KR101229262B1 - Construction method for structure reinforcing of bridge using fiber panel - Google Patents

Abstract

PURPOSE: A construction method of a repairing and stiffening structure for a bridge using a fiber panel is provided to prevent the erosion of steel reinforcements and concrete by blocking the infiltration of seawater and salinity and the separation of a fiber panel from a repaired or a stiffened area, thereby securing the stability of a bridge. CONSTITUTION: A construction method of a repairing and stiffening structure for a bridge using a fiber panel comprises the following steps: cleaning the surface of the repairing and stiffening area of a concrete structure(400); uniformly treating the damaged area of a concrete structure; installing multiple anchors(200) with a fixed distance on the repairing and stiffening area; and attaching a fiber panel(100) equipped on one side with multiple anchor hanger parts(110) to hang on an anchor to the repairing and stiffening area by an adhesive(300).

Description

Construction method for structure reinforcing of bridge using fiber panel

The present invention relates to a method for constructing a repair reinforcement structure of a bridge using a fiber panel, and to repair a bridge using a fiber panel to prevent stable water reinforcement by preventing ingress of water without falling off from a bridge or a bridge of a concrete structure. It relates to a construction method of the reinforcing structure.

In general, concrete structures such as bridges, retaining walls, tunnels, building walls, and structures such as breakwater breakwaters, locks, flood gates, and aqueducts, which are close to the coast, are deteriorated with external factors (shocks, chemicals, seawater, etc.) or their physical properties over time. As a result, cracking, corrosion and peeling, exposure to rebar, whitening, and sagging are caused. In particular, cracks, such as cracks, may cause worst-case events such as collapse. It is well known that we are working.

The reinforcement of such concrete structures can be roughly classified into recovering the decrease in strength and increasing the structural strength to suit the purpose of use. First, in order to repair and reinforce the cracked structure (structure), the strength of the concrete structure is investigated in advance. After identifying the cause, a suitable reinforcement method should be determined to fully compensate for the cause.

Conventional concrete structure reinforcement method is a steel plate adhesive reinforcement method, but the steel plate adhesive reinforcement method is excellent in reinforcement performance against earthquakes because of the use of high strength steel sheet, but due to the heavy weight has a low workability, due to the characteristics of the steel sheet There was a problem that requires constant maintenance because of corrosion.

In order to solve this problem, an attachment method using a fiber sheet or a fiber panel is used.

The fiber sheet or the fiber panel is attached to the outer surface of the concrete structure through the adhesive, but there is a problem that the fiber sheet and the fiber panel is separated from the concrete structure over time because it is simply attached through the adhesive.

In order to solve this problem, a method of fixing the fiber sheet and the fiber panel through the anchor has been implemented.

For example, Patent No. 10-1166216 discloses a reinforcing method using a composite fiber panel, and fixed the fiber panel by installing an anchor in a concrete structure to penetrate the fiber panel, but because the anchor penetrates the fiber panel, There is a problem that the water is seeped into the through part eroded concrete.

Particularly, in the case of concrete structures installed in the ocean, salt penetrates into the penetration portion of the anchor to corrode reinforcing bars, cracks may occur, and concrete may drop out or the strength may decrease.

Patent Publication No. 10-2003-0049305 Patent Publication No. 10-2006-0073012 Patent Registration 10-1166216

An object of the present invention for solving the above problems, to prevent the intrusion of salts by reinforcing the repair reinforcement portion of the concrete structure without the fiber panel is penetrated by the anchor, and assembled by hanging the fiber panel on the anchor The installation is simple and easy to install, and it is fixed by an adhesive in a physically fixed state through an anchor, so it does not fall off over time. To provide a construction method.

The present invention to achieve the object as described above and to perform the problem for removing the conventional defects, a plurality of anchors are installed in the repair reinforcement portion of the concrete structure; A fiber panel installed at a repair reinforcement part to be hooked to the anchor through an anchor locking part provided at one side; And an adhesive applied between the fiber panel and the repair reinforcement portion to attach the fiber panel.

The anchor engaging portion is formed with an anchor insertion groove which is formed so that the anchor pin head of the anchor can be inserted, and is formed to be continuous with the anchor insertion groove, but is formed to have a diameter smaller than the diameter of the anchor insertion groove so that the head of the anchor pin may be caught. Characterized in that the anchoring groove is formed to enable.

Meanwhile, the present invention provides a surface treatment step of cleaning the surface of the repair reinforcement part of the concrete structure and making the damage part uniform; An anchor installation step of installing a plurality of anchors on the surface-repaired reinforcement site; And a fiber panel installation step of attaching the anchor engaging portion of the fiber panel having a plurality of anchor locking portions on one side to be hooked to the anchor, while being attached to the repair reinforcement portion by an adhesive while being caught by the anchor. do.

