KR102438555B1 - A waterproof method of a gabled roof and a flat roof top floor utilizing nonslip composite sheet - Google Patents

Abstract

The present invention relates to a method for the waterproof construction of the rooftop floor of a gable roof and a flat roof using a non-slip composite sheet, which is provided to prevent slip during a waterproof construction on the rooftop floor of a gable roof or a flat roof. To this end, the method comprises: a non-slip composite sheet fabrication step (S1) of fabricating a non-slip composite sheet (40) including a lower non-woven fabric (30) located at the lower side, and an upper non-woven fabric (10) attached to the upper surface of the lower non-woven fabric (30); and a waterproof construction step (S2) of using the non-slip composite sheet (40) to perform a waterproof construction of the rooftop floor of the gable roof or the flat roof. The upper non-woven fabric (10) is fabricated after a non-woven fabric, which is arranged between the upper plate (3) and the lower plate (4) of a needle punching device, which are provided at an interval from each other, have a plurality of holes vertically aligned, and have the fixed positions, is punched by a pointed needle (2b) which facilitates ease in the punching process of a needle (2) provided at the needle punching unit (1) of the needle punching device by means of the plurality of holes vertically aligned, such that one portion of a textile thread from the non-woven fabric is dragged under the lower surface of the lower plate (4) by a plurality of scaled needles (2a) which are extended to be inclined in the side and lower directions of the needle (2b). When the upper non-woven fabric (10) is attached to the upper surface of the lower non-woven fabric (30), the surface of the upper non-woven fabric (10), having one portion of the textile thread of the non-woven fabric dragged under the lower surface of the lower plate (4), becomes the upper surface of the upper non-woven fabric (10).

Description

A waterproof method of a gabled roof and a flat roof top floor utilizing nonslip composite sheet

The present invention is an anti-slip composite comprising a lower nonwoven fabric 30 located on the lower side to prevent slipping during waterproof construction on the floor of a gable roof or flat roof roof, and an upper nonwoven fabric 10 attached to the upper surface of the lower nonwoven fabric 30 Anti-slip composite sheet manufacturing step (S1) for manufacturing the sheet 40; and a waterproof construction step (S2) of waterproofing the floor of a gable roof or flat roof roof using the non-slip composite sheet 40, wherein the upper nonwoven fabric 10 is provided at a distance from each other and vertically Needle punching part ( The nonwoven fabric is formed by a plurality of scale needles (2a) extending obliquely downward of the needle (2b) while punching with a sharp-pointed needle (2b) that facilitates the punching operation of the needle (2) provided in 1). It is manufactured in a state where some of the fiber yarns are pulled down to the lower surface of the lower plate 4, and when the upper nonwoven fabric 10 is attached to the upper surface of the lower nonwoven fabric 30, some of the fiber yarns of the nonwoven fabric are lowered to the lower plate 4 relates to a waterproofing method of a gable roof and a flat roof roof using a non-slip composite sheet, characterized in that the surface of the upper nonwoven fabric 10 pulled down below the upper surface becomes the upper surface of the upper nonwoven fabric 10 .

Among the types of roofs, a gable roof refers to a sloping roof with the same shape as two rectangular slopes attached to the left and right sides of a beam.

Roofing materials used for such a gable roof include tile, metal tile, and asphalt shingle. Among them, tile tile provides a long lifespan, but has the disadvantage of being limited in shape and pattern, and metal tile and asphalt shingle are Although it has the advantages of various shapes, patterns, and lightness, the lifespan is short, and the original color is discolored and discolored by the sun.

In addition, it is difficult to guarantee the lifespan of metal tiles and asphalt singles for less than 10 years after new construction. It did not provide a clean appearance.

In addition, since the gable roof is structurally sloped, there is a risk of safety accidents due to the slippery surface when climbing the roof for repair work.

In order to solve the above problems, registered patent No. 10-1233635 (2013.02.08.) states, "The surface of the gable roof, which has been newly constructed and repaired using metal tiles and asphalt singles as roofing materials, is ground with a grinder, and then A surface treatment step (S100) of cleaning cleanly; A primer coating step (S200) of applying an epoxy or urethane component primer to the surface of the surface-treated gable roof (S200); Natural drying step of natural drying (S300): After the natural drying, 30 to 80% by weight of urethane resin, 1 to 10% by weight of synthetic zeolite, 3 to 20% by weight of paraffin wax, 5 to 30% by weight of sulfur, and amethyst 1 to 10% by weight, 1 to 2% by weight of a dispersant, and a first waterproofing liquid application step (S400) of applying a waterproofing liquid comprising 0.1 to 0.3% by weight of an antifoaming agent; Natural drying step (S500) of natural drying: After the natural drying, 30 to 80% by weight of urethane resin, 1 to 10% by weight of synthetic zeolite, 3 to 20% by weight of paraffin wax, 5 to 30% by weight of sulfur, and amethyst A secondary waterproofing liquid application step (S600) of applying a waterproofing liquid comprising 1 to 10% by weight, 1 to 2% by weight of a dispersant, and 0.1 to 0.3% by weight of an antifoaming agent; Granule application step (S700) of applying any one of silica sand or sand having a granular structure to the surface of the gable roof; Natural drying step (S800) of naturally drying the surface of the gable roof to which the granules are applied; After the natural drying, the gable roof A coating solution application step (S900) for forming a coating layer on the surface of a natural drying step (S1000) of naturally drying the surface of the gable roof to which the coating solution is applied A waterproof construction method for a gable roof consisting of

However, in the conventional method of waterproofing a gable roof of Patent Registration No. 10-1233635, as shown above, either silica sand or sand having a granular structure is applied to the surface of the gable roof in a state in which the secondary waterproofing liquid is applied and not dried. It is coated with a coating solution. For waterproofing of the gable roof, when a worker climbs on the gable roof and steps on the gable roof, the silica sand or sand is separated from the gable roof and falls off. There is a risk that rainwater may penetrate through it, which may cause defects in waterproofing.

In addition, the conventional method of waterproofing a gable roof of Patent Registration No. 10-1233635 requires many process steps and time for waterproofing a gable roof, resulting in an increase in cost.

In addition, problems such as the operator's slippage, water leakage, and process steps, time increase, and cost increase frequently occur not only in the gable roof but also in the roof floor of the flat roof.

Registered Patent No. 10-1233635 (2013.02.08.)

The waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the present invention is to solve the following matters.

An object of the present invention is to prevent a worker from slipping on a gable roof or flat roof roof floor when waterproofing a gable roof or a flat roof roof floor, while preventing the occurrence of defects in waterproofing a gable roof using an anti-slip composite sheet and It is to provide a waterproofing method for the roof floor of a flat roof.

Another object of the present invention is to provide a waterproofing method for a gable roof and a flat roof roof floor using a non-slip composite sheet that reduces the process steps and time required for waterproofing a gable roof or flat roof roof floor and induces cost reduction accordingly will do

The waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the present invention is configured as follows in order to solve the above problems.

