KR100549044B1 - Repairing and reinforcing apparatus for increasing endurance force for tensioned part in concrete structures and building method thereof - Google Patents

Abstract

        The present invention is to form a horizontal groove of a certain length in the cross section subjected to the tensile force in the concrete structures, such as bridges, buildings, and the like to install vertical grooves on both sides and then install the reinforcing reinforcement rope in the horizontal and vertical grooves and horizontal After finishing with high strength mortar or epoxy on the outside of the groove part, install a plurality of injection pipes in the vertical groove part and the horizontal groove part, and then fill the injection pipe while injecting filler such as epoxy to ensure that the epoxy is impregnated in the rope. Pressurize, fill, seal and allow the epoxy to solidify, and during the solidification, the epoxy impregnated in the rope solidifies the rope and consequently tensions the tension-bearing section of the concrete structure, thus introducing tension in the tension-bearing section. And the cross section under tension and the rope are integrated by epoxy The present invention relates to a method for installing a tension reinforcing reinforcement device which performs a reinforcement of a cross section of a tensile part of a concrete structure by a tensile force by acting integrally in response to a load.

Description

        Repairing and reinforcing apparatus for increasing endurance force for tensioned part in concrete structures and building method             

        1 is a stress distribution diagram showing the stress distribution to be installed in the tension reinforcement device of the present invention in a concrete structure.

        Figure 2 is a view showing that the tension portion reinforcement device of the present invention is installed in the tension portion of the concrete structure.

        3 shows a section B-B of FIG. 2.

        4 shows a cross section A-A of FIG. 2.

       5 is a view showing a method for installation of a tension reinforcement device of the present invention.

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

          10: stress distribution diagram 11: point

          12: positive moment 13: parent moment

          20: concrete structure

          30: tension reinforcement device

          40; Unit tension reinforcement device 41: groove part

          42: horizontal groove portion 43: filler

          44: high strength mortar or epoxy 45: repair reinforcement

          46: vertical groove 47: injection tube

        The present invention forms a horizontal groove portion having a predetermined length and depth in the longitudinal direction in the cross section which is subjected to the tensile force to all kinds of concrete structures, such as bridges, buildings, etc., and a constant depth and length in the vertical direction in the concrete structure on both sides thereof. After installing the vertical groove having a groove and then install the rope as a reinforcing reinforcement in the horizontal and vertical grooves to form a "c" shape and then finish the outside with high strength mortar or epoxy to the outside of the horizontal grooves Install the injection pipe on both sides, connect the wire to the long injection pipe in the plurality of vertical grooves installed at both ends of the horizontal groove, and then expose the outside through the wire in the short injection pipe. While injecting epoxy into a short injection tube installed in the groove, it is gradually raised to the upper part of the vertical groove and filled with iron. If the length of the wire coming out while removing the yarn is exposed to the outside as long as the connection length between the long inlet tube and the short inlet tube, it is judged that the epoxy is completely filled in the vertical groove, and the injection is stopped and the inlet tube is removed. Inject epoxy at a constant pressure into the injection tube installed in the horizontal groove to completely impregnate the rope with the epoxy while completely filling the rope in the horizontal and vertical grooves, then remove the injection tube and reseal with mortar. Seal and then the epoxy is solidified so that the epoxy impregnated in the rope is tightened and the rope is tightened. Rope is integrated by epoxy to cope with external load And it acts to open integrally related to how to set up the tension section rehabilitation apparatus for practicing the rehabilitation of the cross-section of the seal portion of the concrete structure due to the tensile force.

        An object of the present invention relates to a method for installing a tension part repair reinforcement device which is installed to reinforce the strength of a concrete structure by reinforcing load capacity on new and aged concrete structures. Install a rope of fiber as a reinforcing reinforcement in the vertical grooves installed on it, and then finish the outside with high strength mortar or epoxy, and inject and fill the epoxy into the vertical and horizontal grooves using an injection tube, and solidify them. It is to provide a method of installing a tension reinforcement reinforcing device for repairing concrete structures by increasing the load capacity for the cross section.

        As a conventional technique, the reinforcing and reinforcing method for concrete structures has been constructed by attaching a fiber board to a cross section subjected to a tensile force of a concrete structure with a resin such as epoxy and attaching a fiber plate to a cross section subjected to a tensile force by an anchor using a steel sheet. The method of attaching using the epoxy is that the fiber board and epoxy are separated into the concrete structure with time, and the effect of repair reinforcement is halved, or when the steel sheet is attached, the steel plate is corroded or anchored with time. Corrosion is weakening the bearing capacity of the steel sheet to eventually reduce the strength to reinforce the load capacity has been a problem that the effect is insignificant or costly manpower and cost to maintain and maintain.

