KR20180060477A - Exposure Type Rooftop Waterproofing Method and Rooftop waterproofing structure - Google Patents

Abstract

The present invention provides an exposed rooftop waterproofing method including the following steps: (a) a step of laying composite waterproof sheets (10) on a bottom surface of a rooftop; (b) a step of applying a urethane undercoat (20) to a joint between the composite waterproof sheets (10) and between the bottom surface of the rooftop and the composite waterproof sheets (10); (c) a step of applying a joint intermediate coating (33) to the joint between the composite waterproof sheets (10) and between the bottom surface of the rooftop and the composite waterproof sheets (10); (d) a step of attaching a high-elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets (10); (e) a first urethane intermediate coating (31) step; (f) a second urethane intermediate coating (32) step; (g) a silica (60) spray step; and (h) a urethane top coating (50) step. An exposed waterproof structure constructed by the method in accordance with the present invention has marked durability of a waterproof structure, simplifies a construction method, and reduces construction costs.

Description

{Exposure Type Rooftop Waterproofing Method and Rooftop Waterproofing Structure}

The present invention relates to a waterproof layer construction method and a waterproof layer structure on a building roof, and more particularly, to a waterproof layer construction method and a waterproof layer structure in which a waterproof sheet is disposed on an upper portion of a urethane undercoat layer, a urethane intermediate layer is disposed on an upper part of the waterproof sheet, A waterproof layer construction method and a waterproof layer structure on a roof.

Generally, a cement concrete is combined with a reinforcing steel or a steel frame to form a three-dimensional structure, and all completed buildings are formed with a roof structure corresponding to the outer upper surface at a final stage of a predetermined height of the object. The rooftop is a unique name according to the location and means a part corresponding to the upper outer surface of the continuous structure integrally connected from the foundation of the building.

The rooftop structure generally has a basic shape in the form of a flat floor, but its use is increasing in various ways depending on the purpose of use. However, since the rooftop structure is a structure corresponding to the outer surface of the entire structure, it is basically necessary to provide functional conditions for ensuring safe use of the inner space of the uppermost floor. In other words, safety from natural phenomena and disasters such as snow, rain, cold, heat, sunshine and wind must be ensured. Therefore, it is not only the most important thing to completely prevent the leakage of snow and rain water into the interior space below, but also the effects from external temperatures such as cold and heat. The function of minimizing, that is, the rooftop structure, is the part where the contact surface with the outside is large and exposed to the sun, and therefore, it is the part most affected by the difference in temperature. Therefore, the insulation is also an essential condition.

In addition, as the unit of the current building is enlarged, the utility and the economic value of the space on the roof are newly recognized, and the maintenance cost of the energy consumption due to the increase of the comfort of the indoor living environment is also increasing . In such a roof structure, the following matters should be considered in the form or method for preventing leakage and insulating insulation.

Among the structures constituting the outer surface of the building, the four-room outer wall exists in the vertical direction, whereas the roof structure is formed in the horizontal direction on the uppermost floor and is exposed to the outside. Therefore, the snow, rain, sunlight, wind, The most physicochemical effects from the natural phenomena. In other words, external fluids, such as snow, rain, and even acid rain due to pollution, penetrate into even the smallest crevices or spaces due to the capillary phenomena, the physical properties of the cement concrete structure itself. In this state, when the temperature is lowered to sub-zero temperature, the fluid in the liquid state solidifies and expands in volume, which causes physical forces to be applied to the surrounding tissues, thereby causing destruction and corrosion of the structure structure.

In addition, seasonal cold or hot weather causes heat shrinkage and expansion stimulation on the volume of the rooftop structure in solid form, thereby increasing the fatigue of the structure and destroying the rooftop structure. This phenomenon, when combined with the physical properties mentioned above, is exacerbated and amplified. Furthermore, sunlight (sunlight) also provides the effect of stimulation due to hot heat and ultraviolet light. Since the physical properties of the structure have electrical conductivity and heat resistance to heat, the chemical action of ultraviolet rays as well as the stimulation of thermal expansion contraction due to the heat of the sunlight and the direct influence on the thermal environment of the indoor room cause the change of the tissue composition.

Therefore, the rooftop structure is required to maintain safety from natural phenomena, to prevent waste of energy, and to guarantee the utilization function as a space place. In order to meet these conditions, materials and construction conditions currently used are as follows.

