KR101347038B1 - Structural strengthening method using fiber reinforcing fiber - Google Patents

Abstract

The present invention relates to a reinforcement method of a concrete structure using fiber reinforcement, the object is applied to the aging concrete structure, the construction is superior in terms of economical construction, excellent durability than the existing method using the external steel wire, It is to provide a reinforcement method of the concrete structure using a fiber reinforcement material that can freely adjust the reinforcement.
The present invention is a setting step of setting the length and tension of the fiber reinforcement panel according to the reinforcement portion of the concrete structure; A tension adjusting unit installing step of installing a tension control unit at a reinforcing portion of the concrete structure such that a control panel is positioned so as to be positioned at an intermediate portion of the fiber reinforcing panel to be installed on the reinforcing portion of the concrete structure and orthogonal to the fiber reinforcing panel to be installed; The fiber reinforcement panel is brought into contact with the reinforcement part of the concrete structure so as to be orthogonal to the control panel of the tension control part, and the end reinforcement panel is brought into contact with both ends of the fiber reinforcement panel. A fixing step of fixing it integrally; Insert a wedge tension block in the center of the fiber reinforcement panel so as to be located between the fiber reinforcement panel and the concrete structure, and move the wedge tension block a predetermined distance from the center of the fiber reinforcement panel to the end direction to give tension to the fiber reinforcement panel. Tensioning step; After the tensioning step, the tension maintenance step of maintaining the tension of the fiber reinforcement panel by moving the control panel of the tension control unit; After the tension maintenance step, the thickness of the wedge-shaped tension block is gradually increased, and the tensioning step and the tension maintenance step are repeatedly performed a plurality of times, and a reinforcing step of reinforcing the concrete structure is given to the fiber reinforcing panel by applying a set amount of tension.

Description

Structural Strengthening Method using Fiber Reinforcing Fiber

The present invention relates to a reinforcement method of a concrete structure using a fiber reinforcement material, the structure of the concrete structure using a fiber reinforcement material that can effectively increase the load capacity of the concrete structure, such as beams, slabs aging easily by the fiber reinforcement panel and the tension control unit It is about reinforcement method.

Recently, due to the diversification of the shape of the concrete structure and the design change and enlargement due to the use change, more loads than the original design load occur, and thus the strength of the concrete structure often needs to be improved. In particular, in the case of bridges, as the vehicle becomes larger, a structure that can withstand heavy vehicles is required.

That is, in general, deflection occurs while the maximum load is applied to the center of the view, and when excessive load acts on the beam for a long time, a large deflection occurs as shown by the dotted line in FIG. This deflection phenomenon is a common phenomenon in various concrete structures such as bridges and buildings. In the case of bridges, in particular, this deflection weakens the usability of the beam, which is a structural member, and is not sufficient to support the originally designed design load. It is necessary to restore the position of the beam to its position before deflection in order to increase the pressure.

In order to solve this problem, in the past, various reinforcement methods such as section extension method, steel plate reinforcement method and sheet reinforcement method have been used, but each reinforcement method often has disadvantages as well as advantages. In the case of the steel plate reinforcement method, the weight of the steel sheet increases due to the weight of the steel sheet itself, and corrosion occurs over time, resulting in unsightly appearance and causing environmental pollution.

Therefore, in order to solve the above problem, a reinforcing method using a fiber sheet (glass fiber, aramid fiber, carbon fiber, etc.), which is light in weight and has no risk of corrosion, has been applied in recent years.

Figure 1 shows an exemplary view showing a concrete structure reinforcement state using a conventional fiber reinforcement, the primer adhesive is applied to the reinforcement, and after the primer is properly cured by attaching the fiber reinforcement. However, the method of reinforcement using fiber stiffeners, which are widely used, reinforces the deflection in the beam. Therefore, when the load is applied, the deflection amount is continuously suppressed in the current state when the load is continuously added. However, because the deflection beam cannot be returned to its original state, the usability is reduced, and the load resistance capability is significantly reduced than at the time of design.

The conventional method as described above is difficult to apply to concrete structures that have already sag due to the aging of the structure, and there is a problem in that the workability is lowered and the economical efficiency is deteriorated because a large amount of reinforcement is required due to the lack of load capacity.

