KR20080004172A - Connection method and structure of concrete composite and supporting structure using fiber reinforced plastic - Google Patents

Abstract

The present invention provides a method of connecting a concrete composite and a support structure made of fiber reinforced plastics in the form of a hollow tube that is safer and easier to construct by mechanically fastening the front end portion of the hollow tube fiber reinforced plastic and the supporting structure while separately placing the support structure. It's about structure.

Description

CONNECTION METHOD AND JOINT STRUCTURE BETWEEN SUPPORT STRUCTURE AND CONCRETE COMPOSITE STRUCTURE USING THE FIBER REINFORCED POLYMER}

1A and 1B illustrate a connection portion of a conventional fiber reinforced plastic concrete composite member and a support structure.

Figure 2 shows the connecting portion of the front end and the support structure of the concrete composite using a tubular fiber-reinforced plastic of the present invention.

3 and 4 show in cross-section and perspective view a pier structure installed by the method of the present invention.

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

100: concrete composite 110: hollow fiber fiber reinforced plastic

120: concrete 200: support structure

210: lower support structure 220: upper support structure

300: L-shaped pedestal 400: Fastener

500: tension means 510: fixture

520: tension member 530: anchoring

600: upper structure

The present invention relates to a connection method and structure of a concrete composite and a support structure using fiber-reinforced plastics. More specifically, the present invention relates to a method and structure for connecting a concrete composite and a support structure made of a fiber-reinforced plastic in the form of a tube filled with concrete.

According to the prior art for the structural member using a concrete composite using a fiber-reinforced plastic (or fiber-reinforced polymer) in accordance with the present invention, according to Japanese Patent Laid-Open (JP 2003-253761) fiber reinforced plastic concrete composite member 10, Fiber reinforced plastics such as FRP, GFRP, CFRP as shown in Figure 1a to produce a hollow tube 11 form as a column structure, and filled the concrete (12) inside the hollow tube, reinforced fiber reinforced steel reinforced Concrete composite structural members are introduced.

The composite structural member 10 is installed to a degree of self-reliance without using a separate connection method in connection with the bridge foundation, which is the supporting structure 20, the inner reinforcing bar 13 is the bridge foundation or the upper structure ( 14) there is a problem that the structure may be somewhat unstable in the connecting portion because the composite structure member is integrally connected to the bridge foundation by extending to 14).

Accordingly, the applicant of the present invention to form a pour hole 14 in the form of a plurality of circles, etc. at the end of the composite structure member 10, as shown in Figure 1b, the support structure 20 by the pour hole 14 Since the concrete 21 constituting the communication has been applied for a technology that allows the composite structure member 10 can be integrated with the support structure while effectively securing the attachment force to the support structure 20.

However, even in the case of the method of communicating the concrete 21 to the pour hole 14 and the like, the connection portion of the composite structure member 10 and the support structure 20 may lack the working space required for smooth concrete filling and compaction It has been pointed out that the connection between the support structure 20 and the composite structural member 10 may be structurally unstable.

As an object of the present invention to solve the problems of the prior art of the present invention is a concrete using a fiber reinforced plastic that can be safely and quickly construction of the connection end of the concrete composite and the support structure using a hollow tube fiber reinforced plastic It is to provide a method and structure of the connection between the composite and the support structure.

The present invention to achieve the above technical problem

In the construction of the structure made of the concrete composite 100 is made by filling the concrete 120 inside the hollow tube fiber-reinforced plastic 110, the connection between the lower end of the concrete composite 100 and the support structure 200

A connecting reinforcing bar 140 protruding upward from an upper surface of the lower support structure 210 cured by the primary pouring concrete 130;

The connecting reinforcing bar 140 is inserted into the bottom of the hollow tube fiber-reinforced plastic 110, but the vertical portion formed on the upper surface of the lower support structure 210, the horizontal portion 310 and the through hole 321 is supported Install the L-shaped pedestal 300 consisting of (320),

A fastener 400 including an anchor bolt and a nut in the through hole 321 of the anchor hole 111 and the L-shaped pedestal 300 formed at the lower end of the hollow tube fiber reinforced plastic 110 supported by the lower support structure By mechanically fastening the hollow tube fiber-reinforced plastic 110 to the lower support structure 210,

The L-shaped pedestal 300 and the hollow tube fiber-reinforced plastic 110 to pour the secondary pour concrete 150 so that the upper support structure 220 is formed to cure the hollow tube fiber reinforced plastic 110 ) To fill the concrete 120 therein.