In one embodiment, the lower non-woven fabric 30 located on the lower side to prevent slipping during waterproof construction on the floor of the gable roof or flat roof roof, and the upper non-woven fabric 10 attached to the upper surface of the lower non-woven fabric 30. Non-slip composite sheet manufacturing step (S1) of manufacturing the non-slip composite sheet 40; and a waterproof construction step (S2) of waterproofing the floor of a gable roof or flat roof roof using the non-slip composite sheet 40, wherein the upper nonwoven fabric 10 is provided at a distance from each other and vertically Needle punching part ( The nonwoven fabric is formed by a plurality of scale needles (2a) extending obliquely downward of the needle (2b) while punching with a sharp-pointed needle (2b) that facilitates the punching operation of the needle (2) provided in 1). It is manufactured in a state where some of the fiber yarns are pulled down to the lower surface of the lower plate 4, and when the upper nonwoven fabric 10 is attached to the upper surface of the lower nonwoven fabric 30, some of the fiber yarns of the nonwoven fabric are lowered to the lower plate 4 It is characterized in that the surface of the upper nonwoven fabric 10 pulled down below the lower surface of the upper nonwoven fabric 10 becomes the upper surface of the upper nonwoven fabric 10 .

The waterproof construction step (S2) is a floor cleaning step (S2-1) of cleaning the floor of the gable roof or flat roof with a high-pressure washer so that foreign substances are not left on the surface by arranging the time and place that has stayed on the floor neatly; A primer layer forming step (S2-2) of forming a primer layer 61 by applying a primer solution on the floor of the gable roof or flat roof roof and letting it dry naturally; a first waterproofing layer forming step (S2-3) of forming a first waterproofing layer 62 by applying a waterproofing agent to the upper surface of the primer layer 61; Placing a plurality of manufactured non-slip composite sheets overlapping each other at adjacent side ends, placing them in the longitudinal direction on the upper surface of a gable roof or flat roof roof floor, and placing them naturally for a certain period of time (S2-4) ); A second waterproofing layer forming step of forming the second waterproofing layer 63 by impregnating the upper surface of the upper nonwoven fabric 10 of the non-slip composite sheet 40 with a waterproofing agent of the same component as the waterproofing agent and letting it dry naturally (S2-5) ; a first topcoat layer forming step (S2-6) of forming a first topcoat layer 64 by applying a first topcoating agent on the upper surface of the second waterproofing layer 63 and letting it dry naturally; a second top coat layer forming step (S2-7) of forming a second top coat layer 65 by applying a second top coat agent to the upper surface of the first top coat layer 64 and letting it dry naturally; and a top coating layer forming step (S2-8) of forming a top coating layer 66 by applying a top coating solution on the second top coating layer 65 and letting it dry naturally.

In another embodiment, the lower non-woven fabric 30 positioned on the lower side, the soft film 20 attached to the upper surface of the lower non-woven fabric 30, and the upper non-woven fabric 10 attached to the upper surface of the soft film 20 includes Anti-slip composite sheet manufacturing step (S1') for manufacturing an anti-slip composite sheet (40'); and a waterproof construction step (S2') of waterproofing the floor of a gable roof or flat roof roof using the non-slip composite sheet 40', wherein the upper nonwoven fabric 10 is provided at a distance from each other, Needle punching of the nonwoven fabric disposed between the upper plate 3 and the lower plate 4 of the needle punching device having a plurality of vertically aligned holes and fixed positions through the plurality of vertically aligned holes. A plurality of scale needles 2a extending obliquely downward of the needle 2b while punching with a sharp-pointed needle 2b that facilitates the punching operation of the needle 2 provided in the part 1 It is manufactured in a state where some of the fiber yarns of the nonwoven fabric are pulled down to the lower surface of the lower plate 4, and when the upper nonwoven fabric 10 is attached to the upper surface of the soft film 20, some of the fiber yarns of the nonwoven fabric are lowered to the lower plate ( It is characterized in that the surface of the upper nonwoven fabric 10 pulled down under the lower surface of 4) becomes the upper surface of the upper nonwoven fabric 10 .

The waterproof construction step (S2') is a floor cleaning step (S2-1') of cleaning the floor of a gable roof or flat roof with a high-pressure washer so that foreign substances do not remain on the surface by arranging the time and place that has stayed on the floor neatly (S2-1') ); A primer layer forming step (S2-2') of forming a primer layer 61 by applying a primer solution to the floor of the gable or flat roof roof and letting it dry naturally; a first waterproofing layer forming step (S2-3') of forming a first waterproofing layer 62 by applying a waterproofing agent to the upper surface of the primer layer 61; Placing a plurality of manufactured non-slip composite sheets 40 ′ on the upper surface of a gable roof or flat roof roof floor by overlapping each other at the adjacent side ends in the longitudinal direction, and placing the non-slip composite sheet naturally left for a certain period of time. (S2-4'); A second waterproofing layer forming step (S2-5) of forming the second waterproofing layer 63 by impregnating the upper surface of the upper nonwoven fabric 10 of the anti-slip composite sheet 40' with a waterproofing agent of the same component as the waterproofing agent and allowing it to dry naturally. '); a first topcoat layer forming step (S2-6') of forming a first topcoat layer 64 by applying a first topcoating agent to the upper surface of the second waterproofing layer 63 and letting it dry naturally; It characterized in that it comprises a top coating layer forming step (S2-8') of forming a top coating layer 66 by applying a top coating solution on the first top coat layer 64 and letting it dry naturally.

In the disposing step (S2-4) of the non-slip composite sheet, a plurality of the manufactured non-slip composite sheet is overlapped with each other at the side end, and is characterized in that it is sequentially arranged from the bottom to the top of the gable roof.

The waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the present invention can exhibit the following effects by the above solution means.

First, when waterproofing a gable roof or flat roof roof deck, it is possible to prevent the worker from slipping on the gable roof or flat roof roof floor while preventing the occurrence of waterproof defects. It has the effect of providing a waterproofing method.