        The present invention has been proposed to improve the above problems, the horizontal groove portion having a constant depth and length in the cross section of the concrete structure subjected to the tensile force and the vertical groove portion formed on both sides and then the rope as a fiber reinforcement for repair After the installation of the rope to the outside of the rope to a certain thickness with high strength mortar or epoxy to finish the same as the concrete external cross-section and then install a plurality of injection pipes in the vertical and horizontal grooves and inject the epoxy into the injection pipe Allow the fiber rope to be fully impregnated while completely filling the vertical and horizontal grooves of the fabric, then removing the injection tube and allowing the epoxy to solidify so that it can be used to reinforce the tensile section of the concrete structure. The present invention provides a method for installing a tension reinforcing reinforcement device.

        The present invention forms a horizontal groove portion 42 having a predetermined length and depth in the longitudinal direction in the cross-section under tension in all kinds of concrete structures 20, such as bridges, buildings, etc. and the concrete structure 20 on both sides thereof. ) To install a vertical groove portion 46 having a constant depth and length in the vertical direction, and then install a rope as a reinforcing reinforcement 45 in the horizontal 42 and vertical groove portions 46 to form a "c" shape. Then, a plurality of unit tension reinforcement reinforcing devices 40 which are finished with high strength mortar or epoxy 44 outside the horizontal grooves 42 are installed in a cross section which receives the tensile force of the concrete structure 20 at regular intervals. Then, the injection pipe 47 is installed on both sides of the horizontal groove 42, and the wire 48 is connected to the long injection pipe 47 in the vertical groove 46 installed at both ends of the horizontal groove 42. When penetrating the wire 48 in the next short injection tube 47 While being exposed to the outside, while filling the filling 43 into the short injection pipe 47 installed in the vertical groove 46, while slowly filling up the upper portion in the vertical groove 46, while pulling out the wire 48 If the length of the wire that is externally exposed to the outside by the length of the connection between the long inlet 47 and the short inlet 47 initially, it is determined that the filler 43 is completely filled in the vertical groove 46. After stopping and removing the injection pipe 47, the filler 43 is injected at a constant pressure into the injection pipe 47 installed in the horizontal groove 42, so that the filler 43 is completely in the rope of the maintenance reinforcement 45. Allow the filler 43 to be completely filled in the horizontal and vertical grooves 42 and 46 while being impregnated, then remove the injection tube 47 and seal again with high strength mortar or epoxy 44 to seal the filler 43 Reinforcement As the filler material 43 impregnated in the rope 45 is tightened, the rope of the reinforcing reinforcement 45 is tightened so that the tension-bearing portion of the concrete structure 20 is tensioned so that tension is introduced into the cross-section under tension. At the same time, the tension section repair and reinforcement device is integrated with the cross section under tension and the reinforcing reinforcing rope by the filler to act integrally in response to the external load, and to perform the reinforcement of the cross section to the tension section of the concrete structure by the tension force. There is a feature in the installation method of (30).

        Hereinafter, described in detail by the accompanying drawings the configuration and operation of the present invention,

        1 is a stress distribution diagram showing the stress distribution that should be installed in the tension reinforcement device of the present invention in a concrete structure, if the external load acts on the girder of the concrete structure 20, for example, a bridge as shown in the figure As described above, the government moments 12 and 13 act on the lower end of the cross-section in which the constant moment 12 acts, and the compressive force acts on the cross-section of the upper end thereof, which is vulnerable to the tensile force. In this case, to show the need for a separate maintenance reinforcement device that can increase the tensile strength for the portion subjected to the tensile force and at the same time specify the place where the tension portion maintenance reinforcement device 30 of the present invention is installed.

        However, in the case of the bridge described in the above figure is intended to show an example and is not limited to this, it will also be clear that it can be applied to all kinds of concrete structures.

        2 is a view showing that the tension reinforcement device of the present invention is installed in the tension portion of the concrete structure, a unit of the groove portion 41 having a predetermined length, depth and width in the cross section subjected to the tensile force on the concrete structure 20 Tensile portion reinforcement device 40 is installed in a plurality of tension portion reinforcement device 30 is installed at regular intervals.

        The unit tension portion repair reinforcement device 40 is composed of a horizontal groove portion 42 and a vertical groove portion 46, as shown in Figure 4 and the fiber is a reinforcement material 45 in the vertical and horizontal groove portions 46, 42 The rope of ash is installed in the vertical and horizontal grooves 46 and 42 so as to be installed in a "c" shape, and then the reinforcing reinforcement 45 installed in the horizontal grooves 42 as described in FIGS. Finished with high-strength mortar or epoxy 44 on the outside to allow the space portion to be generated around the rope and the rope as a maintenance reinforcement in the groove 41, and then filling the filler (47) through the injection tube 47 as shown in FIG. 43) is to complete the installation of the tension reinforcing device 30 by injecting epoxy.

