KR20170104172A - Complex waterproof construction of bridge slab and waterproofing method thereof - Google Patents

Abstract

The present invention relates to a complex waterproof construction method for a bridge slab, and a complex waterproof structure thereof. According to the present invention, the complex waterproof structure for the bridge slab comprises: a primer adhesion layer formed as primer is applied onto a slab of a bridge; a liquid-applied membrane waterproof layer formed as polyurethane or polyurea is applied onto the primer adhesion layer; a waterproof reinforcing sheet including a butyl rubber sheet having an adhesive force to be attached onto the liquid-applied membrane waterproof layer, a glass fiber of a mesh structure attached onto the butyl rubber sheet for reinforcement, and a nonwoven fabric attached to the butyl rubber sheet to be located onto the glass fiber; and asphalt concrete placed onto the waterproof reinforcing sheet. According to the present invention, the complex waterproof construction method for the bridge slab is able to improve waterproof performance by solving weakness using the waterproof reinforcing sheet and the liquid-applied membrane waterproof layer, and is able to improve durability by improving the adhesive force between the liquid-applied membrane layer and the asphalt concrete using the waterproof reinforcing sheet having excellent double-sided adhesive performance. The complex waterproof construction method for the bridge slab is able to improve reliability on the waterproof performance by improving the waterproof performance of the liquid-applied membrane waterproof layer formed by the polyurethane or the polyurea.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite waterproof construction and a waterproofing structure of a bridge slab,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combined waterproofing method and a waterproofing structure of a bridge slab, and more particularly, to a waterproofing structure and a waterproofing structure of a bridge slab, which improves waterproofing by improving the disadvantages of the waterproof reinforcement sheet and the waterproofing layer, The present invention relates to a combined waterproofing method and a waterproofing structure of a slab.

Generally, the slab of the bridge serves as a traveling passage of the vehicle by installing an ascon on the surface of the concrete. Such an ascon will act to absorb the load and impact transmitted to the lower structural concrete material when the vehicle is running.

Such slabs of bridges may not only expand and shrink due to temperature or load, but may also crack due to the load or the load of the vehicle. Cracks are more easily generated due to the large exposure to the external environment on the construction site. Especially, due to different properties between concrete and aston material, temperature change or infiltration of rainfall, frequent repair is required due to peeling, lifting or cracking of the ascon. When the water penetrates into the concrete due to cracking of the ascon, .

For this reason, a waterproof layer is formed on the concrete surface in the slab of the bridge, and then the ascon is installed.

Conventional techniques related to bridge slab waterproofing include Korean Unexamined Patent Application No. 10-1286630 which discloses an improved asphalt waterproofing sheet for asphalt pavement on a bridge surface, a manufacturing apparatus for manufacturing a waterproofing sheet, and a composite waterproofing layer- A method of packaging an ascon was proposed, which is a mesh type sheet; A rigid reinforcing strip which is applied to one side of the sheet along transverse and longitudinal directions; And a waterproof sealant layer applied to a surface of the sheet on which the rigidity reinforcing band is formed, to a predetermined thickness; Wherein the rigidity reinforcing band is made of the same material as the waterproof sealant layer and is applied on one surface of the sheet at equal intervals with two or more lines forming a lattice shape; A release protective film is attached on the waterproof sealant layer to prevent foreign matter penetration before use. The spacing of the stiffening reinforcement strips is 2 to 3 cm.

Such a conventional waterproof sheet is insufficient in adhesion to bottom unevenness and has limitations in enhancing the reliability of waterproofing due to a sheet connecting portion and bubble generation. Although waterproofing of the waterproofing sheet has been disclosed, And there was a limit to improvement of disadvantages between waterproof layers.

The prior art discloses a waterproof sealant layer of a waterproof sheet and a first waterproof sealant made of a thermoplastic synthetic rubber but does not provide a specific material for providing the best waterproof performance and does not provide a structure that satisfies this requirement . Therefore, it has been necessary to improve the waterproof performance by changing the material and improving the structural characteristics.

In order to solve the problems of the prior art described above, the present invention improves the disadvantages of the waterproof reinforcement sheet and the coating film waterproof layer to improve the waterproof property and improves the reliability and durability of the waterproof property The goal is to improve.