Another object of the present invention is to provide a waterproofing method for a gable roof and a flat roof roof floor using a non-slip composite sheet that reduces the process steps and time required for waterproofing a gable roof or flat roof roof floor and induces cost reduction accordingly has the effect of

1 is a flowchart of a waterproofing method of a gable roof and a flat roof roof using a non-slip composite sheet according to a first embodiment of the present invention.
Figure 2 is a flow chart of an embodiment of the waterproof construction step of the step of Figure 1.
3 is a flowchart of a waterproofing method of a gable roof and a flat roof roof using a non-slip composite sheet according to a second embodiment of the present invention.
Figure 4 is a flow chart of the waterproof construction step of the step of Figure 3.
5 is a non-woven fabric located on the top of the non-slip composite sheet used in the waterproofing method of the gable roof and the roof floor of the flat roof using the non-slip composite sheet according to the first embodiment of the present invention. A view showing that some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 while punching with the needle of the used needle.
Fig. 6 is a view showing a state in which the surface of the nonwoven fabric shown in Fig. 5, on which the fiber yarns are pulled down, is the upper surface ;
FIG. 7 shows the upper surface of the fiber yarn of the nonwoven fabric of FIG. 5, which is punched at a plurality of positions by the needle provided in the needle punching unit of the needle punching device and pulled down by the plurality of scale needles provided in the needle. A drawing showing a state.
Figure 8 is an exploded perspective view for each component of the anti-slip composite sheet of Figure 5;
9 is a cross-sectional view of the non-slip composite sheet in which the components of FIG. 8 are combined.
10 is a view showing that the non-slip composite sheet used in the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet is installed on the gable roof of the house.
11 is an enlarged view of part A of FIG. 10;
12 is an exploded perspective view for each component of the non-slip composite sheet used in the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the second embodiment of the present invention.
13 is a cross-sectional view of the non-slip composite sheet in which the components of FIG. 12 are combined.
14 is a view showing that the non-slip composite sheet according to the embodiment of FIG. 12 used in the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet is installed on the gable roof of the house.
15 is an enlarged view of portion A' of FIG. 14;
16 is a test report for the thermal conductivity of the non-slip composite sheet used in the waterproofing method of the gable roof and flat roof roof floor using the non-slip composite sheet according to the second embodiment of the present invention.
17 is a test report for tensile performance and elongation for the embodiment of FIG. 16;
18 is a test report for test items including water permeability resistance, crack resistance, and adhesion strength in a standard state for the waterproofing agent used in the non-slip composite sheet of the embodiment of FIG. 16 .

Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings. However, this is not intended to limit the technology described in the present invention to specific embodiments, and it should be understood that various modifications, equivalents, and/or alternatives of the embodiments of the present invention are included. In connection with the description of the drawings, like reference numerals may be used for like components.

In addition, expressions such as "first," "second," used in the present invention can modify various elements regardless of order and/or importance, and in order to distinguish one element from another element, It is used only and does not limit the corresponding components. For example, 'first part' and 'second part' may represent different parts regardless of order or importance. For example, without departing from the scope of rights described in the present invention, a first component may be referred to as a second component, and similarly, the second component may also be renamed as a first component.

In addition, the terms used in the present invention are only used to describe specific embodiments, and may not be intended to limit the scope of other embodiments. The singular expression may include the plural expression unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meaning as commonly understood by one of ordinary skill in the art described in the present invention. Among the terms used in the present invention, terms defined in a general dictionary may be interpreted as the same or similar meaning as the meaning in the context of the related art, and unless explicitly defined in the present invention, ideal or excessively formal meanings is not interpreted as In some cases, even terms defined in the present invention cannot be construed to exclude embodiments of the present invention.

Hereinafter, an embodiment of the present invention for solving the above problems together with the accompanying drawings will be described.

(Example 1)

1 is a flowchart of a waterproofing method of a gable roof and a flat roof roof floor using a non-slip composite sheet according to a first embodiment of the present invention, and FIG. 2 is a flowchart of an embodiment of the waterproofing construction step among the steps of FIG.

1 and 2, the waterproof construction method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the first embodiment of the present invention, the non-slip composite sheet manufacturing step (S1), and the waterproof construction step (S2).

In the anti-slip composite sheet manufacturing step (S1), the lower non-woven fabric 30 located on the lower side to prevent slipping during waterproof construction on the floor of a gable roof or flat roof roof, and an upper non-woven fabric attached to the upper surface of the lower non-woven fabric 30 ( 10) to manufacture an anti-slip composite sheet 40 comprising To facilitate the punching operation of the needle (2) provided in the needle punching unit (1) of the needle punching device through the plurality of holes arranged up and down the nonwoven fabric disposed between the upper plate (3) and the lower plate (4) A state in which some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 by a plurality of scale needles 2a extending obliquely downward of the needle 2b while punching with a needle 2b with a sharp tip. is manufactured with The upper surface of the upper nonwoven fabric 10 is the upper surface of the upper nonwoven fabric 10 when the waterproofing agent, the primary topcoating agent, the secondary topcoating agent, and the top coating solution, which will be described later, are sequentially applied to the upper surface of the upper nonwoven fabric 10 produced by turning the upper nonwoven fabric 10 upside down . It can be rough formed.

The anti-slip composite sheet 40 includes a lower non-woven fabric 30 positioned on the lower side, and an upper non-woven fabric 10 attached to the upper surface of the lower non-woven fabric 30. Floor cleaning for a flat roof roof or gable roof After the primer layer 61 and the first waterproofing layer 62 are sequentially applied and dried, a non-slip water-soluble composite sheet 40 for a gable roof and a flat roof is attached, followed by the second waterproofing layer 63, the first When the top coat layer 64, the second top coat layer 65, and the top coat layer 66 are applied and dried, the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are made to withstand shrinkage and expansion depending on the temperature. To prevent the occurrence of cracks in the anti-slip composite sheet 40, and at the same time have the effect of heat insulation.

The upper nonwoven fabric 10 is a general nonwoven fabric.

The fiber yarn of the nonwoven fabric is composed of at least one of a long fiber yarn and a short fiber yarn. At this time, the upper nonwoven fabric 10 and the lower nonwoven fabric 30 were woven at a lower density than the density of the nonwoven fabric woven for waterproofing by forming it to a thickness of 2.0 to 3.2 mm and a density of 350 to 420 g/m 2 . When the thickness of the upper nonwoven fabric 10 and the lower nonwoven fabric 30 is less than 2.0 mm and the density is less than 350 g/m 2 , one of the long and short fibers of the nonwoven fabric constituting the upper nonwoven fabric 10 and the lower nonwoven fabric 30 . Since the entanglement state between the above fibers is lowered as well as the gap (or space) is increased, there is a disadvantage that the tensile force after impregnation with the waterproofing solution is decreased, and the thickness of the upper nonwoven fabric 10 and the lower nonwoven fabric 30 exceeds 3.2 mm. And when the density exceeds 420 g/m 2 , the entanglement between one or more of the long-fiber yarns and the short-fiber yarns of the nonwoven fabric becomes dense and the gap (or space) becomes narrow, so that it is difficult for the waterproofing liquid to penetrate to the bottom portion.

The upper nonwoven fabric 10 and the lower nonwoven fabric 30 were woven at a relatively low density, and the upper nonwoven fabric 10 and the lower nonwoven fabric 30 were integrally bound while in surface contact with each other. At this time, the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are configured to be 1/3 to 1/2 thinner than a single nonwoven layer normally used for maintaining the tensile force of the waterproofing liquid, so that the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are It is preferable to make the thickness of the whole integrally bound to be the same as the thickness of the existing single nonwoven fabric layer.