That is, the front ends of the concrete composite body 100 are mechanically connected to the support structure 200, but the concrete for the support structure for such a connection is poured into two and one-thirds, and the concrete strength to be poured by dividing the two and one by one respectively. Differently, while ensuring the efficiency of compaction and filling of the concrete to ensure the structural safety of the connection.

Hereinafter, the best embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to more clearly and easily describe the connection method and structure of the present invention.

Figure 2 shows the configuration of the connection portion of the concrete composite 100 and the support structure 200 of the present invention, Figures 3 and 4 of the concrete composite 100 and the support structure 200 by the connection of the present invention The construction state diagram is shown in a cross-sectional view and a perspective view.

First, as shown in FIGS. 3 and 4, a space for constructing the support structure 200 may be secured first through a trench for forming the support structure 200 in the ground A.

The formwork B is installed in the trench space based on the installation height H of the final supporting structure 200, and the pouring height of the primary pouring concrete 211 is determined first, and the lower supporting structure 210 is cured first. To be formed.

At this time, the primary reinforcing concrete 211 is connected to the reinforcing bar 140 to protrude upwards, but the connecting reinforcing bar does not have to be installed in the present invention.

Next, the lower support structure 210 is to be installed in a position where the L-shaped pedestal 300 is set in advance.

The L-shaped pedestal 300 has a horizontal portion 310 fixed to the upper surface of the lower support structure 210 and a through hole 321 is formed of a vertical portion 320 bent upward from the horizontal portion, which is integrally It is preferable to install the fabricated in such a way that it is installed in the field, and it can be made of plastic or steel.

At this time, the horizontal portion 310 is to be secured to the upper surface of the lower support structure 210 by the anchor bolt.

The L-shaped pedestal 300 is shown in the case of installing four in Figure 2, but can be increased or decreased if a certain support performance can be secured.

Next, the through-hole 321 of the vertical portion 320 and the anchor hole 112 formed at the lower end of the hollow tube fiber reinforced plastic 110 to be mechanically fastened to each other.

At this time, the front end portion of the hollow tube fiber reinforced plastic 110 is set to be in contact with the upper surface of the lower support structure, so that the through-hole 321 and the anchor hole 112 can communicate with each other. As a result, the hollow tube fiber-reinforced plastic 110 has an advantage that the construction is very easy since it becomes self-supporting to the lower support structure at the time of initial setting.

Next, the hollow tube fiber reinforced plastic 110 is mechanically fastened to the L-shaped pedestal 300 by the fastener 400 including the connecting bolt 410 and the nut 420.

Next, the secondary casting concrete 221 is poured up to the height of the final supporting structure 200 so that the lower portion of the hollow tube fiber reinforced plastic 110 and the L-shaped pedestal 300 are embedded.

At this time, the secondary pour concrete 220 uses concrete having a strength greater than that of the primary pour concrete 211.

This is because the connection part of the support structure 200 and the concrete composite 100 is required to reinforce it as the site most affected by the earthquake.

As a result, the upper support structure 220 of the support structure 200 may be completed by the final secondary pouring concrete 220.

Concrete composite 100 of the present invention is a hollow pipe having a length or height of the required by making the hollow tube fiber reinforced plastic 110 into segments (110a, 110b, 110c, 110d), connecting each segment in the male and female socket type After installing the fiber-reinforced plastic 110 first, it can be produced by filling the concrete 120 therein.

At this time, the inner side of the hollow tube fiber-reinforced plastic 110 is set at the bottom of the connecting reinforcing bar 140 protruding upward from the support structure 220 is inserted into the hollow tube fiber-reinforced plastic 110 and the support structure ( It is possible to increase the binding performance of the 200).

