KR101798491B1 - Waterproof work method for rooftop With Ventilation layer and insulating ability - Google Patents

Abstract

The present invention relates to a roof waterproofing method including a ventilation layer and an insulation property, capable of rapidly removing moisture flowing inside from a wall, by obtaining a moving space of air by the ventilation layer. The roof waterproofing method comprises: an insulation layer forming step (S10) of constructing an insulation material (10) on a concrete floor (A) in which a base surface is arranged, wherein the insulation material (10) is constructed on a concrete wall (B) at fixed intervals; a sealant layer forming step (S20) of applying a urethane sealant (20) to a void between the insulation materials (10); a reinforcing tape bonding step (S30) of bonding a reinforcing tape (30) to the upper part of a sealant layer; a tensile tape bonding step (S40) of bonding a tensile tape (40) to the upper part of the reinforcing tape; a ventilation layer forming step (S50) of fixing a metal sheet (50) to the concrete wall (B) by a fixing bolt by vertically installing the metal sheet (50) on the concrete wall (B) and forming the ventilation layer (b) of predetermined intervals on the wall (B) and the metal sheet (50) by installing the metal sheet (50) to be located at an upper end of the insulation material (10); a urethane layer forming step (S60) of applying water-soluble urethane (60) onto the upper surface of the metal sheet (50) and the insulation layer; a top coating layer forming step (S70) of applying an insulation top coating agent (70) to the upper part of the urethane layer; and a ventilation layer cover installing step (S80) of installing a ventilation layer cover (80) on the wall (B) to cover the upper part of the ventilation layer (b).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roof waterproofing method and a roof waterproofing method,

More particularly, the present invention relates to a roof waterproofing method in which a ventilation layer and a ventilation layer are provided. More specifically, a plurality of voids are formed in a heat insulating material and a ventilation layer, The present invention relates to a roof waterproofing method which is provided with a ventilation layer and a heat insulating property to prevent floating of a waterproofing layer caused by water vapor on a concrete floor.

Since the roof of the building is always exposed to the outside, a waterproofing method must be implemented to prevent water from penetrating by rain or snow.

Generally, the waterproofing method is a waterproof sheet method in which a synthetic polymer base sheet such as a rubber asphalt base, a vinyl chloride resin base or the like is adhered to the bottom of the concricting roof by an adhesive, or a waterproof sheet method in which a polyurethane rubber base, There is a waterproofing method.

By this waterproofing method, a waterproof layer is formed on the concrete floor.

However, in the above-described waterproof structure, the waterproof layer is damaged due to aging of the waterproof layer due to external environmental factors such as ultraviolet rays and infrared rays, and water penetrates into the damaged part, When the temperature rises after the rain stops, the water penetrating into the concrete floor evaporates.

 In this case, the evaporated water causes an air pocket phenomenon to float the waterproof layer from the concrete floor, and the floating waterproof layer is easily damaged by the weak impact, so that the waterproof ability is drastically weakened. There was a problem that a lot of time and huge financial expenditure occurred.

When the concrete or mortar constituting the bottom of the concrete is not completely dried during the construction of the concrete floor, the water vapor or gas contained in the concrete is released to generate pressure inside the closed waterproof layer, and the pressure The waterproof layer is floated from the bottom of the concrete to easily damage the waterproof layer.

Korean Patent Registration No. 10-0426899 (Literature 0002) Korean Patent Publication No. 10-1003480

In order to solve the above-mentioned problems, the present invention provides a space for moving air by a heat insulating material compressed to form a plurality of air gaps and a ventilation layer formed on one side of a concrete wall surface to quickly remove moisture or moisture from the wall The object of the present invention is to provide a roof waterproofing method having a ventilation layer and a heat insulating property that can prevent the waterproof layer from damaging the waterproof layer due to water vapor, have.

In the roof waterproofing method having the ventilation layer and the heat insulating property of the present invention, the heat insulating material 10 is applied to the concrete bottom surface A having the ground surface. The heat insulating material 10 is spaced apart from the concrete wall surface B by a predetermined distance (S10);

(S20) of applying a urethane sealant (20) to the gap between the heat insulating material (10) and the heat insulating material (10);

A reinforcing tape attaching step (S30) of attaching the reinforcing tape (30) to the upper part of the sealant layer;

A tensile tape attaching step (S40) of attaching the tensile tape (40) to the upper part of the reinforcing tape;

The metal sheet 50 is vertically installed on the concrete wall surface B and is fixed with the fixing bolts so as to be positioned above the end of the heat insulating material 10 so that the metal sheet 50 and the wall surface B A vent layer forming step (S50) for forming the layer (b);

A urethane layer forming step (S60) of applying a water-soluble urethane (60) to the upper surface of the heat insulating material layer and the metal sheet (50);

A top coating layer forming step (S70) of applying a tea tow top coating agent (70) on the urethane layer;

And a ventilation layer cover step (S80) for installing a ventilation layer cover (80) on the wall surface (B) so as to cover the upper part of the ventilation layer (b).

