KR20050034978A - Waterproof, repair and reinforcement of flat, curved and rectangular structures - Google Patents

Abstract

The present invention relates to a waterproof and repair reinforcement method for flat, curved and rectangular structures such as bridges, harbors and river structures, culverts, water purification plants, sewage treatment plants, waterways, bass tanks, subways, buildings, manholes, cavities, box structures, tunnels, etc. , Due to the difference in dry shrinkage due to the heterogeneous material between the structure to be repaired and the reinforcement, the lifting effect is generated, or the reinforcement is directly fixed on the concrete surface to be repaired. After drilling the structure, the anchors are used to fix simple spacers or fixtures, and then the reinforcement is fixed on the spacers or fixtures so that the reinforcing effect is relatively low compared to the degree of impact or damage to the concrete to be repaired. , Using a circular spreading force within the circular structure of the sewer pipe In order to improve the problem of lighting that is not applicable to general structures consisting of flat, curved, and square shapes, such as installing reinforcement on the concrete surface, impact the structure or damage the cross section according to the size or shape of the structure. Part consisting of a combination of wire or reinforcing material on the back of the net or net type reinforcement and the net or net type reinforcement after applying primer to the structure to be repaired for easy installation while minimizing waterproofing and reinforcing effect. Arrange the composite reinforcement, a standardized unit united for single-sided or shearing surfaces, and selectively fix one or two of fixing anchors or fixing adhesives at predetermined points on the composite reinforcement, Fastening anchors or fastenings on composite stiffeners and composite stiffeners The tinted material quality and workability improvement effect is expected by forming the after plastering with the President and water shield repair material to a desired thickness that can be buried so as to selectively apply a waterproofing cum surface finish on the surface of the water shield President and repair material.

Description

Waterproof, Repair and Reinforcement Plane, Curved and Rectangular Structures

The present invention includes fully open structures, including bridges, harbors, river structures, constrained structures including culverts, subways, buildings, manholes, cavities, or box structures, and some open structures and tunnels, including water purification plants, sewage treatment plants, waterways, and reservoirs. The present invention relates to a waterproof and repair reinforcement method for planar, curved and rectangular structures, such as mixed cross-sectional structures.

As a first method of repair reinforcement method for planar structures, there is a method of applying mortar or resin only on the surface to be repaired, but this has a problem that the strength reinforcement effect is low because the reinforcement composed of steel or fiber reinforcement is not inserted. As a second method, there is a method of reinforcing by applying resin to reinforcing materials such as glass fiber or carbon fiber, but this is lifted due to the difference in dry shrinkage rate due to the heterogeneous material between the concrete repaired surface and the FRP. As a third method, as a third method, the wire mesh, which is a reinforcing material, is arranged without fixing it on the concrete floor surface to be repaired or directly adhered to it, or fixed with concrete nails, or simply a conventional spacer material. After finishing installation using fixing materials, finish by mortar or resin However, all of them have relatively low strength reinforcement effects in terms of dynamics, or are difficult to apply when reinforcing structures such as ceilings or side sections, and as a fourth method, reinforcing bars or reinforcing bars and resin bars are spaced. After fixing or drilling concrete nails on the concrete surface to be repaired using a fixing material or fixing material, install fixing anchors, and then fix the reinforcement to the concrete nails or fixing anchors and finish by mortar or resin. However, considering the fact that the thickness of the repair section is as thin as possible and the high strength is required, the thickness of the repair section is relatively large, resulting in a loss of use space, and the degree of impact or damage to the concrete to be repaired. Compared with this repair method, there is a problem that the strength reinforcing effect is low. In order to repair and reinforce the inner surface of sewage pipe, there is a method of finishing by reinforcing the circular reinforcement with the spacer and reinforcing bar fixed on the back of the wire mesh, and finishing by mortar or resin (Patent No. 0338799). This is just a method of installing reinforcement on the concrete surface to be repaired by using the force spreading in circular shape by limiting the inner surface reinforcement of the circular structure.In the case of general structure, which has a relatively large area and is composed of flat, curved and square shapes, the application principle itself There was a problem that could not be applied differently. In order to improve these problems comprehensively, it is possible to minimize impacts or to minimize cross-sectional damage to flat, curved or octagonal repaired surfaces, such as ceilings or side sections, which are difficult to fix stiffeners such as ceilings or side sections. The installation of the reinforcing material is easy, and under the same materials or conditions, it is necessary to develop a repair and reinforcing method of improving the crack prevention and strength reinforcing effect as well as waterproofing.

