KR100920286B1 - Waterproof seat and construction method thereof - Google Patents

Abstract

PURPOSE: A waterproof sheet comprising a waterproof layer and top coating layer and a construction method thereof are provided to secure that the waterproof sheet is insensitive to temperature so the waterproof sheet maintains constant heat insulation. CONSTITUTION: A method for constructing a waterproof sheet comprises the following steps of: attaching an aluminum foil(2) to the rear side of a polyester nonwoven fabric; forming a rubberized asphalt waterproof layer on the rear of the aluminum foil; forming a silicon layer(4) on the rear of the rubberized asphalt waterproof layer; and inserting a polypropylene woven fabric or non-woven fabric into the rubberized asphalt waterproof layer for the intensification of tensile strength.

Description

Waterproof seat and construction method

The present invention relates to a waterproof sheet and a construction method thereof, and in detail, an aluminum foil is attached to a lower surface of a polyester-based nonwoven fabric layer, a rubberized asphalt waterproof layer is formed on a lower surface of the aluminum foil, and silica sand is disposed on a lower surface of the rubberized asphalt waterproof layer. A layer is formed, and on one side or both sides of the polyester-based nonwoven layer, an overlap portion formed of only a polyester-based nonwoven fabric having no aluminum foil is formed, and the construction method includes applying a primer to a concrete floor of a portion where the waterproof sheet overlaps. In the state in which the urethane adhesive was applied on the primer, the portion without the overlapped portion formed on one side of the waterproof sheet was attached on the urethane adhesive, and the overlapped portion of the one side of the waterproof sheet adjacent to the layer was overlapped and then exposed to the upper portion of the waterproof sheet. To protect the coating layer and the waterproof layer To a form a top coating layer successively.

Construction methods for the waterproofing of various building structures include cement liquid waterproofing, urethane waterproofing, water-soluble coating waterproofing, sheet waterproofing, etc., depending on the type of waterproofing agent.

On the other hand, these waterproofing agents are suitable for small structures such as private houses, but cracks occur frequently in large structures such as schools or buildings, so the construction method using these waterproofing agents may feel a limitation to the roof waterproofing of large structures.

In addition, no matter how well the waterproofing, since the protection management by the subsequent process is not made, there is also a problem of waterproofing. For example, the problems frequently occurring in the outer wall of the roof railing layer of a large building are as follows.

Explaining an example of a problem frequently occurring on the roof outer wall of a large building such as a school or a building, the floor concrete is constructed vertically after a predetermined time so that the concrete is cured and the concrete is cured. Because of the different dates for the construction of concrete and wall concrete, separation occurs at the junction or extension.

In addition, in the direct connection example, the rooftop railing wall concrete is pushed and burst due to the contraction and expansion of the pressed concrete installed on the wide rooftop, so that the waterproof layer is broken.

On the other hand, during the construction of the waterproofing layer, the majority of them do not solve this problem even when looking at the damage, and only the thickness of the waterproofing layer.

The present invention has been made to solve the above problems, an object of the present invention is a problem caused by shrinkage and heterogeneous cracks occurring at the joints (connections) in which the concrete structure is formed stepwise, as well as frequent occurrences in the waterproofing layer joints It is possible to solve the problem of waterproofing, and to provide a waterproof sheet and improved construction method of the improved structure having an insulating effect and durability.

In order to achieve the above object, the present invention attaches an aluminum foil to the lower surface of the polyester-based nonwoven layer in a roll state, forms a rubberized asphalt waterproof layer on the lower surface of the aluminum foil, and the silica sand on the lower surface of the rubberized asphalt waterproof layer It is attached, but provides a waterproof sheet continuously formed along the longitudinal direction of the overlap portion consisting of only a polyester-based nonwoven fabric is not attached to the aluminum foil on the left and right sides or both sides of the polyester-based nonwoven layer.

In another embodiment of the present invention, the rubberized asphalt waterproof layer is inserted into a polypropylene-based woven fabric or nonwoven fabric as a reinforcement to provide a waterproof sheet having a high tensile strength.

In another embodiment of the present invention has a basically the same laminated structure as the waterproof sheet of the first embodiment, after attaching a release paper coated with a release agent along the longitudinal direction on one side or both sides of the lower left and right sides of the rubberized asphalt waterproof layer; By attaching silica sand, this release paper is peeled off to provide a waterproof sheet that can be applied by itself.