The upper nonwoven fabric 10 is attached to the upper surface of the lower nonwoven fabric 30. As such, the upper nonwoven fabric positioned on the anti-slip composite sheet 40, ie, the upper nonwoven fabric attached to the upper surface of the lower nonwoven fabric 30 10), the upper nonwoven fabric 10 is disposed between the upper plate 3 and the lower plate 4 of the needle punching device, which is provided at a distance from each other, has a plurality of holes aligned vertically, and has a fixed position. While punching the nonwoven fabric to be formed with a pointed needle (2b) that facilitates the punching operation of the needle (2) provided in the needle punching unit (1) of the needle punching device through the plurality of holes aligned vertically, the needle ( It is manufactured in a state in which some of the fiber yarns of the nonwoven fabric are pulled down to the lower surface of the lower plate 4 by a plurality of scale needles 2a extending obliquely to the lower side of 2b), and the upper surface of the lower nonwoven fabric 30 is placed on the upper surface. When the nonwoven fabric 10 is attached, the surface of the upper nonwoven fabric 10 in which some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 becomes the upper surface of the upper nonwoven fabric 10 . As described above, the manufactured upper nonwoven fabric 10 has a rough upper surface of the nonwoven fabric when the first top coat, the secondary top coat, and the top coating solution are sequentially applied to the upper surface for waterproof construction of a flat roof roof floor or a gable roof. Non-slip water-soluble composite sheet for gable roofs and flat roof roofs of the invention is prevented from slipping when a worker climbs up and steps on the gable roof 60 or flat roof roof floor while moving.

In addition, some of the fiber yarns of the nonwoven fabric pulled down below the lower surface of the lower plate 3 are transferred to the side to form a rough upper surface and move to the upper surface side of the nonwoven fabric away from the place where the upper plate 3 and the lower plate 4 are. It is pressurized while heat-treated by a heat-pressing means. In this way, some of the fiber yarns of the nonwoven fabric pulled down below the lower surface of the lower plate 3 are transferred to the side and heat-treated by the heat press means to the upper surface side of the nonwoven fabric away from the place where the upper plate 3 and the lower plate 4 are. When pressed, the part is pressed to the upper surface of the nonwoven fabric or is bent horizontally adjacent or adjacent to the upper surface of the nonwoven fabric. In this state, when the waterproofing agent, the primary topcoating agent, the secondary topcoating agent, and the topcoating solution are sequentially applied to the upper surface of the upper nonwoven fabric 10 , the upper surface of the nonwoven fabric is roughened.

Here, the hot pressing means is preferably a hot roller, but the present invention is not limited thereto, and in another embodiment, other types of hot pressing means (eg, a hot pressing machine) may be used.

The fiber yarns of the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are composed of at least one of a long fiber yarn and a short fiber yarn. The roughness of the upper surface of the nonwoven fabric having such a configuration depends on the ratio of the short-fiber yarns and the long-fiber yarns in at least one of the short-fiber yarns and the long-fiber yarns constituting the fiber yarns. That is, the higher the proportion of the long-fiber yarn in the fiber yarn, the higher the roughness of the upper surface of the nonwoven fabric, and the higher the proportion of the short-fiber yarn in the fiber yarn, the lower the roughness of the upper surface of the nonwoven fabric. Therefore, since the degree of slip may vary depending on the inclination angle of the slope of the gable roof 60, the ratio of long-fiber yarns and short-fiber yarns in the fiber yarns is adjusted in accordance with the inclination angle to the roughness of the upper surface of the upper nonwoven fabric 10. can be adjusted.

In addition, a gas vent part (not shown) extending to one side of the anti-slip composite sheet 40 in the upper nonwoven fabric 10 is configured. When the water contained in the gable roof 60 becomes water vapor due to the high temperature in summer, it passes through the primer layer 61 which does not have a waterproof function, then through the first waterproofing layer 62 and again through the gas vent unit. exhausted..

The waterproof construction step (S2) is to waterproof the floor of the gable roof or flat roof roof using the non-slip composite sheet 40. In this embodiment, the floor cleaning step (S2-1), the primer layer forming step (S2-2), the first waterproof layer forming step (S2-3), the anti-slip composite sheet arrangement step (S2-4), the second waterproof layer forming step (S2-5), the first top coat layer forming step (S2-) 6), a second top coat layer forming step (S2-7), and a top coating layer forming step (S2-8).

In the floor cleaning step (S2-1), the floor of the gable roof or flat roof is cleaned with a high-pressure washer so that foreign substances do not remain on the surface by arranging the time and place that has stayed on the floor neatly. This floor cleaning cleans up the old and rising places on the floor so that no foreign substances remain on the surface, so that it can be better attached to the floor surface during subsequent application of the primer solution and natural drying.

In the primer layer forming step (S2-2), the primer layer 61 is formed by applying a primer solution to the floor of a gable roof or a flat roof roof and allowing it to dry naturally. The primer solution acts as an adhesive as an intermediate between the first waterproofing layer and the floor applied in the next process.

In the first waterproof layer forming step (S2-3), a waterproofing agent is applied on the upper surface of the primer layer 61 to form the first waterproofing layer 62, and in the disposing step (S2-4) of the anti-slip composite sheet A plurality of the anti-slip composite sheets are overlapped with each other at the adjacent side ends, arranged in the longitudinal direction on the upper surface of the gable roof or flat roof roof floor, and left naturally for a certain period of time. Then, when the waterproofing agent is dried by natural leaving, the attachment of the anti-slip composite sheet 40 to the first waterproofing layer 62 is completed.

In the disposing step (S2-4) of the non-slip composite sheet, a plurality of the manufactured non-slip composite sheets are overlapped with each other at the side ends and are sequentially arranged from bottom to top of the upper surface of the gable roof. As such, the non-slip composite sheet 40 is overlapped with each other at the side end and is sequentially arranged from the bottom to the top of the gable roof, it is possible to reduce the possibility of leakage.

In the second waterproofing layer forming step (S2-5), the upper surface of the upper nonwoven fabric 10 of the non-slip composite sheet 40 is impregnated with a waterproofing agent of the same component as the waterproofing agent and allowed to dry naturally to form a second waterproofing layer 63 and, in the first top coat layer forming step (S2-6), a first top coat layer is applied to the upper surface of the second waterproof layer 63 and allowed to dry naturally to form a first top coat layer 64, and the second Top coat layer forming step (S2-7) In the second top coat layer forming step (S2-7), a second top coat agent is applied on the upper surface of the first top coat layer 64 and allowed to dry naturally, so that the second top coat layer 65 , and in the top coating layer forming step (S2-8), a top coating solution is applied on the second top coat layer 65 and allowed to dry naturally to form a top coating layer 66 .

