KR101135165B1 - Complex Waterproof Sheet, Waterproof Constructing Method Using the Same and Waterproof Structure - Google Patents

Abstract

The present invention relates to a composite waterproof sheet having low temperature flexibility, room temperature heat resistance, stable weather resistance, aging resistance and chemical resistance, and excellent adhesiveness and elastic strength, a waterproof construction method, and a waterproof construction structure using the same.

The waterproof construction method includes the steps of forming an adhesive layer on a base surface, and having a adhesive force on both sides along a width direction or a length direction of the waterproof sheet to be installed at a portion to be joined to the butt joint of the waterproof sheet at regular intervals on the adhesive layer. Attaching a plurality of joint adhesive sheets consisting of: a plurality of composite waterproofs having an overlapping region in which an asphalt-based adhesive reinforcement layer is formed on each of the butyllava layers, and an adhesive reinforcement layer is removed at one end thereof. Installing a sheet butt against the upper surface of the adhesive sheet for the joint in the width direction or longitudinal direction, and overlapping the waterproof sheet adjacent to the overlap area in the longitudinal direction or the width direction to form a sheet waterproof layer; Water-soluble asphalt coating waterproofing agent or a synthetic coating film of asphalt and urethane is applied to the sheet waterproof layer. Forming a waterproof layer, and forming a coating protective layer for protecting the coating waterproof layer on an upper surface of the coating waterproof layer.

Composite Waterproof, Butyl Lava, Waterproof Sheet, Butt Joint

Description

Complex Waterproof Sheet, Waterproof Constructing Method Using the Same and Waterproof Structure}

The present invention relates to a composite waterproof sheet including a butylaba layer, a waterproof construction method and a waterproof structure using the same, in particular, as a waterproof sheet adopts butylaba excellent in various physical properties as a body of the waterproof sheet and asphalt felt on top of the waterproof sheet. Or composite waterproof sheet adopting asphalt impregnated nonwoven fabric integrally and constructing asphalt coating waterproof layer of same series on the upper part of sheet, composite waterproof sheet which can realize perfect double composite waterproof structure with excellent adhesion, waterproof construction using the same It relates to a method and a waterproof structure.

In general, leaks and condensation due to cracks occur on the base of inorganic materials such as concrete or mortar forming a building, and this problem plays a role in facilitating aging of the building by weakening the durability of the building. Therefore, in order to eliminate the cause of such defects, the external waterproofing of the roof / outer wall of the building uses a sheet waterproofing method using a waterproof sheet, a film waterproofing method using a film waterproofing material, and a composite film waterproofing method using a sheet and a film together. have.

Looking at the advantages and disadvantages of the conventional waterproof method as follows.

First, the synthetic polymer sheet waterproof method has the advantage of easy construction because it uses a synthetic polymer sheet, but is easy to be damaged because of the thin, there is also a problem of watertightness. In addition, in the case of using this method, there is a problem in that a sheet for civil engineering is used in combination and the protective layer must be ensured.

In addition, the improved asphalt sheet waterproofing method is applied to underground waterproofing because the improved asphalt sheet is attached to the torch burner to secure watertightness by some training. The improved asphalt sheet waterproofing method is currently the most commonly used method is a method of unfolding and attaching the sheet to the concrete slab in the molten state by heating the asphalt attached to the back of the waterproof sheet with a propane gas burner (torch burner). .

The improved asphalt sheet has a non-woven reinforcing sheet is heat-sealed on one side with the same size as the asphalt sheet, and the other side of the asphalt sheet is attached with a release paper for preventing the adhesive sheet from being adhered to each other during production.

Such improved asphalt has a problem of poor installation workability and difficulty in securing watertightness of the joint part because the asphalt must be subjected to reinforcement work after the front attachment to the concrete slab of each asphalt sheet and the joint part treatment between the asphalt sheets.

Korean Patent Laid-Open Publication No. 1999-31067 discloses a composite waterproof structure that takes advantage of the asphalt sheet and the polyurethane coating waterproof material to enhance the watertightness of the joint portion and improves the adhesive strength by improving the asphalt sheet structure to compensate for the disadvantages. The construction method is disclosed.

The waterproof structure allows the end portions of the joints to be laid on the upper surface of the slab layer while maintaining a predetermined distance from each other. The waterproof structure is fused in a state in which a portion of the lower portion of the nonwoven fabric is planted on the upper surface of the asphalt sheet formed of asphalt. The base waterproof sheet is formed to protrude, and a polyurethane layer formed by applying a liquid polyurethane on the upper surface of the base waterproof sheet.

When using a liquid polyurethane to secure the watertightness between the sheet and the sheet there is a problem that the applied polyurethane takes a long time to cure the construction period is long.

In order to solve the problem of the use of the liquid coating film waterproofing agent, Korean Patent Laid-Open No. 2001-18221 proposes an improved waterproof sheet and a composite coating waterproofing method using the same.

