made in the shape of the structure of the bridge (1), for example, circular or rectangular shape, in the present invention is a semi-circular fiber reinforced panel suitable for the circular piers (1) Fields 210a and 210b are shown as an example. In the square piers, it is preferable to form a panel having a substantially U-shaped cross-sectional structure.

Meanwhile, the fabrication method of the fiber reinforcement panels 210a and 210b is filed by the present applicant as the patent application No. 2001-79484, and a detailed description thereof will be omitted. However, in the present invention, according to the cross-sectional shape of the pier (1), the shape of the fiber reinforcement panels (210a, 210b) also has a semi-circular or c-shaped cross-section or a semi-circular or c-shaped cross-sectional structure having a flange portion and the source patent technology and It is different, but it can be changed as much as the shape of the mold. In addition, the fixing of the semi-circular fiber reinforced panels (210a, 210b) to the pier (1) is not separated from the pier (1) using a general automatic bar (aka: color) without using an anchor bolt or the like. After fixing, the joints 220a and 220b are sealed using a common sealing agent.

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

After the sealing material is cured, as shown in FIG. 4, the general epoxy resin 240 adhesive to the reinforcing fiber 110 through holes (not shown) pre-installed in the semicircular fiber reinforcing panels 210a and 210b. It is the process of reinforcing by injecting it. The injected epoxy resin 240 penetrates into the reinforcing fiber 110 side and hardens so that the pier 1 and the semicircular fiber reinforcing panels 210a and 210b are integrated to form a body, thereby piercing the pier 1 to a strong vibration or the like. Reinforcement to withstand. After the curing of the epoxy resin 240, the automatic bar that fixed the semi-circular fiber reinforcement panels (210a, 210b) with respect to the bridge (1) may be removed.

5 to 8 is a view showing the construction method of piers (columns) using a fiber reinforced panel.

<1st process: 400>

FIG. 5 is a view showing a process of installing a fiber reinforcement panel in a form of formwork around the reinforcement on the foundation concrete, and FIG. 6 is a cross-sectional view taken along line III-III of FIG. 5.

From the basic concrete 3 to form a reinforcement structure 5 by reinforcing the reinforcing bar in a desired shape, that is, circular or square, in the present invention, the reinforcing structure 5 is shown as an example to build a circular piers. A pair of fiber reinforcement panels 410a and 410b are installed to surround the reinforcing structure 5 at a predetermined distance from the reinforcing structure 5. The fiber reinforced panels 410a and 410b are manufactured to have a semi-circular shape suitable for the circular reinforcing structure 5, and are manufactured in the same manner as the fiber reinforced panels of the embodiment. In addition, the fiber reinforcement panels (410a, 410b) installed around the reinforcing structure (5) is fixed by a fixing means not shown so as not to flow from the reinforcing structure (5), which is a general method, so Detailed description will be omitted.

In addition, the joint portions 420a and 420b of the fiber reinforcement panels 410a and 410b installed in the reinforcing structure 5 are also sealed using a sealing material as in the embodiment.

<2nd step: 500>

FIG. 7 is a view showing a process of pouring concrete mortar on a reinforced steel structure protected by a fiber reinforced panel. FIG.

Before pouring the concrete mortar 430, the general adhesive 440 prepared in advance is sprayed into the interior of the fiber reinforcement panels 410a and 410b installed in the form of a form around the reinforcing steel structure 5. The spraying of the adhesive 440 is to ensure that the concrete mortar 430 to be described later is well bonded to the base concrete (3).

After spraying the adhesive 440, the general concrete mortar 430 is poured to the reinforcing structure 5 side, and after the concrete mortar 430 is poured, the form-fiber reinforcing panels (410a, 410b) and the structure Combined with (5) to form a new reinforced column.

<3 step: 600>

8 is a view showing a process of installing a reinforcement panel while constructing a joint connection to the upper part of the piers.

This process shows an example of connecting to the fiber reinforced panels (410a, 410b) installed in the reinforcing structure (5), the reinforcement of the lower body in the piers as described above semi-circular or c-shaped fiber reinforced panels (410a) However, the reinforcement of the upper part of the pier, that is, the portion supporting the upper plate (not shown), is different from the shape of the fiber reinforcement panels 410a and 410b. Reinforced by the fiber reinforced resin panels (460a, 460b), the fiber reinforced resin panels (460a, 460b) is also installed in the form of the same form as the fiber reinforced panels (410a, 410b), other reinforcement method The same as that performed in the fiber reinforcement panels 410a and 410b. The joint portions 480a and 480b of the fiber reinforced panels 410a and 410b and the fiber reinforced resin panels 460a and 460b are sealed as a sealing material, which is also carried out in the same manner as described above. do. By this method, it is excellent in the prevention of neutralization and durability due to various pollutions, excellent aesthetics, and a semi-permanent pier structure that is safe even from erosion and salt caused by water flow in the port structure.

As described above, according to the present invention, there is an effect of preventing cracks caused by vibration and neutralization due to various pollutions of existing piers (pillars) or newly formed piers (pillars), such as a circle or a square, In addition, the strength and durability are improved by preventing erosion by water flow and corrosion by salt.

Claims (5)

In the reinforcement method of a column structure such as a bridge, 1. A first process consisting of the following steps; And Ⓐ.Step of manufacturing fiber reinforced panels of semi-circular or c-shaped cross-section structure that can be joined around a circular or rectangular pillar Ⓑ.Wrapping the prepared reinforcing fiber closely to a predetermined thickness along the circumference of the column to be reinforced 2. Second process consisting of the following steps Ⓒ. Positioning the pair of fiber reinforcement panels to the outer side of the wrapped reinforcing fibers in the form of surrounding the pillar, Ⓓ.Fixing a pair of fiber reinforcement panels so as not to leave, Ⓔ.Sealing the joints of the fiber reinforcement panels, Ⓕ.The step of reinforcing by injecting the adhesive epoxy resin to the reinforcing fiber side through the fiber reinforcing panel, Seismic reinforcement method of the column using a fiber wrapping and fiber reinforced resin panel comprising a. The method of claim 1, wherein the reinforcing fibers are any one selected from fiber roving cloth, glass fiber, Kevlar fiber, aramid fiber, and carbon fiber. Seismic reinforcement method of column using fiber wrapping and fiber reinforced resin panel. In the method of manufacturing a structure such as a pier by pouring concrete mortar on the reinforced structure reinforced from the base concrete, 1. A first process consisting of the following steps; Ⓐ. Fabricated resin panel according to the shape of the structure, such as semi-circular, c-shaped so as to form a form around the structure, Ⓑ. The step of installing the fiber reinforced panels in the form of wrapping around the reinforcement structure at a position away from the reinforcement structure, Ⓒ.Sealing and fixing the joint portions of the fiber reinforced panels installed in the reinforcing steel structure 2. Second process consisting of the following steps Ⓓ.Spraying the adhesive to make the foundation concrete and concrete mortar bond well to the reinforcing steel structure before concrete placing Ⓔ.Place concrete mortar on the side of the reinforcing structure to form a reinforced column integrated with the fiber reinforcement panels Reinforcement method of the new structure using a fiber reinforced resin panel comprising a. According to claim 3, The step of reinforcing the new structure using a fiber reinforced resin panel, characterized in that further comprising the step of connecting the fiber reinforced panel is installed in the reinforced structure. 4. The method of claim 3, wherein the reinforcing fibers used in the fiber reinforced resin panel are selected from fiber roving cloth, glass fiber, kevlar fiber, aramid fiber, and carbon fiber. Reinforcement method of the new structure using a fiber reinforced resin panel, characterized in that any one selected.