KR100488626B1 - Waterproof structure by synthetic resin and insulation film - Google Patents

Abstract

The present invention relates to a waterproof layer structure using a synthetic resin waterproof film and an insulating film, the object of which is to form a waterproof film layer on the surface of the concrete slab, to introduce a waterproof layer structure bonded to the polyethylene insulation film layer on the upper surface of the insulating layer thereon By coating the coating film waterproof layer with an impermeable, weather-resistant, water-resistant, the coating layer to improve the waterproof effect and to provide a waterproof layer structure that can reduce the fatigue and breakage of the waterproof layer.

The structure of the present invention is characterized in that the concrete slab layer, waste resin based primer, the primary coating film waterproofing layer, the reinforcing core layer, the secondary coating film waterproofing layer and the insulating film layer and the heat insulating layer are laminated in this order, the insulating film layer accordingly This pressurization reduces the fatigue and fracture of the waterproofing layer by dispersing stress during cracking and intensive stress transfer due to drying and shrinking of the concrete layer, and the insulating layer has the effect of prolonging the heat insulation effect of the building and the durability life of the waterproofing layer. .

Description

Waterproofing structure by synthetic resin and insulation film {Waterproof structure by synthetic resin and insulation film}

The present invention relates to a waterproof coating layer structure constructed on the roof concrete slab surface of a general building, and more particularly, to a waterproof layer structure in which a coating waterproof layer is formed on the concrete slab surface, and an insulating film layer and a heat insulating layer are adhered to the upper surface thereof. .

Conventionally, coating film waterproofing materials used for roofs of general buildings or slabs of apartment houses are mainly composed of urethane, rubber asphalt, inorganic elastic coating, acrylic rubber, and the like.

These coating waterproofing materials are mainly blended and stirred at a predetermined ratio in the construction site, and then laminated on the concrete slab base surface several times with rubber, roller, spray, etc. to form a waterproofing layer.

There are some kinds of chemical reactions at the same time as coating water-resistant coatings, but oil-soluble and water-soluble systems require long time drying and curing time because curing proceeds as the solvent or water evaporates and dehydrates.

Therefore, it is sensitive to external environmental factors such as poor curing or loss of the waterproof layer due to low temperature or sudden rain.

In particular, since the pressed concrete layer is poured as it is after the waterproof layer is dried and cured, the waterproof layer and the pressed layer are in close contact, or there is a high risk of damage during construction.

Due to the characteristics of the material, the coating waterproofing material has a certain flexibility and soft properties, so there is a high risk of abrasion and damage during the work or after construction.

In addition, large horizontal and roof layers are affected by ultraviolet rays, temperature and humidity as they are exposed to external climates for a long time.

At this time, the thick pressed concrete layer causes cracking due to hydration reaction, drying, shrinkage, and repeated behavior.

These cracks do not end with the pressed concrete layer itself, but are delivered to the flexible coating layer that is tightly adhered as it is, which causes breakage of the waterproof layer or promotes short-term deterioration, resulting in leakage accidents or shortening of life.

Moreover, due to the horizontal behavior of the pressed concrete layer, a large shear stress acts on the parapet corners of the end portions, causing cracking or deformation of the structure and rapidly deteriorating the waterproof layer.

An object of the present invention for solving the above problems is to form a coating waterproof layer on the surface of the concrete slab, and to introduce a waterproof layer structure bonded to the polyethylene insulating film layer on the upper surface and to construct a heat insulating layer thereon the problem of the conventional coating film waterproofing material and The present invention has been completed by knowing that the problem of the coating waterproofing method can be solved. Therefore, the present invention is to provide a waterproof layer structure that can be coated with an insulating film having a strong water impermeability, weather resistance, water resistance to improve the waterproof effect and to reduce the fatigue and breakage of the waterproof layer.

Waterproofing layer structure of the present invention for achieving the above object is a reinforced slab layer (polyester, glass fiber), secondary coating film waterproofing layer and insulating film layer (PE film) on the concrete slab layer, waste paper resin primer and the primary coating film waterproofing layer And it is achieved by sequentially laminating insulation (styrofoam), and providing a waterproof layer structure formed by covering the pressed concrete on the top surface.