Generally, there are various waterproofing methods for roof waterproofing. In addition, the waterproof sheets used in the waterproofing method are different in material and property depending on the type of the waterproofing method. However, in most waterproofing methods applied to the roof waterproofing, an exposed waterproofing method in which a waterproofing composition such as polyurethane is applied to the top of a waterproofing sheet, a waterproofing composition such as polyurethane is applied to the top of the waterproofing sheet, A non-visible type waterproofing method is commonly applied.

However, in the conventional non-visible waterproofing method shown in FIG. 1, existing concrete structures and waterproofing layers are coupled to each other. As time passes, due to seasonal changes and humidity and temperature changes, the waterproof layer is swollen The concrete layer is corroded or oxidized due to moisture when the concrete water in the waterproof layer is introduced, and the waterproof state is released, thereby repeating the problem that the life of the building is shortened as well as the leakage of water.

In addition, since the conventional waterproofing method shown in Fig. 1 is consistent with the method of making the surface of the protective concrete and coating the primer used as an adhesive thinly one time by using a roller or the like, Since there is no adhesive force, if a part of the waterproof layer is broken, moisture penetrates into the waterproof layer and spreads. As a result, a defective part can not be identified, so it is very difficult to repair sewage. It can be seen that when a part of the waterproof layer applied is peeled off, it ruptures like a blanket, and this is a limitation of the amount and quality of the primer bonding the protective concrete layer and the waterproof layer or the method of construction.

In the related intellectual property literature, KR Patent Application No. 10-2005-0073079 (entitled A ventilation insulation type waterproof layer on-site property construction method and waterproof layer structure of a building roof) An adjusting step; A base layer forming step of forming a base layer by providing a plurality of base sheets on one side of the building roof waterproof base so as to overlap each other; A base layer fixing step of partially fixing the overlapped part of the base sheet with the base fixing material on the building roof waterproof base surface; A joint part processing step of attaching an overlapping portion of the base layer on which the desk fixing material is installed by an adhesive fixing material; Forming a waterproof coating on the base layer by spraying a quick-setting coating material waterproofing material on the base layer to form a waterproof coating; An embossing layer processing step of embossing processing for slip prevention by spraying a quick-hard coat film waterproof material while maintaining a predetermined inclination angle with respect to the waterproof film surface; And a top coat layer forming step of applying a top coat material to the embossed water-repellent coating, thereby forming a top coat layer on the roof of the building.

Patent Application No. 10-2004-0069637, entitled " Floor System of Rooftop Wall Having Rooftop Wall, " which discloses a rooftop bottom layer that has been subjected to heat insulation and waterproofing, a support member And a watertight thermal insulating panel member fixed to the frame member and covering the roof top floor in correspondence with the entire surface of the roof top floor, wherein the roof member is supported by the support member, ≪ RTI ID = 0.0 > a < / RTI >

However, in the above-mentioned patent documents, the durability of the waterproof structure is not sufficient, and the problem that much time and cost are involved in construction of the structure has not been sufficiently solved.

Numerous papers and patent documents are referenced and cited throughout this specification. The disclosures of the cited papers and patent documents are incorporated herein by reference in their entirety to better understand the state of the art to which the present invention pertains and the content of the present invention.

The inventors of the present invention found that, in the case of a waterproof structure manufactured by a conventional exposure waterproofing method, most of the cracks generated in the waterproof structure occur at the joint portion, which is a space between the respective waterproof sheets. I tried. As a result, a clearance space capable of coping with seasonal temperature changes and shrinkage and expansion of the waterproof structure due to the weathering is secured in the space between each waterproof sheet, and then a high-elasticity reinforcing sheet connecting the clearance spaces is adhered The present inventors have found that the above-mentioned problems can be solved and completed the present invention.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method of constructing an exposed roof waterproofing system.

Another object of the present invention is to provide an exposed roof waterproof structure manufactured by the above method.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention, claims and drawings.

The present invention provides a rooftop waterproofing construction method.

The inventors of the present invention found that, in the case of a waterproof structure manufactured by a conventional exposure waterproofing method, most of the cracks generated in the waterproof structure occur at the joint portion, which is a space between the respective waterproof sheets. I tried. As a result, a clearance space capable of coping with seasonal temperature changes and shrinkage and expansion of the waterproof structure due to the weathering is secured in the space between each waterproof sheet, and then a high-elasticity reinforcing sheet connecting the clearance spaces is adhered It is confirmed that the above-mentioned problem can be solved.

