KR100366545B1 - Apparatus For Fixing Stiffening Member On Pre-stress Concrete Structure - Google Patents

Abstract

The present invention relates to a reinforcing member fixing device for fixing the reinforcing material to the concrete structural member for repair and reinforcement of the concrete structural member. The reinforcing member fixing device according to the present invention is spaced apart from the support rod 120 inserted into the through hole 101 formed on the side of the concrete structural member 100 and the reinforcing member 110 attached to the bottom surface of the concrete structural member 100. The bracket 130 is fixedly supported by the support rod 120 in the state, the pressure plate 141 is installed between the reinforcing material 110 and the bracket 130 and in contact with the reinforcing material 110, and screws to the bracket 110 It includes a fastening screw 142 coupled. The pressure plate 141 presses the reinforcement 110 by moving in the direction of the reinforcement 110 as the tightening screw 142 is tightened. According to the reinforcing member fixing device, the reinforcing member 110 is vertically pressed by the pressure plate 141, so that sufficient fixing force can be secured even if the fixing length is insufficient. Damage to the concrete structural member 100 can be prevented by using the carrying hole of the structural member 100.

Description

Apparatus For Fixing Stiffening Member On Pre-stress Concrete Structure}

The present invention relates to a fixing device for fixing a reinforcing material for the repair and reinforcement of prestressed concrete structural members, and specifically, to repair damages such as cracks generated in structural members such as concrete beam members of bridges, or the rigidity of concrete structural members. When fixing the reinforcing material to reinforce the reinforcement, it is possible to secure a sufficient fixing force even if the fixing length is insufficient, and relates to a fixing device that can prevent damage to the concrete structural members.

In general, the concrete structural member used as a mold for supporting the upper plate of the bridge has a long time after being installed, the rigidity is lowered, or the load of the concrete structural member itself or the load by the vehicle acts, causing excessive bending or deflection. When this occurs, the bending or deflection causes the bending tensile force of the ultimate strength or more to act on the tensile side of the concrete beam, causing bending tensile cracking.

Therefore, in order to prevent the collapse of the bridge due to the stiffness degradation or damage of the concrete structural member, steel sheet, carbon fiber, glass fiber (glass fiber), boron fiber (boron fiber), Kevlar fiber ( A method of repairing and reinforcing concrete structural members is widely used by bonding a reinforcement made of special fibers such as keveler fiber and aramid fiber to the surface of a concrete beam by using a primer or epoxy.

In this adhesive repair and reinforcement method, the reinforcement should have sufficient fixing force in order to exhibit the strength of the material.

As a method of fixing the reinforcement in the adhesive repair and reinforcement method, the adhesive fixing method used when the fixing length in the longitudinal direction of the concrete structural member can be sufficiently secured, and the mechanical fixing used when the fixing length is difficult to secure. There is a way.

Attachment fixing method is a method to complete the fixing of the reinforcement by attaching the reinforcement directly to the surface of the concrete structural member using a primer, epoxy, etc. without any additional process, if there is no space constraint for the attachment of the reinforcement This adhesive fixing method is economical. However, it is difficult to secure a sufficient fixing length for the attachment of the reinforcement in the concrete structural member already installed, such as the concrete beam of the existing bridge. In this case, when the fixing length of the reinforcing material is insufficient, the reinforcing material is separated from the concrete structural member by the fixing failure prior to the breakage of the material, thereby exhibiting brittle fracture. Therefore, various mechanical fixing methods have been used to secure sufficient fixing force even when the fixing length is insufficient by pressing the reinforcing material.

1 to 4 show various examples of a conventional mechanical fixing method.

The fixing method illustrated in FIG. 1 is a method of fixing the reinforcing material 11 by attaching the reinforcing material 11 of the concrete structural member 10 and then fastening the anchor bolt 12 to the concrete structural member 10. In addition, in the fixing method illustrated in FIG. 2, a plurality of epoxy injection holes 22 are formed in the concrete structural member 20, and epoxy is injected into the epoxy injection holes 22, thereby reinforcing material 22 by the shear strength of the epoxy. How to settle it. Meanwhile, in the fixing method illustrated in FIG. 3, a plurality of grooves 32 are formed on the surface of the concrete structural member 10, and a part of the reinforcing material 11 is inserted into the grooves 32 to insert the reinforcing material 22. How to settle down. Finally, the fixing method shown in FIG. 4 forms a semicircular or "V" shaped groove 42 in the width direction on the surface of the concrete structural member 40, and reinforces the material so as to cover the groove 42. After attaching 41, the reinforcing material 41 is crimped by the round bar 43 by fastening to the concrete structural member 10 using an anchor bolt or the like in a state in which the round bar 43 is seated on the groove 42. To settle by.