The construction method of the waterproof sheet according to the present invention can be installed in a floating state without completely contacting the rooftop floor of the old building or the new building where the defect occurs, and can degas the air formed in the space between the rooftop floor and the waterproof sheet to the outside. It is to be exposed waterproof so as to, specifically, to expand and secure the polyethylene film of about 500mm in width on the rooftop concrete floor with the air passage base, and to install one degassing pipe per 100 ~ 150㎡ of concrete floor area; One side of the waterproof sheet is installed to overlap at an interval of about 50 mm in a direction orthogonal to the direction in which the polyethylene film is unfolded, and a primer having a width of about 100 mm is applied to the concrete floor of the portion where the waterproof sheet overlaps, and a urethane is applied on the primer. Attaching an overlap portion of one side of the waterproof sheet on the urethane adhesive in a state where the adhesive is applied; Sequentially forming an exposed coating waterproof layer and a top coating layer for protecting the waterproof layer on the overlapped waterproof sheet; It is made, including.

The waterproof sheet of the present invention is formed by a urethane-based waterproofing agent penetrates into the polyester nonwoven fabric layer of the upper layer to form a solid waterproof layer having excellent tensile strength, so that the life of the waterproof layer can be maintained for a long time and attached to the lower portion of the polyester nonwoven fabric layer. The aluminum foil forms a waterproofing film and prevents the rubberized asphalt waterproof layer from melting at the bottom due to melting by outside air and sunlight, and the aluminum foil is not sensitive to the low temperature in winter and the high temperature in summer, thus preventing wrinkles and deformation. Since it maintains a constant thermal insulation, it also has the effect of preventing the heat loss of the building.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 and 2 are a perspective view and a cross-sectional view showing a waterproof sheet according to the first embodiment of the present invention, the waterproof sheet (S) according to this embodiment is an aluminum foil (2) on the lower surface of the polyester-based nonwoven fabric layer (1) ), A rubberized asphalt waterproofing layer 3 is formed on the lower surface of the aluminum foil 2, a silica sand layer 4 is formed on the lower surface of the rubberized asphalt waterproofing layer 3, and the polyester On one side of the system nonwoven fabric layer 1, the overlap part 5 which consists only of the polyester type nonwoven fabric layer to which aluminum foil is not attached is formed.

In the present embodiment, the polyester-based nonwoven layer 1 has a thickness of about 0.2 to 2 mm, has a weight of 100 g to 200 g per 1 m 2, and the width of the polyester nonwoven fabric layer 1 is about 1 m. The aluminum foil 2, the rubberized asphalt waterproofing layer 3, and the silica sand layer 4 are sequentially laminated on the polyester nonwoven fabric layer 1 by the manufacturing process shown in Figs.

In detail, as shown in FIG. 3, a thin film of polyethylene melt 6 is applied as an adhesive to one surface of the polyester-based nonwoven fabric layer 1 in a roll state, and an aluminum foil 2 wound in a roll state is attached thereto. After pressing with a pressing roll 7, the aluminum foil 2 is integrally bonded to one surface of the polyester nonwoven fabric layer 1, and the polyester nonwoven fabric layer 1 to which the aluminum foil 2 is bonded is illustrated again. As shown in the manufacturing process of 4, the rubberized asphalt waterproofing layer 3 is formed on the upper surface of the aluminum foil 2, and the silica sand is coated on the rubberized asphalt waterproofing layer 3 to form the silica sand layer 4 The multi-layered waterproof sheet S is completed.

In this embodiment, the thickness of the aluminum foil (2) is 5 ~ 20㎛, the thickness of the rubberized asphalt waterproof layer 3 is 1 ~ 3mm, the thickness of the silica sand layer (4) is 0.2 ~ 1mm.

5 and 6 illustrate the waterproof sheet S according to the second embodiment of the present invention. In this embodiment, the reinforcing material 8 is inserted into the rubberized asphalt waterproofing layer 3. (8) is to increase the tensile strength of the waterproof sheet using a mesh type PP woven or non-woven fabric, the rest is the same as the configuration of the first embodiment.

FIG. 7 illustrates a waterproof sheet S according to a third embodiment of the present invention. In the waterproof sheet S according to the present embodiment, an aluminum foil 2 is bonded to a lower surface of the polyester nonwoven fabric layer 1. The rubberized asphalt waterproofing layer 3 is formed on the lower surface of the aluminum foil 2, and the silica sand layer 4 is formed on the lower surface of the rubberized asphalt waterproofing layer 3, and the polyester nonwoven fabric layer On the left and right sides of (1), overlap portions 5, 5 'made of only a polyester nonwoven fabric layer to which aluminum foil is not attached are formed.

