KR101389734B1 - Method for repairing and reinforcing concrete structure by using anchor bolts having a drain hole therein - Google Patents

Abstract

The present invention relates to a method for repairing and reinforcing a structure using a water drain anchor which makes a structure repairing and reinforcing member in contact with the surface of a concrete structure and fixes the repairing and reinforcing member to the concrete structure. Provided is a method for repairing and reinforcing a structure using a water drain anchor which discharges the inside water of the concrete structure to the outside through a water drain hole formed at the center of an anchor bolt in the axial direction, and discharges the inside water of the reinforced structure to the outside through a discharge cap, which is formed in the anchor bolt and has a plurality of discharge holes to discharge water drained through the drain holes to the outside, after the concrete structure is repaired and reinforced so as to maintain reinforcing performance of the concrete structure. According to the present invention, the concrete structure reinforced after the concrete structure is repaired and reinforced can maintain reinforcing performance of the structure for a long period after reinforcement of the concrete structure because effectively draining and removing water to the outside. [Reference numerals] (AA) Reinforcing fiber panel or reinforcing fiber

Description

METHOD FOR REPAIRING AND REINFORCING CONCRETE STRUCTURE BY USING ANCHOR BOLTS HAVING A DRAIN HOLE THEREIN}

The present invention relates to a reinforcement method of a concrete structure that can be firmly installed on the concrete wall surface or ceiling surface where cracks are generated by using anchor bolts during remodeling and various renovation of old buildings, and more specifically, By using the water discharge anchor in the existing repair reinforcement method, it effectively removes the water inside the concrete structure in a simple manner, so that the structure reinforcement method using the improved water discharge anchor can be maintained for a long time after the reinforcement of the concrete structure. It is about.

Generally, concrete structures are affected by durability, load bearing capacity and lifetime of structures for various reasons such as aging, disaster, design and construction defects due to time lapse, change of usage, etc., and if they are structurally damaged, full or partial reinforcement measures are required do. Therefore, repair and reinforcement of these structures is an essential process for increasing the lifetime of the structure and ensuring safety.

As an example of reinforcing method of concrete structure, "fiber reinforced resin flame retardant panel and method of repairing reinforcing concrete structure using the same" of Korean Patent Registration No. 10-0439952 are exemplified.

Such a conventional technique is a reinforcing method for reinforcing a surface of a structure by injecting an epoxy resin, the method comprising: a first step of positioning a rough surface of a fiber-reinforced resin-made flame retardant panel while facing the surface portion of the structure; A second step of drilling an anchor bolt fixing hole for planting an anchor bolt through a groove provided in the anchor bolt fixing hole; and a step of fixing an anchor bolt through the anchor bolt fixing hole to fix the fiber reinforced resin panel to the surface portion of the structure Reinforced resin resin panel of the anchor bolt and then removing the protruded portion of the resin-reinforced resin panel of the anchor bolt by the epoxy resin injected into the gap formed between the surface of the structure and the rough surface of the fiber- The panel is integrally reinforced with the structure, and a foreign matter A fifth step of sealing the groove in which the anchor bolt is located by filling the sealant prepared in the groove of the anchor bolt into a horizontal plane with the panel in the fourth step of attaching the sticker for prevention, And a sixth step of finishing the reinforcement work of the panel by peeling off the sticker. The method for repairing and reinforcing a concrete structure using the fiber-reinforced resin-resistant flame retardant panel.

An example of a conventional reinforcing method for concrete structures is illustrated in Korean Patent Registration No. 10-0572677 entitled " Method for Reinforcing Concrete Structures without Using Adhesives ".

The conventional method for repairing and reinforcing a concrete structure includes the steps of forming insertion holes for installing anchor bolts on a wall, reinforcing members having through holes corresponding to the insertion holes drilled, and a plurality of A step of preparing a filling plate in which an insert of any one of a steel plate, a steel wire and a grid-shaped steel fiber with punching holes formed therein is inserted, a step of inserting the reinforcing member and the filling plate into the wall, And fixing the anchor bolts to the insertion holes through the through holes so that the filler plate and the reinforcement member are closely fixed to the wall body, .