        The reinforcing reinforcement 45 is a fiber rope made by mixing any one or two or more of carbon fiber, glass fiber, aramid fiber or normal fiber.

        The filler 43 filled in the groove 41 is an epoxy resin or fine mortar.

        Spray the epoxy spray on the interface between the rope and the mortar. This is to be integral with the rope impregnated with the mortar and epoxy so that it can work integrally with the external working load.

        3 is a cross-sectional view of the cross-sectional view BB of FIG. 2, in which a rope of fiber material, which is a reinforcing reinforcement material 45, is installed in a horizontal groove portion 42 having a constant depth and width and formed in a constant length, and then sprayed with epoxy on an outer boundary of the rope. After finishing with high-strength mortar or epoxy (44) to finish beautifully with the outer surface of the concrete to form a space for the rope to be a reinforcing reinforcement 45 is installed in the space in the groove 41, then in Figure 5 As shown, the injection tube 47 is installed at both ends of the horizontal groove 42 to inject epoxy into the rope while injecting and filling the epoxy, which is the filler 43, through the injection tube 47.

        4 is a view showing a cross-sectional view AA of Figure 2, showing a longitudinal section of the unit tension reinforcement device 40 installed in the cross section subjected to the tensile force of the concrete structure 20, in FIG. As described above, the horizontal groove portion 42 having a predetermined length, width and depth is installed in the cross section and connected to both sides thereof so that the vertical groove portion 46 is formed into the concrete cross section at a constant depth with the groove portion 41 having a constant width. After forming and then installing the rope of the reinforcing reinforcement material 45 is a fiber material therein and finished with high-strength mortar or epoxy (44) on the outer surface of the horizontal groove portion 42 as described in FIG. Then, the insertion part 47 described in FIG. 5 is inserted into the horizontal and vertical grooves 42 and 46 through the injection tube, and the tension part repair is completed by injecting and filling epoxy 43, the filler 43, Steel is the device 30.

        5 is a view showing a method for installing the tension reinforcement device of the present invention, the horizontal and vertical grooves 42, 46 described in the above drawings in the concrete cross section so as to have a constant depth, width and length in the concrete cross section. After the groove 41 is formed, a rope made of fibrous material, which is the reinforcing reinforcement 45, is installed in the groove 41, and is installed in a "c" shape. Then, the boundary between the outside of the rope and the concrete surface is sprayed with epoxy. Next, the injection tube 47 is inserted into both ends of the horizontal groove portion 42 while the injection tube 47 is finished with high-strength mortar or epoxy 44, and then vertical groove portions installed on both sides of the horizontal groove portion 42 ( 46, the wire 48 is connected to the long injection tube 47, and the wire 48 is penetrated into the short injection tube 47 installed below a certain length so as to be exposed to the outside. Installed in the groove 46 While the filler 43 is injected into the silver inlet tube 47, the filler 48 is gradually raised to the upper portion of the vertical groove 46, and at the same time, the length of the wire 48 that is outward while the wire 48 is pulled out is initially long. When exposed to the outside by the connection length of the 47 and the short injection tube 47, it is determined that the filler 43 is completely filled in the vertical groove 46, the injection is stopped and the injection tube 47 is removed and then the horizontal The filling material 43 is continuously sucked into the injection pipe 47 while the air is sucked at a constant pressure into the injection pipe 47 installed in the groove 42 to create a vacuum state. While the filler is completely impregnated with the in-rope, the filler 43 is completely filled in the space in the horizontal and vertical grooves 42 and 46, and then the injection tube 47 is removed and the high-strength mortar or epoxy 44 Repair of unit tension part sealed by resealing Steel device 40 is installed in a plurality of tension portion repair reinforcement device 30 is installed at regular intervals and then the filler is solidified so that the epoxy impregnated in the rope and the epoxy filled in the space is solidified the rope to tighten the tension force As a result, the tensioned part of the concrete structure is tensioned, so that the tensioned force is introduced into the cross section, and the tensioned cross section and the rope are integrated by epoxy to act integrally in response to external loads. It is an installation method of the tension portion maintenance reinforcement device 30 for performing a maintenance reinforcement of the cross section to the tension portion of the concrete structure (20).

