KR102038686B1 - Complex waterproof structure applied to the exposed roof - Google Patents

Abstract

The composite waterproof structure applied to the exposed rooftop according to the present invention, the primer layer 20 is applied on the concrete floor 10 on the exposed roof of the building, the first coating waterproofing layer applied to the top of the primer layer ( 30), the sheet waterproof layer 40 is provided on the first polyurethane waterproof film layer 30, and the second film waterproof layer 50 is applied on the sheet waterproof layer 40. Here, the sheet waterproof layer 40 is composed of an upper layer 41 made of a nonwoven material, and a lower layer 42 formed below the upper layer 41 and made of a fiber material other than the nonwoven fabric. The lower layer 42 has a lattice structure in which a plurality of horizontal walls 43 and a plurality of vertical walls 44 are regularly arranged on a bottom surface facing the first coating waterproofing layer 30 and form a lattice structure. The wall 44 protrudes to a predetermined height so that a groove 45 is formed between the horizontal wall 43 and the vertical wall 44. According to this, the gas can be permeated through the sheet waterproof layer 40 so that the organic solvent applied to the lower sheet waterproof layer is discharged to the outside without being trapped inside the sheet to prevent the sheet waterproof layer from being dissolved or wrinkled, and also the first coating waterproofing material. The waterproofing film forming the layer 30 penetrates into the grooves 45 between the lattice of the sheet waterproofing layer 40 to strengthen the interlayer bonding force, thereby preventing the interlayer separation phenomenon.

Description

Complex waterproof structure applied to the exposed roof}

The present invention relates to a composite waterproof structure, and more particularly to a composite waterproof structure for the waterproofing of exposed structures such as roofs, roofs, underground floors of buildings.

Conventionally known as waterproofing method for building structures include waterproofing asphalt, waterproofing cement liquid, waterproofing coating, sheet waterproofing and the like.

Among these, the waterproof film is obtained by mixing synthetic rubber, synthetic resin, and hardening agent and applying it to the bottom layer to obtain waterproof effect. It has excellent impact resistance and abrasion resistance, but has low absorbency against external vibration and lifts up phenomenon. It had the disadvantage that it could happen.

In addition, sheet waterproofing is achieved by connecting a waterproof sheet of a certain standard using synthetic rubber, synthetic resin, rubberized asphalt, etc. as a main raw material, and the joints between the waterproof sheets cause leakage. Since only the self-adhesive of the adhesive was adhered to the lower portion of the primer was applied, the lifting phenomenon between the concrete surface and the waterproofing layer had a problem that may occur later.

Therefore, in recent years, a composite waterproofing method has been developed that improves the disadvantages of sheet waterproofing and coating waterproofing, such as Korean Patent Registration No. 10-1057378.

The composite waterproofing method is composed of two layers using sheet waterproofing material and film waterproofing material. Compared to the single waterproofing method which is constructed by sheet waterproofing material and film waterproofing material alone, it improves the mechanical properties such as tensile strength and elongation rate, and improves waterproof performance in the long term. There is an advantage that can be secured.

However, when the PVC sheet applied as a conventional general sheet waterproofing material is combined with a polyurethane waterproofing material, the sheet wrinkles due to organic solvents (toluene, xylene, etc.) mixed in the waterproofing material, etc. There was a problem that the phenomenon could occur. When the polyurethane coating waterproofing material is applied, the organic solvent mixed in the curing process of the waterproofing material is volatilized and blown into the air. When applying the composite waterproofing method, the PVC sheet waterproofing material is not completely cured. The organic solvent is trapped inside the sheet rather than flying away. Accordingly, the PVC sheet is exposed to the organic solvent for a long time, the wave phenomenon or shrinkage phenomenon occurs, the material layer separation phenomenon, the dissolution phenomenon occurs.

Due to this problem, there is an example in which a nonwoven fabric sheet, which is a kind of fiber sheet, is used instead of a PVC sheet as a sheet waterproofing material. However, in this case, since the polyurethane coating waterproofing material is applied and the nonwoven sheet is laid thereon, the polyurethane coating waterproofing material may be cured in a state where the polyurethane coating waterproofing material does not penetrate properly, and in the event of a leakage problem, water leakage may be transferred along the nonwoven sheet. There is a problem that can be caused. In addition, since the polyurethane coating waterproofing material is hardened in a state that does not penetrate properly, problems such as peeling, such as poor adhesion between the sheet layer and the coating layer may occur.