By the way, according to the conventional mechanical fixing method as described above, the anchor bolt is to be fastened to the joint surface of the reinforcement member of the concrete structural member or the groove is processed, the concrete structural member is damaged and its durability is lowered, the construction period and There is a problem such as increase in construction costs, causing poor construction.

In addition, according to the conventional mechanical fixing method, localized stress concentration occurs in the anchor bolt fastening portion of the concrete structural member, the epoxy injection hole and the groove forming portion, the contact portion between the groove and the round bar, creep There is a problem that loosening of the settlement occurs.

The present invention has been made to solve the conventional problems as described above, an object of the present invention is to secure a sufficient fixing force even when the fixing length of the reinforcement is insufficient when fixing the reinforcement to repair and reinforce the concrete structural member. It can be, and to provide a reinforcement fixing device that can fix the reinforcement without damaging the concrete member.

1 is a side cross-sectional view of a concrete structural member showing an example of a conventional reinforcement fixing method.

Figure 2 is a side cross-sectional view of a concrete structural member showing another example of a conventional reinforcement fixing method.

Figure 3 is a side cross-sectional view of a concrete structural member showing another example of a conventional reinforcement fixing method.

Figure 4 is a perspective view of a concrete structural member showing another example of a conventional reinforcement fixing method.

5 is a perspective view showing a reinforcing member fixing device according to the present invention.

6 is a front sectional view of the reinforcement fixing device of FIG.

7 is a side cross-sectional view of the reinforcing member fixing device of FIG.

<Explanation of symbols for the main parts of the drawings>

100: concrete structural member 101: through hole

110: reinforcing material 120: support rod

130: bracket 140: pressure unit

141: pressure plate 142: tightening screw

143: pressure plate support member

An object of the present invention as described above, in the reinforcing member fixing apparatus for fixing the reinforcing material attached to one surface of the concrete structural member in order to repair and reinforce the concrete structural member having a through hole formed in the width direction, Inserted support rods; A bracket fixedly supported by the support bar in a state spaced apart from the reinforcing material; It is achieved by providing a reinforcement fixing device comprising a pressing unit installed between the bracket and the reinforcement to press the reinforcement vertically in the direction of the concrete structural member.

Here, the pressing unit includes a pressure plate in contact with the reinforcement, and a tightening screw screwed to the bracket, wherein the pressure plate presses the reinforcement by moving in the direction of the reinforcement as the tightening screw is tightened. On the other hand, the pressing unit may further include a pressing plate supporting member interposed between the pressing plate and the tightening screw.

It is preferable that a plurality of protrusions are formed on the contact surface of the pressure plate with the reinforcing material to increase frictional force, and the reinforcing material has a thicker thickness than the other parts in contact with the pressure plate in order to alleviate stress concentration. It is preferable. In addition, in order to prevent damage to the concrete structural member, the through hole is preferably a carrying hole of the concrete structural member.

In the present invention, as the reinforcing material, one of steel sheet, carbon fiber, glass fiber, boron fiber, Kevlar fiber, aramid fiber can be used.

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

As shown in FIG. 5, the reinforcing member fixing device according to the present invention includes a support rod 120 inserted into a through hole 101 largely penetrating through a side surface of the concrete structural member 100, and by the support rod 120. The bracket 130 is fixedly supported in a state spaced apart from the reinforcement 110 attached to the lower surface of the concrete structural member 100 by a predetermined interval, and is installed between the reinforcement 110 and the bracket 130 to provide the reinforcement 110. It consists of a pressing unit 140 for fixing by pressing in the direction of the concrete structural member 100.

As the through-hole 101 of the concrete structural member 100, it is preferable to use a transport hole formed at the time of the initial molding of the concrete structural member 100, but at the time of installation of the fixing device to the side of the concrete structural member 100 separately It is also possible to form separately.

The bracket 130 is formed in a "c" shape having a pair of vertical plates 131 and a horizontal plate 132. The vertical plate 131 is coupled to both ends of the support rod 120 inserted into the through hole 101 of the concrete structural member 100. In a state in which the vertical plate 131 is coupled to both ends of the support rod 120, the horizontal plate 132 is spaced apart by a predetermined distance in parallel with the reinforcement 110.

The pressurizing unit 140 is screwed to the pressing plate 141 directly contacting the surface of the reinforcing member 110 and the horizontal plate 132 of the bracket 130 so that the pressing plate 141 is perpendicular to the surface of the reinforcing member 110. It consists of a tightening screw 142 for lifting in the direction. On the other hand, a pressure plate support member 143 made of I-shaped steel is installed below the pressure plate 141, and the tip of the tightening screw 142 is in contact with the pressure plate support member 143. Thus, by interposing the pressing plate support member 143 between the pressing plate 141 and the tightening screw 142, the length of the tightening screw 142 can be shortened.