According to an aspect of the present invention, there is provided a method of manufacturing a bridge structure, including: forming a primer adhesive layer on a slab of a bridge by applying a primer; A coating film waterproof layer formed on the primer adhesive layer by applying polyurethane or polyurea; A butyl rubber sheet having an adhesive strength to be adhered to the film waterproof layer; a glass fiber having a mesh structure attached to the butyl rubber sheet for reinforcement; and a nonwoven fabric positioned on the glass fiber and attached to the butyl rubber sheet Waterproof reinforcement sheets containing; And an ascon to be installed on the waterproof reinforced sheet, wherein the composite waterproof structure of the bridge slab is provided.

Wherein the primer bonding layer is any one of polyurethane and polyurea and the coating film waterproofing layer is formed by coating the polyurethane or the polyurea over the primary and secondary coatings so as to have a thickness of 2.0 to 4.0 mm .

Wherein the waterproof reinforcing sheet is formed such that an adhesive force providing hole exposing the butyl rubber sheet to the nonwoven fabric is two-dimensionally arranged, and the adhesive force providing hole has a diameter of 1 to 2 cm corresponding to the center portion of the opening of the glass fiber So that an adhesive force is generated on both surfaces, and the glass fiber can be formed to have a circular cross section.

According to another aspect of the present invention, there is provided a method of manufacturing a bridge, comprising: forming a primer adhesive layer on a slab of a bridge by applying a primer; Forming a coating film waterproof layer on the primer bonding layer by applying polyurethane or polyurea; A butyl rubber sheet having an adhesive strength to be adhered to the film waterproof layer; a glass fiber having a mesh structure attached to the butyl rubber sheet for reinforcement; and a nonwoven fabric positioned on the glass fiber and attached to the butyl rubber sheet Attaching the waterproof reinforcement sheet including the waterproof reinforcement sheet; And installing an ascon on the waterproof reinforcement sheet.

The step of forming the primer adhesive layer may be a step in which the primer is one of polyurethane and polyurea, and the step of forming the coating film waterproof layer is a step in which the coating film waterproof layer is formed by coating the polyurethane or the polyurea And may be formed to have a thickness of 2.0 to 4.0 mm.

The step of attaching the waterproof reinforcement sheet may include forming an adhesive force providing hole for exposing the butyl rubber sheet to the nonwoven fabric two-dimensionally, wherein the adhesive force providing hole is formed to have a thickness of 1 to 2 cm so that an adhesive force is generated on both sides of the waterproof reinforcement sheet, and the glass fiber is formed to have a circular cross section.

According to the composite waterproofing method and the waterproofing structure of the bridge slab according to the present invention, it is possible to improve the waterproof property by improving the disadvantages of each other by the waterproof reinforcement sheet and the coating waterproof layer, The durability can be improved by contributing to the improvement of the adhesion between the ascorns and the reliability of the waterproofing can be improved due to the improvement of the waterproof ability of the coating film waterproof layer itself formed of polyurethane or polyurea.

1 is a partial cross-sectional perspective view showing a composite waterproof structure of a bridge slab according to an embodiment of the present invention.
2 is a perspective view showing a waterproof reinforcement sheet of a composite waterproof structure of a bridge slab according to an embodiment of the present invention.
3 is a flowchart illustrating a combined waterproofing method of a bridge slab according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown. It should be understood that the present invention is not limited to these specific embodiments but includes all changes, equivalents, and alternatives included in the technical idea of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or corresponding elements, and redundant description thereof will be omitted .

1 is a partial cross-sectional perspective view showing a composite waterproof structure of a bridge slab according to an embodiment of the present invention.

1, a composite waterproof structure 10 of a bridge slab according to an embodiment of the present invention includes a primer adhesive layer 11, a waterproof layer 12, a waterproofing sheet 13, and an ascon 14 And can be applied not only to the construction of the waterproof layer on the top surface of the newly installed slab 20 but also to the repair of the waterproof layer on the upper surface of the existing slab 20. This also applies to the composite waterproofing method of the bridge slab according to one embodiment of the present invention to be described later.

The primer bonding layer 11 is formed by applying a primer on the slab 20 of the bridge. As the primer, a urethane-based primer can be used. For example, the primer can be any one of polyurethane and polyurea, thereby providing excellent adhesiveness and imparting buffering properties favorable for impact and vibration absorption.