However, the conventional repair and reinforcement methods of concrete structures have problems in that the water penetrated from the outside through the cracks of the water in the structure, that is, the concrete structure after the repair and reinforcement of the structure, remains inside and is not discharged to the outside .

The water remaining in the concrete structure causes corrosion of the reinforcing steel in the structure, damage to the structure, and the conventional concrete structure repairing and reinforcing method has a problem that it accelerates the damage progressing speed of the structure.

An object of the present invention is to solve the conventional problems as described above, after repair and reinforcement of the concrete structure, to prevent the phenomenon that the reinforced structure does not become a bucket because it contains the external water and not properly discharged, in a simple manner By effectively removing the water in the concrete structure, to provide a structure reinforcement method using an improved water discharge anchor to maintain the structure reinforcement performance long after the concrete structure reinforcement.

In order to achieve the above object, the present invention, in the method of repairing and strengthening the concrete structure by fixing the repair reinforcement to the surface of the concrete structure, and fixing the repair reinforcement to the concrete structure using an anchor bolt,

The anchor bolt has a drain hole formed in the center in the axial direction to discharge the water inside the concrete structure to the outside, the anchor bolt is equipped with a discharge cap formed with a plurality of discharge holes for draining the water discharged through the drain hole to the outside Thus, after repair reinforcement of the concrete structure, to provide a structure repair reinforcement method using a water discharge anchor configured to maintain the reinforcing performance of the concrete structure by discharging the water inside the reinforced structure to the outside.

And the present invention preferably, the anchor bolt additionally provides a structure reinforcement method using a water discharge anchor configured to increase the drainage efficiency from the concrete structure including a plurality of lateral drain holes.

In addition, the present invention preferably, the discharge cap is formed with a plurality of discharge holes in the middle portion of the height, to form a water seal portion in which water is accumulated to a certain height inside the discharge cap, the water seal portion is from the outside Provided is a structure reinforcement method using a water discharge anchor configured to prevent backflow of contaminants into the concrete structure through the drain hole of the anchor bolt.

And preferably, the discharge cap is provided with a thread is formed on the top edge of the structure to provide a structure reinforcement method using a water discharge anchor is fixed to the cap fixing member fixed on the anchor bolt.

In another aspect, the present invention preferably, the discharge cap further includes a discharge hole cover covering each of the plurality of discharge holes to reinforce the structure using a water discharge anchor configured to block contaminants from entering the interior of the discharge cap from the outside. Provide a method.

And the present invention preferably, the discharge cap includes an inner trap connected to the anchor bolt to receive the water drained from the anchor bolt, and an outer cap coupled to the outside of the inner trap to form a discharge passage, Reinforcement of the structure using a water discharge anchor having a plurality of first discharge holes for receiving the water dropped from the anchor bolt to discharge to the upper side, and a plurality of second discharge holes for discharging the water passing through the first discharge hole to the lower side Provide a method.

In addition, the present invention preferably, the inner trap is formed on the outer peripheral surface of the inner trap is formed on the inner circumferential surface of the inner trap, the first thread is screwed to the outer circumferential thread of the anchor bolt, the outer cap is formed on the inner circumferential surface Screwed to a second thread, wherein the first discharge holes are formed at the circumferential equal intervals on the inner circumferential surface of the inner trap, and the second discharge holes are formed at the circumferential equal intervals on the outer circumferential surface of the inner trap, The first and second discharge holes are each provided with a structure repair and reinforcement method using water discharge anchors formed at staggered positions.

According to the present invention, a structure repair reinforcement is closely attached to the surface of a concrete structure, and the repair reinforcement is fixed to the concrete structure using an anchor bolt to repair and reinforce the concrete structure. In the method, A drain hole is formed to discharge the water inside the concrete structure to the outside, and a discharge cap mounted to the anchor bolt is formed with a plurality of discharge holes for draining the water discharged through the drain hole to the outside.

