KR102261398B1 - manufacturing method of Complex waterproofing layer - Google Patents

Abstract

The present invention is a first step of arranging the base surface; a second step of reinforcing the waterproofing layer at the vulnerable portion of the waterproof fault; A third step of forming a rubber asphalt coating waterproofing layer by applying a rubber asphalt coating waterproofing material composition to the upper surface of the base; a fourth step of attaching a stretch asphalt felt waterproofing layer to the upper surface of the rubber asphalt coating waterproofing layer; and a fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer.

Description

Construction method of a complex waterproofing layer {manufacturing method of Complex waterproofing layer}

The present invention is impregnated with an asphalt compound in polyester nonwoven fabric that can be used for waterproofing the upper slab of an underground parking lot in a multi-family house, waterproofing the roof of a building, and waterproofing the exterior of an underground concrete structure such as a subway, an underground road joint (power, communication), etc. Stretched asphalt felt layer (Stretchy Asphalt Felt Layer); Tarpaulin sheet waterproofing layer provided on the upper surface of the stretch asphalt felt layer; And it relates to a construction method of a composite waterproofing layer comprising a rubber asphalt coating waterproofing layer provided on the lower surface of the stretch asphalt felt layer.

Waterproofing materials and waterproofing methods that have been applied to the exterior waterproofing of underground concrete structures such as the roof of building structures, the basement floor and the basement outer wall, the upper slab waterproofing of the underground parking lot, and the subway underpass common areas (electric power and communication areas) since the 1900s If we classify the types, from 1910 to the 1970s, solid asphalt was heated and melted at the construction site, applied to the waterproofing substrate and laminated with asphalt felt or asphalt roofing at the same time as 'asphalt 3-ply, 8-layer waterproofing'. 'Construction method' was generally applied.

The 'asphalt 3-ply, 8-layer waterproofing method' started to be applied to Korea for the first time in Korea with the introduction of asphalt from Japan in the 1910s. Although the application performance was shown during the period, the problem of environmental pollution caused by smoke and odors generated when solid blown asphalt is heated and melted at a high temperature (220~250℃) at the construction site, The problem of frequent burn accidents, the difficulty of applying the asphalt to the vertical wall surface as it is applied in the liquid state of heating and melting at high temperature, and the complicated work process following the waterproof construction of 3 layers and 8 layers requires special construction skills of waterproof technicians. However, there is a disadvantage in that construction labor costs are high.

The superiority of waterproofing performance has been verified to some extent through the long-term application results of 'asphalt 3-layer, 8-layer waterproofing', but since the 1980s, the construction site of 'asphalt 3-layer and 8-layer waterproofing' has been gradually implemented due to the increase in labor costs and environmental pollution problems. difficult to apply,

As an alternative to this, asphalt sheet waterproofing material was imported from foreign countries in the late 1970s and started to be applied for the first time. From the 1980s, asphalt sheet waterproofing materials began to be produced and distributed in Korea, making it much better than the conventional 'asphalt 3-layer 8-layer waterproofing'. Due to its simple construction and economic feasibility, it rapidly began to be widely used.

However, the problems of the 'asphalt sheet waterproofing' include the occurrence of lifting of the waterproofing layer due to the lack of adhesion between the waterproofing layer of the asphalt sheet and the concrete base surface, and the use of a torch for the overlapping joint of the waterproofing sheet. When heat-melt bonding, rubber asphalt Due to the lack of watertightness of the joint of the waterproofing sheet due to combustion and oxidation of the compound, frequent leak accidents occurred through the joint. Also, the water leaked through the joint of the waterproofing sheet flows under the waterproofing layer of the concrete structure, which is a vulnerable part of the concrete structure. Leaks occurred in several places, which resulted in a wide range of repairs and excessive repair costs. Since 1990, domestic construction companies have been avoiding the application of 'asphalt sheet waterproofing'.

Among the waterproofing materials for construction coatings stipulated in KS F 3211, 'urethane-based coating waterproofing' and 'rubber asphalt-based coating-film waterproofing' are simple coating methods using a roller or brush. Although it has the advantage of coping with microcracks, it is difficult to form a waterproofing layer of an even thickness depending on the smoothness of the concrete substrate, and due to the occurrence of partial air pockets during the curing process of the waterproofing layer, there are several defective parts of the waterproofing layer of the entire coating. There are downsides to this place.