The present invention has been conceived to correct the above-mentioned problems, and is a fully open structure including bridges, harbors and river structures, and constrained structures including culverts, subways, buildings, manholes, cavities or box structures, and water purification plants and sewage. It relates to waterproof and reinforcement methods for flat, curved and rectangular structures, including some open structures including treatment plants, waterways or reservoirs, and mixed cross-sectional structures including tunnels.

In the conventional structure repair and reinforcement method, the reinforcement composed of steel or fiber reinforcement is not inserted and thus the strength reinforcement effect is low, or due to the difference in shrinkage expansion rate due to the heterogeneous material between the concrete to be repaired and the FRP. Lifting phenomenon may occur or wire wire reinforcement is fixed in direct contact with concrete surface to be repaired, or rebar or reinforcing bar, resin rod, etc. is simply installed using ordinary spacer or fixing material and then plastered with mortar or resin. By finishing, the thickness of the repair section becomes relatively large, resulting in loss of use space, and mechanically arranged in a disadvantageous principle in terms of strength reinforcement of the reinforcement, resulting in relatively low strength reinforcement effect and impact on the concrete to be repaired. Structure or circular shape The method of installing the reinforcement on the concrete surface to be repaired using the circular opening force on the surface of the structure is relatively large and the application principle itself cannot be applied to the general structure composed of flat, curved and square shapes. In order to solve the problems comprehensively, repair is made of high strength and waterproof and corrosion resistance by mixing fiber reinforcement and polymer resin components to improve the waterproofing, corrosion resistance, crack prevention and strength reinforcing effect at the same time as the concrete to be repaired. Waterproof and repair materials including mortar or resin are used, and a thin cross section corresponding to the requirements of repair reinforcement materials is used to prevent cracks, to enhance strength, and to be easy to install. The shape reinforcement is in the middle of the thickness of the reinforcement The gap between the plastic and the reinforcement on the back of the mesh or net type reinforcement in the direction that the spacer and the reinforcement wire are in contact with the concrete surface to be repaired so as to have the function of the reinforcement at the same time to maximize the strength reinforcement effect on the mechanical side. It consists of a composite reinforcement that is a standardized product united by fixing it, and optionally using one of the usual fixing anchors or fixing adhesives or use the two fixing materials in combination according to the site conditions of the structure to be repaired, the preferred practice for this For example, only the spacers and the reinforcement wires in the composite reinforcement are fixed to the structure to be repaired with a fixed number of fixing anchors, and the net or mesh type reinforcement is indirectly fixed by the spacers and the reinforcement wires at the predetermined intervals. Optionally while maintaining a certain interval Using an adhesive for fixing to the net or net-like reinforcing material between the separation material Greater reinforcing wire material for a maintenance were to be fixed to the target structure.

Here, the fixing adhesive is a material of the same system as the waterproofing and repairing material, and can support the weight of the composite reinforcing material, and the fiber reinforcing material and the polymer resin component are mixed so that the high strength and the fastening agent are mixed, so that the fastening property and the adhesive performance improving material are mixed. It was attached to the fixing adhesive including the adhesive mortar or resin having excellent adhesiveness at a predetermined location to be easily fixed in the field.

In addition, in order to selectively apply the composite reinforcement to the shape or the area of the concrete surface to be repaired easily, for the partial section and the standard section for the partial section, which is a standard product unitized to a predetermined standard for the flat section, the curved section, and the square section. The product is divided into shearing surface, which is a standard product united to a predetermined standard by expanding in the longitudinal or transverse direction, and the members of the partial cross-section and shear surface are applied in the same way.

The composite reinforcement for flat parts is manufactured and installed in a unit standard product according to a predetermined standard, but the standard part of the mesh or net reinforcement material has a predetermined length corresponding to several centimeters in order to facilitate installation in a state where a part of the composite reinforcement for the square part is overlapped. It was installed so that it overlaps up and down as much as possible, and then fixed by using a binding line at predetermined intervals for the overlapping part.The spacer and reinforcement wire rod overlap with the overlapping part of the net or mesh type reinforcement standard product to minimize the thickness of the overlapping part. It was installed to be overlapped by a predetermined length corresponding to about 10 to 20 centimeters in a plane, and then fixed to the overlapping portion using a binding line at predetermined intervals to improve site construction. After installation of the composite reinforcement specification step by step, The composite reinforcement standard for the support part is smaller than that of the normal composite reinforcement standard but at a predetermined ratio such as 1/2, 1/4, 1/8, etc. Equipped with a reduced standard product to facilitate on-site installation, the construction was improved.