In the construction of the present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects in the waterproof layer structure that is laminated between the concrete slab layer and the pressing mortar layer of the building,

A primer layer made of a waste paper resin composition applied to the bottom concrete slab layer, a coating film waterproof layer made of a primary synthetic resin composition applied on the layer, and adhered to the layer, among polyester and glass fiber reinforcement cloths. With a structure in which a reinforcing core layer consisting of a selected one, a coating film waterproof layer consisting of a secondary synthetic resin composition applied on the layer, an insulating film layer of polyethylene material coated on the layer, and a heat insulating layer laminated on the layer are sequentially stacked Characterized in that made.

The polyethylene insulation film layer is characterized in that consisting of 0.3 ~ 0.5mm thickness.

The synthetic resin composition constituting the primary to secondary coating film waterproof layer is 15 to 30% by weight of styrene butadiene styrene (SBS), a thermoplastic elastomer, 1 to 2% by weight of dioctylphthalate, a plasticizer, and 10 to 10 of coumarone indene resin. 25% by weight, 10-25% by weight of petroleum resin (C ₉ system), 2-4% by weight of carbon black, 2-5% by weight of rubber powder of 150-200 mesh as a filler, and calcium carbonate 10 serving as a filler It is characterized in that it is composed of-30% by weight and 30-50% by weight xylene (Xylene).

The reinforcing core layer is characterized in that configured to a thickness of 0.05 ~ 0.1mm.

Synthetic resin composition constituting the primer layer is 60 to 70% by weight of xylene, 20 to 30% by weight of waste knoll resin, 5 to 10% by weight of coumarone indene resin, SBS (styrene butadiene styrene) is a thermoplastic elastomer resin ) 1 to 3% by weight, characterized in that the composition.

The heat insulation layer is characterized in that the styrofoam having a thickness of 3 to 10cm.

Hereinafter, the configuration and the operation of the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of the waterproof layer structure of the present invention, the waterproof construction method of the present invention is as follows.

First, a waste resin based primer is applied to the upper surface of the concrete slab layer.

The waste lining resin-based primer is prepared by using 60 to 70% by weight of xylene, 20 to 30% by weight of waste xolol, 5 to 10% by weight of coumarone indene resin, and 1 to 3% by weight of thermoplastic elastomer SBS (Styrene Butadiene Styrene). Preference is given to using those prepared by stirring.

A synthetic resin coating film waterproofing material is applied thereon to form a primary coating film waterproofing layer.

The synthetic resin coating waterproofing material used for the primary coating waterproofing layer is 15 to 30% by weight of thermoplastic elastomer SBS (styrene butadiene styrene) and 1 to 2% by weight of dioctylphthalate as a plasticizer,

Then, 10-25 wt% of coumarone indene resin, 10-25 wt% of petroleum resin (C ₉ system), 2-4 wt% of carbon black, and 2-5 wt% of 150-200 mesh rubber powder as filler It is preferable to use 10-30% by weight of calcium carbonate, which plays a role, dissolved in 30-50% by weight of xylene, followed by stirring.

Examples of the method for producing a specific synthetic resin coating waterproofing material are as follows;

Add 50% by weight of xylene to the reactor and adjust the temperature of the reactor to about 80 ° C, add 1% by weight of dioctylphthalate as a rubber plasticizer, add 10% by weight of coumarone indene resin and stir, and add petroleum resin (C ₉ Add 10% by weight and stir for 10 minutes to dissolve completely.

15 wt% of SBS is added thereto, stirred for 1 hour to completely dissolve, and then 2 wt% of rubber powder and 2 wt% of carbon black are added thereto.

Then, after adding 10% by weight of calcium carbonate, filled for about 30 minutes and stirred well to prepare a synthetic resin coating waterproofing material.

Then, immediately before curing of the primary coating film waterproofing layer, one selected from polyester-based and glass fiber-based reinforcing cloths (0.05-0.1 mm) is attached to form a reinforcing core layer.

The reinforcing material is inserted in the middle of the waterproof layer in order to reduce the creep property and maintain a more uniform waterproof film, which is likely to occur on the upper surface and the base surface of the waterproof layer.

Subsequently, a synthetic resin coating film waterproofing material of the same material is applied secondly to form a secondary coating film waterproofing layer.

After coating the second coating layer waterproof layer is cured to cover the insulating film layer of polyethylene material 0.3 ~ 0.5mm thickness to be in close contact with the coating layer waterproof layer.