In addition, the fiber panel is characterized by consisting of aramid fibers.

In addition, the anchor engaging portion, the anchor insertion groove is formed so that the head of the anchor pin can be inserted, is formed to be continuous with the anchor insertion groove, characterized in that the anchor engaging groove is formed to have a diameter smaller than the diameter of the anchor insertion groove. It is done.

In addition, in the surface treatment step, the fast-hard mortar is poured into the repair reinforcement site, characterized in that for repairing the damage evenly.

As described above, according to the present invention, the fiber panel is fixed through the anchor, but the anchor does not penetrate the fiber panel, thereby preventing the ingress of seawater and salt, thereby preventing erosion of the concrete and corrosion of the steel. It is a very useful invention that ensures stability and prevents separation of the fiber panel from the repair reinforcement site even after a long time by fixing the fiber panel by the anchor, thereby stably recovering the broken section and reducing the maintenance cost. .

1 is an exemplary view showing a state in which a repair reinforcement part is generated in a pier of a concrete bridge;
2 is an exemplary view showing a fiber panel according to the present invention,
Figure 3 is a cross-sectional view showing a state before installation of the repair reinforcement site using the fiber panel of the present invention,
Figure 4 is a cross-sectional view showing a state after installation of the repair reinforcement site using the fiber panel of the present invention,
5 is an exemplary view showing a state in which construction after pouring the fast-hard mortar on the damaged portion of the piers during construction according to the present invention.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is an exemplary view showing a state in which a repair reinforcement site is generated in a bridge of a concrete bridge, Figure 2 is an exemplary view showing a fiber panel according to the present invention, Figure 3 is before installation of a repair reinforcement site using a fiber panel of the present invention Sectional view showing the state, Figure 4 is a cross-sectional view showing a state after the installation of the repair reinforcement site using the fiber panel of the present invention, Figure 5 is a construction after pouring a fast-moving mortar on the pier damage site of the concrete bridge during construction according to the present invention As an illustration showing the state to

The repair reinforcement structure of the concrete structure of the present invention is to be installed in the repair reinforcement portion 410 formed in the reinforced concrete structure 400, as shown in Figure 1, the concrete structure 400, the bridge piers 401 or alternating Etc.

The present invention provides a plurality of anchors 200 installed on the repair reinforcement portion 410 of the concrete structure 400, and the anchor engaging portion 110 is provided on one side to be caught in the anchor 200 anchor ( The fiber panel 100 is installed on the repair reinforcement part 410 while not being exposed to the outside, and is applied between the fiber panel 100 and the repair reinforcement part 410 to attach the fiber panel 100. It is configured to include an adhesive 300 to enable.

The anchor 200 includes a sleeve 210 embedded in concrete and an anchor pin 220 installed in the sleeve 210, and two heads of the anchor pin 220 are anchored by the anchor portion ( 110).

The fiber panel 100 may be produced in various forms, but in the embodiment of the present invention is configured to have a square shape.

In addition, it is preferable to constitute an aramid fiber having excellent tensile strength, toughness and heat resistance and having high strength and high modulus.

Since the fiber panel 100 is composed of aramid fibers, the thermal stress due to the temperature difference is reduced due to the low coefficient of thermal expansion of the aramid fibers, and it is possible to secure stability by having excellent toughness even at cryogenic temperatures.

The fiber panel 100 configured as described above is attached to the repair reinforcement portion 410 of the concrete structure 400 to reinforce the strength to withstand the external strength or load of the concrete structure 400.

In addition, the fiber panel 100 can be installed to be bent in accordance with the outer surface of the concrete structure even when the outer surface of the concrete structure is formed in a round shape to some extent bendable as a flexible material.

Meanwhile, the anchor catching part 110 installed in the fiber panel 100 may be installed at the corner portion of the fiber panel 100 as shown in the drawing so that each corner portion of the fiber panel 100 is hooked to the anchor 200. By doing so, the fiber panel 100 can be attached stably.

Anchor insertion groove 111 is formed in the anchor engaging portion 110 so that the head of the anchor pin 220 can be inserted, is formed to be continuous to the upper portion of the anchor insertion groove 111, anchor insertion groove 111 Anchor engaging groove 112 is configured to have a diameter smaller than the diameter of).

That is, the anchor insertion groove 111 and the anchor engaging groove 112 are formed in the shape of a slot, and the head of the anchor pin 220 is inserted into the anchor insertion groove 111 and then the diameter is relatively larger than the anchor insertion groove 112. The fiber panel 100 is installed by being caught in the small anchoring groove 112.

