KR200196067Y1 - A pad for water resistant defect of roof - Google Patents

Abstract

The present invention relates to a pad for repairing rooftop waterproofing, a pad (PAD) manufactured by adding a nonwoven fabric 10a to an upper portion of a ethylene vinyl acetate waterproof sheet 10b and a crosslinked foam sheet 10c to a lower portion thereof. By applying it to the rooftop exposed waterproofing method where defects occur, the existing waterproofing layer and aged protective concrete are not dismantled, thus preventing the generation of waste concrete, preventing environmental pollution, saving construction cost and time, and semi-permanent life. It is to be able to have.

Description

Pad for Water Resistant Defect of Roof

The present invention relates to a pad for repairing rooftop waterproofing, a pad (PAD) manufactured by adding a nonwoven fabric 10a to an upper portion of a ethylene vinyl acetate waterproof sheet 10b and a crosslinked foam sheet 10c to a lower portion thereof. By applying to the exposure method in the event of a rooftop waterproofing by using the to prevent the removal of the existing waterproof layer and aging protection concrete to reduce the cost and time during repair work.

Defects of rooftop waterproofing are caused by defects in construction and concrete cracks, and concrete cracks are generally affected by cracks. The current limitation is that even when the concrete and pus mortar layer are cracked 4 mm ± 1 mm, even waterproof products with good elasticity cannot be tolerated.

In the above crack generation, there are expandable cracks in the concrete curing process, and because the ground is not constant from the foundation work, it can be divided into cracks generated due to the imbalance and the inability to support the load.

Meanwhile, non-exposed waterproofing and exposed waterproofing methods are used as rooftop waterproofing methods depending on the location where the waterproofing material forming the waterproofing layer is constructed at the time of defect repair work. The non-exposed waterproofing method is shown in FIG. (a) There is a method of dismantling the waterproof layer (b), the insulation (c) and the protective concrete (d) constructed in the same process, and the exposed waterproof method is the same method as the non-exposed method as shown in Figure 1b After dismantling, it is a method of constructing the waterproofing layer on top of the existing concrete structure in order of insulation (c), protective concrete (d), and waterproofing layer (b). However, in the conventional non-exposed waterproofing method shown in FIG. 1A, the existing concrete structure and the waterproofing layer are combined with each other, and as the time passes, the waterproofing layer swells due to the difference in elongation rate according to the change of season and the change of humidity and temperature. When the concrete moisture in the waterproof layer bursts, the concrete layer is corroded or oxidized due to the moisture to release the waterproof state, and there is a problem in that the leakage ends as well as the shortening of the building life.

In addition, the conventional exposed waterproofing method shown in Figure 1b is consistent with the method of applying a thin layer of a primer using a roller or the like to clean the surface of the protective concrete and the adhesive, it is consistent with the adhesive strength and comprehensive adhesion If there is no part of the waterproofing layer, the water penetrates under the waterproofing layer and spreads, so it expands overall due to partial defects. For example, if you remove a part of the waterproof layer constructed, it can be seen that it falls off like a sheet of cardboard, which is a limitation of the quantity and quality of the primer bonding the protective concrete layer and the waterproof layer or the construction method.

Therefore, there is an urgent need to develop a waterproofing material applied to the exposed waterproofing method for the repair of rooftop waterproofing that can withstand the damage caused by the difference in elongation rate and the damage caused by external impact without removing the protective concrete and waterproofing layers already constructed. It was.

The present invention is devised to solve the above problems, the existing waterproof layer and the pad 10 produced by heating and fusion of the nonwoven fabric (10a), ethylene vinyl acetate sheet (10b), crosslinked foam sheet (10c) By applying the aging protective concrete to the exposed waterproofing method without removing it, even if a crack in the building structure occurs again, the flexible elasticity of the crosslinked foam sheet is completely absorbed by the flexible elasticity so that the waterproof sheet is not damaged, so that the pad is completely waterproof. The purpose is to provide.

Figure 1a and 1b is a cross-sectional view showing a waterproof layer constructed in the defect repair of conventional rooftop waterproofing,

Figure 2 is a perspective view showing a laminated structure of the pad according to the present invention,

3 is a cross-sectional view of the concrete structure, the pad is constructed according to the present invention,

4 is a plan view schematically showing a working state in which a pad according to the present invention is constructed.