Republic of Korea Patent Registration 10-1057378 (2011.08.10.)

The present invention has been made in view of the above, the problem of the present invention is to increase the water resistance to the concrete floor of the exposed structure and at the same time to significantly improve the bonding strength of the polyurethane coating waterproofing material and sheet waterproofing layer To provide a composite waterproof structure applied to.

The composite waterproof structure applied to the exposed rooftop according to the present invention in order to achieve the object as described above, the primer layer 20 is applied on the concrete floor 10 of the exposed roof of the building; A first coating waterproofing layer 30 applied on the primer layer 10; A sheet waterproofing layer 40 disposed on the first polyurethane waterproofing layer 30; And a second coating waterproofing layer 50 applied on the sheet waterproofing layer 40. Wherein the sheet waterproof layer 40, the upper layer 41 made of a non-woven material; And a plurality of horizontal walls 43 and a plurality of vertical walls 44 formed at a lower portion of the upper layer 41 and formed of a fiber material other than a nonwoven fabric and facing the first coating waterproof layer 30. Arranged regularly to form a lattice structure, wherein the horizontal wall 43 and the vertical wall 44 protrude to a predetermined height so that the lower layer 42 having a groove 45 formed between the horizontal wall 43 and the vertical wall 44. );

According to a preferred aspect of the present invention, a plurality of vent holes 42a having a predetermined size are formed in the lower layer 42 at regular intervals.

In addition, the vent hole 42a may have a circular shape having a diameter of 4 to 8 mm or a square or rhombus having a length of 4 to 8 mm in a horizontal and vertical length, respectively, in the horizontal and vertical directions of the lower layer 42. It is formed at regular intervals in the range of ~ 0.4m.

According to the present invention, the sheet waterproofing layer is composed of a nonwoven fabric upper layer and a lower layer having a lattice structure, which allows gas to pass through the sheet waterproofing layer so that the organic solvent applied to the sheet waterproofing layer is discharged to the outside without being trapped inside the sheet. The melted or wrinkled phenomenon is prevented, and the coating waterproofing material penetrates into the grooves between the lattice of the sheet waterproofing layer to strengthen the interlayer bonding force, thereby preventing the interlayer separation phenomenon.

In addition, according to the present invention by forming a through-hole through the lower layer of the sheet waterproof layer, the coating film waterproofing material applied to the upper sheet waterproof layer is easy to penetrate and pass through the entire sheet waterproof layer has an effect that the interlayer bonding force is more firm.

1 is a cross-sectional view of a composite waterproof structure applied to the exposed rooftop according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the sheet waterproof layer of FIG. 1.
3 is a perspective view of the sheet waterproof layer of FIG. 1 and a partially enlarged view of the lower layer.
4 is a cross-sectional view of the lower layer of FIG. 3.
5 and 6 is a view for explaining the effect of the composite waterproof structure applied to the exposed rooftop according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms. The present embodiments merely provide a complete description of the present invention and provide general knowledge in the technical field to which the present invention belongs. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Unless otherwise defined, all terms used in the present specification (including technical and scientific terms) may be used in a sense that can be commonly understood by those skilled in the art. In addition, terms that are defined in a commonly used dictionary are not ideally or excessively interpreted unless they are specifically defined clearly.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and / or "comprising" does not exclude the presence or addition of one or more other components in addition to the mentioned components.

Hereinafter, with reference to the accompanying drawings will be described in detail a composite waterproof structure applied to the exposed rooftop of the present invention.

1 to 4, the composite waterproof structure applied to the exposed rooftop according to the present invention is a primer layer 20, a primer layer 20 is applied on the concrete floor 10 of the exposed roof of the building The first coating waterproof layer 30, the sheet waterproof layer 40 provided on the first film waterproof layer 30, and the second film waterproof layer 50 applied on the sheet waterproof layer 40 are formed. Here, the exposed rooftop refers to a concept including an exposed structure such as a roof, a rooftop, and an underground floor of a building.

