KR101744859B1 - Rooftop complex waterproof system and constuction mathod using the same - Google Patents

Abstract

In the present invention, even when the joint portion is cracked due to gas, moisture, deterioration over time, tensile stress at the time of shrinkage of both waterproof sheets, etc., when the roof of a concrete or the like is waterproofed with the waterproof sheet, A roof-top composite waterproofing system capable of preventing cracking of a waterproof coating film applied on the surface and capable of achieving a degassing effect and a method for effectively constructing the waterproofing system, comprising: a roof-applied primer; An upper multi-ply sheet attached to the lower multi-ply sheet in an orthogonal direction on the lower multi-ply sheet, and an upper multi-ply sheet placed in the middle of the upper surface of the upper multi- A waterproof sheet adhered to the surface of the waterproof sheet, Composite roof waterproofing system goes to the film; Applying a primer to the rooftop; Placing and bonding a lower multi-layer sheet so that the hole is placed in the direction of the waterproof sheet in the primer portion where the end portion of the waterproof sheet to be adjacent to the adjacent waterproof sheet meet; Applying a primer to an upper surface of the lower multi-pore sheet; Placing and bonding an upper multi-cavity sheet so that the hole is orthogonal to the hole of the lower multi-hole sheet; Attaching a waterproof sheet to the upper surface of the upper multi-ply sheet in such a manner that the ends of the upper multi-ply sheet meet, and adhering the waterproof sheet to the primer of the upper surface and the upper self- And a step of applying a waterproof paint on the surface of the waterproof sheet to finish the waterproof coating film.

Description

[0001] The present invention relates to a rooftop complex waterproof system and a construction method thereof,

The present invention relates to a waterproofing sheet for a waterproofing sheet, which is formed by a concrete or the like, is waterproofed with a waterproof sheet. Even when the joint between the end portions of adjacent waterproof sheets is cracked due to internal or external factors, The present invention relates to a roof-top composite waterproofing system and a method for constructing the waterproofing system.

As a method of waterproofing the roof with a waterproof sheet, there are an overlap method (overlapped method) and a non-overlapped method.

The waterproof sheet overlapped construction method is such that the joint ends of the waterproof sheets to be subsequently applied are overlaid on the waterproof sheet that has been spun on the construction surface and the waterproof sheet is coated on the surface of the waterproof sheet to finish the waterproof sheet. In the area where the sheets overlap, a right triangular space corresponding to the thickness of the waterproof sheet is left. This space is referred to as an air pocket. If air remaining in the air pocket expands due to heat, the waterproof sheet is swollen, It also shortens the life span.

Background Art [0002] Prior arts typified by an overlapped waterproof sheet construction method in which an air pocket is inevitably formed during a waterproof construction process include an air pocket type as disclosed in Japanese Patent No. 10-1420409 and an asphalt primer as disclosed in Korean Patent No. 10-0744727 There is an air pocket type.

The waterproof sheet is usually laid on the concrete surface of the roof and bonded with a primer. The emulsion is volatilized in the primer during the summer, especially during the summer when the temperature is high, and the moisture resulting from the volatilized gas and condensation is trapped between the construction surface and the bottom of the waterproof sheet. If this gas and moisture get out of the waterproofing sheet, there is no problem, but if not, the waterproofing sheet is excited by gathering in the weak part of the joint between the constructional surface and the waterproofing sheet.

This undesirable phenomenon also occurs in the air pocket type. This is because the end of the air pocket is clogged with the wall, and the gas and moisture gathered thereon can not spread to the atmosphere.

Another blind spot of the waterproof sheet overlapped construction method is that when the waterproof paint is applied to the surface of the waterproof sheet and the flatness is adjusted, the thickness of the waterproof sheet on the waterproof sheet side is thinner than the thickness of the waterproof sheet side waterproof coat, There is also a possibility that it will split early and be stripped off due to the effects of aging climate change.

