KR102031977B1 - Urethane Multi Layer Complex Sheet with Aluminum and EVA and Complex Waterproofing Method Thereof - Google Patents

Abstract

The present invention relates to a urethane multi-composite sheet including an aluminum layer and EVA, which has excellent waterproof effect and durability, and to a composite waterproofing method using the same. The urethane multi-composite sheet of the present invention comprises: a urethane EVA layer made of a material including recycled polyurethane and ethylene vinyl acetate copolymer; a polyester layer thermally bonded to a lower portion of the urethane EVA layer during manufacturing; and an aluminum layer bonded to a lower portion of the polyester layer by a urethane adhesive.

Description

Urethane Multi Layer Complex Sheet with Aluminum and EVA and Complex Waterproofing Method Thereof}

The present invention relates to a urethane multi-composite sheet containing an aluminum layer and EVA, and a composite waterproofing method using the same. More specifically, the present invention is made of a material comprising recycled polyurethane and an ethylene vinyl acetate copolymer. In order to improve the urethane EVA layer with embossing, and heat-bonded during the manufacturing of the lower portion of the urethane EVA layer so that the urethane EVA layer can cope without wrinkles when the expansion and contraction caused by heat, the urethane EVA layer to the outside impact The urethane multi-composite sheet consists of a polyester aluminum layer which prevents damage from damage and can be used simultaneously for civil engineering and construction, and the urethane multi-composite sheet is bonded to the bottom layer by using a low foam urethane foam adhesive. The present invention relates to a composite waterproof method for impregnating and coating urethane top coat.

In general, a building such as a concrete structure leaks and condensation due to cracking over time, and as a result, durability decreases, thereby promoting aging. In particular, in recent years, as the building is enlarged, a large number of flat rooftops have been constructed. In the case of a flat rooftop, there is a high possibility of leakage since rainwater is structurally easy to collect.

In addition, when planting on a civil engineering structure or building roof, waterproofing and waterproofing are essential.

In addition to urethane waterproofing, asphalt waterproofing, and waterproofing of coatings as a waterproofing method for building structures, sheet waterproofing has the advantage of adapting well to external climatic conditions and can be easily installed on site, such as synthetic rubber or synthetic resin. The waterproofing effect is obtained by successively arranging waterproof sheets having a predetermined width and length of 0.8 to 3.0 mm in thickness based on polymer or rubberized asphalt.

Synthetic polymer waterproof sheet is divided into vulcanized rubber system, unvulcanized rubber system, vinyl chloride resin system, ethylene vinyl acetate resin system according to the main components, and homogeneous sheet and composite sheet according to the form. Recently, the dimensional stability, strength and mechanical properties of the sheet In order to improve physical properties, a composite sheet with fiber cloth or reinforcement cloth is widely applied.

Conventionally developed composite sheet waterproofing methods are mainly to prevent the structure from deteriorating due to cracks or leaks in the waterproofing layer due to continuous external impact on the building structure or changes in environmental conditions, and to improve construction economy and convenience. In addition to improving the physical properties of the waterproof sheet raw material itself, as well as improving the bonding structure of each component of the composite waterproof sheet.

It is necessary to develop a urethane multi-composite sheet that can be applied to building structures such as rooftop slabs and rooftop slabs, and to civil engineering structures of bridge decks in underground tunnels and to recycle waste using recycled urethanes such as shoe soles. Was done.

1. Korean Registered Patent Publication No. 10-0760473 (Registration date: September 14, 2007) Polyurethane multilayer waterproof sheet 2. Korean Registered Patent Publication No. 10-1469954 (Registration Date: December 01, 2014) Manufacturing method of synthetic polymer composite waterproof sheet using EVA and waterproof method using the sheet 3. Korean Registered Patent Publication No. 10-1048014 (Registration Date: July 04, 2011) Waterproof sheet and its manufacturing method and waterproof method using the same 4. Korean Patent Publication No. 10-1710604 (Registration date: February 21, 2017) Waterproofing method of roof roof slab using urethane resin

The present invention for solving the above problems is made of a recycled polyurethane as the main raw material and made of a material comprising a new polyurethane and ethylene vinyl acetate copolymer has a flexible strength and embossed urethane EVA to improve adhesion to the upper The layer and the thermal bonding in the lower portion of the urethane EVA layer is made so that the urethane EVA layer can cope with wrinkles during the expansion and contraction caused by heat, and prevents the urethane EVA layer from damage from external impact, Urethane multi-composite sheet composed of polyester aluminum layer that acts as a barrier to be used simultaneously for construction, and urethane multi-composite sheet is bonded to the bottom layer using a low-foaming urethane foam adhesive and impregnated urethane top coat on top To provide a waterproof method.

Urethane multi-composite sheet of the present invention is made of a material containing recycled polyurethane and ethylene vinyl acetate copolymer to prevent damage to the waterproof layer due to the behavior and shrinkage expansion of the base layer, the tensile strength and elongation has a predetermined or more, Urethane EVA layer which improves the adhesive force with the upper coating (를) and is in charge of kitchen water; The thermal bonding at the bottom of the urethane EVA layer allows the urethane EVA layer to cope with wrinkles when the expansion and contraction occurs due to heat, and prevents the urethane EVA layer from damage from external impact, and simultaneously for civil engineering and construction It consists of a layer of polyester aluminum that acts as a repellent for use.