The primer layer 20 is applied to the upper surface of the concrete floor 10 in the form of a liquid, and serves as an adhesive layer to help the first coating waterproofing layer 30 is in close contact with the concrete floor 10.

Before the primer layer 20 is applied, it is preferable to remove foreign substances and irregularities that may be formed on the concrete floor 10 to secure flatness as much as possible and to prevent bubbles from occurring.

The first coating waterproofing layer 30 is applied in the form of a liquid on the primer 20 applied to the upper surface of the concrete floor 10.

The first coating waterproof layer 30 is a waterproof material, and according to an embodiment of the present invention may be applied to a thickness of about 1.0mm.

According to the present invention, the coating film waterproofing material constituting the first film waterproofing material layer 30 is an oil-proof coating waterproofing which applies a waterproof material in a liquid state as it is, and the waterproofing material is dissolved in a volatile solvent and then made into a liquid state. It can be made of any one of the epoxy coating waterproof to make a waterproof layer by applying a resin, it is not limited to a specific one. In addition, the coating film waterproofing material may be applied to the coating film waterproofing material of the polyurethane component generally used in the prior art, it is not limited to the coating film waterproofing material of a specific component.

The sheet waterproofing layer 40 is a sheet-like fiber material provided on the upper portion of the first coating waterproofing layer 30.

The sheet waterproof layer 40 includes an upper layer 41 made of a nonwoven fabric material and a lower layer 42 made of a fiber material attached or laminated to a lower portion of the upper layer 41.

The upper layer 41 is made of a nonwoven material, and preferably has a surface density of 200 g / m 2 or more. Non-woven fabrics are 'unwoven fabrics', 'a fabric assembly or film joined together by fibers, physical or chemical means, not by spinning, weaving, braiding, or by mechanical or suitable moisture or heat', 'Web' It is based on a fiber aggregate on a sheet or a sheet, and bonded to it with an adhesive or using a thermoplastic fiber to strengthen the adhesion between fibers. ' By arranging, it can be defined as the manufacture of a fabric-like form directly using the adhesive force of the adhesive or the fiber itself or the entanglement of the fibers.

By using a heavy and thick material as the nonwoven fabric forming the upper layer 41, it is possible to maintain the minimum thickness of the coating film by preventing excessive penetration of the coating waterproof material between the fibers of the nonwoven fabric when the second coating film layer 50 is applied. Do.

In addition, when the coated thickness of the second coating waterproof layer 50 is poor due to the upper layer 41 using a thick nonwoven fabric, it is possible to maintain the minimum thickness of the composite waterproof structure of the present invention to minimize the defects during the construction process It is possible to do

The lower layer 42 is attached or laminated to the lower portion of the upper layer 41, and is composed of a fiber material other than the nonwoven fabric. The nonwoven material of the upper layer 41 usually has a high filterability and a fine pore structure. The fiber material applied to the lower layer 42 means less filterability than the nonwoven fabric and does not have a porous structure.

When using only a nonwoven fabric as a sheet waterproofing layer as in the prior art, the first coating waterproofing layer 30 is cured in a state where it does not penetrate properly into the sheet waterproofing layer, such as peeling due to poor adhesion between the sheet waterproofing layer and the first coating waterproofing layer 30. Problems may arise.

In order to solve this problem, the sheet waterproof layer 40 is divided into an upper layer 41 of a nonwoven fabric and a lower layer 42 of a fiber material other than the nonwoven fabric, and the lower layer 42 faces the first coating waterproof layer 30. The bottom surface has a lattice structure in which a plurality of horizontal walls 43 and a plurality of vertical walls 44 are regularly arranged, and the horizontal walls 43 and the vertical walls 44 protrude to a predetermined height so that the horizontal walls 43 and Grooves 45 are formed between the vertical walls 44. The shape of the grating may be implemented in the form of a square or rhombus.