The present invention can quickly dry water, moisture and the like generated on the concrete wall surface by securing a space for air flow by the air-permeable layer, and water vapor or the like coming from the concrete bottom surface flows into the air- It is possible to minimize the defects after the construction and to maintain the waterproof effect for a long time by preventing the floating of the waterproof layer on the concrete floor surface by water vapor or the like.

Further, the present invention improves the flame retardancy and air permeability which is useful for preventing condensation by a heat insulating material in which a plurality of voids are formed, enhances the connection between the heat insulating material and the reinforcing tape and the tensile tape attached thereto, Can be increased.

In addition, the present invention has an effect of providing a sound insulation effect and a moving space such as water vapor rising from a bottom surface of a concrete by a heat insulating material having a lattice-shaped hollow portion therein.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a rooftop waterproofing method having a ventilation layer and a heat insulating property according to the present invention. FIG.
2 is a cross-sectional view of a roof waterproofing layer applied by a roof waterproofing method having a ventilation layer and a heat insulating property according to the present invention.
3 is a cross-sectional view of a heat insulator according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a schematic view of a roof waterproofing method having a ventilation layer and a heat insulating property according to the present invention, FIG. 2 is a cross-sectional view of a roof waterproofing layer applied by a roof waterproofing method having a ventilation layer and a heat insulating property according to the present invention, Sectional view of a heat insulator according to another embodiment of the present invention.

As shown in FIGS. 1 and 2, the roof waterproofing method having a heat insulating property with the ventilation layer of the present invention is characterized in that a heat insulating material 10 is applied to a concrete floor A having a base surface, A step (S10) of forming a heat insulating material layer to be spaced apart from the surface (B) by a predetermined distance;

(S20) of applying a urethane sealant (20) to the gap between the heat insulating material (10) and the heat insulating material (10);

A reinforcing tape attaching step (S30) of attaching the reinforcing tape (30) to the upper part of the sealant layer;

A tensile tape attaching step (S40) of attaching the tensile tape (40) to the upper part of the reinforcing tape;

The metal sheet 50 is vertically installed on the concrete wall surface B and is fixed with the fixing bolts so as to be positioned above the end of the heat insulating material 10 so that the metal sheet 50 and the wall surface B A vent layer forming step (S50) for forming the layer (b);

A urethane layer forming step (S60) of applying a water-soluble urethane (60) to the upper surface of the heat insulating material layer and the metal sheet (50);

A top coating layer forming step (S70) of applying a tea tow top coating agent (70) on the urethane layer;

And a ventilation layer cover step (S80) for installing a ventilation layer cover (80) on the wall surface (B) so as to cover the upper part of the ventilation layer (b).

In addition, in the step of installing the ventilation layer cover (S80), a predetermined space is formed between the ventilation layer cover (80) and the metal sheet (50) so that the steam introduced into the ventilation layer (b) And a floor cover is installed.

Further, the heat insulating material 10 is formed by extrusion-molding a plurality of through-holes 100 formed of a material selected from the group consisting of polypropylene, high-density polyethylene, and polyester.

Further, the heat insulating material 10 is characterized by being a short plate having a plurality of lattice-like hollow portions 100 'therein.

The water-soluble urethane (60) is characterized by comprising 20 to 30% by weight of an acrylic copolymer, 15 to 30% by weight of a titanium dioxide, and the balance water.

Also, the tea towel coating 70 may include 20-25% by weight of an inorganic filler, 2-4% by weight of propylene glycol, 0.1-1% by weight of ammonia anhydrous liquefied, .

The inorganic filler is also characterized in that it is composed of nano-ceramic particles or a mixture of mica powder or nano-ceramic particles and mica powder.

More specifically, the heat insulating layer forming step (S10) is a step of forming a heat insulating layer (S10) by removing soil, dust, sand and severely corroded portions and uneven portions adhered to the bottom surface (A) of the concrete with a grinder and a grinder A) is cleanly and uniformly polished, the heat insulating property is increased, and at least one material selected from polypropylene, high-density polyethylene and polyester is mixed with a plurality of through holes 100 (100) in an extruder so as to have air permeability, (A) having a base surface is made of a heat insulating material (10) made of a single sheet or a heat insulating material (10) made of a single sheet having a hollow part (100 ' Install it.

