KR20010110241A - The panel reinforcement method of construction in negative moment section of bridge - Google Patents

Abstract

The present invention relates to a bridge deck panel reinforcement method damaged by a parent cement, and after fixing a plurality of panels of a predetermined width in the parent cement action section of the bridge deck fixed by anchor bolts, the concrete surface between the panel and the panel cracked outside the panel After sealing with the adhesive sealing material, by installing the injection port in the elastic plate and injecting the adhesive grout material, to achieve the effect of integrating the structure and additionally install the tensile reinforcement and at the same time to completely reinforce the damaged crack.

That is, according to the present invention, after cutting ascon and concrete by cutting a certain section of ascon to the damaged part by the parenting action of the bridge deck, and then cutting the floor piece block and cracking through V-shaped after chipping and cleaning the concrete, reinforcement The panel is attached and secured with anchor bolts, the surroundings of the reinforcement panel and the cracks are sealed, an injection port and an exhaust port are installed, and grout material is injected through the injection port to fill the cracks and the interspaces. Provides a bridge deck panel reinforcement method that is damaged by parenting by dismantling and top-surface resurfacing.

Through this, the bridge deck panel reinforcing method is provided as a parent to integrate the structure, thereby obtaining the effect of additionally installing the tensile reinforcing bar, and at the same time, reinforcing the damaged cracks perfectly, regardless of the bridge type. This structure can be reinforced after removing a part of the concrete covering part with little damage to the structure, thereby ensuring the thickness of asphalt and concrete pavement after construction, as well as the present invention, the lack of reinforcement of the bridge In the situation where the top plate should be individualized, it has the same effect as installing additional reinforcing bars without reworking for reinforcing bar installation, thereby reducing the cost of construction and increasing economic efficiency.

Description

Bridge Panel Reinforcement Method Damaged by Parents {THE PANEL REINFORCEMENT METHOD OF CONSTRUCTION IN NEGATIVE MOMENT SECTION OF BRIDGE}

The present invention relates to a bridge deck panel reinforcement method damaged by a parent cement, and after fixing a plurality of panels of a predetermined width in the parent cement action section of the bridge deck fixed by anchor bolts, the concrete surface between the panel and the panel cracked outside the panel After sealing with the adhesive sealing material, by installing the injection port in the elastic plate and injecting the adhesive grout material, to achieve the effect of integrating the structure and additionally install the tensile reinforcement and at the same time to completely reinforce the damaged crack.

Due to the rapid growth of large traffic volume and the speed of vehicle driving due to the development of the industry, the passing load on structures such as bridges is changing greatly from the condition of the structure at the time of construction, and this increases in the case of structures such as concrete bridges. Failure to withstand the passing load of a given vehicle may result in cracking of a portion of the structure or, in severe cases, collapse of the entire structure.

In addition, slab bridges are generally divided into simple slab bridges constructed by placing one slab on a plurality of piers or supports, and continuous slab bridges constructed by continuously placing a plurality of slabs in a plurality of piers in a longitudinal direction. The slab is properly designed and constructed to withstand the construction area traffic and other expected design loads.

By the way, since the slab bridge is constructed with the expected design load in advance, when the passing load of the vehicle is larger than the expected passing load, the safety problem arises and re-establishment is necessary. Thus, the slab already constructed In the case of reinforcement of bridges, simple slab bridges use steel plate bonding methods for attaching steel plates to static moments (i.e., lower slab bottoms), high-strength fiber reinforcement methods, and H-shaped steel that extends from the middle of the slab to the vicinity of both sides. The reinforcement was carried out by using an H-beam expansion method or the like in which a pedestal was installed substantially vertically near the end of the H-beam.

However, in the case of the continuous slab bridge, when it is necessary to repair and reinforce the parent part (i.e. near the pier of the slab), the slab is placed on the pier and it is very difficult to work such as lifting the slab during repair. There was no example of applying the construction method such as reinforcement of reinforcement and increase of load capacity. Therefore, when re-establishment is needed due to corrosion of concrete and reinforcing steel due to crack of slab, it was necessary to lift the entire slab and replace it with new slab. There was a problem that the cost increased, and during the re-establishment period, there were various problems, such as the need to control traffic for a long time, resulting in economic loss.