As in the above description, each waterproofing material and waterproofing method have their own strengths and weaknesses, but it can be pointed out as a common problem that the waterproofing construction is constructed by the manpower of the workers and that defects due to negligence in construction are also frequent.

In order to minimize the occurrence of waterproof defects due to such careless construction, even though the cost of waterproofing construction is somewhat high since the 2000s, it is a coating film that combines waterproofing and sheet waterproofing by supplementing the conventional single-layer waterproofing methods of 'sheet waterproofing' or 'coating waterproofing'. And it is a reality that a double waterproofing of a sheet or a composite waterproofing method consisting of a combination of a sheet and a coating film has been developed and applied.

Korean Patent Publication No. 10-2005-0027200

An object of the present invention is a first step of arranging the base surface; a second step of reinforcing the waterproofing layer at the vulnerable portion of the waterproof fault; A third step of forming a rubber asphalt coating waterproofing layer by applying a rubber asphalt coating waterproofing material composition to the upper surface of the base; a fourth step of attaching a stretch asphalt felt waterproofing layer to the upper surface of the rubber asphalt coating waterproofing layer; and a fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer.

In order to achieve the above object, the present inventors have a stretch asphalt felt layer (Stretchy Asphalt Felt Layer) impregnated with an asphalt compound in a polyester nonwoven fabric having excellent adhesion to a concrete substrate; A composite waterproofing layer comprising a rubber asphalt coating waterproofing layer provided on the lower surface of the stretch asphalt felt layer and a tarpaulin layer having excellent tensile and tear performance and dent resistance on the upper surface of the stretch asphalt felt layer and a waterproof layer protection function that is excellent in local load action construction method is provided.

Hereinafter, the present specification will be described in more detail.

In the present specification, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

The present invention is a first step of arranging the base surface;

a second step of reinforcing the waterproofing layer at the vulnerable portion of the waterproof fault;

A third step of forming a rubber asphalt coating waterproofing layer by applying a rubber asphalt coating waterproofing material composition to the upper surface of the base;

a fourth step of attaching a stretch asphalt felt waterproofing layer to the upper surface of the rubber asphalt coating waterproofing layer; and

A fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer; provides a construction method of a composite waterproofing layer comprising.

In the present specification, the rubber asphalt coating waterproofing layer, the stretch asphalt felt waterproofing layer, and the tarpaulin sheet waterproofing layer mentioned in the construction method are the same as described above.

Hereinafter, each step will be described in detail.

The first step of arranging the base surface is to remove foreign substances such as laitance, soil, dust, and sand from the concrete base surface, smooth the protruding part, and clean the base surface by cleaning.

The second step of reinforcing the waterproofing layer in the vulnerable part of the waterproof fault is the construction joint part, the concrete cracking part, the drain, around the pipe pipe and the corner part where the floor and the wall meet. The waterproof layer can be reinforced by attaching a 200 mm wide polyester nonwoven fabric for waterproofing layer reinforcement at the same time as the asphalt coating waterproofing material is applied.

In one embodiment of the present invention, after the first step of arranging the base surface, the step of forming a primer layer on the upper surface of the base surface before the second step of reinforcing the waterproof layer of the vulnerable part of the waterproof defect is additionally performed. may include In the step of forming the primer layer, a primer can be applied to the entire base surface using a roller, and when the base surface is smooth and clean, the gel-shaped rubber asphalt coating film waterproofing material composition has excellent adhesion, so it can be omitted. Do.

The third step of forming a rubber asphalt coating waterproofing layer by applying the rubber asphalt coating waterproofing material composition to the upper surface of the substrate is to apply the stretch asphalt felt width or more to a thickness of 1.0 mm to 2.0 mm using a toothed rubber trowel on the waterproof substrate. In this way, a rubber asphalt coating film waterproof layer can be formed. However, when the step of forming the primer layer described above is included, the rubber asphalt coating waterproofing layer may be formed by applying the rubber asphalt coating waterproofing material composition to the upper surface of the primer layer.