Therefore, according to the present invention, after the concrete structure is repaired and reinforced, the reinforced concrete structure effectively drains and removes the water inside the concrete structure, thereby obtaining an improved effect that the reinforcing performance of the structure is maintained for a long period of time after the reinforcing of the concrete structure .

1 is a side cross-sectional view showing a state in which a concrete structure is repaired and reinforced using a structure repair and reinforcement method using a water discharge anchor according to the present invention.
Figure 2 is an exploded perspective view showing the components used in the structure reinforcement method using the water discharge anchor according to the present invention.
Figure 3 is an exploded side cross-sectional view showing the components used in the structure reinforcement method using the water discharge anchor according to the present invention.
4A is a cross-sectional view illustrating a structure in which an axial drain hole and a transverse drain hole are simultaneously formed in the anchor bolt in the structure reinforcement method using the water discharge anchor according to the present invention.
Figure 4b is a cross-sectional view showing a structure in which the discharge hole cover is formed in the discharge cap in the structure reinforcement method using the water discharge anchor according to the present invention.
Figure 5 is a side cross-sectional view showing a state in which the concrete structure using a discharge cap having a discharge hole cover in the structure reinforcement method using the water discharge anchor according to the present invention to reinforce the concrete structure.
6 is a side cross-sectional view illustrating a state in which a concrete structure is repaired and reinforced using a discharge cap having an inner trap and an outer cap in a structure repairing and reinforcing method using a water discharge anchor according to the present invention.
7 is a cross-sectional view showing a staggered arrangement of the first and second discharge holes of the discharge cap having an inner trap and an outer cap in the structure reinforcement method using a water discharge anchor according to the present invention.

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

Structural reinforcement method 100 using the water discharge anchor according to the present invention, as shown in Figure 1, on the surface of the concrete structure (C), the structure reinforcement (Ca) made of a reinforcing fiber panel or reinforcing fibers, etc. Close contact with, and fixing the reinforcement (Ca) to the concrete structure (C) by using the anchor bolt 110 relates to a method of repairing and strengthening the concrete structure.

Structure repair and reinforcement method 100 using the water discharge anchor according to the present invention, as shown in detail in Figures 2 and 3, the anchor bolt 110 is formed with a drain hole 112 in the center in the axial direction The discharge cap 150 having a plurality of discharge holes 152 for discharging the water discharged through the drain hole 112 to the outside to discharge the water in the concrete structure (C) to the outside. This is a mounted structure.

3, a spring washer 120, a washer 130 and a cap fixing member 140 are successively fitted to the anchor bolt 110 from below, The maintenance stiffener Ca is tightly fixed.

In such a mounting structure, the cap fixing member 140 has a disc-like structure like a washer, and a thread 142 is formed on the outer circumferential surface thereof. Due to the enlarged diameter of the head portion of the anchor bolt 110, When the anchor bolts 110 are installed, the structure repair reinforcement Ca is closely attached to the surface of the concrete structure C.

Further, the discharge cap 150 is formed with a plurality of discharge holes 152 at a middle portion thereof. In the arrangement structure of the discharge holes 152, the water is always accumulated in the discharge cap 150 at a predetermined height.

Thus, the structure of such a discharge cap 150, water sealing portion (automatically formed) therein, such a water-sealed portion is a concrete structure (through the drain hole 112 of the anchor bolt 110 from the outside ( C) effectively block backflow of contaminants, ie contaminated water or salts, into the interior;

The discharge cap 150 is screwed to the thread 142 of the cap fixing member 140 formed at the upper edge thereof with a thread 154 and fixed on the anchor bolt 110.

Structural reinforcement method 100 using the water discharge anchor according to the present invention configured as described above, as shown in Figure 3, the spring washer 120, washer 130 and cap fixed to the anchor bolt 110 The member 140 is inserted in turn, and as shown in FIG. 1, the anchor bolt 110 is constructed to closely fix the structure reinforcing material Ca to the surface of the concrete structure C.

The discharge cap 150 is placed so as to surround the head of the anchor bolt 110 and the thread 154 of the discharge cap 150 is screwed into the thread 142 of the cap fixing member 140 .