8 and 9 illustrate modified examples of the first and third embodiments, respectively. In FIG. 8, an outer side of the rubberized asphalt waterproof layer 3 in the waterproof sheet S according to the first embodiment is illustrated. A person made of asphalt having adhesiveness when the release paper 9 is detached by attaching a release paper 9 coated with a release agent along a longitudinal direction on the side contacting the overlap part 5 and then forming a silica sand layer 4. The landing surface 3a is exposed so that the waterproof sheet S can be installed on the construction surface by self-supporting construction. FIG. 9 shows both sides of the rubberized asphalt waterproof layer 3 in the waterproof sheet S according to the second embodiment. Release paper (9, 9) by attaching the release paper (9, 9 ') coated with a release agent along the longitudinal direction on the outer surface, that is, the outer contact with the overlap portion (5, 5'), respectively, and then forming a silica sand layer (4) When peeling off the '), the self-adhesive surfaces (3a, 3a') made of adhesive asphalt are exposed and the waterproof sheet is constructed. It is the one to be installed by the party chaksik.

Hereinafter, a process of constructing the waterproof sheet S according to the present invention on the roof of a building will be described.

 FIG. 10 is a view illustrating a state in which the waterproof sheet S according to the first embodiment is being constructed by an exposure waterproof method on a building roof, and in order to construct the waterproof sheet S according to the present invention, first, roof concrete The polyethylene film 20 of about 500 mm in width is unfolded and fixed with the base of an air vent on the floor 10, and one degassing pipe 30 is installed per 100-150 m <2> of the concrete floor 10. As shown in FIG. The degassing pipe 30 discharges air generated in the lower concrete structure of the polyethylene film 20 to the outside.

After the degassing pipe 30 is installed, one side of the waterproof sheet S is installed to overlap at intervals of about 50 mm in a direction orthogonal to the direction in which the polyethylene film 20 is unfolded, but the portion where the waterproof sheet S overlaps. To the concrete floor 10 of about 100mm wide primer 50 is applied, and the urethane adhesive on one side of the waterproof sheet (S) overlap portion 5 in the state of applying a urethane adhesive (60) on the primer (50) (60).

In the process of constructing the waterproof sheet of the present invention, at the beginning and the end where the concrete floor 10 and the wall 12 of the building roof meet, the primer 50 is applied to the floor 10 and the wall 12 at a width of 100 mm or more. In the state where the urethane adhesive 60 is applied to the upper portion of the primer 50, the overlap portion 5 on one side of the waterproof sheet S is attached to the wall surface 12, and the overlap portion 5 of the waterproof sheet S is applied. The rubberized asphalt waterproofing layer 3 and the silica sand layer 4 are attached on the urethane adhesive 60 applied to the concrete floor 10.

Further, a reinforcing mesh tape 14 for increasing the tensile force is further attached to the view point of the waterproof sheet S attached to the wall surface 12.

In the waterproof sheet construction process of the present invention, the coating interval of the primer 50 and the urethane adhesive 60 may be applied in parallel to match the width interval of the waterproof sheet S, and the primer and the urethane adhesive 60 are coated. What is necessary is to be constructed so that the waterproof sheet (S) on the surface sequentially overlaps from one side to the other side.

In the case of the self-adhesive waterproof sheet shown in Figs. 8 and 9 in the construction method of the present invention after applying only the primer 50 without applying a separate urethane adhesive (60) cut the waterproof sheet (S) thereon It is good to attach it by attaching.

On the other hand, the overlap portion 5 of the adjacent waterproof sheet S 'is overlapped on the other side upper portion of the waterproof sheet S attached on the urethane adhesive 60, and the urethane adhesive 60 is also applied to this portion to be joined. Let's do it.

Finally, the top of the waterproof sheet (S) to form an exposed coating waterproof layer 70 and the top coating layer 80 for protecting the waterproof layer sequentially.

In forming the coating film waterproofing layer 70, lyton and pearlite, which are used only as a main heat insulating material, may be mixed with the coating film waterproofing agent. When the construction is mixed with the lyton and pearl light, it contributes to maintaining a pleasant environment of the structure and energy saving, and also lowers the thermal conductivity of the waterproofing layer 70 itself, thereby further extending the life of the entire waterproofing layer, and preventing slipping. Will also serve.

The waterproof sheet of the present invention constructed by the above-described construction method is a urethane-based coating film waterproofing agent is applied to the polyester-based non-woven fabric layer, the waterproofing agent is incorporated into the polyester-based non-woven fabric layer, so that the waterproofing agent is integrated to improve the tensile strength of the waterproof layer Even if the concrete floor shrinks and expands due to outside air, cracking is minimized.Aluminum foil bonded to the lower portion of the polyester-based nonwoven fabric forms a waterproof film primarily, and the rubberized asphalt waterproof layer at the bottom melts in hot sunlight to coat the film. It serves to block the coming up through the rubber to prevent damage of the waterproof asphalt layer and the waterproof layer.