Of course, in the case of the reinforcement method that requires a lot of reinforcement, use the steel wire and steel rod to tension the outside of the structure, install the tension device on the outside to improve the reinforcement performance, and use the reinforcing beam to reinforce the original state. However,

The tensioning method using steel wires and steel rods, which are frequently used, has all the tension materials installed on the outside and is exposed to moisture and contaminated environment, causing corrosion of the steel wires and steel rods over time. As a result, the durability is significantly reduced, and the phenomenon of deteriorating the fire resistance of the structure due to the burden on the structure due to the increase of its own weight is frequently generated.

Therefore, in the field, there is an urgent need for a new construction method that can increase the yield strength of structures in which the load capacity of structural members (bending, shearing, etc.) is reduced, or achieve an optimal reinforcing effect at an appropriate cost.

Registration Utility Model Publication No. 20-0264098 (January 30, 2002) Registered Utility Model Publication No. 20-0285354 (2002.07.30) Published Patent Publication No. 10-2010-0046462 (2010.05.07) Publication No. 10-2010-0089138 (2010.08.12)

The object of the present invention is applied to the aging concrete structure, the construction of the concrete structure using fiber reinforcement that is excellent in construction, excellent in durability and excellently adjustable reinforcement in terms of economics than the existing method using the external steel wire To provide a reinforcement method.

The present invention is a setting step of setting the length and tension of the fiber reinforcement panel according to the reinforcement portion of the concrete structure;

A tension adjusting unit installing step of installing a tension control unit at a reinforcing portion of the concrete structure such that a control panel is positioned so as to be positioned at an intermediate portion of the fiber reinforcing panel to be installed on the reinforcing portion of the concrete structure and orthogonal to the fiber reinforcing panel to be installed;

The fiber reinforcement panel is brought into contact with the reinforcement part of the concrete structure so as to be orthogonal to the control panel of the tension control part. A fixing step of fixing it integrally;

Insert a wedge tension block in the center of the fiber reinforcement panel so as to be located between the fiber reinforcement panel and the concrete structure, and move the wedge tension block a predetermined distance from the center of the fiber reinforcement panel to the end direction to give tension to the fiber reinforcement panel. Tensioning step;

After the tensioning step, the tension maintenance step of maintaining the tension of the fiber reinforcement panel by moving the control panel of the tension control unit;

After the tension maintenance step, the thickness of the wedge-shaped tension block is gradually increased, and the tensioning step and the tension maintenance step are repeatedly performed a plurality of times, and a reinforcing step of reinforcing the concrete structure is given to the fiber reinforcing panel by applying a set amount of tension.

As such, the present invention can freely set and impart a tension force (Post-Tension) to the fiber reinforcement panel by the tension control unit, it can quickly respond to the amount of deflection of the concrete structure (beam).

The present invention is to be constructed in parallel with the wedge-shaped tension block and the tension control unit, it is possible to easily adjust the tension of the fiber reinforcement panel without a separate external device to secure the reinforcement amount for the concrete structure.

The present invention is to reinforce the concrete structure by the fiber reinforcement panel of carbon fiber, aramid fiber, etc., to solve the fragility (corrosion of the steel wire, steel rods and joints) by the existing external steel wire, that is to the outside of the structure Even when exposed, not only does not cause corrosion due to moisture and contaminated environment, but also durability is not lowered, and thus the safety of the structure is improved even after reinforcement compared with the existing method.

The present invention reinforces the concrete structure by the fiber reinforcement panel and the tension control unit can be returned to the initial installation state of the structure, in particular, the structure in which the deflection phenomenon caused by the increase in load and aging, can be fully exhibited the performance of the concrete beam at the time of design There are so many effects.

1 is an exemplary view showing a concrete structure reinforcement using a conventional fiber reinforcement
2 is an exemplary view showing the deflection by the load of the concrete structure (beam)
3 is an exemplary view showing a reinforcement method according to the present invention
Figure 4 is an exemplary view showing a tension force applying process of the fiber reinforced panel by the wedge-shaped tension block according to the present invention
5 is an exemplary view showing an installation state of the tension adjusting unit according to the present invention;
Figure 6 is an illustration showing the configuration of the tension adjusting unit according to the present invention
7 is an exemplary view showing results according to Example 1 of the present invention.
8 is an exemplary view showing results according to Example 2 of the present invention.
9 is an exemplary view showing the results according to Example 3 of the present invention.