In addition, the hollow tube fiber-reinforced plastic 110 forms a through hole 111 so that a tendon or strand can be penetrated later, and the through hole 111 inserts a sheath pipe in the longitudinal direction in advance. It may be formed.

The concrete 120 is filled in the space except for the portion of the through hole 111 to be integrated with the hollow tube fiber-reinforced plastic 110.

Eventually, the concrete composite of the present invention is combined with the hollow tube fiber reinforced plastic 110 and concrete to serve as a concrete composite 100, and the concrete reinforcement such as reinforcing steel or steel is separately installed inside the hollow tube fiber reinforced plastic. Even if it does not, it is possible to secure sufficient cross-sectional force against external load.

In addition, the hollow tube fiber-reinforced plastic 110 is constrained concrete 120 to be filled therein can be combined with the configuration of the tension means 500, as described below, can not only resist the greater load, but also tension means ( When prestress by 500) is introduced, it is possible to further improve the resistance to the working load.

That is, the bottom surface of the lower support structure 210 described above to be formed with a fastener 510 is fixed to one end of the tension member 520, such as PC strands or steel rods, the tension member 520 penetrates through the fixture 510 The lower support structure 210 and the upper support structure 220 to be extended upward through the sheath tube pre-installed.

The tension member 520 is a fixing plate pre-installed in the upper structure 600, such as a pier coping portion formed on the concrete composite 100 via the through-hole 112 formed in the hollow tube fiber reinforced plastic 110 and After tension in the anchorage including the wedge, it is allowed to settle so that the required compression prestress is introduced into the concrete composite 100 in the axial direction.

As a result, the compressive prestress, the concrete 120 of the concrete composite 100 is added to the concrete composite 100 can be installed to increase the bending rigidity and the like.

By the connection structure of the concrete composite and the support structure using the fiber-reinforced plastic of the present invention, it becomes possible to manufacture and construct a concrete composite that can ensure the resistance to earthquakes,

The fiber-reinforced plastic composite block is more efficient structure cross-sectional design is possible due to the combination of restraining effect and tension means of the concrete to be filled, and because it is installed in a prefabricated structure, very easy to manufacture, transport and construction, various structures or structures Applicable to

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. Those skilled in the art of the present invention can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

Claims (18)