The urethane EVA layer is a recycled polyurethane for recycling, a new polyurethane to complement the performance of the recycled polyurethane, and an ethylene vinyl acetate copolymer for improving the impact resistance and stress cracking resistance by giving flexibility to the recycled polyurethane. (Ethylene-Vinyl Acetate Copolymer: EVA) comprising a urethane EVA composition.

The polyester aluminum layer is thermally bonded to the lower portion of the urethane EVA layer, the polyester layer to prevent damage to the urethane EVA layer from external impact; Bonded with a urethane adhesive on the lower portion of the polyester layer, it is made of an aluminum layer that can cope with the polyester layer so as not to be wrinkled when the expansion and contraction occurs due to heat, and can be used simultaneously for civil engineering and construction.

The urethane EVA composition is based on 100 parts by weight of recycled polyurethane for recycling of polyurethane, 5 to 10 parts by weight of a new polyurethane for complementing the performance of the recycled polyurethane; 30 to 40 parts by weight of an ethylene vinyl acetate copolymer for giving flexibility to the regenerated polyurethane to improve impact resistance and stress cracking resistance; Surfactants for foam stability during molding, plasticizers to facilitate molding at high temperatures, crosslinking agents to improve strength and heat resistance and moisture resistance, thickeners for improving the stability and film-forming properties of the foamed urethane EVA layer. 0.1 to 5 parts by weight of an additive comprising one or two or more of a pigment for stabilizing and coloring to ensure a homogeneous and defect free foam structure of microbubbles.

The urethane EVA layer has a thickness of 2.0 ~ 2.5mm, the polyester layer has a weight of 25 ~ 40g per 1M2, the aluminum layer has a thickness of 0.3 ~ 0.8mm.

The upper portion of the urethane EVA layer is impregnated with a middle layer or a top layer applied to the top to improve the adhesive strength of the middle layer or the top layer, a square embossing of 1.5 ~ 2.5mm size is formed.

The urethane multi-composite sheet is melted by inserting a chipped urethane EVA composition into a predetermined size in an extruder, and then molded in a molding machine to produce a urethane EVA sheet forming the urethane EVA layer, and is fed to the lamination roller after the embossing treatment in a later step, On the other side, the polyester aluminum sheet constituting the polyester aluminum layer is unwound in a unwinding roller, thermally bonded in a lamination roller, and then rolled up in a unwinding roller.

The surfactant is a silicone polyether copolymer or organopolysiloxane, and the plasticizer is naphthenic mineral oil, polypropylene, polybutene, polyisobutylene, polyisoprene oligomer, polybutadiene oligomer, benzoate ester, phthalate, adipate and One or two or more of the hydrocarbon oils are used, and the stabilizer uses one of sterically hindered phenols, thioethers, substituted benzotriazoles and sterically hindered amines of the type HLS (Hindered Amine Light Stabilizer) as antioxidants, The crosslinking agent is a diisocyanate, a bisepoxy compound, a bisethyleneimine compound, a divinyl compound including divinylbenzene and 1,5-hexadiene-3-yne, hexatriene, divinylether and divinylsulphone, allyl phthalate 2, Any of the diallyl compounds including 6-diacrylphenol and diallylcarbinol; Abies acid, abies acid ester, terpene resin, terpene phenol resin, phenol-modified styrene polymer, phenol-modified -methyl styrene polymer, hydrocarbon resin, tall oil resin, colophonium resin, pentaerythritol colophonium resin Or an aromatic-modified hydrocarbon resin, wherein the pigment uses an inorganic pigment and includes iron oxide.

The composite waterproofing method includes arranging corners and corners, arranging corners, corners, parapets and floors, removing impurities and latencies, and then cleaning and cleaning the surface of the base surface; Applying a primer to the base layer including the bottom surface and the wall parapet to improve adhesion; A multi-composite sheet capturing step of capturing the urethane multi-composite sheet on the bottom surface to overlap a predetermined width; Applying a multi-foamed urethane foam adhesive to a bottom surface and attaching the urethane multiple composite sheets to overlap each other by a predetermined width; A multi-composite sheet thermal bonding step of welding the overlapping portions of the urethane multi-composite sheet with a hot air welding machine to thermally bond the urethane multi-composite sheet and the adjacent urethane multi-composite sheet; The fiberglass sheet is attached to the wall of the parapet part so that the fiberglass sheet covers a certain width of the urethane multilayer sheet on the bottom, or the urethane multilayer sheet attached to the wall and the urethane multilayer sheet attached to the floor are A parapet sheet attaching step of attaching the urethane multi-composite sheet to a wall at a predetermined distance from the bottom surface to be separated; When the fiber glass sheet is attached to the wall, the wall urethane is applied to the wall of the parapet part, or when the urethane multi-composite sheet is attached to the wall, the corners of the wall urethane multi-composite sheet and the floor urethane multi-composite sheet meet. A wall urethane coating step of applying wall urethane; The intermediate layer is applied to the exposed bottom surface to form a middle layer, and then the top coat is formed to form a top layer. The non-exposed bottom surface includes a middle layer and a top layer forming step of forming a top layer by applying a urethane top coat. .