According to one aspect of the present invention, the present invention provides an exposed rooftop waterproofing method comprising the steps of:

(a) laying a composite waterproof sheet (10) on a rooftop bottom;

(b) applying a urethane undercoat (20) between the joints between the composite waterproof sheets (10) and between the roof top surface and the composite waterproof sheet (10);

(c) applying a urethane joint middleweight (33) between the joints between the composite waterproof sheet (10) and the roof top surface and the composite waterproof sheet (10);

(d) attaching the high elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets (10);

(e) Urethane intermediate primary (31) coating step;

(f) Urethane intermediate secondary (32) coating step;

(g) silica sand 60 spraying step; And

(h) Urethane phase (50) Coating step.

As used herein, the term " rooftop " may refer to the uppermost portion of a building or similar structure, but is not limited thereto and is considered to include any place where waterproofing is required.

As used herein, the term " joint " includes spaces between opposed composite waterproof sheets, as well as both sides (bottom and top) of the 5 cm to 10 cm end portions of each of the opposed composite waterproof sheets It means.

As used herein, the term " urethane hard coat " refers to a surface waterproofing method using an urethane composition, which is distinguished from the remaining urethane composition (urethane hard coat and urethane coat) by the difference in composition of the urethane composition, ≪ / RTI >

As used herein, the term " urethane midway " is used in an exposed roof waterproofing method using a urethane composition, which is distinguished from the remaining urethane compositions (urethane flooring and urethane flooring) by the difference in composition of the urethane composition, May refer to a urethane composition applied over the top of the sheet.

As used herein, the term " urethane topcoat " is used in an exposed roof waterproofing method using a urethane composition, wherein the urethane composition is distinguished from the remaining urethane composition (urethane flooring and urethane flooring) ≪ / RTI >

As used herein, the term " high-elasticity reinforced sheet " may optionally refer to an article to which an adhesive composition can be applied on one side of the sheet, and an elastic fabric is bonded to one or both sides of the sheet.

As used herein, the term " binding " may refer to a state in which an object is bonded to a specific object regardless of differences in the bonding method.

According to a preferred embodiment of the present invention, the distance between the composite waterproof sheets 10 of the step (a) of the present invention may be preferably 1.0 mm to 30.0 mm, more preferably 5.0 mm to 20.0 mm , And most preferably from 8.0 mm to 12.0 mm.

In the present invention, it is very important to maintain the distance between the composite waterproof sheets 10 at a constant interval. Cracks can occur in the urethane waterproof layer during the process of decreasing the length and width of the composite waterproof sheet due to the cyclic temperature change. When the distance between the composite waterproof sheets is maintained at a constant interval, a buffer space So that cracks in the urethane waterproof layer can be effectively prevented.

When the distance between the composite waterproof sheets is less than 1.0 mm, there is a possibility that the buffering function for preventing cracking of the waterproof layer may be deteriorated. If the distance between the composite waterproof sheets exceeds 30.0 mm, the waterproof function is deteriorated.

According to a preferred embodiment of the present invention, the width of the composite waterproof sheet 10 of the step (a) of the present invention may be preferably 20 cm to 300 cm, more preferably 50 cm to 200 cm , And most preferably from 80 cm to 120 cm.

If the width of the composite waterproof sheet of step (a) is less than 20 cm, the waterproof function is deteriorated and the waterproof construction cost increases. If the width of the composite waterproof sheet exceeds 300 cm, And there is a problem that construction is difficult on the roof of a small-sized building.

According to a preferred embodiment of the present invention, the composite waterproof sheet 10 of the step (a) of the present invention is preferably formed by using urethane fibers at the upper part, centering on the SBS (Styrene-Butadiene-Styrene) And the fabrics fabricated by using polyester fibers may be heated and fused to the lower portion by heating.

The use of SBS (Styrene-Butadiene-Styrene) modified rubber asphalt sheet in the present invention is a very important constitution. This is because, when the SBS modified rubber asphalt sheet is used, the plastic deformation resistance, the fatigue crack resistance, the long term cohesion, the low temperature crack resistance, the moisture resistance, the slip resistance and the adhesion are remarkably improved It is because.