Accordingly, when the sheet waterproofing layer 40 is attached on the first waterproofing layer 30, the waterproofing layer constituting the first waterproofing layer 30 is formed by the horizontal wall 43 and the vertical wall 44 of the lower layer 41. Since it penetrates into the recessed groove part 45 in between and hardens | cures, the problem which the sheet waterproofing layer 40 hardens in an excited state can be solved. In addition, the slipperiness can be prevented with a strong adhesive force between the first film waterproofing material layer 30 and the sheet waterproofing layer 40, there is an advantage that can prevent the interlayer peeling.

According to the exemplary embodiment of the present invention, the unit grid of the lower layer 42 is preferably formed in a square having a length of about 2 mm in length and width, but is not limited thereto.

In addition, according to an embodiment of the present invention, the protruding height of the horizontal wall 43 and the vertical wall 44 constituting the lattice of the lower layer 42 is about 0.2 mm, and the width is preferably about 0.1 mm, but the present invention is limited thereto. Not.

Meanwhile, referring to FIGS. 2 to 4, according to an embodiment of the present invention, a plurality of vent holes 42a having a predetermined size may be formed to penetrate the lower layer 42 at predetermined intervals.

By forming the ventilation holes 42a in the lower layer 42 of the sheet waterproofing layer 40 as described above, the sheet waterproofing layer 40 and the second coating waterproofing layer 50 and the first coating waterproofing layer 30 to be applied above and below are formed. Strengthen the bond even more. That is, the film waterproofing material constituting the second film waterproofing material layer 50 passes through the sheet waterproofing layer 40 through the air vent 42a of the lower layer 42 while passing through the upper layer 41 of the nonwoven fabric material, and a part of the first film is waterproofed. It may be introduced into the waterproofing layer 50, so that the bonding force (adhesive force) between the respective layers can be further strengthened.

The vent hole 42a is preferably circular in the range of 4 to 8 mm in diameter, or has a square shape in the range of 4 to 8 mm in the length of the horizontal and vertical, respectively. When the size (diameter, width, or length) of the vent hole 42 is less than 4 mm, the sheet waterproofing layer 40 having the coating waterproofing material constituting the second coating waterproofing layer 50 applied on the sheet waterproofing layer 40 is at the bottom. Since it is not easy to penetrate, the bonding force between the second coating waterproofing layer 50 and the sheet waterproofing layer 40 may be weakened. In addition, when the size of the air vent 42a exceeds 8 mm, the coating waterproofing material constituting the second coating waterproofing layer 50 is excessively infiltrated into the sheet waterproofing layer 40 to maintain a minimum coating thickness. The waste of waterproofing material may increase.

On the other hand, the vent holes 42a are preferably formed in the lower layer 42 at intervals of 0.3 to 0.4 m in the horizontal and vertical directions. When the distance between the ventilation holes 42a is less than 0.3m, the number of the ventilation holes 42a formed in the lower layer 42 becomes excessive, so that the coating waterproofing material constituting the second coating waterproofing layer 50 is directed downward. As a result, the excessive amount of wastewater can be increased to maintain the minimum thickness of the coating film. In addition, the sheet waterproof layer 40 is usually manufactured in a manufacturing plant, stored and transported in the form of a roll (roll) and used to cut to the required size at the construction site, if the number of the ventilation holes (42a) is too large rolls during storage The support force for standing the sheet waterproof layer 40 wound in the form is weakened, the storage of the sheet waterproof layer 40 may not be easy.

When the distance between the air vents 42a exceeds 0.4m, the number of the air vents 42a formed in the lower layer 42 decreases, so that the film waterproofing member constituting the second coat waterproofing layer 50 moves downward. Since it is not easy to penetrate, there may be difficulty in integrating the second waterproofing layer 50 and the sheet waterproofing layer 40.

The second coating waterproofing layer 50 is applied in the form of a liquid on top of the sheet waterproofing layer 40.

The second coating waterproof layer 50 is a waterproof material, and according to an embodiment of the present invention may be applied to a thickness of about 2.0mm.