This construction method is simple by the construction of the waterproof sheet joint by changing the structure of the various waterproof sheet used in the composite coating waterproof construction and can be carried out without reinforcing the joint joint, improving the workability (simpleness) of the construction work The present invention relates to an improved waterproof sheet capable of completely waterproofing a joint part and a composite coating waterproofing method using the same.

The improved waterproof sheet includes a waterproof sheet body having a waterproof function, a non-woven fabric that is heat-sealed in a state of being displaced from the waterproof sheet body by a predetermined length to a side which is overlapped with an adjacent waterproof sheet, and constructed by a joint, and a lower surface of the waterproof sheet body. Consists of a release material layer attached to the, the waterproof sheet body is characterized in that the exposed portion is formed in the joint portion overlapping the adjacent waterproof sheet.

On the other hand, asphalt waterproofing method (heating method) as one of the waterproof film coating, but if the three to four roofs overlap each other, the risk of permeability is less and the thickness is less likely to damage the waterproof layer. However, this method has a problem of high temperature molten asphalt when it is installed on a high wall surface, because water is likely to occur during the curing of molten asphalt, there is a problem that the reliability of the waterproof can not be expected and there are not many skilled functional workers. .

The liquid waterproofing method has the advantage of being able to use on the basis of the movement because of the low number of processes, the construction is simple, the thickness of the waterproof layer is constant, and the elongation and crack resistance is possible. However, this method is difficult to find the cause of the leakage of the joint and the end, it is difficult to find the cause of the leak, it is insulated from the sphere, the swelling and rupture occurs well, there is no breathability, degassing device is required, and as the organic material deterioration with age well There is a problem that occurs.

In addition, the urethane waterproofing method has good elasticity and can withstand the background crack of less than 1mm, is a commonly used coating waterproofing method excellent in adhesion to the base surface. However, this method has a problem in that when the moisture of the base is more than 8% may cause a defect during adhesion, swelling phenomenon, the curing time is long and the flowability of the vertical portion is large.

As a coating film waterproofing method, Korean Patent Laid-Open Publication No. 2000-72868 uses a water-soluble acrylic one-component elastic coating waterproofing composition that forms a highly elastic and high strength coating film, and first forms an adhesive layer with a primer, and then a plurality of coating waterproofing agents are applied. After forming a film, the coating film waterproofing method of forming a protective film on the waterproof film is disclosed.

However, this method has a disadvantage in that construction takes a long time to cure the adhesive layer and the coating waterproofing agent, resulting in poor workability, and low tensile strength (tensile strength x elongation rate) indicating waterproofing performance of the waterproofing layer.

Patent Publication No. 2000-72869 discloses an inorganic elastic composite coating film on a base sheet to improve breathability and moisture permeability, thereby improving durability, weather resistance, and workability (simpleness) of construction work. Since the construction is made by adhesive, a composite coating waterproof sheet and a composite coating waterproofing method using the same have been disclosed, which are not affected by the crack of the mother.

This construction method partially adheres the bottom surface of each of a plurality of waterproof sheets (polyethylene (PE) -based hard (soft) sheets), each of which has a nonwoven fabric attached to the surface thereof on the base surface, and at the same time, the periphery of the sheet And seal in a state where they overlap each other by a certain width, form an adhesive layer by applying a primer on the upper surface of the waterproof sheet, and then apply an inorganic elastic coating waterproofing agent at least once on the upper surface of the adhesive layer to form a waterproof layer, It consists of forming a protective film.

The composite coating waterproofing method is to apply a primer to the upper surface of the waterproof sheet when forming a waterproof film to form an adhesive layer and then to apply a coating film waterproofing agent, there is a problem that a long waiting time due to the curing of the primer and the coating film waterproofing agent, press When the method is applied, it is necessary to form a protective film with a waterproofing layer protective agent on the upper surface of the waterproofing film.

Since the construction method is basically made by wet construction, construction work according to wet construction is cumbersome and inconvenient, and a lot of construction costs are spent, as well as an extension of working time due to curing of the primer and waterproofing agent (winter). This is delayed and there is a disadvantage that the tensile strength is lowered. In addition, the coating film waterproofing method has a disadvantage in that the tensile strength (tensile strength x elongation rate) showing the waterproof performance of the waterproof layer is lower than the waterproof sheet.

On the contrary, in the conventional sheet waterproofing method, construction of the process of forming an adhesive layer with a primer to adhere the primary waterproof sheet, waste of raw materials due to overlapping of the sheet and the sheet, and difficulty of securing the watertightness of the joint part This exists.

In addition, when the double sheet waterproof is adopted, damage and deformation of the primary sheet are greatly generated, thereby affecting the watertightness, and the working time is long due to the primary and secondary heat fusion. In the case of the conventional double sheet waterproof, there is an advantage in that the tensile strength is increased, but there is a problem that the waterproof quality is not high compared to the high material cost / construction cost.