On the other hand, the pressure plate 141 is made of steel (鋼材), a plurality of projections (141a) are formed on the upper surface in contact with the reinforcing material 110 to form a wavy concave-convex shape. Thus, by forming the protrusion 141a on the upper surface of the pressure plate 141, the frictional force between the pressure plate 141 and the reinforcement 110 can be increased to ensure the fixing of the reinforcement 110 more securely.

The method of fixing the reinforcement 110 to the concrete structural member 100 by the reinforcement fixing device configured as described above is as follows.

First, in the state in which the reinforcing material 110 is attached to the lower surface of the concrete member 100 to be repaired or reinforced by using a primer, epoxy, etc., a support rod in a transport hole of the concrete structural member 100, that is, the through hole 101. Insert 120 and couple the vertical plate 131 of the bracket 130 to both ends of the support rod (120).

Next, the pressure plate 141 and the pressure plate support member 143 are installed between the reinforcement 110 and the horizontal plate 132 of the bracket 130, and the tightening screw 142 is attached to the horizontal plate 132 of the bracket 130. ) In this state, when the tightening screw 142 is tightened, the tip of the tightening screw 142 rises vertically in the direction of the reinforcement 110 in a state of contacting the pressing plate support member 143. Thus, as shown in Figure 6, the reinforcing material 110 is pressed by the pressure plate 141 is fixed to the lower surface of the concrete structural member 100.

On the other hand, the fixing force of the reinforcement 110 is determined by the frictional force with the concrete structural member 100. In addition, the frictional force on the dry surface is proportional to the vertical force, the vertical force acting on the reinforcement 110 is proportional to the tightening torque of the tightening screw 142. Therefore, since the fixing force of the reinforcing material 110 can be adjusted by adjusting the tightening torque of the tightening screw 142, the fixing force of the reinforcing material 110 can be increased by increasing the tightening torque of the tightening screw 142. In addition, if the fixing force of the reinforcing member 110 is reduced after time after construction, the fixing force can be increased again by tightening the tightening screw 142 again.

On the other hand, the reinforcing material 110 may be used as a steel sheet or a special fiber, and as a special fiber, carbon fiber, glass fiber (glass fiber), boron fiber (boron fiber), Kevlar fiber (keveler fiber), aramid fiber (aramid fiber) Fibers of various materials can be used.

In addition, as shown in Figure 7, when using the special fiber as a reinforcing material 110 is used to overlap the special fiber to about 1 to 3 layers, in order to mitigate local stress concentration in the fixing site, the fixing site It is preferable to attach the reinforcement 110 to one or more layers thicker than other parts. Thus, the fixing part which attaches the reinforcement 110 thickly is enough to set about 10 Cm before and after the contact surface with the pressure plate 141 along the longitudinal direction of the concrete structural member 100. As shown in FIG.

As described above, according to the present invention, since the reinforcing member 110 is fixed in the vertical direction by pressing the reinforcing member 110 attached to the concrete structural member 100 by the pressure plate 141, the fixing length is insufficient. Even if it is possible to secure sufficient anchoring force, it is possible to prevent local stress concentration at the anchoring site.

In addition, according to the present invention, even if the fixing force of the reinforcing material 110 decreases due to creep or the like after time of construction, the reinforcing material 110 can be firmly fixed by tightening the tightening screw 142. have.

In addition, according to the present invention, the through hole 101 for the installation of the reinforcing material fixing device using the transport hole of the concrete structural member 100, or the through hole 101 is a concrete structure other than the joint surface of the reinforcing material 110 By forming on the side of the member 100, it is possible to minimize the damage of the concrete structural member 100, the defects in construction at the time of fixing the reinforcement 110 or peeling from the joint surface of the reinforcement 110 of the concrete structural member 100 By minimizing the attachment and settlement failure, the cost and construction period can be reduced.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. will be.

Claims (6)

In the reinforcing member fixing device for fixing the reinforcing material attached to one surface of the concrete structural member to repair and reinforce the concrete structural member having a through hole formed in the width direction, A support rod inserted into the through hole; A bracket fixedly supported by the support bar while being spaced apart from the reinforcing material; And And a pressurizing unit installed between the bracket and the reinforcement to press the reinforcement vertically in the direction of the concrete structural member. The reinforcement fixing device according to claim 1, wherein the through hole is a carrying hole of the concrete structural member. According to claim 2, wherein the pressing unit, the pressing plate in contact with the reinforcing material, and a tightening screw screwed to the bracket, The pressure plate is a reinforcement fixing device, characterized in that for pressing the reinforcement by moving in the direction of the reinforcement as the tightening screw is tightened. 4. The reinforcement fixing device according to claim 3, wherein a plurality of protrusions protrude from the contact surface of the pressure plate with the reinforcing material. 5. The reinforcement fixing device according to claim 4, wherein the reinforcing member is formed to have a thickness greater than that of the other portions in contact with the pressing plate. The reinforcement fixing device according to claim 5, wherein the pressure unit further includes a pressure plate support member interposed between the pressure plate and the tightening screw.