The first waterproof layer forming step (S1-2), the primer layer forming step (S1-3), the second waterproof layer forming step (S1-4), the first topcoat layer forming step (S1-5), the second topcoat layer formation On the lower surface of the lower nonwoven fabric 30 of the non-slip composite sheet 40 by the step (S1-6) and the top coating layer forming step (S1-7), the first waterproof layer 62 and the primer layer 61 are sequentially formed formed, and on the upper surface of the upper nonwoven fabric 10 of the non-slip composite sheet 40, the second waterproof layer 63, the first top coat layer 64, the second top coat layer 65, and the top coating layer 66 are sequentially The application of each step of the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet of the present invention is completed.

5 is a non-woven fabric located on the top of the non-slip composite sheet used in the waterproofing method of the gable roof and the roof floor of the flat roof using the non-slip composite sheet according to the first embodiment of the present invention. It is a view showing that some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 while punching with the needle of a used needle, and FIG . It is a view showing the state, and FIG. 7 is a view showing the state in which the fiber yarn of the nonwoven fabric of FIG. 5 is punched at a plurality of positions by the needle provided in the needle punching unit of the needle punching device, and is lowered by the plurality of scale needles provided in the needle. It is a view showing a state with the lowered surface as the upper surface , FIG. 8 is a separate perspective view for each component of the non-slip composite sheet of FIG. 5, and FIG. 9 is a cross-sectional view of the non-slip composite sheet in which the components of FIG. 8 are combined 10 is a view showing that the non-slip composite sheet used in the waterproofing method of the gable roof and flat roof roof floor using the non-slip composite sheet is installed on the gable roof of the house, and FIG. 11 is part A of FIG. is an enlarged view.

5 to 11, the primer layer 61 formed in the waterproofing method of a gable roof and a flat roof floor using an anti-slip composite sheet according to the first embodiment of the present invention is the surface of the floor of the gable roof or flat roof. It is formed by applying a primer solution and letting it dry naturally, and the surface of the floor of the gable roof or flat roof y roof coated with the primer solution is naturally dried for 26 to 60 hours. The primer solution is a liquid applied to the surface of the gable roof or the floor of the flat roof. it will be used for Here, the primer (220, model; Power SH-105, manufactured by Suhyang Chemical Co., Ltd.) is applied once or twice on the bottom surface 213 with a roller or brush after mixing the stock solution and water in a volume ratio of 1:1. do.

In addition, the first waterproofing layer 62 formed in the waterproofing method of the gable roof and the flat roof roof floor using the anti-slip composite sheet according to the first embodiment of the present invention is applied to the upper surface of the primer layer 61 with a waterproofing agent and It is formed by letting it dry naturally, and it is formed by naturally drying the upper surface of the first waterproofing layer 62 to which the waterproofing agent is applied for 26 to 60 hours.

In addition, the second waterproof layer 63 formed in the waterproofing method of the gable roof and flat roof roof floor using the non-slip composite sheet according to the first embodiment of the present invention is the upper non-woven fabric 10 of the non-slip composite sheet 40. ) is impregnated with a waterproofing agent of the same component as the waterproofing agent and allowed to dry naturally, and the top surface of the upper nonwoven fabric 10 is again naturally dried for 26 to 60 hours. The formed second waterproofing layer 63 serves to prevent the occurrence of cracks in the non-slip composite sheet 40 because it is impregnated with the waterproofing agent and naturally dried.

In addition, the first topcoat layer 64 formed in the waterproofing method of the gable roof and the flat roof roof floor using the anti-slip composite sheet according to the first embodiment of the present invention is first on the upper surface of the second waterproofing layer 63 . Formed by applying a topcoat and letting it dry naturally, the first topcoat is applied at 0.5-0.8 kg/m 2 on the naturally dried second waterproofing layer 63 to increase the interfacial bonding force and anchor it to suppress interfacial separation.

In addition, the second top coat layer 65 formed in the waterproofing method of the gable roof and flat roof roof floor using the anti-slip composite sheet according to the first embodiment of the present invention is 2 on the upper surface of the first top coat layer 64 . It is formed by applying a secondary topcoat and allowing it to dry naturally, and by applying a secondary topcoat at 0.5-0.8kg/m2 on the naturally-dried primary topcoat layer 64, it is anchored to increase the interfacial bonding force to suppress interfacial separation. .

In addition, the top coating layer 66 formed in the waterproofing method of the gable roof and flat roof roof floor using the non-slip composite sheet according to the first embodiment of the present invention is applied to the top coating solution on the second top coating layer 65 and air-drying, the formed top coating layer 66 prevents penetration of contaminants into the secondary topcoat layer 65 and serves to protect the secondary topcoat layer 65 .

The first and second waterproofing layers 62 and 63, the first and second topcoat layers 64 and 65, and the waterproofing agent, the first and second topcoating agents, and the topcoating solution respectively used for the formation of the top coating layer 66 are water-soluble Therefore, since it is provided with the original breathability, there is an advantage that can be waterproof while having a ventilation function.

In addition, the waterproofing agent and the first and second topcoats and the topcoating liquid used for the formation of the first and second waterproofing layers 62 and 63, the first and second topcoating layers 64,65 and the topcoating layer 66, each comprising 70% by weight of ethylenevinylacetate (EVA), and 30% by weight of an acrylic paint, wherein the acrylic paint comprises 70% by weight of a water-soluble acrylic resin, 20% by weight of calcium carbonate, 7% by weight of a sugar, and 3% by weight of the thickener.

Ethylene vinyl acetate, which is the main raw material of the waterproofing agent, the first and second top coats, and the top coating solution, is a polymer obtained by copolymerizing ethylene and vinyl acetate. It has excellent low-temperature heat sealing properties and crosslinking properties. Of course, it is used for various purposes such as agricultural and food packaging films, raw materials for hot melt adhesives, waxes, modifiers, and paints, and its properties generally vary depending on the molecular weight and the content of vinyl acetate. That is, as the content of vinyl acetate increases, the density, rubber elasticity, flexibility, and compatibility with other polymers and plasticizers are improved, and the curing temperature is lowered. Specifically, those containing 10-20% of vinyl acetate are used to improve moldability and low-temperature flexibility by blending with PVC, and those containing 25-30% of vinyl acetate are added to wax for fragility and heat-adhesive properties. Used to improve etc. In addition, ethylene vinyl acetate has excellent resistance to bending and cracking as well as environmental stress cracking resistance (ESCR), excellent elasticity and repulsion in a wide temperature range, and excellent compatibility with fillers without causing deterioration of physical properties. It is suitable for use as a main raw material of the waterproofing agent of the present invention. However, the nonwoven fabric impregnated with a waterproofing agent should not be twisted or bent depending on the vertical balance of the nonwoven fabric and the inferior external environment. Since a problem such as formation of a water channel should not occur, the present invention provides a ratio of raw materials for a waterproofing agent for forming a waterproofing agent-impregnated nonwoven fabric in order to secure excellent dimensional stability, tensile strength, and watertightness, and 52-62% by weight of ethylene and 48-vinyl acetate. It is used by significantly increasing the content of vinyl acetate, such as 38% by weight. When the content of vinyl acetate is about 38-48%, the physical properties such as tensile strength of ethylene vinyl acetate are improved, the bonding strength with the nonwoven fabric combined with the reinforcing agent containing ethylene vinyl acetate is increased, and workability is also significantly increased. This ethylene vinyl acetate is an eco-friendly ethylene vinyl acetate that is harmless to the human body.