Accordingly, the present invention has been made in view of the problems of the prior art, and its purpose is to provide low temperature flexibility, room temperature heat resistance, stable weather resistance, aging resistance, and chemical resistance, and at the same time, excellent adhesion and elastic strength, and waterproof construction site. It is to provide a composite waterproof sheet consisting of butylaba layer and asphalt layer capable of self-adhesive construction and heat-sealed construction according to the conditions.

Another object of the present invention is to provide a waterproof coating layer of the same series of water-soluble asphalt film waterproofing agent or asphalt and urethane as the coating film waterproofing layer when integrally provided with an asphalt-impregnated nonwoven fabric or an asphalt-impregnated glass fiber nonwoven fabric on the top of the composite waterproof sheet having excellent adhesion. It is to provide a waterproof construction method and waterproof structure that can realize a perfect double waterproof structure by constructing a synthetic coating waterproofing material.

Still another object of the present invention is to use the butyllava waterproof sheet having self-adhesive force when constructing a composite waterproof sheet, so that the waterproof construction of the joints between the waterproof sheets is simply self-contained without using a separate adhesive. It can be, to provide a waterproof construction method and waterproof structure that can be easily and quickly proceed waterproof.

Another object of the present invention is to provide a waterproof construction method and waterproof structure to achieve a strong waterproof structure of the double composite waterproof layer consisting of a composite waterproof sheet and a film waterproof layer, to obtain an excellent waterproof structure as a whole.

Another object of the present invention is to remove the material cost loss due to the overlapping sheet by the watertight joint of the joint portion with the adhesive sheet for the joint after the sheet to the sheet when the waterproof sheet is installed and the construction can be carried out easily and quickly In addition, it is possible to proceed to the subsequent process immediately after the construction of the waterproof sheet to provide a waterproof construction method and waterproof structure of the butt method that can shorten the air.

Another object of the present invention is to form a reliable waterproof structure because the adhesive sheet used for the joint of the waterproof sheet is selected from the material containing the butylaba made of the same material as the butyllava sheet does not occur even after elapse of time. It is to provide a waterproof construction method and a waterproof structure using a composite waterproof sheet.

In order to achieve the above object, according to an aspect of the present invention, the step of forming an adhesive layer by applying an asphalt primer on the base surface, and the waterproof sheet to be constructed on the portion to be butt joint of the waterproof sheet at regular intervals on the adhesive layer Attaching a plurality of joint adhesive sheets made of butylaba having adhesive strength on both sides along the width direction or the length direction of the; and on the adhesive layer, an asphalt-based adhesive reinforcing layer is formed on the butyllava layer, respectively. A plurality of composite waterproof sheets having overlap regions in which the adhesive reinforcing layer has been removed are installed in the width direction or the length direction butt against the upper surface of the adhesive sheet for the joint, and adjacent to the overlap region in the length direction or the width direction. Attaching the waterproof sheet to form a sheet waterproof layer; Forming a coating film waterproofing layer by applying a waterproofing film waterproofing agent or a synthetic coating waterproofing agent of asphalt and urethane, and forming a coating protective layer for protecting the coating waterproofing layer on the upper surface of the coating film waterproofing layer. Provide composite waterproof construction method using waterproof sheet.

The adhesive sheet for the joint is characterized in that the upper and lower butylava layer made of butyl lava, and a mesh-shaped glass fiber center reinforcement inserted between the upper and lower butyl lava layer.

The composite waterproof sheet is formed on the upper part of the butyllava layer to increase the adhesion between the butyllava layer made of butyllava and the coating layer waterproof layer formed on the top except for the overlap region where the overlapping adhesion between adjacent waterproof sheets is made. Characterized in that consisting of an asphalt-based adhesion reinforcement layer.

Further comprising a reinforcement made of a glass fiber of the mesh form formed on the butyllava layer including at least the overlap region of the waterproof sheet for the strength of the overlap region.

The asphalt-based adhesion reinforcing layer is made of asphalt impregnated nonwoven fabric or asphalt impregnated glass fiber nonwoven fabric.

The coating waterproofing agent is composed of a water-soluble asphalt coating waterproofing agent or a synthetic coating waterproofing agent of asphalt and urethane.

The butylaba layer is 15 to 20% by weight of butyl rubber (isoprene-isobutylene rubber), 10 to 20% by weight of SBS (styrene-butadiene-styrene copolymer), 10 to 15% by weight of polybutene (polybutene), calcium carbonate (CaCo ₃ ) 10 to 20%, straight asphalt 15 to 20% by weight, solid resin 10 to 15% by weight, 0.5 to 1% by weight antioxidant, 0.5 to 1% by weight antioxidant .