Therefore, according to the present invention, after the concrete structure C is repaired and reinforced, the water in the reinforced structure can be continuously discharged to the outside through the drain hole 112 formed at the center in the axial direction of the anchor bolt 110 , Thereby dehydrating and naturally drying the concrete structure (C) to maintain its reinforcing performance.

In addition, the discharge cap 150 effectively blocks the water seal inside it from flowing backward into the concrete structure C through the drain hole 112.

4a, the anchor bolt 110 is further configured to increase drainage efficiency from the concrete structure C, including a plurality of lateral drain holes 114. As shown in FIG. In other words, such a deformation structure has a plurality of lateral drain holes 114 in addition to the drain holes 112 formed at the center in the axial direction of the anchor bolts 110, It is possible to further enhance the drainage efficiency by further extending the flow path.

In addition, as shown in FIG. 4B, the present invention further includes a structure in which the discharge cap 150 further includes a discharge hole cover 156 that covers a plurality of discharge holes 152, respectively.

In such a deformed structure, the discharge hole cover 156 separates the discharge hole 152 of the discharge cap 150 from the outside, so that a pollutant such as contaminated water or salt is discharged into the discharge cap 150 It is possible to shut off the backflow inflow.

The structure in which the discharge cap 150 having the discharge hole cover 156 is mounted on the anchor bolt 110 is shown in Fig.

That is, the spring washer 120, the washer 130 and the cap fixing member 140 are successively fitted into the anchor bolt 110 from the bottom, and the structure maintenance reinforcement Ca is tightly fixed to the surface of the concrete structure C .

When the screw cap 154 is integrally fixed to the thread of the cap fixing member 140 by using a screw thread 154 formed on the upper side of the discharge cap 150, Water is discharged from the concrete structure C and this water forms a seal portion inside the discharge cap 150 and then drops and drains to the outside through a plurality of discharge holes 152 of the discharge cap 150.

At this time, the water drained from the discharge cap 150 flows from the discharge hole 152 of the discharge cap 150 to the inside of the discharge hole cover 156, and falls off at the lower end of the discharge cap 150 and is removed. In such a discharge structure, the discharge hole cover 156 has an upper end closed by a discharge hole 152 formed in a middle portion of the discharge cap 150, and a lower end thereof is connected to a lower center side of the discharge cap 150 And each of them forms a conduit structure like a tunnel.

The plurality of discharge holes 152 of the discharge cap 150 are prevented from being directly exposed to the outside by the discharge hole cover 156 and as a result, It is possible to effectively prevent the contaminant from flowing backward through the exhaust pipe.

Such a discharge cap 150 may be modified to another structure, as shown in FIGS. 6 and 7.

That is, the discharge cap 150 includes an inner trap 172 connected to the anchor bolt 110 and receiving water discharged from the anchor bolt 110, and a discharge pipe 170 coupled to the outer side of the inner trap 172, And an outer cap 174 that forms a cap.

A plurality of first exhaust holes 176a for receiving the water dropped from the anchor bolts 110 and discharging the water to the upper side and a plurality of second exhaust holes 176a for discharging water having passed through the first exhaust holes 176a to the lower side, And a discharge hole 176b.

In the discharge cap 150, the inner trap 172 has a first thread 172a formed on the inner circumferential surface of the inner trap 172 and is screwed to the outer circumferential surface thread of the anchor bolt 110. The outer cap 174 has an inner circumferential surface A screw thread 174a is formed and screwed to the second screw thread 172b formed on the outer peripheral surface of the inner trap 172. [

The first discharge hole 176a is formed at an equal interval in the circumferential direction on the inner peripheral surface of the inner trap 172 and the second discharge hole 176b is formed on the outer peripheral surface of the inner trap 172 in the circumferential direction And the first and second discharge holes 176a and 176b are formed at staggered positions.