On the other hand, most of the continuous bridge constructions that have been constructed so far have caused cracks in the bottom plate concrete of the inner branch as it is constructed without proper response to the parent moment occurring in the inner branch. In addition, the PSC beam bridge is constructed by continuously processing beams made of simple beams with cross beams and slabs, and the moment redistribution due to creep and dry shrinkage of concrete increases with time. Therefore, cracks occur in the bottom plate of the parent section.

As a result, this crack has a structurally disadvantageous behavior, that is, a simple beam or a beam close to the simple beam, which causes a large moment in the constant moment section, as well as an increase in deflection and vibration, which adversely affects usability and durability. In order to make up for the shortcomings, a method of constructing and repairing a continuous beam bridge by loading is proposed, which is advantageous when the site condition is suitable for the loading and another method when the loading condition is not suitable. There is a limit to thinking.

In addition, as a repair or reinforcement method of such a structure, a method of reinforcing the reinforcement amount of a structure by attaching a steel plate to the bottom or outer surface of the structure is known. Whether it is well attached or not is the key to the construction, and the adhesion of the iron plate depends on whether the filler injected between the iron plate and the concrete structure is evenly charged over the entire filling space and whether the filler is properly cured. It depends.

The present invention improves the conventional problems as described above, and after fixing a plurality of panels of a certain width in the anchoring section of the bridge top plate fixed with anchor bolts, the concrete surface cracked between the panel and the panel with an adhesive sealing material outside the panel. After sealing, by installing the injection hole in the elastic plate and injecting the adhesive grout material, it provides the bridge top panel reinforcement method that is damaged by the parent cement to integrate the structure to obtain the effect of installing the tensile reinforcing bar additionally at the same time damaged crack It is aimed at perfect reinforcement until.

In addition, the present invention is capable of reinforcing after removing a part of the concrete covering part in a state of almost no damage to the structure regardless of the bridge type, it is possible to ensure the thickness of the asphalt, concrete pavement after construction For other purposes.

In addition, the present invention has the same effect as installing additional reinforcing bar without rebuilding for the reinforcement in the situation that the top plate of the bridge due to the lack of reinforcement, thereby reducing the construction cost to increase the economics Another purpose.

1 is a moment diagram applied to the bridge deck

Figure 2 is a plan view of the method according to the invention

Figure 3 is a longitudinal sectional view of the construction method according to the present invention

4 is a cross-sectional view taken along the line A-A 'of FIG.

Figure 5 is a cross-sectional view of the configuration of the reinforcement panel according to the present invention

6 is a cross-sectional view taken along the line C-C 'of FIG.

7 is a cross-sectional view taken along the line D-D 'of FIG.

8 is a construction sequence diagram of the panel reinforcing method according to the invention

[Description of Symbols for Main Parts of Drawing]

1: Reinforcement panel 2: Anchor bolt

3: grout material 10: top plate

11: concrete 12: ascon

13 crack part 14 space part

15: injection hole 16: exhaust port

The present invention relates to a bridge deck panel reinforcement method damaged by a parent cement, and after fixing a plurality of reinforcement panels of a certain width in the parent section action section of the bridge deck fixed by anchor bolts, and the concrete surface cracked between the reinforcement panel and the reinforcement panel After sealing the outside of the reinforcement panel with an adhesive sealing material, install an injection hole in the reinforcement panel and inject the adhesive grout material, thereby achieving the effect of integrating the structure and installing additional reinforcing bars, and at the same time, even the damaged cracks. Characterized by reinforcement.

As shown in the moment diagram of FIG. 1, the bridge top plate is different from the static moment acting on the center portion of the bridge top plate 10 by the load due to the portions supported by the bridge 20 as both points. In the vicinity of the piers 20 supporting the (10), i.e., the point where the bending moment is the maximum inflection point up to a quarter of the maximum plate length, the parent moment acts. 1) Attached to reinforce the damaged bridge, the detailed description is as follows.

That is, as shown in Figure 2, the parent portion of the bridge top plate 10 mounted on the bridge 20 is provided with a plurality of reinforcement panel 1 at a proper interval of 1 to 10 or more ratio of horizontal and vertical, Attached so that the longitudinal direction of the bridge top plate 10 and the longitudinal direction of the reinforcement panel 2, the construction position can be confirmed well through the longitudinal cross-sectional view of FIG.