According to another aspect of the invention, the adhesive layer formed by applying a primer on the base surface and the adhesive sheet is attached along the width direction of the waterproof sheet to be installed on the portion to be butt joint of the waterproof sheet at regular intervals on the adhesive layer and has adhesive strength on both sides A plurality of composite adhesive sheets comprising a plurality of joint adhesive sheets made of a butylaba, and an asphalt-based adhesive reinforcement layer formed on the adhesive layer, respectively, and an overlap region in which one end of the adhesive reinforcement layer is removed. Is installed on the upper surface of the joint adhesive sheet in the width direction, and the sheet waterproof layer formed by overlapping the composite waterproof sheet adjacent to the overlap area in the longitudinal direction, and an asphalt-based coating waterproof agent on the sheet waterproof layer. A coating film waterproofing layer formed by coating a film, and an upper surface of the coating film waterproofing layer to protect the coating film waterproofing layer. It provides a composite waterproofing structure using a composite waterproof sheet comprising a protective layer consisting of a coating film to.

The asphalt-based adhesion reinforcing layer is made of asphalt impregnated nonwoven fabric or asphalt impregnated glass fiber nonwoven fabric.

The asphalt-based waterproofing agent is composed of a water-soluble asphalt coating waterproofing agent or a synthetic coating waterproofing agent of asphalt and urethane.

The butyl lava is 15 to 20% by weight of butyl rubber (isoprene-isobutylene rubber), 10 to 20% by weight of SBS (styrene-butadiene-styrene copolymer), 10 to 15% by weight of polybutene (polybutene) and calcium carbonate ( CaCo ₃ ) 10 to 20%, straight asphalt (15 to 20% by weight), 10 to 15% by weight solid resin, 0.5 to 1% by weight antioxidant and 0.5 to 1% by weight antioxidant.

According to another aspect of the present invention, except for the overlap region where the overlapping between the butyl lava layer made of butyl lava, the release paper detachably attached to the lower portion of the butyl lava layer, and the adjacent waterproof sheet is made. It is formed on the upper portion of the butylaba layer to improve the adhesion with the coating film waterproof layer to be constructed on the top and consists of an adhesive reinforcing layer made of asphalt impregnated nonwoven fabric or asphalt impregnated glass fiber nonwoven fabric.

Further comprising a reinforcement made of a glass fiber of the mesh form formed on the butyllava layer including at least the overlap region of the waterproof sheet for the strength of the overlap region.

The butylaba layer is 15 to 20% by weight of butyl rubber (isoprene-isobutylene rubber), 10 to 20% by weight of SBS (styrene-butadiene-styrene copolymer), 10 to 15% by weight of polybutene (polybutene), calcium carbonate (CaCo ₃ ) 10 to 20%, straight asphalt 15 to 20% by weight, solid resin 10 to 15% by weight, 0.5 to 1% by weight antioxidant, 0.5 to 1% by weight antioxidant .

As described above, the present invention adopts butylaraba having excellent physical properties as a waterproof sheet, and adopts a composite waterproof sheet integrally equipped with asphalt-impregnated nonwoven fabric or asphalt-impregnated glass fiber nonwoven fabric on top of the waterproof sheet. By constructing the same series of water-soluble asphalt coating waterproofing agent or synthetic coating of asphalt and urethane on the upper part of the sheet, it is possible to realize perfect double composite waterproofing structure with excellent adhesion and additional waterproofing for joints between composite waterproofing sheets. It can be installed by self-supporting simply without using the adhesive, waterproof construction is easy and can be fast.

In addition, in the present invention, since the double composite waterproof layer composed of the composite waterproof sheet and the coating waterproof layer has physical properties of the same series, it is excellent in bonding force to implement a strong waterproof structure, it is possible to obtain a waterproof structure with excellent tensile strength as a whole.

In addition, the present invention can minimize the material cost loss due to the overlap of the sheet by the water-tight joint of the joint portion with the adhesive sheet for the joint after the sheet and the sheet when the waterproof sheet is constructed, the construction can proceed easily and quickly, Immediately after the construction of the waterproof sheet, the subsequent process can be performed, thereby shortening the air.

According to the present invention, since the adhesive sheet used for the joint of the waterproof sheet is selected from a material containing butyllava, which is made of the same material as the butyllava layer of the composite waterproof sheet, separation does not occur even after a long time, and thus the reliability is high.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a composite waterproof construction structure using a composite waterproof sheet according to an embodiment of the present invention, Figure 2 is a schematic plan view for explaining a waterproof construction method using a composite waterproof sheet according to an embodiment of the present invention, 3 and 4 are cross-sectional views taken along line III-III and IV-IV of Figure 2 for explaining the waterproof construction method according to an embodiment of the present invention, Figure 5 is a structure of a composite waterproof sheet according to an embodiment of the present invention 6 is a cross-sectional view of a state in which a coating waterproof material is configured as an upper portion of the composite waterproof sheet of FIG. 2.

Referring to Figure 1 when explaining the composite waterproof construction method using a composite waterproof sheet according to the preferred embodiment of the present invention.