According to the present invention, the coating film waterproofing material constituting the second film waterproofing material layer 50 is an oil-proof coating waterproofing that applies a waterproof material in a liquid state as it is, and a waterproofing material is dissolved in a volatile solvent to make a liquid state, and then a solvent-type coating waterproofing, epoxy It can be made of any one of the epoxy coating waterproof to make a waterproof layer by applying a resin, it is not limited to a specific one. In addition, the coating film waterproofing material may be applied to the coating film waterproofing material of the polyurethane component generally used in the prior art, it is not limited to the coating film waterproofing material of a specific component.

Hereinafter, with reference to FIGS. 5 and 6, look at the effect of the composite drain is applied to the exposed rooftop according to an embodiment of the present invention.

The primer layer 20 is coated on the concrete roof 10 of the exposed roof of the building, and the sheet waterproofing material constituting the first coating waterproofing layer 30 is coated thereon, and then the sheet waterproofing layer 40 is installed thereon.

As shown in FIG. 5, the nonwoven fabric forming the upper layer 41 of the sheet waterproofing layer 40 and the fiber sheet forming the lower layer 42 of the present invention are basically filterable and breathable, so that the first coating waterproofing layer Even if the sheet waterproofing layer 40 is installed immediately after the application of the 30, the organic solvent gas of the coating waterproofing material is discharged upward through the sheet waterproofing layer 40 without being trapped inside the sheet waterproofing layer 40. As a result, the sheet of the sheet waterproof layer 40 may be prevented from being dissolved by the organic solvent or the occurrence of wave or shrinkage.

In addition, since the coating material is accommodated in the groove 45 in the lattice structure of the lower layer 42 and cured, the problem of hardening in the excited state as in the prior art can be solved and a strong adhesion between the coating layer and the sheet layer can be ensured. There is an advantage in that problems such as interlayer peeling can be prevented.

And the upper surface of the sheet waterproof layer 40 is coated with a coating film forming the second coating waterproof layer 50.

Here, as shown in Figure 6, the lower layer 42 of the sheet waterproof layer 40 of the present invention is formed with a ventilation hole (42a) so that the waterproof film is easy to penetrate and pass through the entire sheet waterproof layer 40, the interlayer bonding force This becomes even stronger. That is, the film waterproofing material constituting the second film waterproofing material layer 50 penetrates and partially passes between the fibers through the vent holes 42a of the upper layer 41 and the lower layer 42 of the nonwoven fabric of the sheet waterproofing layer 40. The first waterproofing layer 30 is in contact with the sheet waterproofing layer 40, and the material forming the composite waterproofing structure is integrated to completely prevent the material layer separation phenomenon.

While the invention has been shown and described in connection with particular embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention as set forth in the appended claims. Anyone can easily know.

10 concrete floor 20 primer layer
30: first coating waterproof layer 40: sheet waterproof layer
41: upper layer 42: lower layer
42a: ventilator 43. horizontal wall
44. Vertical wall 45. Groove
50: second coating waterproof layer

Claims (3)

A primer layer 20 applied on the concrete floor 10 of the exposed roof of the building;
A first coating waterproofing layer 30 applied on the primer layer 10;
A sheet waterproofing layer 40 disposed on the first coating waterproofing layer 30; And
And a second coating waterproofing layer 50 applied on the sheet waterproofing layer 40.
The sheet waterproof layer 40,
An upper layer 41 composed of a nonwoven material; And
A plurality of horizontal walls 43 and a plurality of vertical walls 44 are formed at a lower portion of the upper layer 41 and are made of a fiber material other than a nonwoven material, and face the first coating waterproof layer 30. Arranged regularly to form a lattice structure, wherein the horizontal wall 43 and the vertical wall 44 protrude to a predetermined height so that the lower layer 42 having a groove 45 formed between the horizontal wall 43 and the vertical wall 44. );
The lower layer 42 is formed with a plurality of vent holes 42a of a predetermined size at regular intervals,
The vent hole 42a has a circular shape having a diameter of 4 to 8 mm or a square having a length of 4 to 8 mm in a horizontal and vertical length, respectively, and 0.3 to 0.4 m in the horizontal and vertical directions on the lower layer 42. Composite waterproof structure applied to the exposed rooftop, characterized in that formed at regular intervals of the range. delete delete

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