When the SBS modified rubber asphalt sheet is actually used, the durability of the waterproof structure can be increased by 20% or more as compared with the case of using a general rubber sheet or a synthetic resin sheet.

In the present invention, it is a very important constitution to heat and fuse a fabric produced by using urethane fibers on the upper part of the SBS modified rubber asphalt sheet in the central part. This is because the fused urethane fibers react with the urethane intermediate layer to significantly enhance the bonding force between the composite waterproof sheet and the urethane intermediate layer.

In the present invention, it is a very important structure to heat and fuse a fabric produced by using polyester fibers at the center of the SBS modified rubber asphalt sheet in the center portion. This is because the fused polyester fiber fabric increases the frictional force with the rooftop bottom surface and can significantly reduce the increase in length and width of the composite waterproof sheet due to the cyclic temperature change.

According to a preferred embodiment of the present invention, the high-elasticity reinforcing sheet 40 of the step (d) of the present invention may be preferably attached using a urethane seal.

According to a preferred embodiment of the present invention, the width of the high-elasticity reinforcing sheet 40 of the step (d) of the present invention may preferably be 5 cm to 20 cm.

According to a preferred embodiment of the present invention, the high-elasticity reinforcing sheet 40 of the step (d) of the present invention may be a fabric obtained by binding a fabric prepared using rubber fibers around a central polyester sheet.

In the present invention, it is very important that the above-mentioned high-elasticity reinforcing sheet is formed by binding a fabric produced using rubber fibers around a center polyester sheet. This is because cracks can be generated in the urethane waterproof layer during the process of decreasing the length and width of the composite waterproof sheet due to the change in the cyclic temperature. When the rubber fiber fabric is adhered to both sides or one side of the sheet, So that it is possible to effectively prevent cracks in the urethane waterproof layer which may be caused by shrinkage or elongation of the composite waterproof sheet.

In practice, the high-elasticity reinforcing sheet used in the method of the present invention is a high-elasticity reinforcing sheet which is bonded to both sides or one side of the sheet and assumes a high-elasticity reinforcing sheet having a width of 10 cm, When the tensile force is applied, the width of the high-elasticity reinforcing sheet is elongated by 5 to 10%, and when the tensile force is extinguished, it can be restored to the original width.

According to another aspect of the present invention, there is provided an exposed rooftop waterproof structure comprising a urethane bottom layer, a waterproof sheet, a urethane middle layer and a urethane top layer,

Wherein the waterproof sheet is disposed on an upper portion of the urethane bottom layer, the urethane middle layer is positioned on the waterproof sheet, the urethane top layer is positioned on the urethane middle layer,

The joint width between the waterproof sheets is 5 mm to 15 mm,

The joint between the waterproof sheets is formed by bonding and connecting a high-elasticity reinforcing sheet,

A joint between the waterproof sheet and a urethane bottom coat between the roof bottom and the waterproof sheet,

After applying the urethane midsole to the upper portion of the urethane blank, the waterproof sheet is placed,

The waterproof sheet is obtained by heating and fusing a fabric produced by using urethane fibers in the upper portion of a center portion of a SBS (Styrene-Butadiene-Styrene) modified rubber asphalt sheet and heating the fabric produced by using polyester fibers in the lower portion To thereby provide an exposed roof waterproof structure.

According to a preferred embodiment of the present invention, the high-elasticity reinforcing sheet of the present invention may preferably be a fabric obtained by binding a fabric produced using rubber fibers around a center polyester sheet.

According to a preferred embodiment of the present invention, the high-elasticity reinforcing sheet of the present invention may be preferably attached using a urethane seal.

Since most of the matters related to the exposed roof waterproofing structure in the present invention are common to the above-described exposed roof waterproofing construction method, detailed description is omitted in order to prevent the present specification from being excessively complicated.

The features and advantages of the present invention are summarized as follows:

(1) The present invention provides an exposed rooftop waterproofing method comprising the steps of: (a) covering a composite waterproof sheet (10) on a rooftop bottom; (b) applying a urethane undercoat (20) between the joints between the composite waterproof sheets (10) and between the roof top surface and the composite waterproof sheet (10); (c) applying a urethane joint middleweight (33) between the joints between the composite waterproof sheet (10) and the roof top surface and the composite waterproof sheet (10); (d) attaching the high elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets (10); (e) Urethane intermediate primary (31) coating step; (f) Urethane intermediate secondary (32) coating step; (g) silica sand 60 spraying step; And (h) coating the urethane top coat (50).