<Description of the code | symbol about the principal part of drawing>

10 pad 10a nonwoven fabric

10b: ethylene vinyl acetate (EVA) sheet 10c: crosslinked foam sheet

11: expansion quint 12: primer

13: coating film waterproofing layer 14: joint edge

15 polyurethane coating layer 16 top coat

In order to achieve the above object, the present invention focuses on a 1 mm thick waterproof sheet 10b made of ethylene vinyl acetate and heats a 0.5 mm thick polyester long fiber nonwoven fabric 10a on the upper surface thereof. It is characterized in that the pad is prepared by fusion by heating the cross-linked foam sheet (10c) of 4 mm thickness prepared by foaming polyethylene on the lower surface.

On the other hand, with reference to the accompanying drawings in the specification will be described a preferred embodiment of the present invention.

The pad according to the present invention shown in Figure 2 is a nonwoven fabric (10a) + 1mm thick ethylene vinyl acetate (EVA) sheet (10b) + crosslinked foam ratio of 0.5 mm thick polyester synthetic fiber from the top 200%. A cross-linked foam sheet 10c having a thickness of 4 mm was heated and fused to form a roll. During construction, the non-woven fabric is stretched upwards. Preferably, the polyurethane (standard: KSF 3211) coating waterproofing agent is inhaled on the top of the non-woven fabric to exhibit excellent product performance with a tensile strength of 30 ± 5 (Kg / ㎡). Done. In addition, the crosslinked foam sheet has a flexibility of 200% of the crosslinked foam ratio, and a material that can absorb the impact of cracking is used.

The pad 10 according to the present invention formed as described above is constructed as shown in FIG. 3, and evens the surface of the protective concrete while the existing protective concrete and the waterproofing layer are maintained, and the concrete contracts, expands, and changes in temperature. After installing expansion quint 11 for shock absorbing role, apply primer 12, form rubberized asphalt coating waterproof layer 13, and waterproof coating by using pad of this invention Will be constructed.

Figure 4 is a plan view showing the working state of an embodiment in which the pad is constructed according to the present invention showing a process of integrally forming the polyurethane coating layer 15 and the top coat 16, the coating film waterproofing agent Adhesive work is performed by unrolling the pad in the rolled state from one side of the coated surface. At this time, the pad and the pad are bonded to each other so that they do not overlap and the ethylene vinyl acetate (EVA) sheet and the nonwoven fabric are bonded together. The joint edges are arranged to be bonded to each pad by 100 mm by using the adhesive to cut the joint edge 14 so as to have a thickness of 1 mm and a width of 200 mm. In the process of adhering the pad and the joint joint 14, the part which is lifted due to the curved state of the base surface is applied to the washer and fixed with concrete nails, and the urethane primer is applied to the washer using a brush or the like and exposed type. The urethane coating waterproof layer 15 is formed to have a thickness of 1.5 to 2.0 mm. After the urethane coating waterproofing layer is completely cured, the top coat 16, which is not aging in the sun, is applied to a constant thickness by spraying or the like.

As described above, the pad of the present invention can increase the tensile strength by inhaling the polyurethane coating waterproofing agent on the nonwoven fabric forming the upper portion, and the crosslinked foam sheet on the lower side has flexibility due to the foaming ratio of 200%. The ethylene vinyl acetate sheet, which is a waterproof sheet in the center, is not affected by defects caused by cracks, etc., and can have a semi-permanent life. In addition, by using the restoring force of the pad of the present invention as a flooring material of the sports facilities, it can act as a buffer against the friction force transmitted to the knee and ankle joint during exercise, and the insulation and soundproofing effect of the pad is for women's office and It is possible to prevent the cold air from the floor of the classroom and greatly reduce the noise during the construction of the hallway.

Claims (1)

Manufactured by heating and fusing 0.5 mm thick polyester long fiber nonwoven fabric 10a on the upper surface with a 1 mm thick waterproof sheet 10b made of ethylene vinyl acetate as a center and foaming polyethylene on the lower surface. Pad for repairing rooftop waterproofing, characterized in that it is manufactured by heating and bonding a 4 mm thick crosslinked foam sheet (10c).