The fiber panel 100 configured as described above is connected to the anchor 200 installed at the repair reinforcement part 410 of the concrete structure 400 through the anchoring part 110 through the adhesive 200. By being chemically bonded, it can be stably attached to the repair reinforcement part 410 without falling off, thereby protecting the cross section of the concrete.

In particular, even after a long period of time after the reinforcement reinforcement, it is attached stably without falling off the concrete.

In addition, the present invention is a structure in which the fiber panel 100 is installed to be hooked to the anchor 200 through the anchor catching portion 110, the anchor 200 does not penetrate the fiber panel 100, the moisture or salt It will not penetrate.

That is, when the anchor 200 is installed in the concrete structure 400 by penetrating the fiber panel 100 as in the related art, water must penetrate into the penetrated portion of the fiber panel 100, and especially in the marine environment. By rusting occurs in the baekhwa phenomenon or reinforcing bars, the present invention is installed in the structure that the fiber panel 100 is fitted without being penetrated, so that the penetration of water or salt can be secured to ensure the stability of the concrete structure 400 Will be.

The adhesive 300 is applied to the repair panel reinforcement portion 9410 of the fiber panel 100 and the concrete structure 400 as a conventional epoxy resin is filled in the cracked or damaged portion of the repair reinforcement portion 410 and the fiber panel Attach (100).

Referring to the construction process of the repair reinforcement structure of the present invention configured as described above, the surface treatment step of cleaning the surface of the concrete reinforcement reinforcement part 410 first and to make the damaged part uniform, and the surface treatment step Since the anchor installation step of installing a plurality of anchors 200 at regular intervals in the repair reinforcement portion 410, and the fiber is provided with a plurality of anchor engaging portion 110 on one side to be caught in the anchor 200 The panel 100 is configured to include a fiber panel installation step of attaching to the repair reinforcement portion 410 through the adhesive 300 while the anchoring portion 110 is anchored.

Here, the reinforcement reinforcement part 410 is typically formed when the concrete structure 400 is a bridge, a lot is generated in the pier or the alternating and is scoured by running water or broken by an external impact.

On the other hand, when the width or depth of the damaged part in the surface treatment step is deep, as shown in FIG. 5, the fast-hard mortar 500 can be cast on the damaged part to uniformly finish the surface of the damaged part.

The anchor 200 in the anchor installation step is installed in accordance with the interval between the anchor engaging portion 110 of the fiber panel 100 to be installed so that the fiber panel 100 can be installed at a predetermined interval.

The fiber panel installation step is to insert the head of the anchor pin 220 into the anchor insertion groove 111 formed in the anchor engaging portion 110 and then lower the fiber panel 100 in the downward direction anchor insertion groove 111 It is installed while the head of the anchor pin 220 is caught in the anchor engaging groove 112 having a smaller diameter than).

Since the fiber panel 100 is physically fixed to the repair reinforcement portion 410 of the bridge through the anchoring portion 110, the fiber panel 100 is firmly fixed without falling off from the repair reinforcement portion 410.

In addition, the fiber panel 100 is installed in such a way that one side of the fiber panel 100 is not pierced by the anchor 200, thereby preventing the concrete from being eroded by the salt of the seawater or the water of the river, and preventing the reinforcing steel in the concrete from corrosion. Long term stability can be achieved to reduce maintenance costs.

On the other hand, the present invention can be installed in a variety of concrete structures, such as harbor facilities installed on the river or the sea, the breakwater, breakwater, lock, water gate, aqueduct bridge in addition to the repair reinforcement site formed in the bridge pier or bridge of the concrete structure 400.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100: fiber panel 110: anchoring portion
(111): Anchor insertion groove (112): Anchor locking groove
200: anchor 210: sleeve
(220): anchor pin (221): tofu
300: adhesive 400: concrete structure
401: pier 410: repair reinforcement site
500: fast-acting mortar

Claims (4)

delete A surface treatment step of cleaning the surface of the repair reinforcement part of the bridge and casting the damaged part with a fast-hard mortar to make the damaged part even;
An anchor installation step of installing a plurality of anchors on the surface-repaired reinforcement site;
The anchor insertion groove into which the anchor is inserted and the anchor insertion groove are formed to have a diameter smaller than the diameter of the anchor insertion groove so that the head of the anchor inserted through the anchor insertion groove can be caught. An aramid fiber panel having an anchor catching portion configured to be included on one side to be hooked to the anchor, the anchor catching portion is provided so as not to penetrate the aramid fiber panel, the aramid fiber panel attached to the repair reinforcement portion through an adhesive Installation step; Construction method of the bridge reinforcement structure using a fiber panel, characterized in that configured to include.






delete delete

Images