The multi-composite sheet attaching step includes: a multi-rolled sheet temporary rolling step of rolling the first urethane multi-composite sheet of the first edge to be bonded to the base layer; An adhesive applying step of rolling the first urethane multi-composite sheet at the first edge and applying an adhesive to the bottom surface for attachment of the urethane multi-composite sheet to the bottom surface; Attaching the individual multiplex composite sheet to attach the first urethane multiplex sheet to the bottom surface while unwinding the dried first urethane multiplex sheet; In order to attach the second urethane multi-composite sheet, the temporary rolling step of the multi-composite sheet and the individual multi-composite sheet attaching step of attaching the second urethane multi-composite sheet to overlap a predetermined width after performing the adhesive application step are successively repeated. The multi-composite sheet is made of repeated steps.

In the adhesive application step, the adhesive uses a low foaming urethane foam adhesive.

The adhesive coating step is not affected by the behavior of the base layer and the shrinkage expansion of the urethane multilayer composite sheet, and the edges of the urethane multilayer composite sheet are completely adhered to the base layer and only a portion of the inside is attached to the base layer. , The low-foam urethane foam adhesive is sprayed in a straight line so that the edge of the exposed base layer is rectangular, and the center portion is sprinkled with zigzag.

The intermediate degree for the exposed bottom surface is to apply a semi-hard superhard polyurea or polyurethane on the fiberglass sheet and the urethane multi-composite sheet to integrate the fiber glass sheet and polyurea and the urethane multi-composite sheet and polyurea. .

The top coat for the exposed bottom surface is coated with topcoat polyurea.

The semi-hard carbonaceous polyurea is a blend of 100 parts by volume of a curing agent having a viscosity of 600 to 800 cps35 ° C. and a specific gravity of 1.02 ± 0.1 with respect to 100 parts by volume of a viscosity of 900 to 1100 cps / 35 ° C. and a specific gravity of 1.12 ± 0.1. Apply 0.5 ~ 1.5kg / m2 on top of sheet and urethane multi-composite sheet.

The topcoat polyurea is 90-99.8% by weight of isocyanate prepolmer and one or two or more of zinc oxide, magnesium oxide, tin oxide, aluminum oxide, titanium oxide, silicon oxide and magnesium silicate for UV protection. The subject consisting of 0.2 to 10% by weight of a composition comprising a; 1.0-2.0 kg / m <2> is apply | coated to the upper part of the said intermediate | middle layer using the 2-component coating material which consists of a hardening | curing agent of a polyether amine compound.

The problem to be solved of the present invention can be solved by the above-described urethane multi-composite sheet and the composite waterproofing method using the same.

According to the urethane multi-composite sheet of the present invention and the composite waterproofing method using the same, it is possible to recycle waste materials using recycled urethane as the main raw material, and the difference between performance and new urethane is improved by improving the strength and flexibility of the sheet using EVA and a modifier. It prevents damage from external impacts and can act as a root for use at both civil and building applications, so it can be used for multi-purpose applications, but it has a low material cost and can be easily bonded to the bottom layer using a low-foam urethane foam adhesive. The construction cost is low, there is an excellent waterproof effect and durability.

1 is a cross-sectional view of the urethane multiple composite sheet of the present invention
Figure 2 is a manufacturing process of the urethane multi-composite sheet of the present invention
Figure 3 is a flow chart of the composite waterproof method using a urethane multiple composite sheet of the present invention
Figure 4 is an illustration of the actual operation of the multi-seat sheet squeeze step according to the composite waterproof method using the urethane multi-composite sheet of the present invention
Figure 5 is an exemplary operation of the adhesive coating step of the multi-composite sheet attachment step according to the composite waterproof method using a urethane multi-composite sheet of the present invention
Figure 6 is a multi-layer composite sheet thermal bonding step according to the composite waterproof method using a urethane multi-layer composite sheet of the present invention
7 is a cross-sectional view of the fiber glass sheet installed on the wall according to the composite waterproofing method using the urethane multiple composite sheet of the present invention and coating urethane for the wall, when the bottom surface is exposed
8 is a cross-sectional view of the fiber glass sheet installed on the wall according to the composite waterproof method using the urethane multiple composite sheet of the present invention and coating urethane for the wall, when the bottom surface is not exposed
9 is a cross-sectional view when the wall sheet and the wall urethane is applied to the wall according to the composite waterproof method using the urethane multiple composite sheet of the present invention, the bottom surface is exposed
FIG. 10 is a cross-sectional view of a wall sheet and a wall urethane coated on the wall according to the composite waterproof method using the urethane multi-composite sheet according to the present invention, when the bottom surface is not exposed.

First, prior to entering the detailed description of the present invention, if it is determined that the detailed description of the known technology or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the terms to be described later are defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or the operator, and the definition is "a urethane multi-composite including aluminum layer and EVA according to the present invention. Sheet and composite waterproofing method using the same "will be made based on the contents throughout the specification.

Hereinafter, a preferred embodiment of the "urethane multilayer composite sheet containing an aluminum layer and EVA and a composite waterproofing method using the same" according to the present invention will be described in detail.

The following examples are merely illustrated to illustrate the present invention and are not intended to limit the scope of the present invention.