(2) The exposed waterproof structure constructed by the method of the present invention is not only remarkable in the durability of the waterproof structure, but also has a simple construction method and a low construction cost.

1 shows a conventional roof waterproofing method (left: unexposed type, right: exposed type).
2 is a cross-sectional view of a roof waterproof structure formed using the roof waterproofing method of the present invention.
Fig. 3 shows one step of the rooftop waterproofing method of the present invention.
4 shows two steps of the roof waterproofing method of the present invention.
5 shows three steps of the roof waterproofing method of the present invention.
Fig. 6 shows four steps of the rooftop waterproofing method of the present invention.
Fig. 7 shows five steps of the rooftop waterproofing method of the present invention.
Fig. 8 shows the ninth step as the final step of the roof waterproofing method of the present invention.
Fig. 9 shows a composite waterproof sheet used in the rooftop waterproofing method of the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

FIG. 1 shows a conventional unexposed and exposed roof waterproofing method. FIG. 2 shows a cross-section of an exposed roofed waterproofing structure constructed by a construction method according to an embodiment of the present invention. 8 shows an exposed roof waterproofing method according to an embodiment of the present invention, and FIG. 9 is a perspective view of a composite waterproof sheet 10 according to an embodiment of the present invention.

2 to 8, an exposed roof waterproofing method according to an embodiment of the present invention includes: (a) covering a composite waterproofing sheet 10 on a rooftop bottom; (b) applying a urethane undercoat (20) between the joints between the composite waterproof sheets (10) and between the roof top surface and the composite waterproof sheet (10); (c) applying a urethane joint middleweight (33) between the joints between the composite waterproof sheet (10) and the roof top surface and the composite waterproof sheet (10); (d) attaching the high elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets (10); (e) Urethane intermediate primary (31) coating step; (f) Urethane intermediate secondary (32) coating step; (g) silica sand 60 spraying step; And (h) a urethane top coat 50 coating step. This will be described in more detail below.

(a) a step of covering the composite waterproof sheet 10 on the roof bottom surface

First, the floor of the rooftop solves step, irregularity, retardation, warpage, breakage, cracking, lifting and pitting. Afterwards, take the standard according to the conditions of the roof waterproofing construction site and lay the composite waterproof sheet on the whole floor at intervals of 10 mm. Here, the composite waterproof sheet maintains a distance from the wall to 10 mm to 20 mm.

(b) applying a urethane undercoat (20) between the joints between the composite waterproof sheets (10) and between the roof top surface and the composite waterproof sheet (10)

The urethane hard coat is uniformly applied at a width of 120 mm using a brush, a roller, a spray or the like at the joint between the composite waterproof sheet and between the composite waterproof sheet and the wall and at the corner. The laid composite waterproof sheet is folded on both sides and applied to the composite waterproof sheet so that the adhesive surface is about 50 mm to 60 mm. The vertical wall is applied to the whole area.

(c) applying a urethane joint intermediate weight (33) between the joint between the composite waterproof sheet (10) and the roof top surface and the composite waterproof sheet (10)

The urethane midway between the composite waterproof sheet and between the composite waterproof sheet and the wall is uniformly coated at a width of 100 mm to 120 mm using a brush, roller, spray or the like. The urethane midsole is applied to the composite waterproof sheet folded on both sides so that the coated surface is about 50 mm to 60 mm. Thereafter, the composite waterproof sheet folded in the uniformly formed joint is adhered to the floor surface.

(d) attaching the high elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets

The high-elasticity reinforcing sheet is bonded at a width of 100 mm to the joint between the sheets, between the composite waterproof sheet and the wall, and to the corner.

(e) Urethane middle primary (31) coating step and (f) Urethane middle secondary (32) coating step

The entire urethane surface is uniformly coated on the entire wall and the entire bottom surface with a roller or a trowel.