In addition, the composite reinforcement for the corner portion, such as the corner portion is manufactured by installing the unit standard product in a predetermined standard according to the angle of the corner portion, but the mesh or net-shaped reinforcement standard product in order to facilitate installation in a state overlapping a part with the composite reinforcement for the flat portion It is installed so that it overlaps up and down by a predetermined length corresponding to several centimeters, and then it is fixed by using a binding line at predetermined intervals for the overlapping portion, and the wire rod for spacer and reinforcement is made to minimize the thickness of the overlapping portion. It is installed so that it can be overlapped with a predetermined length corresponding to about 10 to 20 centimeters on the portion that does not overlap with the overlapping portion of the mesh reinforcement standard product, and then it is fixed to the overlapping portion using a binding line at a predetermined interval. It was configured to improve the field construction.

Meanwhile, the composite reinforcement for the curved part is manufactured and installed according to the curved surface of the structure to be repaired to a predetermined standard, but is easy to install in the state overlapping a part with the composite reinforcement for the flat part or the square part, and the same principle as for the flat part. It consisted of.

Repaired by installing the composite reinforcement standard product consisting of the mesh or mesh type reinforcement standard product and the spacer and reinforcing wire on the surface to be repaired, the fiber reinforcement material and the polymer resin component are mixed, and the high strength and waterproof admixture is added and the corrosion resistance admixture is added. Waterproofing and water-retaining materials including mortar or resin were configured to finish by plastering in a predetermined thickness by manpower or conventional spraying.

On the surface of the waterproofing material and the repairing material, a waterproofing material and a surface finishing material for surface reinforcement and coating are selectively applied by a brush or a conventional spraying method to finish the construction of the present method.

The configuration of the present invention will be described in detail with reference to the accompanying drawings.

Normally, the pretreatment work processes including the repair or removal of damaged or deteriorated parts of the structure to be repaired, the ground surface cleaning, the rust prevention of rusty rebar, and the repair mortar plastering, which are generally applied to the repair method, are shown in the description and drawings. The description will be omitted, and the main part of the present invention was made.

As a preferred main embodiment of the present invention, the waterproof and reinforcement of the fully open structure (1) including the upper and lower portions of the bridge deck, harbor and river structures, and the restraint type including culverts, subways, buildings, manholes, hollow holes or box structures Including waterproof and reinforcement of the entire inner surface, including the corners of the structure (3), and waterproof and reinforcement of the bottom and side surfaces of some open structures (5) including water purification plants, sewage treatment plants, waterways or reservoirs, and tunnels. The construction principle of the common construction method for the mixed cross-sectional structure 6 is as follows.

In the repair or reinforcement work on the damaged or damaged old part 9 of the member 7 to be repaired as described above, conventional pretreatment including removal of the old part, cleaning of the ground surface, rust prevention of rusty rebar, and plastering of repair mortar After the work is carried out, the waterproofing and reinforcement method, which is a major part of this method, is applied.

In order to improve the adhesion between the new and old materials on the maintenance target member 7 subjected to the pretreatment, the primer 11 is applied using a conventional brush or spraying method.

Repair the mesh or mesh reinforcement 13, 13 'and the mesh or mesh reinforcement 13, 13' including steel, stainless steel or fiber reinforced plastic material on the member 7 to be repaired with the primer 11 applied thereto. Mesh or net reinforcement 13, 13 'of the portion where the spacer and reinforcement wire 15 and 15' including the steel wire having a predetermined thickness are placed in the middle of the thickness of the reinforcement and in contact with the member 7 to be repaired. The composite reinforcement 16 of the standardized unit united for the partial cross section and the shear surface is fixed by using the binding lines 23 and 23 'at predetermined intervals on the rear surface of the unit. After arranging to the length of the composite reinforcement (16) for each standard product, one of the conventional fixing anchor 20 or fixing adhesive (21) to selectively fit the site conditions of the structure to be repaired, respectively, or use the two fixing materials in combination By fixing As a preferred embodiment for this, the drilling is performed in a predetermined place of the structure to be repaired, and then the chemicals 22 are injected into the drilling portion, and then a predetermined amount of fixing anchors 20 are inserted to cure the spacers. The wire rods 15 and 15 'for the double reinforcement are fixed to the head of the fixing anchor 20 by using a binding line 23 ", and the mesh or net reinforcement 13 and 13' is the wire rod for the spacer and the reinforcement. (15, 15 ') to be indirectly fixed at predetermined intervals, but separately and on the mesh or mesh reinforcement (13, 13') between the spacer and reinforcement wires (15, 15 '). It was made to fix using a predetermined amount of fixing adhesive materials 21.