1 is a cross-sectional view of the urethane multi-composite sheet of the present invention, Figure 2 is a manufacturing process diagram of the urethane multi-composite sheet of the present invention, Figure 3 is a flow chart of the composite waterproof method using the urethane multi-composite sheet of the present invention, Figure 4 FIG. 5 is an exemplary view illustrating the actual operation of the multi-seat sheet squeeze step according to the composite waterproofing method using the urethane multi-composite sheet of the present invention, and FIG. 6 is an exemplary view of the actual working step, Figure 6 is an exemplary view of the multi-composite sheet thermal bonding step according to the composite waterproof method using the urethane multi-composite sheet of the present invention, Figure 7 is a composite waterproof using a urethane multi-composite sheet of the present invention The fiberglass sheet is installed on the wall according to the construction method and the urethane for wall is applied, and when the bottom surface is exposed, it is a cross-sectional view of the construction, Figure 8 is the right of the present invention Installation of fiberglass sheet and coating urethane for wall on the wall according to the composite waterproofing method using the burnt multi-layer composite sheet, and a cross-sectional view when the bottom surface is not exposed, Figure 9 is a composite waterproof using the urethane multiple composite sheet of the present invention Wall sheet and wall urethane is applied to the wall according to the construction method, when the bottom surface is a cross-sectional view of the construction, Figure 10 is a wall sheet and wall for the wall according to the composite waterproof method using the urethane multiple composite sheet of the present invention It is a construction sectional view when urethane is apply | coated and a bottom surface is unexposed.

As shown in FIG. 1, the urethane multi-composite sheet of the present invention is made of a material including recycled polyurethane and ethylene vinyl acetate copolymer to prevent breakage of the waterproof layer due to the behavior of the base layer and shrinkage expansion. And urethane EVA layer having a certain elongation rate or more, and improves the adhesion to the upper coating (를) and is in charge of kitchen water; The thermal bonding at the bottom of the urethane EVA layer allows the urethane EVA layer to cope with wrinkles when the expansion and contraction occurs due to heat, and prevents the urethane EVA layer from damage from external impact, and simultaneously for civil engineering and construction It consists of a layer of polyester aluminum that acts as a repellent for use.

The urethane EVA layer is a recycled polyurethane for recycling, a new polyurethane to complement the performance of the recycled polyurethane, and an ethylene vinyl acetate copolymer for improving the impact resistance and stress cracking resistance by giving flexibility to the recycled polyurethane. (Ethylene-Vinyl Acetate Copolymer: EVA) comprising a urethane EVA composition.

The urethane EVA layer preferably has a thickness of 2.0 ~ 2.5mm.

The urethane EVA composition is based on 100 parts by weight of recycled polyurethane for recycling of polyurethane, 5 to 10 parts by weight of a new polyurethane for complementing the performance of the recycled polyurethane; 30 to 40 parts by weight of an ethylene vinyl acetate copolymer for giving flexibility to the regenerated polyurethane to improve impact resistance and stress cracking resistance; Surfactants for foam stability during molding, plasticizers to facilitate molding at high temperatures, crosslinking agents to improve strength and heat resistance and moisture resistance, thickeners for improving the stability and film-forming properties of the foamed urethane EVA layer. 0.1 to 5 parts by weight of an additive comprising one or two or more of a pigment for stabilizing and coloring to ensure a homogeneous and defect free foam structure of microbubbles.

The upper portion of the urethane EVA layer is impregnated with a middle layer or a top layer applied to the top to improve the adhesive strength of the middle layer or the top layer, a square embossing of 1.5 ~ 2.5mm size is formed.

The square embossing cools the semi-liquid sheet extruded at a temperature of 170 ~ 180 ℃ in the Ti die horizontal molding machine as shown in Figure 2 to form an embossing with a releasable embossing roller at a temperature of 140 ~ 150 ℃.

The surfactant is for the stability of the foam during molding, it is preferred that the silicone polyether copolymer or organopolysiloxane.

The plasticizer facilitates molding at high temperature, and may include one of naphthenic mineral oil, polypropylene, polybutene, polyisobutylene, polyisoprene oligomer, polybutadiene oligomer, benzoate ester, phthalate, adipate, and hydrocarbon oil. Use more than one.

The stabilizer is to ensure homogeneous and defect-free foam structure of microbubbles, and as an antioxidant, one of sterically hindered phenols, thioethers, substituted benzotriazoles and sterically hindered amines of the type Hindered Amine Light Stabilizer (HALS) Use

The crosslinking agent is for improving strength and heat resistance and moisture resistance, and includes diisocyanate, bisepoxy compound, bisethyleneimine compound, divinylbenzene, 1,5-hexadiene-3-yne, hexatriene, divinyl ether and divinyl sulfone. It is any of the divinyl compound containing, the diallyl compound containing allyl phthalate, 2, 6- diacrylphenol, and diallyl carbinol.

The thickener is for improving the stability and film-forming property of the foamed urethane EVA layer, abies acid, abies acid ester, terpene resin, terpene phenol resin, phenol-modified styrene polymer, phenol-modified -Methyl styrene polymer, hydrocarbon resin, tall oil resin, colophonium resin, pentaerythritol colophonium resin, or aromatic modified hydrocarbon resin.

The pigment uses an inorganic pigment, and contains iron oxide.

The polyester aluminum layer is thermally bonded at the bottom of the urethane EVA layer so that the urethane EVA layer can cope with wrinkles when the elastic expansion occurs due to heat, and prevents the urethane EVA layer from damage from external impact. In addition, it acts as a root for both civil engineering and construction.

The polyester aluminum layer is thermally bonded to the lower portion of the urethane EVA layer, the polyester layer to prevent damage to the urethane EVA layer from external impact; Bonded with a urethane adhesive on the lower portion of the polyester layer, it is made of an aluminum layer that can cope with the polyester layer so as not to be wrinkled when the expansion and contraction occurs due to heat, and can be used simultaneously for civil engineering and construction.