Figure 2 shows an exemplary view showing the deflection by the load of the concrete structure (beam), when the load is applied from the lower center portion of the concrete structure (beam) to the top, it will be restored to its original state. In FIG. 2, the dotted line shows the positional view of the beam when the beam is restored to its original state by applying a load to the center of the lower part of the beam.

The present invention is in accordance with the above principles, fire resistance is reduced due to aging in the existing civil engineering and building structures, or to enhance the existing load-bearing, reinforcement parts of the concrete structure, that is, cracks and sagging occurred Both ends of the fiber reinforcement panel (such as carbon fiber, glass fiber, aramid fiber, or two or more hybrid fibers) are fixedly installed on the concrete structure by the first and second fixing parts made of steel, and the wedge-shaped tension block and tension adjusting part By applying tension to the fiber reinforcement panel to reinforce the concrete structure.

Hereinafter, described in detail by the accompanying drawings of the present invention.

Figure 3 shows an exemplary view showing a reinforcement method according to the invention, Figure 3 (a) is a state in which the fiber reinforcement panel and the tension control unit is installed in the concrete structure (beam), (b) is a fiber reinforcement panel In order to introduce the post-tension into the wedge-shaped tension block between the fiber reinforced panel and the concrete beam, (c) moves the wedge-shaped tension block toward the end of the fiber reinforced panel to give tension. In the state, (d) shows a state in which the tension control unit maintains the tension by moving the control panel.

In addition, Figure 4 is an exemplary view showing a tension force provision process of the fiber reinforcement panel by the wedge-shaped tension block according to the present invention, Figure 5 is an illustration showing an installation state of the tension adjusting unit according to the present invention, Figure 6 An illustration showing the configuration of the tension control unit according to the invention is shown.

The present invention is the setting step of setting the length and the amount of tension of the fiber reinforcement panel 10 according to the reinforcement portion of the concrete structure 100;

Reinforcement of the concrete structure 100 so that the control panel 23 is located orthogonal to the fiber reinforcement panel 10 to be installed and to be positioned in the middle of the fiber reinforcement panel 10 to be installed on the reinforcement portion of the concrete structure 100. A tension adjusting unit installing step of installing the tension adjusting unit 20 in the site;

The fiber reinforcement panel 10 is brought into contact with the reinforcement portion of the concrete structure 100 so as to be orthogonal to the control panel 23 of the tension control unit 20, and the end reinforcement panels 30 are provided at both ends of the fiber reinforcement panel 10. After contacting, fixing step of fixing the concrete structure 100, the fiber reinforcement panel 10, the end reinforcement panel 30 by an anchor bolt integrally;

Insert the wedge-shaped tension block 50 in the center of the fiber reinforcement panel 10 to be located between the fiber reinforcement panel 10 and the concrete structure 100, the wedge-shaped tension block 50 to the fiber reinforcement panel 10 Tension imparting step of imparting a tension force to the fiber reinforcement panel 10 by moving a predetermined distance in the end direction (A) in the center of the;

After the tension imparting step, by maintaining the tension of the fiber reinforcement panel 10 by moving the control panel 23 of the tension control unit;

After the tension maintenance step, the thickness (t) of the wedge-shaped tension block 50 is gradually increased, and the tensioning step and the tension maintenance step are repeatedly performed a plurality of times, thereby giving the fiber reinforcement panel 10 a predetermined amount of tension to the concrete structure. It includes a reinforcing step to reinforce.

The setting step sets the length of the fiber reinforcement panel according to the length and area of the reinforcement portion of the concrete structure, and sets the tension (setting tension) to be applied to the fiber reinforcement panel.

The post-tension is applied to the fiber reinforcement panel to induce the rise in the concrete structure (beam), because the degree of rise of the beam varies depending on the length of the beam and the amount of rise, the amount of deflection by calculating in advance before construction Determine the amount of rise accordingly.

At this time, the exact amount is determined by calculating the loss due to calculation and tension, and set in such a way that does not exceed 30% of the fiber reinforced panel in consideration of safety. Since the setting of the amount of tension is performed by known structural dynamic calculations, detailed description thereof will be omitted.

The fiber reinforcement panel 10 is made of carbon fiber, glass fiber, aramid fiber, or two or more kinds of hybrid fibers and the like, and is preferably used within a range of 2 to 100 cm in width and 0.1 to 5 cm in thickness.