Therefore, according to the present invention, after the concrete structure C is repaired and reinforced, the water in the reinforced structure is continuously discharged to the outside through the drain hole 112 formed at the center in the axial direction of the anchor bolt 110, And then is discharged to the upper side through each first discharge hole 176a and is turned downward through the second discharge hole 176b to form the outer cap 174, And the concrete structure C is dewatered and naturally dried to maintain its reinforcing performance.

As described above, according to the present invention, after the concrete structure C is repaired and reinforced, the reinforced concrete structure C effectively drains and removes the water in the reinforced concrete structure C to the outside, An improved effect that is maintained for a long time is obtained.

Although the present invention has been described in detail with reference to specific embodiments thereof with reference to the accompanying drawings, the present invention is not limited to such specific structures. 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 following claims. For example, although the discharge cap 150 is illustrated and described as being fixed to the cap fixing member 140 in a screwed manner, it is needless to say that the discharge cap 150 can be deformed in a press-fit fixing manner instead of such a screw connection. However, it is intended that the present invention covers all such modifications and variations as fall within the true scope of the invention.

100: structure reinforcement method using water discharge anchor
110: anchor bolt 112: drain
120: Spring washer 130: Washer
140: cap fixing member 142, 154:
150: exhaust cap 152: exhaust hole
156: discharge hole cover 172: inner trap
172a: first screw thread 172b: second screw thread
174: outer cap 174a:
176a: first exhaust hole 176b: second exhaust hole
176c: hole C: concrete structure
Ca: Structural repair reinforcement

Claims (7)

In a method of repairing and strengthening a concrete structure by closely contacting the structure reinforcement to the surface of the concrete structure, and fixing the reinforcement to the concrete structure using an anchor bolt,
The anchor bolt has a drain hole formed in the center in the axial direction to discharge the water inside the concrete structure to the outside, the anchor bolt is equipped with a discharge cap formed with a plurality of discharge holes for draining the water discharged through the drain hole to the outside After the reinforcement of the concrete structure, the water reinforcement method using a water discharge anchor, characterized in that configured to maintain the reinforcement performance of the concrete structure by discharging the water inside the reinforced structure to the outside. The method of claim 1, wherein the anchor bolt further comprises a plurality of transverse drainage structure to reinforce the construction method using a water discharge anchor, characterized in that configured to increase the drainage efficiency from the concrete structure. The method of claim 1, wherein the discharge cap has a plurality of discharge holes are formed in the middle portion of the height of the discharge cap to form a water sealing portion in which water is accumulated to a certain height, the water sealing portion is the anchor bolt from the outside Structure reinforcement method using a water discharge anchor, characterized in that configured to prevent the backflow of contaminants into the concrete structure through the drain hole. 4. The method of claim 3, wherein the discharge cap has a thread formed at an upper edge thereof and is fixed by screwing to a cap fixing member fixed on the anchor bolt. The discharge cap according to any one of claims 3 to 4, wherein the discharge cap further includes a discharge hole cover covering each of the plurality of discharge holes to block contaminants from entering the interior of the discharge cap from the outside. Structure reinforcement method using water discharge anchor. The anchor bolt of claim 1, wherein the discharge cap includes an inner trap connected to the anchor bolt to receive water drained from the anchor bolt, and an outer cap coupled to an outer side of the inner trap to form a discharge flow path. A structure using a water discharge anchor, characterized in that it has a plurality of first discharge holes for receiving the water dropped from the discharge to the upper side and a plurality of second discharge holes for discharging the water passing through the first discharge hole to the lower side Repair reinforcement method. According to claim 6, wherein the inner trap is formed on the inner peripheral surface of the first screw threaded to the outer circumferential thread of the anchor bolt, the outer cap is formed on the inner circumferential surface of the second trap formed on the outer peripheral surface of the inner trap Screwed to a screw thread, the first discharge holes being formed at equal circumferential intervals on the inner circumferential surface of the inner trap, and the second discharge holes being formed at equal circumferential intervals on the outer circumferential surface of the inner trap, 1 and the second discharge hole is a structure repair and reinforcement method using a water discharge anchor, characterized in that each formed in a mutually staggered position.

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