In addition, the aluminum foil is physically stable because it is not significantly affected by the temperature of the winter cold and the summer cold outside of the building, and thus does not cause breakage, wrinkles or cracks, and the waterproof layer is separated from the concrete floor. Since the building's insulation performance is raised in the state of being raised from the floor, it can also save energy for cooling and heating.

FIG. 11 is a view illustrating a state in which the waterproof sheet S according to the second embodiment of the present invention is being constructed by an exposed waterproof method on a roof of a building. In the construction method shown in FIG. ') Is formed using a waterproof sheet (S), and the overlapping portion 5 of one side of the waterproof sheet (S) is attached to the urethane adhesive (60) of the concrete floor (10), and the adjacent waterproof sheet ( S ') is overlapped but overlaps with one side overlap portion 5' of adjacent waterproof sheet S 'to be covered on one side of the upper surface of another waterproof sheet S so that the aluminum layer and rubberized asphalt are overlapped. It is necessary to prevent the waterproof space of the waterproof layer from occurring, and the rest of the process is the same as the construction process shown in FIG. 10.

1 is a perspective view of a waterproof sheet according to a first embodiment of the present invention;

2 is a cross-sectional view of the waterproof sheet according to the first embodiment of the present invention;

Figure 3 shows the step of bonding the aluminum foil to the polyester-based nonwoven layer during the process of producing a waterproof sheet of the present invention,

Figure 4 shows the step of forming a rubberized asphalt waterproof layer and silica sand layer on the aluminum foil bonded to the polyester non-woven fabric layer during the process of manufacturing the waterproof sheet of the present invention,

5 is a perspective view of a waterproof sheet according to a second embodiment of the present invention;

6 is a cross-sectional view of a waterproof sheet according to a second embodiment of the present invention;

7 is a perspective view of a waterproof sheet according to a third embodiment of the present invention;

8 is a perspective view showing a modification of the first embodiment of the present invention;

9 is a perspective view showing a modification of the second embodiment of the present invention;

10 is a construction state of the waterproof sheet according to the first embodiment of the present invention,

11 is a construction state of the waterproof sheet according to the second embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

S, S ': Waterproof sheet 1: Polyester nonwoven fabric layer

2: aluminum foil 3: rubberized asphalt waterproof layer

3a, 3a ': self-supporting surface 4: silica sand layer

5,5 ': overlap portion 6: polyethylene melt (adhesive)

7: pressing roll 8: reinforcing material

9, 9 ': Release paper 10: Concrete floor

12 wall 14 mesh tape

20: polyethylene film (based on air vent)

30 degassing tube 50 primer

60: urethane adhesive 70: coating film waterproof layer

80: top coating layer

Claims (6)

An aluminum foil is attached to the lower surface of the polyester nonwoven layer, and a rubberized asphalt waterproof layer is formed on the lower surface of the aluminum foil, and a silica sand layer is formed on the lower surface of the rubberized asphalt waterproof layer, and on one side of the polyester nonwoven layer In the waterproof sheet formed with an overlap portion consisting only of a polyester-based nonwoven fabric not attached to foil; Waterproofing sheet, characterized in that the reinforcement made of a polypropylene-based woven or non-woven fabric for the purpose of strengthening the tensile strength of the rubberized asphalt waterproof layer. An aluminum foil is attached to the lower surface of the polyester nonwoven fabric layer, a rubberized asphalt waterproof layer is formed on the lower surface of the aluminum foil, and a silica sand layer is formed on the lower surface of the rubberized asphalt waterproof layer. In the waterproof sheet with an overlap portion made of only a polyester-based nonwoven fabric not attached to aluminum foil; Waterproofing sheet, characterized in that the reinforcement made of a polypropylene-based woven or non-woven fabric for the purpose of strengthening the tensile strength of the rubberized asphalt waterproof layer. delete The method according to claim 1, One side of the rubberized asphalt waterproofing layer is a release sheet coated with a release agent along the longitudinal direction so that the silica sand layer is not formed, the release sheet is attached to the waterproof sheet, characterized in that the self-adhesive construction can be removed. The method according to claim 2, The left and right sides of the rubberized asphalt waterproofing layer is a release sheet coated with a release agent along the longitudinal direction so that the silica sand layer is not formed, the release sheet is attached to the waterproof sheet, characterized in that the self-adhesive construction can be removed. delete

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