In addition, the fiber reinforcement panel 10 may use a plurality of fiber sheets, the fiber sheet is preferably 40 to 60 cm in width, preferably about 50 cm, thickness of 0.1 to 2.0 mm.

In addition, the fiber reinforcement panel or fiber sheet is a known one, so a detailed description thereof will be omitted.

The tension adjusting unit is a step of installing a tension adjusting unit in the concrete structure, the tension adjusting unit 20 is fixed to the concrete structure 100, the first fixing part 21 and the first fixing part ( 21) and a second fixing part 22 fixedly installed on a concrete structure spaced apart from a predetermined distance, and one side end is connected to the first fixing part 21 so as to be movable. The other end is to include a control panel 23 is installed so as to be movable.

The first fixing part 21 has a base plate 21a fixed to the concrete structure 100, a support plate 21b integrally installed at the center of the base plate 21a, and the support plate 21b. A support rod 21c installed to be perpendicular to the center and having a thread, and an upper nut 21d and a lower nut 21e screwed to the support rod 21c and fixing one side of the control panel 23 are included. At this time, it is preferable that the base plate 21a and the support plate 21b are made of an integrated double iron plate, and the base plate 21a is integrally fixed to the concrete structure 100 by bolt nuts or anchor bolts.

The second fixing part 22 includes a base plate 22a fixed to the concrete structure 100, a support plate 22b integrally installed at the center of the base plate 22a, and the support plate 22b. A support rod 22c installed to be perpendicular to the center and provided with a thread, and an upper nut 22d and a lower nut 22e screwed to the support rod 22c and fixing the other side of the control panel 23 are included. At this time, the base plate (22a) and the support plate (22b) is preferably made of an integral double iron plate, the base plate (22a) is integrally fixed to the concrete structure 100 by bolt nuts or anchor bolts.

The first and second fixing rods 21c and 22c have a length of 50 to 1000 mm, preferably 50 to 500 mm and a diameter of 5 to 30 mm, and the adjustment panel 23 has a thickness of about 2 It is preferable that it consists of an iron plate of -50 mm.

The first fixing part 21 and the second fixing part 22 have the same configuration, and the first fixing part 21 and the second fixing part 22 are predetermined to support both sides of the adjustment panel 23. Distance is installed on the concrete structure 100 spaced apart. At this time, the tension control unit 20 is installed to cross the control panel 23 to be orthogonal to the fiber reinforcement panel 100 to be installed in the concrete structure 100, the support rods on both ends of the control panel (23) ( Coupling holes 23a into which 21c and 22c are inserted are formed, and both ends of the control panel 23a are positioned between the upper nuts 21d and 22d and the lower nuts 21e and 22e. Plugged in and connected.

The tension adjusting unit 20 configured as described above moves the lower nuts 21e and 22e along the supporting rods 21c and 22c of the first and second fixing parts 21 and 22 to move the space of the control panel 23 ( Distance) and the control panel 23 is moved downward by the upper nuts 21d and 22d until the control panel 23 contacts the lower nuts 21e and 22e. In addition, the upward movement of the control panel 23 moves the upper nuts 21d and 22d first, and then moves the lower nuts 21e and 22e to move the control panel 23.

As described above, the tension adjusting unit 20 of the present invention moves the upper nuts 21d and 22d and the lower nuts 21e and 22e along the supporting rods 21c and 22c so that the control panel 23 is moved up and down.

The fixing step is a step of fixing the fiber reinforced panel 10 to the concrete structure 100, to form an end reinforcement panel 30 is installed on both ends of the fiber reinforced panel 10, the fiber reinforced panel 10 ) And anchor insertion holes in the end reinforcement panel 30, respectively.

When the anchor insertion hole is formed as described above, the fiber reinforcement panel 10 is contacted with the reinforcement part of the concrete structure 100, and the end reinforcement panel 30 is contacted with both ends of the fiber reinforcement panel 10, and then anchored. The fiber reinforcement panel 10 and the end reinforcement panel 30 are integrally fixed to the concrete structure 100 by bolts 40. At this time, the installed fiber reinforcement panel 10 is orthogonal to the control panel 23 of the tension control unit and passes between the first and second fixing parts 21 and 22, and further, the control panel of the tension control unit 20 ( 23 is installed so as to cross between the fiber reinforced panel 10 and the concrete structure (100).