In the present invention, the rubber asphalt coating waterproofing layer comprises: 45 wt% to 70 wt% of a quick-drying asphalt compound; 3% to 10% by weight of synthetic rubber modifier; 2% to 5% by weight of a plasticizer; 2% to 5% by weight of a thixotropic thickener; 0.5% to 1.0% by weight of an antioxidant; and 20 wt% to 35 wt% of a mineral stabilizer; is formed of a gel-shaped rubber asphalt coating waterproofing composition comprising:

In one embodiment of the present invention, the quick-drying asphalt compound is a mixture of straight run asphalt (Straight Run Asphalt) and petroleum solvent; and a mixture of blown asphalt and petroleum solvent.

In the fourth step of attaching the stretch asphalt felt waterproofing layer to the upper surface of the rubber asphalt coating waterproofing layer, the stretch asphalt felt may be attached at the same time as applying the rubber asphalt coating waterproofing composition.

Specifically, the thickness of the stretch asphalt felt waterproofing layer is about 0.5 mm when constructed on a vertical wall surface, and about 1.0 mm when constructed on a horizontal floor surface.

The fourth step of attaching the stretch asphalt felt waterproof layer is to attach two or more asphalt felt waterproof layers, the stretch asphalt felt waterproof layers are connected by an overlap joint, and the overlap width is 50 mm or more, and may be 50 mm to 80 mm. More specifically, the width of the overlap connection joint between the stretch asphalt felts is 50 mm, and the rubber asphalt coating film waterproofing material is thinly applied on the upper surface of the stretch asphalt felt overlap connection joint width of 50 mm for adhesive connection.

In addition, after attaching the stretch asphalt felt to the upper surface of the rubber asphalt coating waterproofing layer, it is possible to make the stretch asphalt felt waterproofing layer adhere to the rubber asphalt coating waterproofing layer by lightly pressing the stretch asphalt felt with a roller.

The fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer may be formed by laying the tarpaulin sheet waterproofing layer on a horizontal bottom surface of the upper surface of the stretch asphalt felt waterproofing layer or attaching it to a vertical wall surface.

In the fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer, two or more tarpaulin sheet waterproofing layers are formed, the tarpaulin sheet waterproofing layers are connected by an overlap joint, and the overlapping width is 50 mm or more, and the tarpaulin sheet A sixth step of reinforcing the watertightness of the connection joint portion of the waterproof layer; further includes.

In one embodiment of the present invention, in the fourth step of attaching the stretch asphalt felt waterproofing layer, two or more asphalt felt waterproofing layers are attached, and the stretch asphalt felt waterproofing layers are connected by an overlap joint, and on the upper surface of the stretch asphalt felt waterproofing layer. In the fifth step of forming the tarpaulin sheet waterproofing layer, two or more tarpaulin sheet waterproofing layers are formed, and the tarpaulin sheet waterproofing layers are connected by overlapping joints.

Specifically, in the case of a horizontal floor surface, a waterproofing layer for a horizontal floor surface is laid on the upper surface of the stretch asphalt felt waterproofing layer, and the overlap connection joint width of the tarpaulin sheet is 50 mm or more, and may be 50 mm to 80 mm. Reinforce the watertightness of the connecting joint by attaching a 100 mm wide waterproof tape to the upper surface of the connecting joint.

When constructing the composite waterproofing layer on the horizontal floor surface, the tarpaulin sheet waterproofing layer is laid on the upper surface of the stretch asphalt felt waterproofing layer by a floating method, or the rubber asphalt coating waterproofing material composition is partially thinly applied on the stretch asphalt felt waterproofing layer to partially apply the tarpaulin sheet waterproofing layer. It can be applied by adhesive method.

In addition, when constructing a composite waterproofing layer on a vertical wall surface, a self-adhesive tarpaulin sheet waterproofing layer for a vertical wall surface is attached to the upper surface of the stretch asphalt felt waterproofing layer, and the overlap connection joint width of the tarpaulin sheet is 50mm or more, and may be 50mm to 80mm. Reinforce the watertightness of the connecting joint by attaching a 100 mm wide waterproof tape to the upper surface of the connecting joint.

In this case, the waterproofing layer of the tarpaulin sheet is cut to about 2 m and adhered to the upper surface of the stretch asphalt felt waterproofing layer.