The acrylic resin is a vinyl-based copolymer resin mainly composed of acrylic acid and methacrylic acid and derivatives thereof, and has excellent properties such as dryness, hardness, weather resistance, corrosion resistance and gloss retention, thereby inhibiting the role of other components or the performance of physical properties In order to exhibit excellent physical properties in dryness, hardness, weather resistance, corrosion resistance, and gloss retention within the range not included, it is suitable to use 70% by weight of an acrylic resin to exhibit the above physical properties.

The fat sugar is used as a filler and has a large oxidizing power, a large negative-lunging power, insoluble in almost all solvents, and a very stable material, so it has excellent weather resistance and yellowing resistance. Because it has great antibacterial action and physical properties such as odor removal and sterilization, it does not dissolve in solvents within the range that does not impair the role or performance of other components, has excellent weather resistance and yellowing resistance, is harmless to the environment and human body, and removes odors And in order to play a role such as sterilization, it is most suitable to use 7% by weight of lipid sugar to exhibit these properties.

The calcium carbonate is also used as a filler and has excellent physical and chemical properties, so it is used as an extender pigment, which is an achromatic pigment mixed with other pigments to increase the amount of paint or to dilute the concentration, which is also harmless to the human body. It is most suitable to use 20 wt% of calcium carbonate to increase the amount of paint or to dilute the concentration in a range that does not impair the role of the components or the display of physical properties.

The thickener is added to increase the viscosity of the waterproofing agent, and 3% by weight of the thickener is used to increase the viscosity in a range that does not impair the role of other components or the performance of physical properties in the application of the waterproofing agent. it's good

(Second embodiment)

3 is a flowchart of a waterproofing method of a gable roof and a flat roof roof floor using a non-slip composite sheet according to a second embodiment of the present invention, and FIG. 4 is a flowchart of the waterproofing construction step among the steps of FIG. 3 .

1 and 2, in the second embodiment, the lower non-woven fabric 30 located on the lower side, the soft film 20 attached to the upper surface of the lower non-woven fabric 30, and the upper surface of the soft film 20 Non-slip composite sheet manufacturing step (S1 ') for producing an anti-slip composite sheet (40 ') comprising an upper non-woven fabric (10) attached to the; and a waterproof construction step (S2') of waterproofing the floor of a gable roof or flat roof roof using the non-slip composite sheet 40', wherein the upper nonwoven fabric 10 is provided at a distance from each other, Needle punching of the nonwoven fabric disposed between the upper plate 3 and the lower plate 4 of the needle punching device having a plurality of vertically aligned holes and fixed positions through the plurality of vertically aligned holes. A plurality of scale needles 2a extending obliquely downward of the needle 2b while punching with a sharp-pointed needle 2b that facilitates the punching operation of the needle 2 provided in the part 1 It is manufactured in a state where some of the fiber yarns of the nonwoven fabric are pulled down to the lower surface of the lower plate 4, and when the upper nonwoven fabric 10 is attached to the upper surface of the soft film 20, some of the fiber yarns of the nonwoven fabric are lowered to the lower plate ( The surface of the upper nonwoven fabric 10 pulled down under the lower surface of 4) becomes the upper surface of the upper nonwoven fabric 10 .

The waterproof construction step (S2') is a floor cleaning step (S2-1') of cleaning the floor of a gable roof or flat roof with a high-pressure washer so that foreign substances do not remain on the surface by arranging the time and place that has stayed on the floor neatly (S2-1') ); A primer layer forming step (S2-2') of forming a primer layer 61 by applying a primer solution to the floor of the gable or flat roof roof and letting it dry naturally; a first waterproofing layer forming step (S2-3') of forming a first waterproofing layer 62 by applying a waterproofing agent to the upper surface of the primer layer 61; Placing a plurality of manufactured non-slip composite sheets 40 ′ on the upper surface of a gable roof or flat roof roof floor by overlapping each other at the adjacent side ends in the longitudinal direction, and placing the non-slip composite sheet naturally left for a certain period of time. (S2-4'); A second waterproofing layer forming step (S2-5) of forming the second waterproofing layer 63 by impregnating the upper surface of the upper nonwoven fabric 10 of the anti-slip composite sheet 40' with a waterproofing agent of the same component as the waterproofing agent and allowing it to dry naturally. '); a first topcoat layer forming step (S2-6') of forming a first topcoat layer 64 by applying a first topcoating agent to the upper surface of the second waterproofing layer 63 and letting it dry naturally; and a top coating layer forming step (S2-8') of forming a top coating layer 66 by applying a top coating solution on the first top coating layer 64 and letting it dry naturally.

As shown above, in the second embodiment, in the anti-slip composite sheet manufacturing step (S1 '), the lower nonwoven fabric 30 positioned on the lower side, the soft film 20 attached to the upper surface of the lower nonwoven fabric 30, and the soft The point of manufacturing the non-slip composite sheet 40 ′ including the upper non-woven fabric 10 attached to the upper surface of the film 20 , and the application and natural application of a secondary top coat on the upper surface of the first top coat layer 64 . The configuration of the first embodiment is substantially the same as that of the first embodiment, except that the second topcoat layer forming step (S2-7) of forming the second topcoat layer 65 by drying is omitted.

On the other hand, Figure 12 is an exploded perspective view for each component of the non-slip composite sheet used in the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the second embodiment of the present invention, and FIG. It is a cross-sectional view of the non-slip composite sheet in which the components are combined, and FIG. 14 is a gable roof of a house in which the non-slip composite sheet according to the embodiment of FIG. 15 is an enlarged view of part A' of FIG. 14 .

12 to 15, the soft film 20 of the non-slip composite sheet 40 used in the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the second embodiment of the present invention is When the upper non-woven fabric 10 is damaged, a secondary waterproof function is performed. In addition, the flexible film 20 also functions to keep the waterproofing agent in the upper nonwoven fabric 10 . That is, if there is no soft film 20, the waterproofing agent is absorbed through the lower nonwoven fabric 30 and flows laterally along the surface of the gable roof or flat roof floor of the house 50, the gable roof 60 of the house 50 or the floor of the flat roof. Or it can leak into the room through cracks formed on the side. Accordingly, the flexible film 20 prevents leakage of the waterproofing agent. And, since the flexible film 20 is easily bent, it can be easily adhered to an irregular shape such as a protruding portion of the gable roof 60 .