As another method of applying the exposed waterproof sheet, there is a facing type construction method. As an example thereof, Japanese Patent Registration No. 10-0746574 discloses a method for producing a waterproof sheet by laying horizontally on a construction surface so that respective end portions of adjacent waterproof sheets do not overlap each other, laying a band-shaped fiber sheet band on a construction site where an end is located, The fiber sheet and the waterproof sheet are laid in the order of the waterproof sheet, the rubber material is filled in the gap between the waterproof sheets so as to form a T-shape, the fiber sheet band of the above and the same type is covered on the ends of the waterproof sheets on both sides, The following non-adhesive fibrous sheet is laid down and the finished waterproof coating is applied.

The gas and moisture generated between the construction surface and the waterproof sheet gather in the lower non-adhesive fiber sheet and the space below. In such a waterproof structure, gas and moisture are not expected to be released into the atmosphere. Non-adhesive fiber sheets require much effort and cost in waterproofing construction, and cracks can occur due to the gas pressure between the construction surface and the waterproof sheet without fixing the ends of the upper and lower fiber sheets and waterproof sheets to the roof of the nails And the junction end of the waterproof sheet can not be prevented unexpectedly.

As another example of the method of constructing the butt-type waterproof sheet, there is also a registered patent No. 10-0956884. This prior art is to fill the gap between the waterproof sheets laid on the construction surface with the I-type sealant, and reinforcing mesh is embedded in the portion (upper flange portion) corresponding to the upper flange of the I- The flange portion and the web portion can not withstand the cumulative gas pressure generated between the construction surface and the waterproof sheet, and are not sufficient to prevent cracking. The reality is that elasticity is lost when it hardens, and elasticity that increases with temperature becomes lost. And the upper flange portion is peeled off from the waterproof sheet under the pressure of the gas leaking into the cracks of the actual seal.

T (T) type sealing and type sealing in the non-overlapping waterproof sheet construction method are also not different from the above.

Patent No. 10-0744727 Patent No. 10-0746574 Patent No. 10-0956884 Patent No. 10-1420409

In the present invention, even when the joint portion is cracked due to gas, moisture, deterioration over time, tensile stress at the time of shrinkage of both waterproof sheets, etc., when the roof of a concrete or the like is waterproofed with the waterproof sheet, The present invention provides a roof-top composite waterproofing system capable of preventing cracking of a waterproof coating film applied on the surface and capable of effecting a degassing effect, and a method for effectively constructing the waterproofing system.

Further, even when the waterproof sheet is applied in an insulating form without applying the conventional primer, the joint part between the waterproof sheets is joined to the base in order to bond the waterproof sheet. At this time, a ventilation path between the sheet and the sheet is not secured, It is intended to provide a rooftop combined waterproofing system which can secure a ventilation path without discrimination of the area if one multi-pore sheet is used and a method of effectively constructing this waterproofing system.

The above first problem is solved by a photocurable resin composition comprising: a primer coated on a roof; a lower multi-layered sheet laid on a primer portion where an end portion of a waterproof sheet to be adjacent to the multi- A waterproof sheet adhered to the primer in such a manner that ends of the sheet are overlapped with each other in the middle of the upper surface of the upper multi-pore sheet, and a waterproof coating film coated on the surface of the waterproof sheet to a predetermined thickness. have.

The multi-pore type sheet is formed by joining irregular-shaped spacers between the inner and outer sheaths. The recesses of the spacers are clogged by the inner or outer sheath to form a degassing tunnel-like hole, so that the volatility of the primer It acts as a deaerator that induces condensation in the gas and air pocket area or moisture that comes from the concrete base to communicate with the atmosphere in the long run.

In particular, when the waterproof sheet is expanded or contracted in the summer or winter season, the upper multi-ply sheet is stretched and expanded in the direction of the swash plate to maintain the joint between the end portions of the waterproof sheet, and ultimately the waterproof coating is absolutely contributed to prevent cracking .