The waterproofing layer of the tarpaulin sheet includes a polyethylene tarpaulin sheet, a polyethylene film provided on the upper surface of the polyethylene tarpaulin sheet, and a polyester nonwoven fabric provided on the lower surface of the polyethylene tarpaulin sheet,

The polyethylene tarpaulin sheet is a woven fabric woven with polyethylene spun yarn; and a polyethylene resin layer coated with a polyethylene resin on the lower and upper surfaces of the woven fabric.

In one embodiment of the present invention, the polyethylene film on the upper surface of the tarpaulin sheet is a high-density polyethylene (HDPE) film.

In one embodiment of the present invention, when the composite waterproofing layer is constructed outside the vertical wall surface and two or more tarpaulin sheet waterproofing layers are formed, the fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer is,

Forming a tarpaulin sheet waterproof layer;

fixing the composite waterproofing layer to the vertical wall surface with a waterproofing layer pressing hardware at the upper end of the waterproofing layer of the tarpaulin sheet of the vertical wall surface; and

Further comprising the step of connecting another tarpaulin sheet waterproofing layer,

The lower part of the waterproofing layer of the other tarpaulin sheet covers the fixing part of the pressing hardware.

In addition, the method of fixing the waterproofing layer to the wall surface by using a waterproofing layer pressing hardware after installing the waterproofing layer on the vertical wall surface is to fix the composite waterproofing layer to the concrete base surface with a waterproofing layer pressing hardware horizontally at every 2m height if the wall surface height is 2m or more. Do.

In the case of the underground vertical wall surface, soil backfill is performed after installing the waterproofing layer protective material on the waterproofing layer to prevent damage to the waterproofing layer during the soil backfilling process after the waterproofing layer is installed. There are frequent cases of leaking defects due to sagging or tearing.

In the present invention, the installation of the waterproofing layer of the tarpaulin sheet that has both the waterproofing function and the waterproofing function is installed on the top of the waterproofing layer and fixed with a nail to prevent the sagging of the waterproofing layer in the process of backfilling the soil. This drooping phenomenon is completely prevented, and a rubber asphalt coating waterproofing material is used to fill the voids in the fixing area with nails above the waterproofing layer pressing hardware, and the watertightness can be reinforced by repainting the area around the nail fixing area.

That is, the waterproof layer is fixed by using a pressing iron on the upper end of the waterproofing layer in the longitudinal direction of the tarpaulin sheet, and when connecting other tarpaulin sheet waterproofing layers, the lower part of the waterproofing layer of the other tarpaulin sheet covers the fixing part of the pressing hardware. As a follow-up process after the installation of the waterproofing layer on the underground wall surface by installing a waterproofing layer, it safely protects the waterproofing layer from damage and sagging due to earth pressure during soil backfilling.

Figure 4 is a diagram showing the construction details of the part for fixing the waterproof layer to the vertical wall surface using the shape diagram and the tarpaulin sheet waterproofing layer and pressing hardware composed of the composite waterproofing layer in the vertical wall surface waterproofing construction.

5 is a view showing a detailed construction view for reinforcing the watertightness of the fixing part of the pressing hardware by overlying the waterproofing layer of the tarpaulin sheet to be attached from the top after fixing it using the pressing hardware in FIG. 4 .

Figure 10 is a view showing the shape of the pressing hardware for fixing the waterproof layer in the vertical wall surface waterproofing construction.

As shown in FIG. 10, when the waterproof layer pressing hardware is manufactured in the same shape as in FIG. 10 and fixed to the wall base by nailing the ① central part of the waterproof layer pressing hardware, the ④ and ⑤ parts are spread out to the sides. ② and ③ parts are attached to the base to fix the waterproof layer, and ④ and ⑤ parts are also attached to the wall base in the same way. It can represent the function of completely fixing the waterproofing layer.

In one embodiment of the present invention, the width of the pressing hardware is 30 mm to 40 mm, and the material of the pressing hardware is rust-resistant aluminum or plastic.

The sixth step of reinforcing the watertightness of the connection joint of the tarpaulin sheet waterproofing layer is to attach a waterproof tape of 100mm width to the upper surface of the overlapping connection joint after the installation of the tarpaulin sheet waterproofing layer to reinforce the watertightness of the connection joint.