In addition, the flexible film 20 may be composed of a soft synthetic resin material, such as a web film made of hot melt, a polyvinyl chloride film, a polyethylene film, and the like.

In addition, the flexible film 20 may be an aluminum deposition film (product name; biaxially oriented polyethylene terephthalate film) in which an aluminum film (A) is deposited on the upper or lower surfaces or on the upper and lower surfaces. As an example, the aluminum deposition film may be composed of an aluminum film (A) deposited on a film in which polyethylene terephthalate and silica are mixed, which is already known as harmless to the human body. Therefore, since the aluminum film has a function of reflecting heat, there is an advantage of preventing the phenomenon of increasing the indoor temperature by blocking sunlight in summer and preventing the phenomenon that the indoor temperature is radiated to the outside in winter.

In addition, since the anti-slip composite sheet 40 ′ includes the soft film 20 as above, it has a role or effect of waterproof itself. Therefore, even if the secondary topcoat layer forming step (S2-7) of forming the secondary topcoat layer 65 by applying the secondary topcoat agent to the upper surface of the primary topcoat layer 64 and letting it dry naturally is omitted, the soft film Since (20) can replace the role of the secondary topcoat layer 65, the secondary topcoat layer forming step (S2-7) may be omitted as described above. Of course, in another embodiment, the waterproof construction step (S2') of the waterproofing method of the gable roof and the flat roof roof floor using the non-slip composite sheet according to the second embodiment of the present invention is the secondary topcoat layer forming step (S2- 7) is also possible.

In the following, Example 1 including the present invention is constructed and through experiments, the effect of the anti-slip composite sheet used in the waterproofing method of the gable roof and the flat roof roof floor using the anti-slip composite sheet of the present invention is to be grasped in detail. .

16 is a test report for the thermal conductivity of the non-slip composite sheet used in the waterproofing method of the gable roof and the roof floor of a flat roof using the non-slip composite sheet according to the second embodiment of the present invention.

The non-slip composite sheet used in the waterproofing method of the gable roof and the roof floor of the flat roof using the non-slip composite sheet according to the second embodiment of FIG. and the extrusion method (compressed styrofoam) insulation plate was used as Comparative Example 2.

As a result of measuring the thermal conductivity of Experimental Example 1 and Comparative Example 1, it was shown in Table 1 below. Here, the test report for the thermal conductivity of Experimental Example 1 can be confirmed through FIG. 16 .

division Thermal conductivity (unit: W/(m.k) Average temperature when accumulating note Experimental Example 1 0.028 22±2℃ The lower the thermal conductivity value, the better the thermal insulation performance of the product. Comparative Example 1 0.040 23±2℃ Comparative Example 2 0.031 23±2℃

As shown in Table 1 above, it can be seen that the non-slip composite sheet of Experimental Example 1 has superior thermal insulation properties compared to the insulation plates of Comparative Examples 1 and 2.

17 is a test report for tensile performance and elongation for the example of FIG. 16 . That is, FIG. 17 is a test report for tensile performance and elongation of Experimental Example 1 in Example 1 above.

The tensile performance and elongation of Experimental Example 1 showing the test items shown in FIG. 17 and Comparative Examples 1 and 2 in Example 1 were tested, and are shown in Table 2 below.

Test Items Experimental Example 1 Comparative Example 1 Comparative Example 2 note unit area mass (g/m ² ) 5.027 5.138 5.325 Tensile Performance-Tensile Strength-Untreated-Length (N/mm) 68 55 58 Tensile Performance-Tensile Strength-Untreated-Butterfly (N/mm) 62 51 55 Tensile performance-elongation-untreated-length (%) 56 50 48 Tensile performance-elongation rate-untreated-butterfly (%) 68 58 53 Tensile Performance-Tear Strength-Length(N) 169 145 151 Tensile Performance-Tear Strength-Butterfly (N) 159 137 142 Temperature dependence (60℃)-Tensile strength-Length (N/mm) 51 43 46 Temperature dependence (60℃)-Tensile strength-Butterfly (N/mm) 43 36 38 Temperature dependence (-20℃)-elongation-length (%) 2.3 1.7 1.8 Temperature dependence (-20℃)-elongation-butterfly (%) 1.8 1.3 1.4

As shown in Table 2, it can be seen that Experimental Example 1 is advantageous in terms of tensile strength and elongation compared to Comparative Examples 1 and 2.

18 is a test report for test items including permeability resistance, crack resistance, and adhesion strength in a standard state for the waterproofing agent used in the non-slip composite sheet of the embodiment of FIG. 16 .

In addition, the waterproofing agent used in the first waterproofing layer 62, the second waterproofing layer 63, the first topcoating layer 64, and the top coating layer 66 of Experimental Example 1, and Patent Registration 10-1400065 (May 21, 2014) .) of the modified acrylic emulsion (15 parts by weight of hydroxyethyl methacrylate and 7 parts by weight of methacrylic acid added to the acrylic emulsion), 24 parts by weight of ethylene glycol resin, 7 parts by weight of epoxy resin, B.E. The water permeability, crack resistance, and standard state adhesion strength of Comparative Example 3, which is a liquid waterproofing agent sample mixed with 7 parts by weight of an on-ionic surfactant and 2 parts by weight of a silicone resin, are shown in Table 3 below.

division Experimental Example 1 Comparative Example 3 Water permeability (N/mm ² ) 0.3 0.45 crack resistance doesn't exist doesn't exist Adhesive strength (N/mm ² ) 2.7 1.52

As shown in Table 3 above, it can be seen that Experimental Example 1 is advantageous compared to Comparative Example 3 in terms of water permeability and adhesion strength.

As mentioned above, although the present invention has been described in detail using examples, the scope of the present invention is not limited to specific examples, and should be interpreted by the appended claims. In addition, those skilled in the art will understand that many modifications and variations are possible without departing from the scope of the present invention.