During the waterproof construction, first, the sales work is carried out so that smooth drainage of the ground surface of the concrete slab 1 is performed as a pretreatment step. After that, remove foreign substances, such as soil and sand, on the base surface, and then perform round treatment of corners, corners, etc., and cracks on the base surface are formed or broken to reinforce the weak areas such as the depressions. In this case, it is preferable that the base surface is dried to be within 10% of moisture content.

Subsequently, the adhesive layer 3 is formed by, for example, applying an asphalt primer evenly to 0.4 L / m 2 using a brush or roller on the ground surface and drying for 4 to 6 hours.

Thereafter, as shown in FIG. 2, a plurality of composite waterproof sheets 5a-5d are sequentially applied on the adhesive layer 3 to form the sheet waterproof layer 500. In this case, the construction of the composite waterproof sheet (5a-5d) is crimped by using a hand after removing the release paper without a separate equipment and tools, and proceeds from a low direction to a high direction in consideration of the gradient of the base surface.

As shown in FIG. 5, the composite waterproof sheet 5 has a butyllava layer 53 as a main body, and a release paper or a release film 51 is attached to the lower part to prevent adhesion to other parts. In the subsequent process, an adhesion reinforcing layer 57 made of an asphalt-impregnated non-woven fabric or an asphalt-impregnated glass fiber nonwoven fabric is attached to increase adhesion with the coating film waterproofing layer. Asphalt-impregnated nonwoven fabric or asphalt-impregnated glass fiber nonwoven fabric used as the adhesion reinforcing layer 57 absorbs the coating waterproof material placed on the upper portion as quickly as possible and impregnates it, for example, to improve tensile and tear performance. It is preferable to adhere | attach using the thing which consists of fibers at 150 g / m <2> -200 g / m <2>.

Composite waterproof sheet 5 of the present invention can be produced by using a size of 10 ~ 20m (length) × 1m (width) × 1.5 ~ 1.7mm (thickness).

In addition, on one side in the longitudinal direction of the composite waterproof sheet 5, an overlapping region of about 6 cm in length without an adhesive reinforcing layer 57 attached to maximize bonding at the time of overlap joint with the adjacent composite waterproof sheet 5 ( 50 is formed, and includes a top surface of the overlap region 50 between the adhesion reinforcing layer 57 and the butylaba layer 53 to increase the strength of the overlap region 50 and the entire waterproof sheet. The reinforcement 55 which consists of glass fibers is attached.

Generally, butyl lava sheet is 20-40% by weight of butyl rubber, 15-20% by weight of polybutene, 20-30% by weight of calcium carbonate, 10-20% by weight of clay, 10-15% by weight of solid resin, etc. Contains additives.

In the present invention, while maintaining the advantages such as low temperature flexibility, room temperature heat resistance and excellent elongation and adhesion of the general butylaba sheet, has excellent adhesiveness and elastic strength than the conventional, self-adhesive and heat-sealed construction according to the conditions of the field during waterproof construction Reduce or eliminate the content of butyl rubber, polybutene, calcium carbonate and clay to make it possible, and add straight asphalt and styrene-butadiene-styrene copolymer (SBS) to make a new composition of butylaba sheet suitable for composite waterproof sheet (5) Suggest.

Butyl lava sheet used in the composite waterproof sheet 5 according to the present invention, that is, butyl lava layer 53 is 15 to 20% by weight of butyl rubber (isoprene-isobutylene rubber), SBS (styrene-butadiene-styrene copolymer) 10 to 20% by weight, 10 to 15% by weight of polybutene, 10 to 20% by weight of calcium carbonate (CaCo ₃ ), 15 to 20% by weight of straight asphalt, 10 to 15% by weight of solid resin %, 0.5-1 weight% of antioxidants, and 0.5-1 weight% of antioxidants.

As a newly added composition of the butylaba layer 53, it is preferable to include 15-20% by weight of straight asphalt. If it is added below 15% by weight, difficulty in heat fusion occurs and if it exceeds 20% by weight, cold resistance It gets worse.

In addition, SBS is preferably included in 10-20% by weight, when added in less than 10% by weight, the elastic strength is lowered too much workability worsens, as well as stickiness after molding occurs, the sheet sticks to the glove It is difficult to maintain the circular shape of the sheet, and when it exceeds 20%, the elasticity is excessively strong and the adhesive performance is lowered.

The butyllava layer made of the above-described formulation is added with SBS and straight asphalt as compared to the existing butyllava, and the advantages such as low temperature flexibility, room temperature resistance and excellent elongation and adhesion of the existing butyllava, and the newly added straight asphalt and SBS It has better adhesiveness and elastic strength than existing butyl lava, and can be self-contained and heat-sealed in accordance with the conditions of the waterproofing construction, and the cost of production is reduced.

The new composition of butylava is applicable not only to the butylava layer 53 of the composite waterproof sheet 5, but also to the upper and lower butylava layers 63a63b of the joint adhesive sheet 6 to be described later.