The heat insulating material (10) having the plurality of through holes (100) may be formed by providing any one or two or more mixed raw materials selected from polypropylene, high density polyethylene and polyester to an extruder and setting the temperature of the extruder Is melted in a drying chamber at a temperature of 25 to 30 DEG C for about 24 hours so as to prevent the shrinkage and expansion phenomenon of the synthetic resin plate which is formed by integrally forming a plurality of through holes (100) It is cut in the cutting process to be cut.

As shown in FIG. 3, the heat insulating material 10 made of a single prat sheet having the lattice-shaped hollow portion 100 'is manufactured by extruding a polypropylene copolymer resin, and is durable, light, The hollow part 100 'is formed of a material having high chemical resistance and good elasticity and insulation effect and excellent in sound insulation effect to reduce the shock and noise applied at the upper part. The hollow part 100' So that it is possible to prevent the waterproof layer from being lifted or damaged by water vapor or the like together with the air permeable layer (b) described later.

At this time, the heat insulating material 10 is installed at a predetermined distance from the concrete wall surface B so as to be adjacent to the concrete wall surface B and is fixed to the concrete wall surface B to prevent the heat insulating material 10 from flowing It is preferable to fix it with a pin.

The sealant layer forming step S20 forms a gap between the plurality of heat insulating materials 10 installed on the concrete floor A to seal the voids between the heat insulating materials 10 by bonding the urethane sealant to the heat insulating materials 10, To prevent the leakage of the insulation layer and to allow the expansion and contraction of the structure.

The reinforcing tape attaching step S30 attaches the acrylic rubber reinforcing tape 30 in the form of a band so as to cover the entire sealant layer from above the sealant layer to assist the connection between the sealant layer and the heat insulating material 10, By blocking the path, it is possible to further increase the effect of the leakage blocking.

The acrylic rubber-based reinforcing tape shrinks the heat insulating material 10 by self-restoring force against an external impact. When the tape is punctured or frayed due to external physical action, the tape shrinks itself and wedges the hole or the toe portion. Preventing and insulating member 10. [0035]

The tensile tape attaching step S40 is a step of attaching a tensile tape 40 made of a glass fiber material so as to cover all of the reinforcing tapes at the upper portion of the reinforcing tape 30 and a plurality of glass fibers having a large tensile strength And is prevented from being broken by an external force between the heat insulating materials 10 even when applied with an external force which is very large in internal resistance and is adhered so that the adhesion of the reinforcing tape 30 can be further enhanced do.

The ventilation layer forming step S50 forms a ventilation layer b perpendicularly to the concrete wall surface B at a predetermined interval to form a space for discharging water vapor or moisture coming from the concrete floor surface A The metal sheet 50 is vertically positioned above the end of the heat insulating material 10 provided at a predetermined distance from the concrete wall surface B so as to be fixed to the concrete wall surface B with a fixing pin, The seat 50 is fixedly installed on the concrete wall surface B at a predetermined interval.

At this time, the end portions of the heat insulating material 10 provided on the bottom surface A are spaced apart from the concrete wall surface B by a predetermined distance, and the end portions of the heat insulating material 10 spaced apart from the concrete wall surface B by a predetermined distance The ventilation layer b is formed on one side of the concrete wall surface B with the metal sheet 50 installed so that water vapor or moisture coming from the concrete bottom surface A flows into the ventilation layer b, It is prevented from being lifted or damaged by water vapor or the like, and the moving space of the air is ensured so that the moisture or moisture introduced from the wall surface can be quickly removed.

The connecting portion of the heat insulating material 10 and the metal sheet 50 is coated with a sealant, and then adhered in the order of a reinforcing tape and a tensile tape so as to block the leakage of the connection portion between the heat insulating material and the metal sheet.

The urethane layer forming step S60 is a step of forming a urethane sealant 20, a reinforcing tape 30 and a heat insulating material 10 on which a tensile tape 40 is formed and an acrylic copolymer 20 To 30% by weight of titanium dioxide, 15 to 30% by weight of titanium dioxide, and water-soluble urethane 60 composed of the remainder water to form a waterproof layer.

Since the water-soluble urethane (60) uses an acryl-based resin capable of replacing the function of a plasticizer, the elasticity does not deteriorate over time, and unlike silicon used for conventional waterproofing, It is more durable than other acrylic materials.

In the present invention, the acrylic copolymer should be added in a range of 20-30% by weight. When the acrylic copolymer is added in an amount of less than 20% by weight, If it exceeds, it is difficult to coat due to its strong viscosity, so that it is preferably added in the above range.