The polyester layer preferably has a weight of 25 ~ 40g per 1M ² .

The aluminum layer preferably has a thickness of 0.3 ~ 0.8mm.

The urethane multi-composite sheet of the present invention can recycle wastes as the main raw material uses recycled urethane, and improves the strength and flexibility of the sheet using EVA and modifiers, and there is no difference in performance from new urethanes, and it is damaged from external impact. It can be used for multi-purpose because it can be used for both civil engineering and building construction, but it can be used for multi-purpose use, but it has a low material cost and can be easily bonded to the bottom layer using a low foaming urethane foam adhesive. It has the advantage of excellent effect and durability.

As shown in Figure 2, the urethane multi-composite sheet is inserted into the urethane EVA composition chip hopper installed in the upper part of the extruder chipped urethane EVA composition to a certain size, the hopper feeder into the extruder, and proceeds forward with the screw of the extruder Melt in a band heater and cool the semi-liquid urethane EVA sheet that is extruded in the temperature range of 170 ~ 180 ℃ in the TiDay horizontal molding machine, form embossing with a releasable embossing roller in the temperature range of 140 ~ 150 ℃, and then supply it to the thermal bonding paper roller. On the other side, the polyester aluminum sheet constituting the polyester aluminum layer is unwound in a take-up roller, thermally bonded in a lamination roller, and then wound in a take-up roller.

The polyester aluminum layer is formed by thermally bonding a polyester aluminum sheet with the urethane EVA layer.

The polyester aluminum sheet melts the polyester composition in an extruder and is molded in a T-die horizontal molding machine to produce a polyester sheet, and is supplied to an adhesive roller supplied with a urethane adhesive, and on the other side, an aluminum sheet is supplied and adhered to the adhesive roller. After that, it is wound on a winding roller with a length of 300 ~ 500M.

As shown in FIG. 3, the composite waterproofing method using the urethane multilayer composite sheet is as follows, and the urethane multiple composite sheet used in the composite waterproofing process is the same as the above description, and the above description is mutatis mutandis.

The composite waterproofing method includes arranging corners and corners, arranging corners, corners, parapets and bottom surfaces, and removing the impurities and latencies to clean up the surface of the base surface; Applying a primer to the base layer including the bottom surface and the wall parapet to improve adhesion; A multi-composite sheet capturing step of capturing the urethane multi-composite sheet on the bottom surface to overlap a predetermined width; Applying a multi-foamed urethane foam adhesive to a bottom surface and attaching the urethane multiple composite sheets to overlap each other by a predetermined width; A multi-composite sheet thermal bonding step of welding the overlapping portions of the urethane multi-composite sheet with a hot air welding machine to thermally bond the urethane multi-composite sheet and the adjacent urethane multi-composite sheet; The fiberglass sheet is attached to the wall of the parapet part so that the fiberglass sheet covers a certain width of the urethane multilayer sheet on the bottom, or the urethane multilayer sheet attached to the wall and the urethane multilayer sheet attached to the floor are A parapet sheet attaching step of attaching the urethane multi-composite sheet to a wall at a predetermined distance from the bottom surface to be separated; When the fiber glass sheet is attached to the wall, the wall urethane is applied to the wall of the parapet part, or when the urethane multi-composite sheet is attached to the wall, the corners of the wall urethane multi-composite sheet and the floor urethane multi-composite sheet meet. A wall urethane coating step of applying wall urethane; The intermediate layer is applied to the exposed bottom surface to form a middle layer, and then the top coat is formed to form a top layer. The non-exposed bottom surface includes a middle layer and a top layer forming step of forming a top layer by applying a urethane top coat. .

The composite waterproof method will be described in detail below.

The peripheral cleanup and base layer cleaning step is to clean corners, corners, corners, corners, parapets and bottom surfaces, and remove impurities and latencies to clean the surface of the base surface.

The peripheral cleanup and ground floor cleaning step is to grind the protrusions of the base with a grinder or grinding machine to prevent foreign matters and attachments, such as concrete pieces that are popped up during concrete pouring and adhered to the pouring surface, or the wrong part when finishing the pouring surface with a finisher. Pushing the obstructing elements with a grinder or grinder to level them, and hindering the laying of a waterproof layer such as powder or foreign material ground by grinding with a grinder or grind is a background cleaning step that completely removes them with a broom or a cleaner. There should be no impurities that prevent the adhesion of waterproofing materials such as cement chips, oil, and soil, and the steps of removing fine powder using a cleaner, etc., and the mortar, the defective parts of concrete, the cracked parts and other poor parts of the mother body After removal, fill and repair with mortar or elastomeric sealant. Include.

The primer applying step is a step of applying a primer on the base layer including the bottom surface and the wall parapet to improve the adhesion.

The bottom surface is to improve the adhesive force of the low-foam urethane foam, the place where the fiber glass sheet is installed on the wall of the parapet portion is to improve the adhesive force of the fiber glass sheet.

As shown in FIG. 4, the multi-composite sheet temporary installation step is a step of overlapping the urethane multi-composite sheet on the bottom surface by a predetermined width.

The multi-composite sheet embedding step is installed when the urethane multi-composite sheet is spaced from 5 to 15mm from the wall when separating the urethane for wall to the joint portion connected to the parapet, and attached to the wall when installing the fiberglass sheet do.

The overlapping width of the urethane multi-composite sheet and the urethane multi-composite sheet is preferably installed overlapping each other 50 ~ 100mm.