That is, using the drill in the end reinforcement panel 30 made of a fiber reinforcement panel 10 and the reinforcing steel plate to make an anchor insertion hole the same as the size of the anchor, and then through the anchor insertion hole fiber reinforcement panel 10 and An anchor is inserted into the concrete structure to penetrate the end reinforcement panel 30 to firmly fix the fiber reinforcement panel 10 to the concrete structure (beam). When the fiber reinforcement panel 10 is fixed as described above, the fiber reinforcement panel 10 resists the load applied from the outside and is transmitted to the end reinforcement panel 30 to have an effect of canceling the load.

The tension imparting step is a step of introducing a predetermined tension force to the fiber reinforcement panel 10 by inserting the wedge-shaped tension block 50 between the fiber reinforcement panel 10 and the concrete structure 100 and moving in the end direction (A). Furnace, after inserting the wedge-shaped tension block 50 having a predetermined thickness (height) to be located in the middle portion of the installed fiber reinforcement panel 10 between the fiber reinforcement panel 10 and the concrete structure 100, the hammer, The wedge-shaped tension block 50 is moved a predetermined distance in the end direction A so as not to leave the fiber reinforcement panel 10 by a tool such as a hammer.

The tension maintaining step is when the wedge-shaped tension block 50 is moved in the end direction A from the middle of the fiber reinforcement panel 10 by the tension imparting step, the fiber reinforcement panel ( 10) is spaced apart, by the upper nut (21d, 22d) and the lower nut (21e, 22e) of the tension adjusting unit so that the control panel 23 of the tension control unit 20 in contact with the fiber reinforcement panel (10). The control panel 23 is moved to maintain the tension applied to the fiber reinforcement panel 10.

The reinforcing step is to give a predetermined amount of tension to the fiber reinforcing panel by repeating the tensioning step and the tension maintaining step a number of times while replacing the wedge-shaped tension block 50, Figure 4 (a) to (d) As shown in Fig. 1, a plurality of wedge-shaped tension blocks having different thicknesses (t, height) are sequentially replaced, that is, the wedge-shaped tension blocks are gradually replaced with a thicker wedge-shaped tension block. Insert and move between the (10) and the concrete structure 100 to introduce a tension force to the fiber reinforcement panel 10, and repeat the operation to maintain the introduced tension force by the tension control unit 20 a number of times the fiber reinforcement panel ( 10) Give a set amount of tension.

As described above, when the set amount of tension is applied to the fiber reinforcement panel 10, since the relatively sagging concrete structure 100 is restored to its original state as it rises up, the reinforced concrete structure is originally designed load when the load is applied from the top It will have the ability to resist.

In addition, the present invention can impart the tension to the fiber reinforcement panel 10 by the tension adjusting unit 20, without the wedge-shaped tension block 50.

That is, the present invention is a setting step of setting the length and the amount of tension of the fiber reinforcement panel 10 according to the reinforcement portion of the concrete structure 100;

Tension at the reinforcement part of the concrete structure 100 so that the control panel 23 is located perpendicular to the fiber reinforcement panel 10 to be installed and orthogonal to the fiber reinforcement panel 10 to be installed at the reinforcement part of the concrete structure. Tension adjustment unit installation step of installing the adjustment unit 20;

After contacting the fiber reinforcement panel 10 to the reinforcement portion of the concrete structure 100 to be orthogonal to the control panel 23 of the tension control unit, and to contact the end reinforcement panel 30 to both ends of the fiber reinforcement panel 10, A fixing step of integrally fixing the concrete structure, the fiber reinforcement panel, and the end reinforcement panel by an anchor bolt;

By moving the control panel 23 of the tension control unit 20 to impart tension to the fiber reinforcement panel 10 and at the same time includes a tension imparting and maintaining step to maintain the applied tension.

As described above, when applying the tension to the fiber reinforcement panel 10 by the tension control unit 20 without the wedge-shaped tension block 50, the operator directly by the tool, the upper nuts and lower parts of the first and second fixing parts Since the adjustment panel must be moved by adjusting the nut, a large amount of work and excessive force (or a separate adjustment tool) are required, and it is difficult to keep the control panel horizontally precisely. It can be given.

Hereinafter, the present invention will be described in detail by way of examples.

