KR20130095026A - Nut joint bar assembly to reinforce concrete structure - Google Patents

Abstract

PURPOSE: A flexure-shear integrated nut fastening bar assembly for concrete reinforcement is provided to improve the crack resistance of a concrete structure as an anchoring force by anchoring members of a fiber reinforced plastic (FRP) bar is increased. CONSTITUTION: A flexure-shear integrated nut fastening bar assembly (100) for concrete reinforcement includes an FRP bar (120), a concrete structure (105), and anchoring members (200). A bar insertion groove (110) and an anchoring portion insertion groove are formed on the concrete structure so that the FRP bar is inserted. The anchoring members are arranged on both end portions of the FRP bar. When the FRP bar is inserted into the bar insertion groove, the anchoring member is inserted into the anchoring portion insertion groove so that the anchoring force of the FRP bar is maintained.

Description

Nut joint bar assembly to reinforce Concrete structure

The present invention relates to a shear bending integral nut tightening bar assembly for concrete reinforcement, and more particularly, by adding a fixing means to a fiber reinforced plastic bar for reinforcing a concrete structure, the adhesion performance of the fiber reinforced plastic bar can be improved. A shear bending integral nut tightening bar assembly for concrete reinforcement.

In general, concrete is strong in compression but weak in tension, and most concrete structures are reinforced with tensile load by using reinforcing bars. However, because reinforcing bars are prone to corrosion over time due to the characteristics of iron, structural performance and durability performance due to corrosion of reinforcing bars, especially in social indirect facilities such as marine structures and civil engineering reinforced concrete structures, and reinforced concrete buildings in construction Degradation is a big problem.

Therefore, as a reinforcing material of concrete structures to replace the reinforcing bar, it is excellent in strength and has little concern about corrosion, and is lighter than the reinforcing fiber (FRP: Fiber Reinforced Plastic) member (hereinafter, "No FRP") has been developed.

1 and 2 illustrate a shear bending integral nut tightening bar assembly for concrete reinforcement using a FRP member according to the surface embedding method according to the prior art, the conventional FRP member 20 is a conventional surface buried (NSM : It is installed in concrete structure (5) which is flexural member such as slab and beam by Near Surface Mounted method.

The FRP installation process by the surface embedding method will be described in more detail. The installation groove 30 having a predetermined length in the longitudinal direction is formed in the bending member (that is, the concrete structure 5) that needs to be reinforced, and the installation groove 30 After inserting the FRP member 20 into the inside, and then filled with an adhesive (not shown) such as epoxy to fix the FRP member 20 therein. At this time, the FRP member 20 is attached to the concrete structure 5 over the entire surface of the FRP member 20 through the attachment material.

However, the FRP member 20 used as a substitute for the reinforcing bar, despite the excellent corrosion resistance and light weight superiority, the crack occurs in the concrete structure when the bending load or bending moment transmitted through the concrete structure is applied, the crack generation The stress is concentrated on the site and the degree of deformation is increased, resulting in adhesion failure of the FRP member 20. Such attachment failure leads to a brittle tendency in which the FRP member 20 is temporarily destroyed at the moment when the maximum stress is reached. To prevent this, instead of attaching the FRP member 20 to the installation groove 30 of the concrete structure 5 directly through an attachment material, as shown in FIG. 2, a medium such as a tube 40 may be used. After wrapping the FRP member 20 using a member, the FRP member 20 is indirectly attached by using an attachment material, and a non-attachment section 50 (section indirectly attached) is constructed. It was developed.

However, in the case of the above-described method, it is true that the adhesion performance is lower than the case where the direct attachment section is long when the non-attachment section 50 is long, and as a result of reducing the non-attachment section 50 to prevent this, There was a problem that tends to be brittle.

In addition, when both ends of the FRP member 20 is not attached to the concrete structure with sufficient adhesion, if the crack occurs in the concrete structure, the sliding effect of the FRP member 20 due to the stress concentration occurs, the reinforcement effect is greatly reduced problem There was this.

The present invention has been made in order to solve the above technical problem, by including a fixing means disposed on both ends of the FRP bar to maintain the fixing force to the bar insertion groove of the FRP bar, by the stress concentration due to the crack of the concrete structure It is an object of the present invention to provide a shear bending integral nut tightening bar assembly for reinforcing concrete which can prevent the deterioration of the fixing force of the FRP bar.

One preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention, the FRP bar, the bar insertion groove long grooved in the longitudinal direction so that the FRP bar is inserted, and extending perpendicular to the bar insertion groove A concrete structure having a grooved fixing unit insertion groove formed at both ends of the FRP bar, and when the FRP bar is inserted into the bar insertion groove, the FRP bar is inserted into the fixing unit insertion groove together with the FRP bar. Fixing means for maintaining the fixing force for the bar insertion groove of the.

Here, the fixing means, the anchor member to be fitted to the outer peripheral surface of the FRP bar, and the anchor cap is fitted to the outer peripheral surface of the FRP bar to be located between the FRP bar and the fixing member, to adjust the position where the fixing member is fitted It may include.

In addition, the anchor cap, while the male thread is formed on the outer peripheral surface, a portion of the outer peripheral surface may be formed in the longitudinal direction cut.

The fixing member may be a coupling bolt having a female thread corresponding to the male thread formed on an outer circumferential surface of the anchor cap.

In addition, the fixing unit is disposed in the insertion groove, disposed between any one of the fixing member and the inner surface of the fixing unit insertion groove, may further include a fixing washer for mediating the fixing of the FRP bar. have.

In addition, the fixing washer may be formed with a "Ｕ" shaped fixing groove which is inserted in the direction orthogonal to any portion of the middle portion of the FRP bar orthogonal to the longitudinal direction of the FRP bar.

The concrete structure further includes a shear bar insertion groove extending from the fixing unit insertion groove and grooved to be orthogonal to the fixing unit insertion groove, and connected to the FRP bar between the fixing washer and the fixing member. It may further include a shear reinforcing bar inserted into the shear bar insertion groove.

The shear reinforcing bar may include a connecting end connected to the FRP bar and a reinforcing end extending perpendicularly from the connecting end and inserted into the shear bar insertion groove.

In addition, a through hole having a predetermined size is formed at the connection end, and the shear reinforcing bar may be coupled to the FRP bar so that the outer circumferential surface of the anchor cap passes through the through hole.

One preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention, has the effect of increasing the fixing force by the fixing means of the FRP bar when the crack to the concrete structure occurs.

In addition, due to the increase in the fixing force of the FRP bar, it has the effect of improving the crack resistance and the like for the concrete structure.

1 and 2 show a shear bending integral nut tightening bar assembly for concrete reinforcement using the FRP member by the surface embedding method according to the prior art,
Figure 3 is a perspective view showing a preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention,
Figure 4 is a perspective view showing another embodiment of a shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention,
Figure 5a is a plan view and a side view showing a preferred embodiment of a shear bending integral nut tightening bar assembly for concrete reinforcement according to the invention of Figure 3,
Figure 5b is a plan view and a side view showing another embodiment of a shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention of Figure 4,
6 is an enlarged view illustrating an enlarged portion "A" of FIG. 5A,
7a to 7e is a front view showing the coupling sequence of the fixing means of the shear bending integral nut tightening bar assembly for the concrete reinforcement according to the present invention.

Hereinafter, an embodiment of a shear bending integral nut tightening bar assembly for reinforcing concrete according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view showing a preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention, Figure 4 is another embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention 5A is a plan view and a side view showing a preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention of Figure 3, Figure 5b is a concrete reinforcement according to the present invention of Figure 4 Figure 6 is a plan view and a side view showing another embodiment of the shear bending integral nut tightening bar assembly for, Figure 5a is an enlarged view of the "A" portion of Figure 5a, Figures 7a to 7e is a concrete reinforcement according to the present invention It is a front view showing the coupling sequence of the fixing means of the shear bending integral nut tightening bar assembly for the configuration.

One preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention, as shown in Figures 3 and 5a, the bar insertion groove 110 formed in the longitudinal direction of the concrete structure 105 Fiber-reinforced plastic bar (FRP bar) (hereinafter referred to as "FRP bar 120") that is inserted and fixed.

The FRP bar 120 may be formed in a bar shape having a circular cross section. However, the FRP bar 120 does not necessarily have to be formed in a bar shape, and the remaining parts except for a part to which the fixing unit 200 is described later may be formed in a panel shape. Hereinafter, the FRP bar 120 will be described by employing a bar (bar) shape.

The bar insertion groove 110 formed in the concrete structure 105 is a surface embedding method (NSM: Near Surface Mounted) which is a method for embedding the FRP bar 120 on the surface for reinforcement of the concrete structure 105 It is a groove formed in the concrete structure 105 in advance to apply.