In addition, the titanium dioxide is used as a pigment, that is, a colorant, and is preferably added in an amount of 15-30% by weight in consideration of the amount of the acrylic copolymer.

The water-soluble urethane (60) composed of the acrylic copolymer and titanium dioxide has air permeability even when the surface of the object to be coated contains moisture, so that even when water is vaporized by heat, moisture permeates through the water- It is possible to prevent the rising and falling phenomenon.

When the urethane layer is dried, 20 to 25% by weight of an inorganic filler, 2 to 4% by weight of propylene glycol, 0.1 to 1% by weight of ammonia anhydrous liquefied ammonia, % By weight, and the remainder water is uniformly applied to the top of the urethane layer so that a thin top coating layer is formed on the urethane layer.

The inorganic filler is composed of nanoceramic particles or mica powder or a mixture of nano-ceramic particles and mica bag to ensure heat shielding property. In the case of dark color, the inorganic filler has a heat-shielding effect capable of reflecting more than 50% It has high elasticity and can cope with shrinkage and expansion of concrete surface which is deformed according to the season. It is composed of eco-friendly material and is safe for application because it has less odor and is not harmful to the human body. Can be shortened.

In the present invention, the inorganic filler is added in an amount of 20 to 25% by weight. When the inorganic filler is added in an amount of less than 20% by weight, the effect is insignificant.

The propylene glycol is hygroscopic but not volatile, and is stable to heat and light but is a flammable material. It is used as a solvent to dissolve pigments, essential oils and resins and to mix them with water. It acts as a softener for paints and prevents preservatives, mold propagation and fermentation .

In the present invention, the propylene glycol is added in an amount of 2-4% by weight so as to serve as an antifungal agent. If the propylene glycol is added in an amount of less than 2% by weight, there is no effect. If the propylene glycol is more than 4% by weight, .

The liquefied anhydrous ammonia is a colorless transparent liquid having properties similar to water and mainly used as a solvent, and a small amount is added in the present invention.

The ventilation layer cover 80 is installed on the wall surface B so as to cover the upper portion of the ventilation layer b so as to prevent inflow of rainwater or foreign matter into the ventilation layer cover 80, And a predetermined spacing space is formed between the metal sheets (50).

The predetermined space formed between the ventilation layer cover (80) and the metal sheet (50) is such that water vapor or the like introduced into the ventilation layer (b) is smoothly discharged to the outside and the microcracks in the bottom surface of the concrete and water- Thereby preventing breakage.

At this time, the ventilation layer cover 80 is firmly fixed to the concrete wall surface B with an anchor bolt, and a urethane sealant is applied to a corner portion between the ventilation layer cover 80 and the concrete wall surface B, .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many obvious changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

10- Insulation
20-urethane sealant
30-reinforcement tape
40-tensile tape
50-metal sheet
60-Water-soluble urethane
70-Car Top Towel Coating
80-vent floor cover
A-Concrete floor
B-Concrete wall surface
b- aeration layer

Claims (7)

A step S10 of forming a heat insulating material 10 on the concrete floor A having a rough surface and spaced a predetermined distance from the concrete wall surface B of the heat insulating material 10;
(S20) of applying a urethane sealant (20) to the gap between the heat insulating material (10) and the heat insulating material (10);
A reinforcing tape attaching step (S30) of attaching a reinforcing tape (30) made of an acrylic rubber material to the upper part of the sealant layer;
A tensile tape attaching step (S40) of attaching a tensile tape (40) made of a glass fiber material to an upper portion of the reinforcing tape;
The metal sheet 50 is vertically installed on the concrete wall surface B and is fixed with the fixing bolts so as to be positioned above the end of the heat insulating material 10 so that the metal sheet 50 and the wall surface B A vent layer forming step (S50) for forming the layer (b);
A urethane layer forming step (S60) of applying a water-soluble urethane (60) to the upper surface of the heat insulating material layer and the metal sheet (50);
A top coating layer forming step (S70) of applying a tea tow top coating agent (70) on the urethane layer;
And a ventilation layer cover step (S80) for installing a ventilation layer cover (80) on the wall surface (B) so as to cover the upper part of the ventilation layer (b)
In the step of installing the ventilation layer cover (S80), a predetermined space is formed between the ventilation layer cover (80) and the metal sheet (50) so that water vapor introduced into the ventilation layer (b) The cover is installed,
Characterized in that the heat insulating material (10) is formed by extrusion molding a material having a plurality of through holes (100) formed of a material selected from the group consisting of polypropylene, high density polyethylene and polyester, Waterproofing method.
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