In one embodiment of the present invention, when the landscaping greening facility is installed on the upper part of artificial ground such as the roof of a building or the upper part of an underground parking lot, after forming the composite waterproofing layer, the step of installing a rustproof layer on the upper surface of the composite waterproofing layer Further comprising, the anti-corrosion layer is a rust-proof sheet; And a rust-proof auxiliary film is provided on the upper surface of the anti-corrosion sheet, the anti-corrosive film is a high-density polyethylene (HDPE)-based or polyethylene terephthalate (PET)-based.

The rubber asphalt coating film waterproofing layer formed of the gel-shaped rubber asphalt coating film waterproofing composition according to the present invention achieves an integrated adhesion with the concrete substrate without lifting or peeling of the waterproofing layer due to its excellent adhesion to the concrete substrate. It can also achieve complete bonding with the stretch asphalt felt waterproofing layer attached to the upper surface.

The composite waterproofing layer according to the present invention minimizes the factors that cause waterproofing defects due to negligence in the construction process of waterproofing construction by manpower compared to the general single-layer waterproofing layer, and is completely adhered to the concrete base surface even when a leak occurs due to negligence in construction. As the leaked water cannot flow under the double waterproofing layer, it is easy to find leaking defects and partial repairs are possible, which can be a great advantage.

In addition, a composite waterproofing material having a waterproof layer function of a three-ply structure (3Ply Type) by providing a waterproof layer with a waterproof layer protection function and a waterproof function on the upper surface of the stretch asphalt felt layer on the upper surface Together with the ease of construction, which consists of the formation of a double waterproofing layer of rubber asphalt coating and felt and the installation of a tarpaulin sheet, and the formation of a 3ply type waterproofing layer, it shows another effect of excellent waterproofing safety and durability.

The rubber asphalt coating waterproofing layer and the stretch asphalt waterproofing layer of the present invention have elasticity and flexibility due to the rubber component even after curing, so they can respond to the occurrence of microcracks in the concrete structure, and the waterproofing layer protective material function to protect the waterproofing layer and the waterproofing function. The composite waterproofing layer including the waterproofing layer can maximize the stability and durability of waterproofing.

1 is a view showing a cross-sectional view of a composite waterproof layer.
2 is a view showing the configuration of the composite waterproof layer of the horizontal bottom surface.
3 is a view showing the configuration of the composite waterproof layer of the vertical wall surface.
Figure 4 is a diagram showing the construction details of the part for fixing the waterproofing layer to the vertical wall surface using the shape diagram and the tarpaulin sheet waterproofing layer and pressing hardware composed of the composite waterproofing layer in the vertical wall surface waterproofing construction.
5 is a view showing a detailed view of construction for reinforcing the watertightness of the pressing hardware fixing part by covering the pressing hardware with a waterproofing layer of a tarpaulin sheet attached to it by descending from the top after fixing it using the pressing hardware in FIG. 4 .
6 is a view showing a detailed view of the construction of the composite waterproofing layer in the waterproofing construction of the horizontal floor.
7 is a view showing the shape of the stretch asphalt felt.
8 is a view showing a cross-sectional view and a shape diagram of a tarpaulin sheet waterproofing layer for a horizontal floor.
9 is a view showing a cross-sectional view and a shape diagram of a waterproofing layer of a tarpaulin sheet for a vertical wall.

Hereinafter, the present invention will be described in more detail by way of Examples and Experimental Examples. However, the following examples are not intended to limit the scope of the present invention, which should be construed to aid the understanding of the present invention.

Example 1. Preparation of rubber asphalt coating waterproofing layer

The rubber asphalt coating film waterproofing composition was composed of the materials and composition ratios of the above-described components, and the quality performance standards of the rubber asphalt coating waterproofing layer formed from the rubber asphalt coating waterproofing composition according to the present invention are shown in Table 1 below.

Test Items unit quality performance standard remark solid content % 80 or more 160±5℃, 24hr ash % 15 or more, 30 or less ASTM D 4586 drip-resistance mm All 3 sheets have a flow length of 2.0 or less,
No wrinkles, etc. Temperature control 40℃, 24hr alkali resistance - nothing will be wrong Heat resistance (80℃) - nothing will be wrong Low temperature flexibility (-15℃) - nothing will be wrong moisture content % 1.0 or less KS M 0010 adhesion performance N/㎟ 0.7 or more KS F 3211 Asphalt content % 45 or more, 65 or less ASTM D 4586 Dry to the touch (non-stick, 2mm) - within 6 hours Viscosity (25℃) cps 20,000~40,000

Example 2. Preparation of Stretch Asphalt Felt

A stretch asphalt felt was prepared by the method described above.