The multi-composite sheet attaching step is a step of applying a low-foaming urethane foam adhesive on the bottom surface and attaching the urethane multi-composite sheet overlapping by a predetermined width.

The overlapping width of the urethane multi-composite sheet and the urethane multi-composite sheet is preferably installed overlapping each other 50 ~ 100mm.

The multi-composite sheet attaching step includes: a multi-rolled sheet temporary rolling step of rolling the first urethane multi-composite sheet of the first edge to be bonded to the base layer; An adhesive applying step of rolling the first urethane multi-composite sheet at the first edge and applying an adhesive to the bottom surface for attachment of the urethane multi-composite sheet to the bottom surface; Attaching the individual multiplex composite sheet to attach the first urethane multiplex sheet to the bottom surface while unwinding the dried first urethane multiplex sheet; In order to attach the second urethane multi-composite sheet, the temporary rolling step of the multi-composite sheet and the individual multi-composite sheet attaching step of attaching the second urethane multi-composite sheet to overlap a predetermined width after performing the adhesive application step are successively repeated. The multi-composite sheet is made of repeated steps.

In the adhesive application step, the adhesive is preferably a low foaming urethane foam adhesive.

As shown in FIG. 5, the adhesive application step is not affected by the behavior of the base layer and the shrinkage expansion of the urethane multilayer composite sheet, and the edges of the urethane multilayer sheet are completely adhered to the base layer and the inside thereof is partially fixed. In order to be attached to the base layer only, the low-foam urethane foam adhesive is sprinkled in a straight line so that the edge of the exposed base layer becomes rectangular and the center portion is zigzag-sprayed.

As shown in FIG. 6, the multi-composite sheet thermal bonding step is a step of thermally bonding the urethane multi-composite sheet and the adjacent urethane multi-composite sheet by welding an overlapping portion of the urethane multi-composite sheet with a hot air welding machine.

The parapet sheet attaching step is to attach the fiberglass sheet to the wall of the parapet portion to cover a certain width of the urethane multi-composite sheet of the bottom surface, or to the composite sheet and the bottom surface is attached to the wall The urethane multiple composite sheet is attached to the wall at a certain distance from the bottom surface so that the urethane multiple composite sheet can be separated.

7 and 8 are examples of attaching the fiber glass sheet to the wall of the parapet portion so that the fiber glass sheet covers a certain width of the urethane multiple composite sheet of the bottom surface, Figure 7 is an exposure waterproof construction example, Figure 8 Non-exposure waterproof construction.

The bottom layer of the exposed waterproof coating is applied to the urethane multi-composite sheet of the intermediate layer super fast-paced polyurea, and the top layer is coated with polyurea.

The bottom layer of the non-exposure waterproofing coating is applied to the top coat layer on the urethane multi-composite sheet and the protective mortar is coated on the top coat layer.

When attaching the fiber glass sheet is preferably installed to cover the urethane composite sheet installed on the bottom surface extending 90 ~ 110mm.

9 and 10 are attached to the wall of the parapet portion of the composite sheet and the urethane multi-composite on the wall at a certain distance from the bottom surface so that the composite sheet attached to the wall and the urethane multi-composite sheet attached to the floor can be separated As an exemplary view of attaching the sheet, FIG. 9 is an example of an exposed waterproof construction, and FIG. 10 is an example of an unexposed waterproof construction.

The urethane multiple composite sheets attached to the bottom surface are installed at intervals of 5 to 15 mm as shown in FIGS. 9 and 10 and the corners are coated with urethane for walls.

As shown in Figure 7 to 10, the urethane coating step for the wall is a wall when the fiber glass sheet is attached to the wall when the urethane for wall is applied to the wall of the parapet portion, or when the urethane multiple composite sheet is attached to the wall It is a step of applying the urethane wall for the corner of the composite sheet and the urethane composite sheet for the bottom surface.

The urethane multiple composite sheets attached to the bottom surface are installed at intervals of 5 to 15 mm as shown in FIGS. 9 and 10 and the corners are coated with urethane for walls.

As illustrated in FIGS. 7 to 10, the forming of the intermediate layer and the top coat layer is performed by applying a midway to the exposed bottom to form a middle layer, and then applying a top coat to form a top coat. It is a step of coating to form a top coat layer.

The intermediate degree for the exposed bottom surface is to apply a semi-hard superhard polyurea or polyurethane on the fiberglass sheet and the urethane multi-composite sheet to integrate the fiber glass sheet and polyurea and the urethane multi-composite sheet and polyurea. .

The top coat for the exposed bottom surface is coated with topcoat polyurea.

The middle layer is coated with the semi-hard super urethane polyurea using a two-component coating spray equipment, and maintain the distance between the paint surface and the spray gun 50 ~ 60cm.

The intermediate layer protects the kitchen layer made of the urethane multi-composite sheet from external physical shocks and reinforces the waterproofing force of the kitchen layer.

The semi-hard carbonaceous polyurea is an isocyanate prepolymer and a polyamine react to form a coating film, and the reaction rate is fast and does not use a catalyst.

The semi-hard carbonaceous polyurea is a blend of 100 parts by volume of a curing agent having a viscosity of 600 to 800 cps35 ° C. and a specific gravity of 1.02 ± 0.1 with respect to 100 parts by volume of a viscosity of 900 to 1100 cps / 35 ° C. and a specific gravity of 1.12 ± 0.1. Apply 0.5 ~ 1.5kg / m2 on top of sheet and urethane multi-composite sheet.