The coating film waterproof layer 12 is formed on the primer adhesive layer 11 by applying polyurethane or polyurea. The coating film waterproofing layer 12 can be formed to have a thickness of 2.0 to 4.0 mm by applying polyurethane or polyurea over the primary and secondary coating layers. Due to such two coatings and securing of thickness within a predetermined range, It is possible to provide a stable waterproofing power as a subsequent waterproof layer of the waterproofing reinforcing sheet 13, minimize cracks due to elongation and shrinkage, and provide a buffering force favorable for impact and vibration absorption.

2, the waterproof reinforcement sheet 13 includes a butyl rubber sheet 13a having an adhesive strength to be adhered on the waterproofing layer 12, and a waterproof reinforcing sheet 13b having a mesh structure A glass fiber 13b and a nonwoven fabric 13c located on the glass fiber 13b and attached to the butyl rubber sheet 13a. The butyl rubber sheet 13a has a sticky property to provide an adhesive force and deforms correspondingly to the concavo-convex portion on the slab 20, so that the bonding force by complete adhesion is also excellent. The glass fibers 13b are arranged so as to intersect in the X-axis direction and the Y-axis direction with an interval of 2 to 4 cm to form a mesh structure.

The waterproofing reinforcing sheet 13 may be formed so that the adhesive force providing holes 13d for exposing the butyl rubber sheet 13a to the nonwoven fabric 13c are two-dimensionally arranged, And the opening 13e of the opening 13e is formed in a circular shape having a diameter of 1 to 2 cm, so that an adhesive force can be generated on both sides. Therefore, the waterproofing reinforcing sheet 13 is provided with the adhesive force providing hole 13d which is formed non-interfering with the glass fiber 13b while directly providing the adhesive force to the side exposed with the waterproofing force by the butyl rubber sheet 13a, The butyl rubber sheet 13a is exposed through the adhesive sheet 13a and the adhesive force is applied to the nonwoven fabric 13c side so that the adhesion between the waterproof sheet 13 and the ascon 14 is improved. Water resistance can be improved.

The waterproofing reinforcing sheet 13 can be formed so that the glass fiber 13b has a circular cross section and is advantageous for impregnation with the butyl rubber sheet 13a as compared with the conventional rectangular cross section, It is possible to make it advantageous even in the case of the resistance to the above.

The ascon (14) is laid on the waterproofing sheet (13) to form the uppermost layer.

3 is a flowchart illustrating a combined waterproofing method of a bridge slab according to an embodiment of the present invention. Since this corresponds to a construction method for a composite waterproof structure 10 of a bridge slab according to an embodiment of the present invention, the same parts as those of the complex waterproof structure 10 will not be described.

Referring to FIG. 3, in the composite waterproofing method of a bridge slab according to an embodiment of the present invention, a primer bonding layer 11 is formed on a slab 20 of a bridge by applying a primer (S12).

Before the primer bonding layer 11 is formed, the upper surface of the slab 20 can be subjected to a base treatment (S11). This base treatment step S11 is performed so that there are no grooves, holes or protrusions formed on the slab 20 of the bridge And may include a process of completely removing the ascon residue on the upper surface of the slab 20 by using a pore or the like so as not to remain the slurry 20 on the slab 20. Before application of the primer, And removing foreign matter using a planer, an air blower, or the like so that the same foreign matter is not adhered. In the background treatment step S11, a process of completely drying the moisture present on the slab 20 using a gas torch or the like may be performed.

The step (S12) of forming the primer adhesive layer may be performed by applying the primer in the direction of the throat axis with a coating amount of 0.2 to 0.4 L / m < 2 > by using a roller or brush or other applicator or means .

When the primer adhesive layer 11 is formed, the coating film waterproof layer 12 is formed on the primer adhesive layer 11 by applying polyurethane or polyurea (S13). The coating water-repellent layer 12 is coated with polyurethane or polyurea in an amount of about 2.4 kg per m < 2 > For example, the film waterproof layer 12 may be formed to have a thickness of 2.0 mm, for example, by applying polyurethane or polyurea over the primary and secondary layers.

After the formation of the film waterproofing layer 12, the butyl rubber sheet 13a having an adhesive force for adhering on the coating film waterproof layer 12 and the glass fiber having a mesh structure attached for reinforcement on the butyl rubber sheet 13a 13b and a waterproof reinforcing sheet 13 which is disposed on the glass fiber 13b and includes a nonwoven fabric 13c adhered to the butyl rubber sheet 13a is attached (S14).