First, the longitudinal construction of the adjacent composite waterproof sheet (5a, 5c) is made sequentially from one side of the base surface to the other side, between the waterproof sheet (5a) and the waterproof sheet (5c) as shown in Figure 3 waterproof sheet (5a) One end of the waterproof sheet 5c is overlapped and attached to the overlap region 50 formed at one end of the sheet. In this case, the adhesive reinforcing layer 57 is not attached to the overlap region 50 of the waterproof sheet 5a, but only the reinforcing material 55 made of glass fiber in mesh form is attached. As a result, all of the adhesive sites between the upper surface of the waterproof sheet 5a and the lower surface of the waterproof sheet 5c are bonded to each other, but have strong adhesion, so that a strong adhesion is achieved, and the waterproof sheet 5a and the waterproof sheet are adhered to each other. The longitudinal joint portion between 5c has excellent waterproof performance.

On the other hand, the connection construction of the new waterproof sheet (5b, 5d) in the longitudinal direction of the waterproof sheet (5a, 5c) is made in a butt manner as shown in FIG.

Along the width direction of the waterproof sheet, first, the lower release paper 61a (see FIG. 6) is removed from the joint adhesive sheet (or tape) 6 made of butylara at the lower portion of the butt area 50a, and the adhesive layer 3 is removed. A joint is attached to the overlap area before the construction of the last part of each waterproof sheet 5a, 5c manufactured in a roll form is completed or attached to each length of the waterproof sheet 5a, 5c manufactured in a predetermined length on After constructing the adhesive sheet 6 for the first, and then overlap the adhesive sheet 6 to the waterproof sheet (5a, 5c) is laid on one half of the adhesive sheet (6).

The joint adhesive sheet 6 is a central reinforcing material between the upper and lower butylaba layer (63a, 63b) using a butyl rubber (Butyl Rubber) excellent in heat resistance, cold resistance, durability, watertightness and adhesion as shown in FIG. 65), a sheet of glass fiber or polyester nonwoven fabric having excellent strength is inserted, and both surfaces are finished with release papers 61a and 61b, each having a thickness of 1.0 to 1.2 mm and a width of 10 to 15 cm.

In this case, the joint adhesive sheet 6 is pressed by a rubber roller or the like in a state where the upper release paper 61b is attached to the adhesive sheet.

Thereafter, the construction of the new waterproof sheets 5b and 5d in the longitudinal direction is opposed to the waterproof sheets 5a and 5c and positioned in the other half of the joint adhesive sheet 6 installed in the butt area 50a. Attach it properly. The construction of the waterproof sheets 5b and 5d is performed by first removing the release paper 51 and attaching the sheets between the sheets 5a and 5c as closely as possible.

In this case, the butyral bar layer 53 of the waterproof sheets 5a and 5c to be bonded to the adhesive layer 3 and the joint adhesive sheet 6 has a very good self-adhesive force as described above. Strong adhesion is made with the adhesive sheet 6, and the same butyllava with excellent adhesion is bonded with the adhesive sheet 6 for the joint, and thus stronger adhesion is achieved. As a result, the widthwise joint portions of the waterproof sheets 5a and 5c have an excellent watertight structure.

When the sheet waterproof layer 500 is completed by constructing a plurality of waterproof sheets 5a-5d on the adhesive layer 3 formed on the base surface in the same manner as described above, thereafter, for example, a water-soluble asphalt film waterproofing agent or asphalt and urethane Use 1 ~ 1.5mm / m ² thickness using synthetic coating waterproofing agent.

The coating film waterproofing agent is sufficiently coated with a water-soluble asphalt or a synthetic film waterproofing agent of asphalt and urethane so that the asphalt-impregnated nonwoven fabric of the adhesive reinforcing layer 57 formed on the upper part of the composite waterproof sheet 5 is firmly impregnated using a roller or rubber sheath. Apply. Therefore, since the material of the nonwoven fabric used for the adhesive reinforcing layer 57, which is the upper layer of the composite waterproof sheet 5, and the film waterproofing material used for the film waterproofing layer 7, is the same series of asphalt, the adhesion is further improved.

The coating film waterproofing layer 7 formed on the top of the waterproof sheet 5a-5d according to the construction of the coating film waterproofing agent is integrated with the coating film waterproofing layer by absorbing the asphalt nonwoven fabric 57 formed on the upper portion of the waterproof sheet 5a-5d. It will form a perfect double waterproof layer.

The cross section of the coating film waterproofing layer formed in this way is shown in FIG.

Referring to FIG. 7, the cross-sectional view of the waterproof layer 7 formed on the waterproof sheets 5a and 5d is illustrated.

Thereafter, in the case of non-exposure method, after applying a protective mortar or a waterproof layer protective material (board) to protect the waterproof layer according to a well-known method on the coating film waterproof layer 7, the coating film is coated by finishing with cement mortar as a pressing layer. The protective layer 9 is formed (see FIG. 1).