The topcoat polyurea is 90-99.8% by weight of isocyanate prepolmer and one or two or more of zinc oxide, magnesium oxide, tin oxide, aluminum oxide, titanium oxide, silicon oxide and magnesium silicate for UV protection. The subject consisting of 0.2 to 10% by weight of a composition comprising a; 1.0-2.0 kg / m <2> is apply | coated to the upper part of the said intermediate | middle layer using the 2-component coating material which consists of a hardening | curing agent of a polyether amine compound.

The zinc oxide, magnesium oxide, tin oxide, aluminum oxide, titanium oxide, silicon oxide and magnesium silicate preferably have a particle diameter of 100 to 1000 nm.

According to the urethane multi-composite sheet of the present invention and the composite waterproofing method using the same, it is possible to recycle waste materials using recycled urethane as the main raw material, and the difference between performance and new urethane is improved by improving the strength and flexibility of the sheet using EVA and a modifier. It prevents damage from external impacts and can act as a root for use at both civil and building applications, so it can be used for multi-purpose applications, but it has a low material cost and can be easily bonded to the bottom layer using a low-foam urethane foam adhesive. The construction cost is low, there is an excellent waterproof effect and durability.

Claims (10)

In the urethane multi-composite sheet made of a material containing a polyurethane,
The urethane multi-composite sheet is made of a material containing recycled polyurethane and ethylene vinyl acetate copolymer to prevent breakage of the waterproof layer due to the behavior and shrinkage expansion of the base layer. (Iv) urethane EVA layer to improve the adhesion with the kitchen water;
The thermal bonding at the bottom of the urethane EVA layer allows the urethane EVA layer to cope with wrinkles when the expansion and contraction occurs due to heat, and prevents the urethane EVA layer from damage from external impact, and simultaneously for civil engineering and construction It consists of a layer of polyester aluminum that acts as a repellent for use.
The urethane EVA layer is a recycled polyurethane for recycling, a new polyurethane to complement the performance of the recycled polyurethane, and an ethylene vinyl acetate copolymer for improving the impact resistance and stress cracking resistance by giving flexibility to the recycled polyurethane. (Ethylene-Vinyl Acetate Copolymer: EVA) comprising a urethane EVA composition,
The polyester aluminum layer is thermally bonded to the lower portion of the urethane EVA layer, the polyester layer to prevent damage to the urethane EVA layer from external impact;
Bonded with a urethane adhesive on the lower portion of the polyester layer, aluminum and the aluminum layer composed of an aluminum layer that acts as a root to be used for both civil engineering and building at the same time, so as to cope with wrinkles when heat and expansion occurs with the polyester layer Polyurethane Composite Sheet with Layer and EVA
The method of claim 1,
The urethane EVA composition is based on 100 parts by weight of recycled polyurethane for recycling of polyurethane,
5 to 10 parts by weight of the new polyurethane for supplementing the performance of the recycled polyurethane;
30 to 40 parts by weight of an ethylene vinyl acetate copolymer for giving flexibility to the regenerated polyurethane to improve impact resistance and stress cracking resistance;
Surfactants for foam stability during molding, plasticizers to facilitate molding at high temperatures, crosslinking agents to improve strength and heat resistance and moisture resistance, thickeners for improving the stability and film-forming properties of the foamed urethane EVA layer. Including an EVA and an aluminum layer, characterized in that it comprises 0.1 to 5 parts by weight of an additive including one or two or more of a pigment for stabilizing and coloring to ensure a homogeneous and defect-free foam structure of micro bubbles Urethane Multi Composite Sheet
The method of claim 1,
The urethane EVA layer has a thickness of 2.0 ~ 2.5mm,
The polyester layer has a weight of 25 ~ 40g per 1M ² ,
The aluminum layer is a urethane multiple composite sheet containing an aluminum layer and EVA, characterized in that having a thickness of 0.3 ~ 0.8mm
The method according to any one of claims 1 to 3,
The upper portion of the urethane EVA layer is impregnated with a middle layer or a top coat applied to the top to improve the adhesion of the middle layer or the top layer, a square embossing of 1.5 ~ 2.5mm size is formed,
The urethane multi-composite sheet is melted by inserting a chipped urethane EVA composition into a predetermined size in an extruder, and then molded in a molding machine to produce a urethane EVA sheet forming the urethane EVA layer, and is fed to the lamination roller after the embossing treatment in a later step, On the other side, the urethane multi-composite sheet comprising an aluminum layer and EVA, characterized in that the polyester aluminum sheet constituting the polyester aluminum layer is uncoiled in the unwinding roller and thermally bonded in the lamination roller and then wound in the unwinding roller.
The method of claim 2,
The surfactant is a silicone polyether copolymer or an organopolysiloxane,
The plasticizer uses one or two or more of naphthenic mineral oil, polypropylene, polybutene, polyisobutylene, polyisoprene oligomer, polybutadiene oligomer, benzoate ester, phthalate, adipate and hydrocarbon oil,
The stabilizer uses one of sterically hindered phenols, thioethers, substituted benzotriazoles and sterically hindered amines of the HLS (Hindered Amine Light Stabilizer) type as antioxidants,
The crosslinking agent is a diisocyanate, a bisepoxy compound, a bisethyleneimine compound, a divinyl compound including divinylbenzene, 1,5-hexadiene-3-yne, hexatriene, divinyl ether, and divinyl sulfone, and allyl phthalate. , A diallyl compound containing 6-diacrylphenol and diallylcarbinol, and