In comparison with this, in the waterproof layer structure of the present invention, an insulating film layer is formed, and as the insulating film, a polyethylene material having a thickness of 0.3 to 0.5 mm is possible.

Insulating film layer is coated film waterproof layer by dispersing and mitigating stress when the load is transferred directly or indirectly to the waterproof layer due to cracking caused by movement or concentrated stress due to temperature difference of the pressed concrete layer and vehicle movement. It reduces fatigue and prolongs durability.

In addition, by forming an insulating layer made of polyethylene between the pressed concrete layer and the waterproof layer, it is possible to maintain a safe waterproof membrane for a long time without damaging the waterproof layer even if any crack or deformation occurs.

In addition, the insulating layer of the polyethylene film is effective in waterproofing because it is impervious to water, weather resistance, and water resistance, and can exhibit even the performance of the water barrier when moving or contacting water, and it can be relatively simple after removing the pressing layer during local repair work. Leakage detection and water retention are more easy.

When the insulation film layer is completed, a product of about 3 to 10 cm of insulation material (styrofoam) is laminated to give an insulation effect thereon, and a protective mortar or pressed concrete is formed thereon.

Another feature of this construction method is the use of insulation layer, which is a styrofoam, which serves to protect the waterproof layer, to insulate the building, and to prevent building temperature rise from direct sunlight on the slab layer.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the waterproof layer structure of the present invention forms an insulating layer made of polyethylene material between the pressed concrete layer and the waterproof layer and uses a heat insulating layer to reduce stress during drying and shrinkage of the pressed concrete layer and transfer of concentrated stress. Dispersion reduces fatigue and breakage of the waterproof layer, and has the advantage of extending the thermal insulation effect and even durability.

1 is a cross-sectional view of the waterproof layer structure of the present invention.

<Description of the symbols for the main parts of the drawings>

(1): primer layer (2, 4): coating film waterproofing layer

(3): reinforcing core layer (5): insulating film layer

(6): heat insulation layer

Claims (6)

In the waterproof layer structure configured to be laminated between the concrete slab layer and the pressing mortar layer of the building, Primer layer (1) consisting of a waste resin composition based on the concrete slab layer forming a bottom surface, A coating film waterproofing layer (2) made of a primary synthetic resin composition applied on the layer, Reinforcing core layer (3) attached to the layer and made of one selected from polyester-based and glass fiber-based reinforcement, A coating film waterproofing layer 4 made of a secondary synthetic resin composition applied on the layer, An insulating film layer 5 made of polyethylene coated on the layer, Waterproof layer structure using a synthetic resin coating film waterproofing material and insulating film, characterized in that the heat insulating layer (6) laminated on the layer made of a laminated structure sequentially. The method of claim 1, The insulating film layer of the polyethylene material is a waterproof layer structure using a synthetic resin coating film waterproofing material and an insulating film, characterized in that consisting of 0.3 ~ 0.5mm thickness. The method of claim 1, The synthetic resin composition constituting the primary to secondary coating film waterproof layer is 15 to 30% by weight of styrene butadiene styrene (SBS), a thermoplastic elastomer, 1 to 2% by weight of dioctylphthalate, a plasticizer, and 10 to 10 of coumarone indene resin. 25% by weight, 10-25% by weight of petroleum resin (C ₉ system), 2-4% by weight of carbon black, 2-5% by weight of rubber powder of 150-200 mesh as a filler, and calcium carbonate 10 serving as a filler A waterproof layer structure using a synthetic resin coating waterproofing material and an insulating film, characterized in that it is composed of ~ 30% by weight and 30-50% by weight of xylene. The method of claim 1, The reinforcing core layer is a waterproof layer structure using a synthetic resin coating film waterproofing material and an insulating film, characterized in that composed of 0.05 ~ 0.1mm thickness. The method of claim 1, Synthetic resin composition constituting the primer layer is 60 to 70% by weight of xylene, 20 to 30% by weight of waste knoll resin, 5 to 10% by weight of coumarone indene resin, SBS (styrene butadiene styrene) is a thermoplastic elastomer resin ) Waterproofing layer structure using a synthetic resin coating waterproofing material and an insulating film, characterized in that composed of 1 to 3% by weight. The method of claim 1, The heat insulation layer is a waterproof layer structure using a synthetic resin coating film waterproofing material and an insulating film, characterized in that the styrofoam of 3 ~ 10cm thickness.