At this time, the reinforcing panel (1) attached to the parent action portion is composed of a steel material and fiber, which is fixed by the anchor bolt (2), as shown in the AA 'line cross-sectional view of Figure 4, the bridge top plate 10 Combining the slab concrete 11 and the reinforcement panel 1 by fastening with a plurality of anchor bolts (2) at a predetermined interval in the state in which the reinforcement panel (1) attached to the slab concrete (11) constituting the Ascon (ASCON) 12, that is, it is constructed in the form of paving asphalt concrete (Asphalt Concrete).

In addition, where the anchor bolt 2 is fastened to the reinforcement panel 1 and installed, the reinforcement panel 1 and the anchor bolt 2 are more firmly integrated by welding, and integrated around the reinforcement panel 1. After injecting and filling a sealing material, the grout material 3 is injected and filled into the space 14 between the surface of the reinforcement panel 1 and the concrete 11, thereby filling the lower slab concrete ( 11) and the reinforcing panel (1), anchor bolts (2) for fixing are all integrally composed of one, which is shown well in Figures 6 and 7.

Looking at this method of the present invention in more detail as a specific embodiment according to the construction process, as shown in Figure 8, by cutting the upper surface ascon 12 of the bridge deck plate 10 damaged by the action of the parent by a certain period and After breaking up the part ascon 12 and concrete 11 of the bridge top plate 10 of the cut section, hole chipping the surface of the removed concrete 11 and cleaning it cleanly so that there is no foreign matter, and then the bottom piece is uniform. The cracks are cut into V-shapes to make them smooth.

The ratio of width to length is greater than 1: 10, and the length of the chemical anchor and set anchor is long and thick with the reinforcement panel (1) made of steel and elastic fiber attached. A thick anchor bolt 2 is installed to integrate the reinforcement panel 1 on the concrete 11.

Then, an epoxy putty is injected as a sealing agent around the reinforcement panel 1, that is, between the reinforcement panel 1 and the surface of the concrete 11 and the joint portion of the anchor bolt 2. And, the V-shaped cut portion of the crack 13 is sealed, until the strength to withstand the injection pressure during the injection of the grouting agent 3 into the space 14, preferably 20 ℃ After curing for about 24 hours, the inlet port 15 is installed on the reinforcement panel 1 at regular intervals on the reinforcement panel 1, while the exhaust port 16 is installed at both edges thereof, and through the inlet port 15. Adhesive grout material (3) is injected, wherein the grout material (3) uses an epoxy (epoxy) sheet metal adhesive, which is injected at a pressure of about 5 ~ 10 kg / cm ² was based on 20 ℃ When solidified within 90 minutes, the injected grout material (3) Filled in the space portion 14 between the anchor bolt 2 and the concrete 11 surface for fixing the reinforcement panel 1 between the reinforcement panel 1 and the lower concrete 11 surface, including the V-shaped cut portion. When the grout material 3 is filled in the space portion 14, the space 14 is discharged through the exhaust port 16.

As such, when the grout material 3 is filled in the crack 13 and the interspace 14, the injection port 15 and the exhaust port 16 are removed, and the top surface is treated, and then the asphalt concrete 12 is disposed thereon. ) And repackaging the parent part of the bridge deck (10).

As described above, the bridge deck panel reinforcing method according to the present invention is not limited to the one taken in the above embodiment, it is utilized in various forms to attach the panel to reinforce the damaged portion by the action of the parent to the bridge deck of various forms Can be.

The present invention provides a bridge deck panel reinforcing method as a parent to integrate the structure to obtain the effect of additionally installing the tensile reinforcement and at the same time has the effect of fully reinforcement to the damaged cracks.

In addition, the present invention is capable of reinforcing after removing a part of the concrete covering part in a state of almost no damage to the structure, regardless of the type of bridge, the advantage of ensuring the thickness of the asphalt, concrete pavement after construction have.

In addition, the present invention has the same effect as installing additional reinforcing bar without rebuilding for reinforcement in the situation that the top plate of the bridge due to lack of reinforcement, thereby reducing the cost of construction to increase the economic efficiency It works.

Claims (1)

After cutting the ascon and concrete in the section damaged by the parenting action of the bridge deck, break the ascon and concrete, cut the block and adjust the cracks to the V-shape through chipping and cleaning the concrete, and then attach the reinforcement panel to it. Fixing with anchor bolts, sealing the periphery of the reinforcement panel and the cracks to install the inlet and exhaust ports, injecting grout material through the inlet to fill the cracks and the interspaces, then remove the inlet and exhaust ports and the top surface treatment Reinforced bridge deck panel reinforcement method, which is made by resurfacing ascon.