The bar insertion groove 110 is preferably formed to a depth greater than the diameter of the FRP bar 110 so that the entirety of the FRP bar 120 is inserted. The bar insertion groove 120 has to be installed along the longitudinal direction of the concrete structure 105 in order to correspond to the bending stress or bending moment of the concrete structure 105, the concrete structure as well It is formed long in the longitudinal direction of the 105.

The FRP bar 120 is inserted into the bar insertion groove 110, and the entirety of the FRP bar 120 is fixed therein by filling with an adhesive (not shown) such as epoxy. The FRP bar 120 as described above may be installed in parallel so that a plurality of spaced apart a predetermined distance from the same surface of the concrete structure 105.

Meanwhile, in addition to the bar insertion groove 110 into which the FRP bar 120 is inserted, the concrete structure 105 is orthogonal to the bar insertion groove 110 in the same plane as the bar insertion groove 110. It further includes a fixing unit insertion groove 115 formed grooved so as to extend.

One preferred embodiment of the shear bending integral nut tightening bar assembly 100 for concrete reinforcement according to the present invention is disposed at both ends of the FRP bar 120, the FRP bar 120 in the bar insertion groove 110 Is inserted into the fixing unit insertion groove 115, the FRP bar 120 is inserted together to maintain or add a fixing force to the bar insertion groove 110 of the FRP bar 120 It further comprises (200).

Here, the fixing means 200, the fixing member 220 is fitted to the outer peripheral surface of the FRP bar 120, and the FRP bar 120 to be located between the FRP bar 120 and the fixing member 220. It is fitted to the outer circumferential surface of the), and includes an anchor cap 210 for adjusting the position where the fixing member 220 is fitted.

As shown in FIG. 6, which is an enlarged view of FIG. 5A, the anchor cap 210 may have a male thread formed on an outer circumferential surface thereof, and a portion of the outer circumferential surface may be formed in a longitudinal direction. The anchor caps 210 are spaced apart from each other when the cut portions are normally not subjected to any external force, and when the external force is provided, the elastic caps are brought into close contact with the outer circumferential surface of the FRP bar 120 while being in close contact with each other. It may be made of.

In addition, the anchor cap 210, both inner diameters are formed in a size corresponding to the diameter of the FRP bar 120, it is preferable that the outer diameter of the other opening is formed thicker than the outer diameter of one side. Therefore, when fitted to the FRP bar 120 is loosely fitted, but the outer diameter of the FRP bar 120 is tightened to the thick side by the fixing member 220 to be tightly fixed to the outer peripheral surface of the FRP bar 120. .

On the other hand, the fixing member 220 may be a nut formed with a female thread corresponding to the male thread of the anchor cap 210 on the inner peripheral surface. When the fixing member 220 is fitted to the outer circumferential surface of the anchor cap 210, the anchor cap 210 is fixed at an arbitrary position by a frictional force in close contact with the FRP bar 120. Then, when the fixing member 220 is rotated continuously, the FRP bar 120 is in close contact with the inner surface of the fixing unit insertion groove 115 directly or indirectly (when the fixing washer 230 described later is interposed). Increase the anchoring force of the concrete structure 105).

That is, the fixing means 200 as described above is disposed at both ends of the FRP bar 120, by rotating the fixing member 220 in the same manner at each end portion at both ends of the FRP bar 120 The FRP bar 120 is firmly fixed to the concrete structure 105 while the FRP bar 120 receives a tensile force by an operation in which each of the fixing members 220 disposed is in close contact with the inner surface of each of the fixing unit insertion grooves 115. Will be.

On the other hand, a preferred embodiment of the shear bending integral nut tightening bar assembly 100 for concrete reinforcement according to the present invention is disposed in the fixing unit insertion groove 115, the fixing member 220 and the fixing unit insertion It is further disposed between any one of the inner surface of the groove 115, and further comprises a fixing washer 230 for mediating the fixing of the FRP bar (120).

As shown in the enlarged view of FIG. 7D, the fixing washer 230 may include any portion of the FRP bar 120 inserted in a direction orthogonal to the longitudinal direction of the FRP bar 120. A fixing groove 231 having a ″ ″ shape is formed.

More preferably, the fixing groove 231 may be formed in such a size that the anchor cap 120 is inserted while the anchor cap 210 is fitted to the outer circumferential surface of the FRP bar 120.