The second problem is to apply a primer to a rooftop; Placing and bonding a lower multi-layer sheet so that the hole is placed in the direction of the waterproof sheet in the primer portion where the end portion of the waterproof sheet to be adjacent to the adjacent waterproof sheet meet; Applying a primer to an upper surface of the lower multi-pore sheet; Placing and bonding an upper multi-cavity sheet so that the hole is orthogonal to the hole of the lower multi-hole sheet; Attaching a waterproof sheet to the upper surface of the upper multi-ply sheet in such a manner that the ends of the upper multi-ply sheet meet, and adhering the waterproof sheet to the primer of the upper surface and the upper self- And a step of applying a waterproof paint on the surface of the waterproof sheet to finish the waterproof coating film.

After the installation of the waterproofing, the primer volatile gas generated between the waterproof construction surface of the roof and the waterproof sheet, the moisture caused by the condensation phenomenon, the deterioration of the joint due to the temporal change, and the repeated stretching of one side or both sides of the waterproof sheet Even if the material or primer filled in between the end portions of the waterproof sheet is cracked due to internal and external factors, the upper and lower multi-pore type sheets are stretched or reduced in accordance with the expansion and contraction of the waterproof sheet to maintain the adhesion state to the waterproof sheet, .

Even if the substance or the primer is cracked, the gas and moisture that flow into the gap penetrate into the holes of the multi-pore sheet and eventually release into the atmosphere. Therefore, the waterproof sheet and the waterproof film are not exposed due to gas and moisture.

1 is a perspective view of a multi-
2 is a partially cutaway perspective view of a roof-top composite waterproofing system according to the present invention.
3 is a cross-sectional view of a roof waterproof composite waterproofing system according to the present invention.

1, the multi-pore type sheet 1 is made of a soft synthetic resin film, and a concave-convex spacer 4 is inserted between the inner film 2 and the outer film 3. The outer surface of the inner film 2 and the inner surface of the outer film 3 Are integrally joined to the projections of the spacers (4), and those which are formed in a band shape or made wide are cut to a width suitable for a rooftop composite waterproof system. The concavity and convexity of the spacer 4 is sinusoidal or non sinusoidal in shape in the width direction, and the sinusoidal convexo-concave is more suitable for exhibiting uniform stretchability in the width direction of the multiple sheet. The hole 5 formed between the inner film 2, the sheath 3 and the spacer 4 is used as a deaeration passage after waterproofing work.

A nonwoven fabric (not shown) having a predetermined thickness is coated on the surface of the inner skin 2 or the outer skin 3 of the multi-pore type sheet 1 because the multi-pore type sheet formed of a soft synthetic resin film may deteriorate in adhesiveness. So that the adhesive force between the waterproof sheet 12, 12 and the multi-pore-shaped sheet 1 can be improved.

2 and 3, a primer or a real adhesive 11 (hereinafter referred to as a primer) is applied to the roof surface A of the roof. The lower multi-porous sheet la is laid on and adhered to a portion of the primer 11 where the end portions of the waterproof sheets 12 and 12 to be laid are abutted. The lower multi-ply sheet 1a is of a sufficiently wide width so that the end portions of the waterproof sheets 12 and 12 can be laid comfortably.

Meanwhile, the method of fixing the lower multi-ply sheet 1a without applying the primer 11 to the roof surface A may be a mechanical fixing, that is, a method of fixing the lower multi- It is preferable to apply it according to the surrounding environment.

At this time, the holes 5a of the lower multi-hole-forming sheet 1a put the waterproof sheets 12 and 12 in a direction in which the waterproof sheets 12 and 12 are laid in an abutting manner. When the lower multi-porous sheet 1a is crushed at the end portions of the waterproof sheets 12 and 12 at both sides, the air pocket 6 is formed at least as much as the thickness corresponding to the thickness after being pressed, It is effective to prevent the end portions of the waterproof sheets 12 and 12 from being lifted due to the gas pressure and the moisture pressure so that the gas and moisture that are poured into the air pocket 6 through the deformed holes are communicated in both directions And the elasticity of the waterproof sheets 12 and 12 in the X axis direction.

A primer or a real adhesive 13 (hereinafter referred to as a primer) is applied to the upper surface of the lower multi-pore type sheet 1a, and the upper multi-pore type sheet 1b is laid and bonded. In principle, the upper multi-pore type sheet 1b is cut and applied to a length (based on the length of the pore) that can completely cover the upper multi-pore type sheet 1a.