As described above, in the composite waterproofing method using the composite waterproof sheet and the coating waterproofing agent according to an embodiment of the present invention, butylabar, which is a main material of the composite waterproof sheet, has both low temperature flexibility and heat resistance at the same time, and thus the construction is not affected by the surrounding environment. In addition, since the tensile adhesive strength and the elongation rate are high, self-construction can be performed without the need for a separate heat or the subsequent process, and thus the workability is excellent. In addition, the asphalt impregnated nonwoven fabric or asphalt impregnated glass fiber nonwoven fabric used in the composite waterproof sheet and the film waterproofing agent used in the coating film waterproofing layer can be integrated with the waterproof layer using a waterproofing agent of the same type or similar component of the asphalt series.

In addition, it is possible to construct a butt structure using the adhesive sheet 6 for the joint in the width direction with respect to the joint portion between adjacent sheets most important in sheet waterproofing, thereby reducing the material cost, and furthermore, the joint portion in the longitudinal direction. The (overlap region) is excellent in adhesive strength, so that the same butylabas are adhered to each other to enable self-adhesive bonding, thereby forming a strong and perfect waterproof structure.

In addition, the upper part of the composite waterproof sheet 5 is formed with an adhesion reinforcing layer such as asphalt impregnated nonwoven fabric or asphalt impregnated glass fiber nonwoven fabric, so that when the waterproof layer 7 is formed using the same asphalt-based waterproofing material, the absorbing action of the nonwoven fabric is achieved. Due to the integration to form a perfect double waterproof layer, the absorption of the coating waterproofing is fast to save the waiting time of the subsequent process.

In the above embodiment, the watertight structure for the joint part in the lengthwise butt, overlapping direction at the time of construction of the waterproof sheet, but the watertight structure for the joint part is presented, but the adhesive sheet for the joint made of butylaba in both the longitudinal direction and the width direction It is also possible to construct in a butt method, in which case the composite waterproof sheet is used that the non-woven fabric is formed on the entire upper surface without having an overlap region from which the nonwoven fabric is removed at one end.

In addition, in the above embodiment, the watertight structure for the joint part is presented in the width direction butt type and the length direction overlap when the waterproof sheet is constructed, but the length direction is butt type and the width direction is overlapped. It is also possible. Of course, in this case, the overlap region of the waterproof sheet is formed at one end in the width direction.

1 is a cross-sectional view showing a composite waterproof construction structure using a composite waterproof sheet according to an embodiment of the present invention,

Figure 2 is a schematic plan view for explaining a waterproof construction method using a composite waterproof sheet according to an embodiment of the present invention,

3 and 4 are cross-sectional views taken along line III-III and IV-IV of FIG. 2 for explaining the waterproof construction method according to an embodiment of the present invention;

5 is a perspective view showing the structure of a composite waterproof sheet according to an embodiment of the present invention,

Figure 6 is a cross-sectional view showing the structure of the butylaba adhesive sheet used in the present invention,

7 is a cross-sectional view showing a structure in which a waterproof film is applied to the composite waterproof sheet used in the present invention.

* Explanation of Signs of Major Parts of Drawings *

1: concrete slab 3: adhesive layer

5,5a-5d, 8,8a-8d: Butylaba waterproof sheet

6: Adhesive sheet for joints 7: Coating film waterproofing layer

9: coating film protective layer 50,50a: overlap area

51,61a, 61b: release paper 53,63a, 63b: butylaba layer

55, 65: reinforcing material 57: adhesive reinforcing layer

500: sheet waterproof layer

Claims (14)