Example 1

Figure 7 shows the resistance to the load of the test body to which the fiber reinforcement panel is applied by applying a load to the test body reinforced with a fiber reinforcement panel, as shown in Figure 7, the unreinforced test body, glass fiber, aramid fiber, carbon The maximum load of the fiber reinforced specimens was 101.9 KN. 112.6KN, 125.7KN, and 132.6KN showed that the specimens reinforced with fiber reinforcement improved the load resistance from 111.0% to 130.0% compared to the non-reinforced specimens.

Example 2

Figure 8 shows the results of the bending test of the fiber reinforcement panel in which 10% prestress is introduced to the maximum load of the fiber reinforcement, the maximum load of the test body reinforced with no reinforcing test specimen, aramid fiber, carbon fiber is 101.9 KN. It was found that the resistance to load increased from 132.6% to 132.5% in the prestressed test specimens compared to the non-reinforced specimens as 131.1 KN and 135.1 KN. At this time, the prestress was applied to the fiber reinforced panel according to the present invention.

Example 3

Figure 9 shows the results of the bending test of all fiber reinforced panels, the load capacity of the test body reinforced with the fiber reinforced panel than the non-reinforced test specimens, it can be seen that the test specimen introduced with prestress is somewhat increased resistance to load. have. At this time, the prestress was applied to the fiber reinforced panel according to the present invention.

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.

(10): fiber reinforced panel (20): tension control unit
(21): 1st fixed government (21a): base plate
21b: support plate 21c: support rod
(21d): Upper nut (21e): Lower nut
(22): Second fixed government (22a): Base plate
22b: support plate 22c: support rod
(22d): Upper nut (22e): Lower nut
23a: joining hole 30: end reinforcement panel
(40): anchor bolt (50): wedge-shaped tension block
100: concrete structure

Claims (5)

Setting the length and tension of the fiber reinforcement panel according to the reinforcement portion of the concrete structure;
A tension adjusting unit installing step of installing a tension control unit at a reinforcing portion of the concrete structure such that a control panel is positioned so as to be positioned at an intermediate portion of the fiber reinforcing panel to be installed on the reinforcing portion of the concrete structure and orthogonal to the fiber reinforcing panel to be installed;
The fiber reinforcement panel is brought into contact with the reinforcement part of the concrete structure so as to be orthogonal to the control panel of the tension control part, and the end reinforcement panel is brought into contact with both ends of the fiber reinforcement panel. A fixing step of fixing it integrally;
Insert a wedge tension block in the center of the fiber reinforcement panel so as to be located between the fiber reinforcement panel and the concrete structure, and move the wedge tension block a predetermined distance from the center of the fiber reinforcement panel to the end direction to give tension to the fiber reinforcement panel. Tensioning step;
After the tensioning step, the tension maintenance step of maintaining the tension of the fiber reinforcement panel by moving the control panel of the tension control unit;
After the tension maintenance step, the thickness of the wedge-shaped tension block is gradually increased, and the tensioning step and the tension maintaining step are repeated a plurality of times, and the reinforcing step of reinforcing the concrete structure by applying a set amount of tension to the fiber reinforcement panel. Reinforcement method of concrete structure using fiber reinforcement.
delete The method of claim 1,
The fiber reinforcement panel is a carbon fiber, glass fiber, aramid fiber, or reinforcement method of a concrete structure using a fiber reinforcement, characterized in that composed of two or more hybrid fibers.
The method of claim 1,
The tension adjusting part is fixed to the first structure fixed to the concrete structure, the second fixing portion fixed to the concrete structure spaced a predetermined distance from the first fixing portion, and one end of the first fixing portion is movable in Shanghai Reinforced construction method of the concrete structure using a fiber reinforcement, characterized in that it is connected to the installation, and the control panel is installed in the second fixing part so that the other end is connected to Shanghai.
The method of claim 4,
The first fixing part is a base plate fixed to the concrete structure, a support plate integrally installed in the center of the base plate, a support rod installed to be perpendicular to the center of the support plate and having a screw thread, and screwed to the support rod An upper nut and a lower nut fixing one side of the control panel,
The second fixing part is a base plate fixed to the concrete structure, a support plate integrally installed in the center of the base plate, a support rod installed to be perpendicular to the center of the support plate and having a screw thread, and screwed to the support rod Reinforcement method of a concrete structure using a fiber reinforcement, characterized in that it comprises an upper nut and a lower nut for fixing the other side of the control panel.

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