The upper multi-ply sheet 1b is arranged so that the direction of the hole 5b is orthogonal to that of the lower multi-ply sheet 1a, So that the gas and moisture leaking to the end of the hole 5b can be dispersed into the end of the hole 5b to be spontaneously extinct or diffuse into the atmosphere.

A primer 11 or a real adhesive 14 (hereinafter, referred to as a primer) is applied to the upper surface of the upper multi-pore type sheet 1b and the waterproof sheets 12 and 12 are laid so that the ends thereof meet at the center of the upper surface, 14). Adhesion of the lower multi-ply sheet 1a and the upper multi-ply sheet 1b and adhesion of the waterproof sheets 12 and 12 can be carried out quickly when the primer 11 applied to the roof surface A is adhesive Conduct.

The gap between the end portions of the waterproof sheets 12 and 12 is filled with the sealant 15 and the waterproof coating 16 is applied over the entire upper surface of the waterproof sheets 12 and 12 including the sealant 15, Finish with drying and drying.

When the waterproof sheets 12, 12 are contracted or stretched in the X-axis direction due to seasonal factors, vibration of the construction surface, and the like after completion of the roof-top composite waterproofing system, the upper multiple porous sheet 1b is expanded and contracted, and the waterproof sheets 12, 12 are contracted or stretched in the Y-axis direction, the lower multi-cavity sheet 1a is expanded and contracted.

The expansion and contraction of the upper and lower multi-pore type sheets 1b and 1a contributes absolutely to preventing or preventing the cracks 15 of the substance 15 and further preventing gas and moisture from being released to the waterproof coating 16, do.

Further, the gas and moisture flowing into the lower side of each hole 5a of the lower multi-porous sheet 1a remaining as a fine gap move to the higher side and spontaneously disappear or are dispersed into the holes 5b of the upper multi- And is released into the natural extinction or exhaust.

Such deodorizing action is also effective in preventing lifting of the waterproof sheets 12 and 12 and the waterproof coating 16, suppressing cracks in the sealant 15, and preventing cracking of the waterproof coating film.

The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific disclosure form, for example, to standard material provision, verification, simulation, etc., and is intended to cover all modifications, equivalents, and equivalents which fall within the spirit and scope of the present invention, It should be understood that it includes water and alternatives.

1: Multi-
1a: lower multi-hole sheet
1b: upper multi-cavity sheet
2: endothelium
3: Sheath
4: Spacer
5, 5a, 5b: hole
12, 12: Waterproof sheet
11, 13, 14: Primer
15: reality
16: Waterproof film

Claims (4)

A top multi-ply sheet adhered on top of a lower multi-ply sheet, a top multi-ply sheet adhered on top of the top of the top multi-ply sheet, And a waterproof coating film applied on the surface of the waterproof sheet to a predetermined thickness,
Wherein the upper and lower multi-cavity sheets are formed by inserting and bonding concave-convex spacers between the inner film and the outer film to form holes in the concave portion in the longitudinal direction of the spacer,
Wherein the lower multi-cavity sheet is disposed so as to correspond to the extension axis of the waterproof sheet in the X-axis direction and the upper multi-hole sheet to correspond to the extension axis of the waterproof sheet in the Y-axis direction, respectively.
delete delete Applying a primer to the rooftop; Placing and bonding a lower multi-layer sheet so that the hole is placed in the direction of the waterproof sheet in the primer portion where the end portion of the waterproof sheet to be adjacent to the adjacent waterproof sheet meet; Applying a primer to an upper surface of the lower multi-pore sheet; Placing and bonding an upper multi-hole sheet so that the hole is orthogonal to the hole on the lower multi-hole sheet; Adhering a waterproof sheet to the primer of the upper multi-pore sheet by arranging the waterproof sheet in an abutting manner so that the end of the upper multi-pore sheet meets the end; And waterproof coating is applied to the surface of the waterproof sheet to finish the waterproof coating film.

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