Forming an adhesive layer by applying an asphalt primer on the base surface; Attaching a plurality of joint adhesive sheets made of butylaba having adhesive strength on both sides along a width direction or a length direction of the waterproof sheet to be constructed at portions of the waterproof sheet to be butt jointed at regular intervals on the adhesive layer; On the adhesive layer, a plurality of composite waterproof sheets each having an overlapping region in which an asphalt-based adhesive reinforcement layer is formed on a butylava layer and an adhesive reinforcement layer is removed at one end thereof in the width direction or the lengthwise direction of the adhesive sheet for the joint Abutting the upper surface of the sheet, and overlapping the waterproof sheet adjacent to the overlap area in the longitudinal direction or the width direction to form a sheet waterproof layer; Coating an asphalt-based coating waterproofing agent on top of the sheet waterproofing layer to form a coating waterproofing layer; Composite waterproof construction method using a composite waterproof sheet, characterized in that it comprises the step of forming a coating film protective layer for protecting the coating film waterproof layer on the upper surface of the coating film waterproof layer. According to claim 1, wherein the adhesive sheet for the joint is composed of a glass fiber center reinforcement in the form of a mesh inserted between the upper and lower butyllava layer made of butyllava and the upper and lower butyllava layer, respectively. Composite waterproof construction method using a composite waterproof sheet. According to claim 1, wherein the composite waterproof sheet Butyl lava layer consisting of butyl lava, It includes an asphalt-based adhesion reinforcing layer formed on the upper surface of the butyllava layer to improve the adhesion with the coating film waterproof layer, The composite waterproof construction method using a composite waterproof sheet, characterized in that the overlap area for overlap adhesion with the adjacent waterproof sheet is formed on the upper surface of the butyllava layer. The composite waterproof construction method according to claim 3, further comprising a reinforcement made of a mesh-shaped glass fiber formed on an upper surface of the butyllava layer to reinforce the strength of the overlap region. The composite waterproof construction method according to claim 1, wherein the asphalt-based adhesive reinforcing layer is composed of an asphalt-impregnated nonwoven fabric or an asphalt-impregnated glass fiber nonwoven fabric. The composite waterproof construction method according to claim 1, wherein the asphalt-based waterproofing agent comprises a water-soluble asphalt waterproofing agent or a synthetic waterproofing agent of asphalt and urethane. According to claim 1 or 2, wherein the butylaba layer is 15 to 20% by weight of butyl rubber (isoprene-isobutylene rubber), 10 to 20% by weight of SBS (styrene-butadiene-styrene copolymer), polybutene (polybutene) 10-15 wt%, 10-20% calcium carbonate (CaCo ₃ ), 15-20 wt% straight asphalt, 10-15 wt% solid resin, 0.5-1 wt% antioxidant , Composite waterproof construction method using a composite waterproof sheet, characterized in that consisting of 0.5 to 1% by weight of antioxidant. An adhesive layer formed by applying a primer on the base surface, And the adhesive sheet for a plurality of joints made of butylaba attached to the width direction of the waterproof sheet to be installed on the portion to be jointed butt joint of the waterproof sheet at regular intervals on the adhesive layer, On the adhesive layer, a plurality of composite waterproof sheets each having an overlapping region in which an asphalt-based adhesive reinforcement layer is formed on the butylava layer, and an overlapping region in which one or more adhesive reinforcement layers are removed, are disposed on the upper surface of the adhesive sheet for the joint in the width direction. A sheet waterproof layer formed by butt installation and overlapping the composite waterproof sheet adjacent to the overlap area in the longitudinal direction; A coating film waterproofing layer formed by applying an asphalt-based coating waterproofing agent or a synthetic coating waterproofing agent of asphalt and urethane on the sheet waterproofing layer; The composite waterproof construction structure using a composite waterproof sheet, characterized in that formed on the upper surface of the coating film waterproof layer consisting of a coating film protective layer for protecting the coating film waterproof layer. The composite waterproof construction using a composite waterproof sheet according to claim 8, wherein the asphalt-based adhesion reinforcing layer is composed of an asphalt impregnated nonwoven fabric or an asphalt impregnated glass fiber nonwoven fabric. The composite waterproof construction structure according to claim 8, wherein the asphalt coating waterproofing agent comprises a water-soluble asphalt coating waterproofing agent or a synthetic coating waterproofing agent of asphalt and urethane. According to claim 8, The butylava is 15 to 20% by weight of butyl rubber (isooprene-isobutylene rubber), 10 to 20% by weight of styrene-butadiene-styrene copolymer (SBS), 10 to 15 weight of polybutene (polybutene) %, 10-20% calcium carbonate (CaCo ₃ ), 15-20% by weight straight asphalt, 10-15% by weight solid resin, 0.5-1% by weight antioxidant, 0.5- antioxidant Composite waterproof construction structure using a composite waterproof sheet, characterized in that consisting of 1% by weight. Butyl lava layer consisting of butyl lava, A release paper detachably attached to a lower portion of the butylalava layer, It includes an adhesion reinforcing layer made of an asphalt impregnated nonwoven fabric or an asphalt impregnated glass fiber nonwoven fabric to increase adhesion to the coating film waterproof layer formed on top of the butylaba layer, Composite waterproof sheet, characterized in that the overlap region is formed on the upper portion of the butylaba layer overlap overlap with the adjacent waterproof sheet. The composite waterproof sheet according to claim 12, further comprising a reinforcement made of a mesh-shaped glass fiber formed on an upper surface of the butyllava layer to reinforce the strength of the overlap region. According to claim 12, wherein the butylaba layer is 15 to 20% by weight of butyl rubber (isooprene-isobutylene rubber), 10 to 20% by weight of styrene-butadiene-styrene copolymer (SBS), polybutene (polybutene) 10 to 15 % By weight, calcium carbonate (CaCo ₃ ) 10-20%, straight asphalt 15-15% by weight, solid resin 10-15% by weight, antioxidant 0.5-1% by weight, antioxidant 0.5 Composite waterproof sheet, characterized in that consisting of ~ 1% by weight.

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