On the other hand, in the concrete structure 105, as shown in FIG. 4, the concrete extending from the fixing unit insertion groove 115, the bar insertion groove 110 and the fixing unit insertion groove 115 is formed A shear bar insertion groove 130 is formed on a surface orthogonal to one surface of the structure 105 and extends from an edge at which the fixing unit insertion groove 115 is formed to be grooved to be orthogonal to the fixing unit insertion groove 115. Is formed more. That is, when the shear bar insertion groove 130 is assumed that the fixing unit insertion groove 115 and the bar insertion groove 110 is formed on the same surface of the concrete structure 105, the fixing unit insertion groove 115 and the bar insertion groove 110 may be formed on any one surface orthogonal to. The shear bar insertion groove 130 is a portion where the shear reinforcing bar 140, which will be described later, is selectively formed when shear reinforcement of the concrete structure 105 is required, and is installed.

One preferred embodiment of the shear bending integral nut tightening bar assembly 100 ′ for concrete reinforcement according to the present invention is inserted into the shear bar formed when shear reinforcement of the concrete structure 105 is required, as shown in FIG. 4. It further includes a shear reinforcing bar 140 is inserted into the groove 130.

As shown in FIGS. 4 and 5B, the shear reinforcing bar 140 is connected to the FRP bar 120 between the fixing washer 230 and the fixing member 220 to insert the shear bar insertion groove. It is inserted into 130.

On the other hand, as shown in Figure 7e, the bar reinforcing bar (110) and the shear reinforcing bar for both sides orthogonal to both ends of the same surface of the concrete structure (105) formed with the fixing unit insertion groove (115) ( When the shear reinforcement using the 140, a plurality of the shear reinforcing bar (140a, 140b) using one anchor cap 210 and one fixing member 220 to one of the FRP bar 120 ) Needs to be connected.

To this end, the shear reinforcing bar 140, as shown in Figure 5b, the connecting end 141 is connected to the FRP bar 120, and extends perpendicularly from the connecting end 141 and the shear bar It may include a reinforcement end 143 is inserted into the insertion groove 130. The connection end 141 and the reinforcement end 143 are integrally formed. Here, the connection end 141 is inserted into the fixing unit insertion groove 115 together with the fixing means 200, it is natural that the reinforcing end 143 is inserted into the shear bar insertion groove 130. .

On the other hand, the plurality of shear reinforcing bars (140a, 140b) are arranged on the connecting end 141 of the shear reinforcing bar 140, respectively on the opposite sides of the concrete structure 105, one FRP bar 120 ), A through hole (not shown) of a predetermined size may be formed to connect the plurality of shear reinforcing bars 140a and 140b to each other.

The plurality of shear reinforcing bars 140a and 140b are coupled to the anchor cap 210 so that the outer circumferential surface of the anchor cap 210 installed on the outer circumferential surface of the FRP bar 120 passes through the through hole. However, it is not necessary to be coupled to the anchor cap 210, and only the outer circumferential surface of the FRP bar 120 corresponding to one side of the anchor cap 210 may be coupled to penetrate the through hole. .

As described above, a preferred embodiment of the shear bending integral nut tightening bar assembly 100 for concrete reinforcement according to the present invention, the concrete structure of the FRP bar 120 using the fixing means 200 ( By improving the adhesion (fixing force) for the 105), there is an advantage that can prevent the degradation of the adhesion performance that has been degraded due to the existence of the conventional non-attachment section (see the prior art).

Referring to the accompanying drawings the installation process of the shear bending integral nut tightening bar assembly 100 for concrete reinforcement according to the present invention configured as described above are as follows.

First, as shown in FIGS. 3 and 4, the bar insertion groove 110 and the fixing unit insertion groove 115 are groove-formed on one surface of the concrete structure 105.

And, as shown in Figure 7a, the anchor cap 210 is fitted to any position of both ends of the FRP bar 120, respectively.

Next, as shown in Figure 7b, by fastening the fixing member 220 to the outer circumferential surface of the anchor cap 210 fitted to one end of the FRP bar 120, one side fixing means as referenced in Figure 7c Complete the assembly of 200.

In addition, the bar inserting groove 110 and the fixing unit inserting groove 115 each of the FRP bar 120 in the state where the anchor cap 210 is fitted at an assembled position with the one side fixing means 200 completed. ).

At this time, as shown in Figure 7d, the fixing washer 230 is installed between the fixing member 220 and the inner surface of the fixing unit insertion groove 115 of the assembled one-side fixing means 200. In addition, the fixing washer 230 between the anchor cap 210 and the inner surface of the fixing unit insertion groove 115 of the other fixing means 200 in a state where the anchor cap 210 is fitted in an arbitrary position Install intervening.