The fixing adhesive 21 is a material of the same system as the waterproofing material and the repairing material 17, and has a high strength, waterproof property, corrosion resistance, and quickness that can support a part or all of the weight of the composite reinforcement material 16, which is a unit standard product. Alternatively, the fixing adhesive 21 containing resins is used to attach a predetermined amount to a predetermined location at a thickness less than or equal to the final plastering finish surface of the waterproofing material and the water-retaining material 17.

In the process of fixing the composite reinforcement 16, it is preferable to first install the composite reinforcement 16 for the corner portion or the like, or the composite reinforcement 16 for the curved portion, such as the curved portion, these composite reinforcement 16 According to the site conditions of the structure to be repaired, the width and length per unit product are united as a predetermined standard to be a standard product, but it is easy to install in a state where a part overlaps with the composite reinforcing material 16 for the second part installed. For this purpose, the mesh or mesh reinforcement 13, 13 ′ is installed so as to overlap up and down by a predetermined length corresponding to several centimeters, and then the ties 23 at predetermined intervals for the overlap portions 25 and 25 ′. , 23 '), and the spacer and reinforcement wires 15 and 15' are made of mesh or mesh type reinforcement 13 and 13 'to minimize the thickness of the overlapping portions 25 and 25'. In the portion that does not overlap with the overlapping portions 25, 25 ' It is installed so as to overlap the plane by a predetermined length corresponding to about 10 to 20 centimeters in the plane, and then fixed to the overlapping portions 25 and 25 'by using the binding lines 23 and 23' at predetermined intervals.

Next, the planar composite reinforcement 16 is overlapped by a predetermined width on the connection portion where the composite composite reinforcement 16 for the rectangular section is installed, but the planar composite reinforcement 16 is united according to a predetermined standard. Units of width and length per product are installed as standard products, and mesh or mesh reinforcement materials (13, 13 ') correspond to a few centimeters in order to facilitate installation in a state where a part of the composite reinforcement material (16) is overlapped with each other. It is installed so that it overlaps up and down by a predetermined length, and is fixed to the overlapping portions 25 and 25 'by using the binding lines 23 and 23' at predetermined intervals, and the wire rod for the spacer and the reinforcement material 15 , 15 'is 10 to 20 centimeters in the portion that does not overlap with the overlap 25, 25' of the mesh or mesh reinforcement 13, 13 'to minimize the thickness of the overlap 25, 25'. To overlap the plane by a predetermined length After mounting, it is fixed by using the binding lines 23 and 23 'at predetermined intervals with respect to the overlapping portions 25 and 25', and the size of the final composite reinforcement 16 installed is smaller than that of the unit product. Equivalent or equivalent to the size of the final composite reinforcement 16 to be installed among products reduced at a predetermined rate such as 1/2, 1/4, 1/8, etc. of the unit product width so as to easily correspond to the on-site size standard. Select and install the above standard products.

On the other hand, the composite reinforcement for the curved portion 16 is manufactured and installed in accordance with the predetermined surface of the standard unit according to the curved surface of the structure to be repaired, but is easy to install in a state where a part overlapped with the composite reinforcement (16) for the flat portion or square. , The same principle as the flat part.

After installing the composite reinforcement (16) consisting of the mesh or mesh reinforcement (13, 13 ') and the spacer and the reinforcing wire (15, 15') and the waterproofing and repairing material (17) including mortar or resin for repair Plaster and finish in the desired thickness by manpower or conventional spraying.

On the surface of the waterproofing material and the water-retaining material 17, the waterproofing material and the surface finishing material 19 for the surface reinforcement and coating is selectively applied in a brush or spraying method to complete the construction of the present method.

As described above, the present invention relates to a waterproof and reinforcing reinforcement method for flat, curved and rectangular structures, and has a thin cross section corresponding to the essential requirements of the reinforcing reinforcement method to prevent cracking and to provide excellent strength reinforcement effect and easy installation. Alternatively, mesh reinforcement is used, and the net or mesh reinforcement is placed in the middle of the thickness of the reinforcement reinforcement, so that it can have the function of reinforcement at the same time to maximize the strength reinforcement effect in terms of dynamics. The site of the structure to be repaired after arranging the composite reinforcement, which is a standardized product, is divided into partial section and shear section for fixing the wire rod at the predetermined interval on the back surface of the mesh or net type reinforcement in the direction of contact with the concrete surface to be repaired. One of the usual fixing anchors or fixing adhesives After the use of or by fixing the combination of the two fixing materials in combination with the fiber reinforcement material and polymer resin components, such as a high strength and waterproof admixture is added to the water-repellent material and water-retaining material including water-retaining mortar or resin with a corrosion-resistant admixture to a predetermined thickness Alternatively, after finishing by plastering in the usual spraying method, the waterproofing material and surface finishing material are selectively applied on the surface of the waterproofing material and the repairing material to finish the construction of this method. Comprehensive quality improvement, including prevention and strength reinforcement, as well as ease of on-site construction is expected to improve the workability.