In constructing a structure made of a concrete composite fabricated by filling concrete inside a hollow tube fiber-reinforced plastic, the connection of the lower end of the concrete composite to the supporting structure Connecting reinforcing bars protruding upward from the upper surface of the lower supporting structure cured by the primary pouring concrete; The connecting reinforcing bar is inserted into the bottom of the hollow tube fiber-reinforced plastic, the L-shaped pedestal consisting of a vertical portion formed with a horizontal portion and a through hole supported on the upper surface of the lower support structure The hollow tube fiber reinforced plastic is mechanically fastened to the lower support structure by a fastener including an anchor bolt and a nut formed in the lower end of the hollow tube fiber reinforced plastic supported by the lower support structure and the through hole of the L-shaped pedestal. , And placing the secondary casting concrete so that the L-shaped pedestal and the hollow tube fiber-reinforced plastic bottom part are embedded to form an upper support structure, and curing the concrete in the hollow tube fiber-reinforced plastic. Connection method of concrete composite and supporting structure using fiber reinforced plastic. The method of claim 1, wherein the secondary pour concrete is formed to have a compressive strength greater than the compressive strength of the primary pour concrete. According to claim 1 or 2, wherein the hollow tube fiber reinforced plastic concrete composite and the support structure of the fiber reinforced plastic using a fiber reinforced plastic, characterized in that to install a plurality of hollow tube fiber reinforced plastic segments connected to each other in a male and female socket method How to connect. According to claim 3, One end is fixed to the lower support structure by a fastener, via the through hole of the concrete composite is further provided with a tension means that the other end is fixed after the tension in the upper part of the concrete composite by the anchorage Connection method of the concrete composite and the support structure using a fiber-reinforced plastic, characterized in that. [5] The method of claim 4, wherein the tension means is a PC strand or a steel rod. [5] The method of claim 4, wherein the fixing unit is composed of a regular pack and a wedge. [5] The method of claim 4, wherein the L-shaped pedestal is made of plastic or steel. In the structure made of a concrete composite fabricated by filling the concrete inside the hollow tube fiber-reinforced plastic, the connection structure of the lower end of the concrete composite 100 and the support structure Connecting reinforcing bars protruding upward from the upper surface of the lower supporting structure cured by the primary pouring concrete; An L-shaped pedestal configured to allow the connecting reinforcement to be inserted into the bottom of the hollow tube fiber-reinforced plastic, the horizontal support being formed on the upper surface of the lower support structure and a vertical part having a through hole formed therein; A fastener including an anchor bolt and a nut in a through hole of an L-shaped pedestal and an anchor hole formed at a lower end of the hollow tube fiber reinforced plastic supported on the lower support structure to mechanically fasten the hollow tube fiber reinforced plastic to the lower support structure. ; An upper support structure which is cured by pouring secondary pouring concrete to embed the L-shaped pedestal and hollow tube fiber-reinforced plastic lower end portion; and The connection structure of the concrete composite and the support structure using a fiber-reinforced plastic, characterized in that it comprises a; concrete filled inside the hollow tube fiber-reinforced plastic. 10. The connecting structure of the concrete composite and the support structure using fiber reinforced plastic according to claim 8, wherein the secondary pour concrete is formed to have a compressive strength greater than that of the primary pour concrete. 10. The method according to claim 8 or 9, wherein the hollow tube fiber reinforced plastic is a concrete composite and a support structure of the fiber reinforced plastic using a fiber reinforced plastic, characterized in that to install a plurality of hollow tube fiber reinforced plastic segments connected to each other in a male and female socket method Connection structure. According to claim 8, One end is fixed to the lower support structure by a fastener, via the through hole of the concrete composite is further provided with a tension means that the other end is fixed after the tension in the upper part of the concrete composite by the anchorage Connection structure of the concrete composite and the support structure using a fiber-reinforced plastic, characterized in that. In the structure made of a concrete composite fabricated by filling the concrete inside the hollow tube fiber-reinforced plastic, the connection structure of the lower portion and the lower support structure of the concrete composite 100 An L-shaped pedestal formed on the upper surface of the lower support structure, the horizontal part being supported and the vertical part having a through hole formed therein; A fastener including an anchor bolt and a nut in a through hole of an L-shaped pedestal and an anchor hole formed at a lower end of the hollow tube fiber reinforced plastic supported on the lower support structure to mechanically fasten the hollow tube fiber reinforced plastic to the lower support structure. ; An upper support structure which is cured by pouring secondary pouring concrete to embed the L-shaped pedestal and hollow tube fiber-reinforced plastic lower end portion; and The connection structure of the concrete composite and the support structure using a fiber-reinforced plastic, characterized in that it comprises a; concrete filled inside the hollow tube fiber-reinforced plastic. 13. The connection structure of the concrete composite and the support structure using fiber reinforced plastic according to claim 12, wherein the secondary pour concrete is formed to have a compressive strength greater than that of the primary pour concrete. According to claim 12 or 13, wherein the hollow tube fiber reinforced plastic is a concrete composite and the support structure of the fiber reinforced plastic using a fiber reinforced plastic, characterized in that installed by connecting a plurality of hollow tube fiber reinforced plastic segments in the male and female socket method Connection structure. The method of claim 12, wherein one end is fixed to the lower support structure by a fastener, the tension means is further installed after the other end is tensioned by the anchorage in the upper portion of the concrete composite via the through hole of the concrete composite body is further installed Connection structure of the concrete composite and the support structure using a fiber-reinforced plastic, characterized in that. The method according to claim 12, wherein the tension means is a PC strand or a steel rod. The method according to claim 12, wherein the anchorage is composed of a regular plate and a wedge, the method of connecting the concrete composite and the support structure using a fiber-reinforced plastic. 13. The method according to claim 12, wherein the L-shaped pedestal is made of plastic or steel.

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