Finally, while fixing the fixing member 220 to the FRP bar 120 in which the other fixing means 200, the anchor cap 210 is fitted in any position, the one side fixing means 200 and the Through the other fixing means 200 to add the fixing force of the FRP bar 120 to the concrete structure 105.

On the other hand, when the shear reinforcement of the concrete structure 105 in the direction orthogonal to the bar insertion groove 110 and the fixing unit insertion groove 115 using the shear reinforcing bar 140, it is shown in Figure 7e As referred to, the outer circumferential surface of the anchor cap 210 of the fixing means 200 or the outer circumferential surface of the FRP bar 120 corresponding to one side of the anchor cap 210 is connected to the shear reinforcing bar 140. By installing to penetrate the through-hole formed in the end 141, it is possible to reinforce the shear of the concrete structure 105 through the plurality of shear reinforcing bars (140a, 140b) connected to one of the FRP bar (120). .

Or more, with reference to the accompanying drawings, a preferred embodiment of the shear bending integral nut tightening bar assembly for concrete reinforcement according to the present invention has been described in detail. However, it should be understood that the embodiments of the present invention are not necessarily limited to the above-described preferred embodiments, and that various modifications and equivalents may be made by those skilled in the art something to do. Therefore, it is to be understood that the true scope of the present invention is defined by the appended claims.

100: Shear bending integral nut tightening bar assembly for concrete reinforcement
105: concrete structure 110: bar insertion groove
115: fixing unit insertion groove 120: FRP bar
130: shear bar insertion groove
140: shear reinforcing bar 141: connection end
143: reinforcing step 200: fixing means
210: anchor cap 220: fixing member
230: fixing washer

Claims (9)

FRP bar;
A concrete structure including a bar insertion groove grooved in the longitudinal direction to insert the FRP bar, and a fixing unit insertion groove grooved to extend perpendicular to the bar insertion groove;
Fixing means disposed at both ends of the FRP bar, and when the FRP bar is inserted into the bar insertion groove, the fixing means is inserted into the fixing unit insertion groove to maintain the fixing force to the bar insertion groove of the FRP bar Shear bending integral nut tightening bar assembly for concrete reinforcement comprising a.
The method according to claim 1,
The fixing means,
A fixing member fitted to an outer circumferential surface of the FRP bar;
Shear bending integral nut tightening bar assembly for concrete reinforcement including an anchor cap that is fitted to the outer circumferential surface of the FRP bar to be positioned between the FRP bar and the fixing member to adjust the position in which the fixing member is fitted.
The method according to claim 2,
The anchor cap,
Shear bending integral nut tightening bar assembly for reinforcing concrete having male threads formed on the outer circumferential surface and a portion of the outer circumferential surface cut in the longitudinal direction.
The method according to claim 3,
The fixing member is a shear bending integral nut tightening bar assembly for concrete reinforcement is a coupling bolt formed with a female thread corresponding to the male thread formed on the outer peripheral surface of the anchor cap.
The method according to claim 2,
Is disposed in the fixing unit insertion groove, disposed between any one of the fixing member and the inner surface of the fixing unit insertion groove, the concrete reinforcement further comprising a fixing washer for mediating the fixing of the FRP bar Shear bending integral nut tightening bar assembly.
The method according to claim 5,
The fixing washer,
Shear bending integral nut tightening bar assembly for concrete reinforcement formed with a "U" shaped fixing groove which is inserted in the direction orthogonal to the longitudinal direction of the FRP bar any one of the middle portion of the FRP bar.
The method according to claim 5,
The concrete structure is further formed with a shear bar insertion groove extending from the fixing unit insertion groove and grooved to be orthogonal to the fixing unit insertion groove,
A shear bending integral nut tightening bar assembly for concrete reinforcement further comprising a shear reinforcing bar connected between the fixing washer and the fixing member and inserted into the shear bar insertion groove.
The method of claim 7,
The shear reinforcing bar,
A connection end connected to the FRP bar;
Shear bending integral nut tightening bar assembly for reinforcing concrete including a reinforcing end extending perpendicular to the connection end is inserted into the shear bar insertion groove.
The method according to claim 8,
The connection end is formed with a through hole of a predetermined size,
The shear reinforcing bar is a shear bending integral nut tightening bar assembly for concrete reinforcement coupled to the FRP bar so that the outer peripheral surface of the anchor cap through the through hole.

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