The step of attaching the waterproof reinforcing sheet S14 is performed such that the adhesive force providing holes 13d exposing the butyl rubber sheet 13a are two-dimensionally arranged on the nonwoven fabric 13c, Reinforced sheet 13 is formed in a circular shape having a diameter of 1 to 2 cm corresponding to the central portion of the opening 13e of the waterproof sheet 13b. Also, in this step S14, the glass fibers 13b may be formed to have a circular cross section, as described above.

When the waterproof reinforcement sheet 13 is connected in the horizontal direction, the waterproof reinforcement sheet 13 may be formed so as to face each other or to overlap each other by a predetermined width, for example, about 3 to 7 cm.

When the waterproofing reinforcement sheet 13 is attached, the asconone 14 is laid on the waterproofing reinforcement sheet 13 (S15). The tack coating performed on the waterproofing sheet 13 at the time of installing the ascon 14 may be omitted.

According to the composite waterproofing method and the waterproofing structure of the bridge slab according to the present invention, the disadvantages of the waterproof reinforcement sheet and the coating waterproofing layer can be improved to improve waterproofness.

Further, the waterproof reinforcement sheet having excellent both-side adhesive ability contributes to improvement in adhesion between the waterproof layer of the coating film and the ascon, so that durability can be improved. Further, the coating waterproof layer itself formed of polyurethane or polyurea can improve the water resistance of the waterproof layer, thereby improving the reliability of waterproofness.

Although the present invention has been described with reference to the accompanying drawings, various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiment, but should be determined by the claims and equivalents thereof.

11: primer adhesive layer 12: coating film waterproof layer
13: waterproof reinforced sheet 13a: butyl rubber sheet
13b: glass fiber 13c: nonwoven fabric
13d: adhesive force providing hole 13e: opening
14: Ascon 20: Slab

Claims (6)

A primer bonding layer formed by applying a primer on a slab of a bridge;
A coating film waterproof layer formed on the primer adhesive layer by applying polyurethane or polyurea;
A butyl rubber sheet having an adhesive strength to be adhered to the film waterproof layer; a glass fiber having a mesh structure attached to the butyl rubber sheet for reinforcement; and a nonwoven fabric positioned on the glass fiber and attached to the butyl rubber sheet Waterproof reinforcement sheets containing; And
An ascon disposed on the waterproof reinforcement sheet;
The composite waterproof structure of the bridge slab. The method according to claim 1,
Wherein the primer bonding layer comprises:
Wherein the primer is any one of polyurethane and polyurea,
The coating film water-
The composite waterproof structure of a bridge slab, wherein the polyurethane or the polyurea is applied over the primary and secondary so as to have a thickness of 2.0 to 4.0 mm. The method according to claim 1 or 2,
The waterproof reinforcement sheet (1)
The adhesive force providing holes are formed to have a diameter of 1 to 2 cm corresponding to the central portion of the opening of the glass fiber, And the glass fiber is formed to have a circular cross-section. Forming a primer bonding layer on the slab of the bridge by applying a primer;
Forming a coating film waterproof layer on the primer bonding layer by applying polyurethane or polyurea;
A butyl rubber sheet having an adhesive strength to be adhered to the film waterproof layer; a glass fiber having a mesh structure attached to the butyl rubber sheet for reinforcement; and a nonwoven fabric positioned on the glass fiber and attached to the butyl rubber sheet Attaching the waterproof reinforcement sheet including the waterproof reinforcement sheet; And
Installing an ascon on the waterproof reinforcement sheet;
Of the bridge slab. The method of claim 4,
The step of forming the primer bonding layer comprises:
Wherein the primer is any one of polyurethane and polyurea,
The step of forming the coating film water-
Wherein the coating film waterproofing layer is applied to the polyurethane or the polyurea so as to have a thickness of 2.0 to 4.0 mm. The method according to claim 4 or 5,
Wherein the step of attaching the waterproof reinforcement sheet comprises:
Wherein the adhesive force providing holes are formed to have a diameter of 1 to 2 cm corresponding to the center portion of the opening of the glass fiber, so that the waterproof reinforcement sheet Wherein the glass fiber is formed so as to have a circular cross-section.

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