The quality performance standards of the stretch asphalt felt according to the present invention are shown in Table 2 below.

Test Items unit quality performance standard remark Asphalt penetration into fabric % 120 or more KS F 4901:2007
(Asphalt felt) tensile performance longitudinal direction N/mm 6.0 or higher butterfly direction N/mm 6.0 or higher bending performance - there will be no balance Asphalt penetration - No impermeable parts of asphalt reduction in heating % 5 or less

Example 3. Preparation of waterproofing layer of tarpaulin sheet

A tarpaulin sheet waterproofing layer was prepared by the above-described method.

The quality performance standards of the waterproofing layer of the tarpaulin sheet according to the present invention are shown in Table 3 below.

Test Items unit quality performance standard remark KS M ISO7214 Apparent density kg/m3 over 500 The tensile strength kpa 10,000 or more elongation % 25 or more KS M 6518 tear strength kn/m 50 or more KS F 2622
under local load
dent resistance test dent resistance - clear weight g/m2 200 or more

Claims (6)

A first step of arranging the base surface;
The waterproofing layer in the vulnerable area of waterproofing defects is treated with a gel-type rubber asphalt coating waterproofing material. a second step of reinforcing;
A third step of forming a rubber asphalt coating waterproofing layer by applying a gel-shaped rubber asphalt coating waterproofing material composition to the upper surface of the base surface;
a fourth step of attaching a stretch asphalt felt waterproofing layer to the upper surface of the rubber asphalt coating waterproofing layer; and
A fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer ;
The gel-shaped rubber asphalt coating film waterproofing material composition comprises 45 wt% to 70 wt% of a quick-drying asphalt compound, 3 wt% to 10 wt% of a synthetic rubber modifier, 2 wt% to 5 wt% of a plasticizer, 2 wt% to 5 wt% of a thixotropic thickener %, containing 0.5 wt% to 1.0 wt% of antioxidant, and 20 wt% to 35 wt% of a mineral stabilizer, the viscosity is 20,000 to 40,000 (cps) at 25°C, and the adhesion performance according to KS F 3211 is 0.7N/ mm ² or more ,
The construction method of the composite waterproofing layer, characterized in that the rubber asphalt coating waterproofing layer in the fourth step is bonded to the stretch asphalt felt waterproofing layer by being in close contact and hardening. According to claim 1,
After the first step of arranging the base surface, before the second step of reinforcing the waterproof layer at the vulnerable part of the waterproof flaw, forming a primer layer on the upper surface of the base surface. According to claim 1,
The fourth step of attaching the stretch asphalt felt waterproof layer is to attach two or more asphalt felt waterproof layers, the stretch asphalt felt waterproof layers are connected by an overlap joint, and the overlap width is 50 mm or more. Construction method of a composite waterproof layer. According to claim 1,
In the fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer, two or more tarpaulin sheet waterproofing layers are formed, the tarpaulin sheet waterproofing layers are connected by an overlap joint, and the overlapping width is 50 mm or more,
A sixth step of reinforcing the watertightness of the connection joint of the tarpaulin sheet waterproofing layer; the construction method of the composite waterproofing layer further comprising a. According to claim 1,
The composite waterproofing layer is installed outside the vertical wall surface,
When two or more tarpaulin sheet waterproofing layers are formed,
The fifth step of forming a tarpaulin sheet waterproofing layer on the upper surface of the stretch asphalt felt waterproofing layer,
Forming a tarpaulin sheet waterproof layer;
fixing the composite waterproofing layer to the vertical wall surface with a waterproofing layer pressing hardware on the upper end of the waterproofing layer of the tarpaulin sheet of the vertical wall surface; and
Further comprising the step of connecting another tarpaulin sheet waterproofing layer,
The construction method of the composite waterproofing layer in which the lower part of the waterproofing layer of another tarpaulin sheet covers the fixing part of the pressing hardware. 6. The method of claim 5,
The width of the pressing hardware is 30 mm to 40 mm,
The construction method of the composite waterproofing layer, the material of the pressing hardware is aluminum or plastic.

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