(g) silica sand 60 spraying step and (h) urethane top coat 50 coating step

Silica (No. 4 to No. 5) is applied by using a squeegee spreader before the urethane midsole is dried to prevent slippage on the entire bottom surface coated with the urethane midsole. The silica sand application rate is usually about 1.5 kg / m ² to 2 kg / m ² . When the curing of the urethane intermediate is completed, the surface of the urethane is cleaned, and the urethane top coat is uniformly applied to the bottom and the vertical surface using a roller, a spray, or the like. At this time, it is preferable to use a product containing an ultraviolet screening agent for the urethane surface.

Referring to FIG. 9, the composite waterproof sheet 10 used in the exposed roof waterproofing method according to an embodiment of the present invention is centered on a SBS (Styrene-Butadiene-Styrene) modified rubber asphalt sheet 10b The fabric 10c produced by using urethane fibers may be heated and fused, and the fabric 10a fabricated by using polyester fibers may be fused by heating.

When the urethane fiber is fused to the upper part of the SBS modified rubber asphalt sheet, the bonding strength between the asphalt sheet and the urethane middle layer can be increased. When the polyester fiber is fused to the lower part of the SBS modified rubber asphalt sheet, The frictional force can be increased.

Composite waterproof sheet 10 urethane foam 20
Urethane Middle 30 Urethane Middle 1st 31
Urethane Middle 2nd 32 urethane joints Middle 33
High elasticity reinforced sheet 40 Urethane upper surface 50
Silica 60 Bottom 70

Claims (10)

An exposed roof waterproofing method comprising the steps of:
(a) laying a composite waterproof sheet (10) on a rooftop bottom;
(b) applying a urethane undercoat (20) between the joints between the composite waterproof sheets (10) and between the roof top surface and the composite waterproof sheet (10);
(c) applying a urethane joint middleweight (33) between the joints between the composite waterproof sheet (10) and the roof top surface and the composite waterproof sheet (10);
(d) attaching the high elasticity reinforcing sheet (40) to the joint between the composite waterproof sheets (10);
(e) Urethane intermediate primary (31) coating step;
(f) Urethane intermediate secondary (32) coating step;
(g) silica sand 60 spraying step; And
(h) Urethane phase (50) Coating step.
The method according to claim 1,
Wherein the distance between the composite waterproof sheets (10) in the step (a) is 5 mm to 15 mm.
3. The method of claim 2,
Wherein the composite waterproof sheet (10) of step (a) has a width of 50 cm to 200 cm.
The method of claim 3,
The composite waterproof sheet 10 of the step (a) is obtained by heating and fusing a fabric produced by using urethane fibers in the upper part of a center portion of a SBS (Styrene-Butadiene-Styrene) modified rubber asphalt sheet, A method of manufacturing an exposed roof waterproofing method, characterized in that a fabric manufactured using fibers is heated and fused.
The method according to claim 1,
Wherein the high elasticity reinforcing sheet (40) of step (d) is attached using a urethane seal.
6. The method of claim 5,
Wherein the high-elasticity reinforcing sheet (40) in step (d) has a width of 5 cm to 20 cm.
The method according to claim 6,
The high elasticity reinforcing sheet (40) of the step (d) is obtained by binding a fabric produced using rubber fibers around a center polyester sheet.
In an exposed roof waterproof structure including a urethane bottom layer, a waterproof sheet, a urethane middle layer and a urethane top layer,
Wherein the waterproof sheet is disposed on an upper portion of the urethane bottom layer, the urethane middle layer is positioned on the waterproof sheet, the urethane top layer is positioned on the urethane middle layer,
The joint width between the waterproof sheets is 5 mm to 15 mm,
The joint between the waterproof sheets is formed by bonding and connecting a high-elasticity reinforcing sheet,
A joint between the waterproof sheet and a urethane bottom coat between the roof bottom and the waterproof sheet,
After applying the urethane midsole to the upper portion of the urethane blank, the waterproof sheet is placed,
The waterproof sheet is obtained by heating and fusing a fabric produced by using urethane fibers in the upper portion of a center portion of a SBS (Styrene-Butadiene-Styrene) modified rubber asphalt sheet and heating the fabric produced by using polyester fibers in the lower portion And the roughened surface is waterproof.
9. The method of claim 8,
Wherein the high-elasticity reinforcing sheet is fabricated by fusing fabric produced using rubber fibers around a polyester sheet in the center.
10. The method of claim 9,
Wherein the high-elasticity reinforcing sheet is attached using a urethane seal.

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