1 is an explanatory view of a waterproof and repair reinforcement method on a fully open structure in which one space is completely open, such as upper and lower portions of a bridge, a port and a river structure according to a preferred embodiment of the present invention.

Figure 2 is an explanatory diagram when the waterproof and reinforcement method is carried out on the constrained structure including a culvert, a subway, a building, a manhole, a cavity or a box structure according to a preferred embodiment of the present invention

Figure 3 is an explanatory diagram when the waterproof and water reinforcement method is performed on some open structures including water purification plant, sewage treatment plant, waterway or reservoir according to a preferred embodiment of the present invention

Figure 4 is an explanatory diagram when the waterproof and maintenance reinforcement method is carried out on the mixed cross-sectional structure including a tunnel according to a preferred embodiment of the present invention

FIG. 5 is an enlarged cross-sectional view of A of FIG. 1, A ′ of FIG. 2, and A ″ of FIG. 3.

FIG. 6 is an enlarged cross-sectional view of B of FIG. 2. FIG.

7 is an enlarged cross-sectional view of FIG. 3C.

8 is an enlarged cross-sectional view taken along line D of FIG.

9 is an enlarged perspective view showing the binding state of the combination portion of the composite reinforcement consisting of the wire and the reinforcement for the spacer and reinforcement and the mesh or net reinforcement and the fixed state of the composite reinforcement

10 is an enlarged cross-sectional view taken along line E of FIG.

※ Explanation of code for main part of drawing

1: Fully Open Structure 3: Constrained Structure

5: partly open structure 6: mixed cross-sectional structure

7: Member to be repaired 9: Damage or old part

11: primer 13, 13 ': mesh or mesh reinforcement

15, 15 ': wire rod for spacer and reinforcement 16: composite reinforcement

17: waterproofing material and repair material 19: waterproofing material and surface finish material

20: fixing anchor 21: adhesive for fixing

22: Chemical 23, 23 ', 23 ": Binding Line

25, 25 ': Overlap

Claims (1)

In the waterproofing and reinforcement of flat, curved and octagonal structures including bridges, harbor and river structures, culverts, subways, buildings, manholes, cavities, box structures, water purification plants, sewage treatment plants, waterways, reservoirs and tunnels, Pre-treatment work processes including cleaning or removing damaged or deteriorated structural members, cleaning the surface, rust-proofing of reinforcing steel bars and plastering mortar for repair; A primer coating process carried out on the pretreatment work surface, A process of arranging a composite reinforcement composed of a combination of a reinforcing material and a reinforcing material having a predetermined thickness and quantity on the back surface of the reinforcing material or the net reinforcing material on the primer coating surface; A fixing anchor installation work process that is used alone or in combination with a fixing adhesive in a predetermined position on the spacer and the reinforcing wire of the composite reinforcement arranged; A process of attaching a fixing adhesive, which is used alone or in combination with a fixing anchor, by attaching a predetermined amount so that the net or mesh type reinforcement and the repaired structure are integrated among the arranged composite stiffeners; Plastering process of the waterproofing material and the repairing material which is performed to a predetermined thickness so that the fixing anchor or fixing adhesive which fixes the composite reinforcing material and the composite reinforcing material is buried on the member to be repaired, It is composed of waterproofing and surface finishing material coating process selectively carried out on the plastering surface of waterproofing and repairing materials. In the process of arranging the composite reinforcing material, it is divided into a flat part, a curved part, and a rectangular part, and then unitized for a partial cross section or a shear surface to be a standard product, and only one of fixing anchors or fixing adhesives for fixing the composite reinforcing material is used. It is used or fixed in combination of the two, the overlapping portion of the net or mesh reinforcement is fixed by the binding line to the overlapping portion up and down by a predetermined width, the overlapping portion of the spacer and reinforcement wire rod overlaps the mesh or mesh reinforcement Plane, curved and rectangular structures waterproof and reinforcement method characterized in that the overlapping parts are not overlapped with the plane, and then the overlapping parts are fixed with a binding line to facilitate overlapping operations and to minimize overlapping thicknesses. .