        The horizontal groove portion 42 and the above-mentioned horizontal groove portion 42 while the air is sucked into one side of the injection pipe 47 installed at both ends of the horizontal groove portion 42 and the other side pipe is injected with epoxy as a filler so that the epoxy is completely impregnated in the rope. The epoxy as the filler is completely filled in the vertical groove 46.

        The wire 48 is connected to the upper portion of the long injection pipe 47 installed in the vertical groove 46, and the wire 48 at one end is exposed to the outside through the short injection pipe 47 installed below a predetermined distance. Next, while injecting the filler 43 into the short injection tube 47, the short injection tube 47 is gradually raised to the upper portion of the vertical groove portion 46 while continuously filling the filler 43 and the wire 48 is externally supplied. When the wire comes out to the outside by the length of the wire 48 which initially connected the long injection pipe 47 and the short injection pipe 47 to each other, filling the epoxy 43 as the filler 43 in the vertical groove portion 46 above. It can be determined that this is completely terminated, and whether or not epoxy is injected into the vertical grooves and the horizontal grooves 46 and 42 through the injection pipe 47 is completely filled in the grooves. Epoxy as a filler 43 in the injection pipe 47 on one side at the same time working with So that the mouth and the chambers and the inlet tube of the other side until the expansion work that is coming out of the epoxy so as to continue the charging operation of the epoxy filling operation.

        Mortar referred to as the material for plastering on the outside of the rope in FIGS. 2 to 5 above optionally uses high strength mortar or epoxy.

        The tension part repair reinforcement device of the present invention is installed on the cross section subjected to the tensile force of the concrete structure to reinforce the load capacity of the structure to increase the durability of the concrete structure to improve the safety of the concrete structure and at the same time to quickly repair the concrete structure As it can be carried out and is hardly affected by external temperature, it is an economical and quick construction that can be used to repair and reinforce concrete structures semi-permanently, and it is a reinforcement device to secure safety that can be used semi-permanently.

Claims (6)

 On all kinds of concrete structures such as bridges and buildings, horizontal grooves having a constant length and width in the longitudinal direction are formed in the cross-sections under tension, and both sides have vertical widths and lengths in the vertical direction in the concrete structure. After installing the grooves, install the reinforcing reinforcement in the horizontal and vertical grooves so as to be in the shape of "c", and then inject into the horizontal and vertical grooves after finishing the exterior with high strength mortar or epoxy on the outside of the horizontal grooves. In the maintenance reinforcement device to increase the load capacity to the concrete structure by using the tensile part repair reinforcement device installed a plurality of unit tension reinforcement reinforcement unit filled with the filling material using a pipe at regular intervals, The injection pipes installed in the horizontal and vertical grooves respectively install injection pipes on both sides of the horizontal groove to suck air into the injection pipe on one side, and inject the filler such as epoxy into the injection pipe on the other side in the horizontal groove. And the wire is connected to the upper end of the long injection tube in the vertical groove and exposed to the outside through the wire in a short injection tube installed below a certain length of the long injection tube. Tensile repair reinforcement device for reinforcement of load capacity for the section subjected to the tensile force of the concrete structure characterized in that the filling is judged whether the filling is completed by the length of the wire drawn out while filling the filler in stages. delete delete delete delete         Forming grooves such that horizontal and vertical grooves have a predetermined depth, width, and length in the concrete section at the cross-sections under tension of the concrete structure;         Installing a rope of a fiber material, which is a reinforcing reinforcing material, in the groove portion and installing the rope in a "c" shape;         Spraying the boundary between the outer surface of the rope and the concrete surface with epoxy and then finishing with high strength mortar or epoxy to form a space to install a plurality of unit tension reinforcing devices at regular intervals;         Inserting injection tubes respectively at both ends of the horizontal groove;         Connecting a wire to a long injection pipe in a vertical groove provided at both sides of the horizontal groove, and installing the wire to be exposed to the outside by passing the wire through a short injection pipe installed under a predetermined length;         While injecting the filler into the short injection tube installed in the vertical groove, the filler is gradually raised to the upper portion of the vertical groove and filled with the filler, and at the same time, the length of the wire which is drawn out is removed from the wire. Determining that the filling material is completely filled in the vertical groove when exposed to the outside by a length, stopping the injection and removing the injection tube;         The horizontal and vertical grooves are made while sucking the air at a constant pressure in the injection pipe installed in the horizontal groove to create a vacuum state, while the filler is sucked into the injection pipe to completely impregnate the filler in the rope installed in the groove. Tensile repair for reinforcement of load bearing capacity for tension-bearing sections of concrete structures, characterized by the step of allowing the filler to be completely filled in the space within the site, then removing the injection tube and resealing it with high strength mortar or epoxy. How to install the reinforcement device.

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