1: needle punching device 2: needle
2a: needle 2b: scale needle
3: upper plate 4: lower plate
10: upper non-woven fabric 20: soft film
30: lower non-woven fabric 40: non-slip composite sheet
50: house 61: primer layer
62: first waterproofing layer 63: second waterproofing layer
64: first top coat layer 66: top coating layer
S1: Anti-skid composite sheet manufacturing step
S1-1, S1-1': Anti-slip composite sheet manufacturing step
S1-2: first waterproof layer forming step
S1-3: primer layer forming step
S1-4: second waterproofing layer forming step
S1-5: First top coat layer forming step
S1-6: Second top coat layer forming step
S1-7: top coating layer forming step
S2: cleaning step
S3: Attachment step of anti-slip composite sheet
S3-1: Undercoat primer application step
S3-2: Arrangement stage of anti-slip composite sheet
S3-3: Waterproofing agent application step
S3-4: Natural drying stage of waterproofing agent

Claims (5)

delete Non-slip composite sheet 40 comprising a lower non-woven fabric 30 located on the lower side to prevent slipping during waterproof construction on the floor of a gable roof or flat roof roof, and an upper non-woven fabric 10 attached to the upper surface of the lower non-woven fabric 30 ) to prepare an anti-slip composite sheet manufacturing step (S1); and
A waterproof construction step (S2) of waterproofing the floor of a gable roof or flat roof roof using the anti-slip composite sheet 40,
The upper nonwoven fabric 10 is a nonwoven fabric disposed between the upper plate 3 and the lower plate 4 of the needle punching device, which is provided at a distance from each other, has a plurality of holes aligned vertically, and has a fixed position. The side of the needle (2b) while punching through the plurality of holes arranged as It is manufactured in a state where some of the fiber yarns of the nonwoven fabric are pulled down to the lower surface of the lower plate 4 by a plurality of scale needles 2a extending obliquely downward, and the fibers of the nonwoven fabric are pulled down to the lower surface of the lower plate 3 The part of the yarn is transferred to the side and pressed while heat-treated by a heat pressing means to the upper surface side of the nonwoven fabric away from the place where the upper plate 3 and the lower plate 4 are, and the upper nonwoven fabric is placed on the upper surface of the lower nonwoven fabric 30 ( When 10) is attached, the surface of the upper nonwoven fabric 10, in which some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4, becomes the upper surface of the upper nonwoven fabric 10 ,
The waterproof construction step (S2),
A floor cleaning step (S2-1) of cleaning the floor of a gable or flat roof with a high-pressure washer so that there are no foreign substances remaining on the surface by arranging the stale and rising places on the floor neatly (S2-1);
A primer layer forming step (S2-2) of forming a primer layer 61 by applying a primer solution on the floor of the gable roof or flat roof roof and letting it dry naturally;
a first waterproofing layer forming step (S2-3) of forming a first waterproofing layer 62 by applying a waterproofing agent to the upper surface of the primer layer 61;
Placing a plurality of manufactured non-slip composite sheets overlapping each other at adjacent side ends, placing them in the longitudinal direction on the upper surface of a gable roof or flat roof roof floor, and placing them naturally for a certain period of time (S2-4) );
A second waterproofing layer forming step of forming the second waterproofing layer 63 by impregnating the upper surface of the upper nonwoven fabric 10 of the non-slip composite sheet 40 with a waterproofing agent of the same component as the waterproofing agent and letting it dry naturally (S2-5) ;
a first topcoat layer forming step (S2-6) of forming a first topcoat layer 64 by applying a first topcoating agent on the upper surface of the second waterproofing layer 63 and letting it dry naturally;
a second top coat layer forming step (S2-7) of forming a second top coat layer 65 by applying a second top coat agent to the upper surface of the first top coat layer 64 and letting it dry naturally; and
and a top coating layer forming step (S2-8) of forming a top coating layer 66 by applying a top coating solution on the second top coating layer 65 and letting it dry naturally,
The fiber yarns of the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are composed of long fiber yarns and short fiber yarns. A waterproofing method for a gable roof and a flat roof roof using a non-slip composite sheet, characterized in that it depends on the ratio of fiber yarns and long fiber yarns . An anti-slip composite sheet comprising a lower nonwoven fabric 30 positioned on the lower side, a soft film 20 attached to the upper surface of the lower nonwoven fabric 30, and an upper nonwoven fabric 10 attached to the upper surface of the soft film 20 ( 40') manufacturing step (S1') of the non-slip composite sheet; and
Including a waterproof construction step (S2') of waterproofing the floor of a gable roof or flat roof roof using the anti-slip composite sheet (40'),
The upper nonwoven fabric 10 is a nonwoven fabric disposed between the upper plate 3 and the lower plate 4 of the needle punching device, which is provided at a distance from each other, has a plurality of holes aligned vertically, and has a fixed position. The side of the needle (2b) while punching through the plurality of holes arranged as It is manufactured in a state where some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 by a plurality of scale needles 2a extending obliquely downward, and The part of the fiber yarn is transferred to the side and pressed while heat-treated by a hot pressing means to the upper surface side of the nonwoven fabric away from the place where the upper plate 3 and the lower plate 4 are, and the upper nonwoven fabric is placed on the upper surface of the soft film 20 When (10) is attached, the surface of the upper nonwoven fabric 10 in which some of the fiber yarns of the nonwoven fabric are pulled down below the lower surface of the lower plate 4 becomes the upper surface of the upper nonwoven fabric 10,
The fiber yarns of the upper nonwoven fabric 10 and the lower nonwoven fabric 30 are composed of long fiber yarns and short fiber yarns. A waterproofing method for a gable roof and a flat roof roof using a non-slip composite sheet, characterized in that it depends on the ratio of fiber yarns and long fiber yarns . 4. The method of claim 3,
The waterproof construction step (S2') is,
A floor cleaning step (S2-1') of cleaning the floor of a gable or flat roof with a high-pressure washer so that there are no foreign substances remaining on the surface by arranging the stale and rising places neatly on the floor (S2-1');
A primer layer forming step (S2-2') of forming a primer layer 61 by applying a primer solution to the floor of the gable or flat roof roof and letting it dry naturally;
a first waterproofing layer forming step (S2-3') of forming a first waterproofing layer 62 by applying a waterproofing agent to the upper surface of the primer layer 61;
Placing a plurality of manufactured non-slip composite sheets 40 ′ on the upper surface of a gable roof or flat roof roof floor by overlapping each other at the adjacent side ends in the longitudinal direction, and placing the non-slip composite sheet naturally left for a certain period of time. (S2-4');
A second waterproofing layer forming step (S2-5) of forming the second waterproofing layer 63 by impregnating the upper surface of the upper nonwoven fabric 10 of the anti-slip composite sheet 40' with a waterproofing agent of the same component as the waterproofing agent and allowing it to dry naturally. ');
a first topcoat layer forming step (S2-6') of forming a first topcoat layer 64 by applying a first topcoating agent to the upper surface of the second waterproofing layer 63 and letting it dry naturally;
Using a non-slip composite sheet, characterized in that it comprises a top coating layer forming step (S2-8') of forming a top coating layer 66 by applying a top coating solution on the first top coat layer 64 and letting it dry naturally Waterproofing method for gable roof and flat roof roof floor. 5. The method of claim 2 or 4,
In the disposing step (S2-4) of the non-slip composite sheet, a plurality of the manufactured non-slip composite sheet is overlapped with each other at the side end, anti-slip, characterized in that it is sequentially arranged from the bottom to the top of the gable roof A waterproofing method for gable roofs and flat roofs using composite sheets.

Images