The thickener is abiete acid, abiete ester, terpene resin, terpene phenol resin, phenol-modified styrene polymer, phenol-modified -methyl styrene polymer, hydrocarbon resin, tall oil resin, colophonium resin, pentaerythritol colophonium Either a resin or a hydrocarbon resin modified with an aromatic,
The pigment is an inorganic pigment, and the urethane multiple composite sheet containing an aluminum layer and EVA, characterized in that it comprises iron oxide
In the composite waterproof method using a urethane multiple composite sheet,
The urethane multi-composite sheet is made of a material containing recycled polyurethane and ethylene vinyl acetate copolymer to prevent breakage of the waterproof layer due to the behavior and shrinkage expansion of the base layer, and has a tensile strength and elongation greater than or equal to the upper coating. (I) urethane EVA layer which improves the adhesive force and is in charge of kitchen water;
The thermal bonding at the bottom of the urethane EVA layer allows the urethane EVA layer to cope with wrinkles when the expansion and contraction occurs due to heat, and prevents the urethane EVA layer from damage from external impact, and simultaneously for civil engineering and construction It consists of a layer of polyester aluminum which acts as a root to use,
The urethane EVA layer is a regenerated polyurethane for recycling, a new polyurethane to supplement the performance of the regenerated polyurethane, and an ethylene vinyl acetate copolymer for improving the impact resistance and stress cracking resistance by giving the regenerated polyurethane flexibility. Is composed of a urethane EVA composition comprising,
The polyester aluminum layer is thermally bonded to the lower portion of the urethane EVA layer, the polyester layer to prevent damage to the urethane EVA layer from external impact;
It is adhered to the lower portion of the polyester layer with a urethane adhesive, it is made of an aluminum layer that can cope with the polyester layer so that it does not wrinkle when thermal expansion occurs, and can be used simultaneously for civil engineering and construction,
The composite waterproofing method includes arranging corners and corners, arranging corners, corners, parapets and bottom surfaces, and removing the impurities and latencies to clean up the surface of the base surface;
Applying a primer to a base layer including a bottom surface and a wall parapet to improve adhesion;
A multi-composite sheet capturing step of capturing the urethane multi-composite sheet on the bottom surface to overlap a predetermined width;
Applying a multi-foamed urethane foam adhesive to a bottom surface and attaching the urethane multiple composite sheets to overlap each other by a predetermined width;
A multi-composite sheet thermal bonding step of welding the overlapping portions of the urethane multi-composite sheet with a hot air welding machine to thermally bond the urethane multi-composite sheet and the adjacent urethane multi-composite sheet;
Attach the fiberglass sheet to the wall of the parapet so that the fiberglass sheet covers a certain width of the urethane multilayer sheet on the bottom surface, or separate the multiple composite sheet attached to the wall and the urethane multilayer sheet attached to the floor surface. Parapet sheet attaching step of attaching the urethane multiple composite sheet to the wall at a certain distance from the bottom surface to be possible;
When the fiber glass sheet is attached to the wall, the wall urethane is applied to the wall of the parapet part, or when the urethane multi-composite sheet is attached to the wall, the corners of the wall urethane multi-composite sheet and the floor urethane multi-composite sheet meet. A wall urethane coating step of applying wall urethane;
The intermediate layer is applied to the exposed bottom surface to form a middle layer, and then the top coat is formed to form a top layer. The non-exposed bottom surface includes a middle layer and a top layer forming step of forming a top layer by applying a urethane top coat. Composite waterproofing method using urethane multiple composite sheet
The method of claim 6,
The urethane EVA composition is based on 100 parts by weight of recycled polyurethane for recycling of polyurethane,
5 to 10 parts by weight of the new polyurethane for supplementing the performance of the recycled polyurethane;
30 to 40 parts by weight of an ethylene vinyl acetate copolymer for giving flexibility to the regenerated polyurethane to improve impact resistance and stress cracking resistance;
Surfactant for foam stability during molding, crosslinking agent for improving strength and heat resistance moisture resistance, thickener for improving the stability and film formation of foamed urethane EVA layer, foaming with less homogeneity and defects of fine bubbles 0.1 to 5 parts by weight of an additive including one or two or more of a stabilizer and a pigment for coloring to ensure the structure,
The urethane EVA layer has a thickness of 2.0 ~ 2.5mm,
The polyester layer has a weight of 25 ~ 40g per 1M ² ,
The aluminum layer has a thickness of 0.3 ~ 0.8mm,
The upper portion of the urethane EVA layer is impregnated with a middle layer or a top coat applied to the top to improve the adhesion of the middle layer or the top layer, a square embossing of 1.5 ~ 2.5mm size is formed,
The urethane multi-composite sheet is melted by inserting the chipped urethane EVA composition into a predetermined size in an extruder, and then molded in a molding machine to produce a urethane EVA sheet forming the urethane EVA layer, and is supplied to the lamination roller after the embossing treatment in a later step, In one side, a composite waterproof method using a urethane multi-composite sheet, characterized in that the polyester aluminum sheet constituting the polyester aluminum layer is uncoiled in a take-up roller and thermally bonded in a lamination roller, and then wound in a take-up roller.
The method of claim 7, wherein
The multi-composite sheet attaching step includes: a multi-rolled sheet temporary rolling step of rolling the first urethane multi-composite sheet of the first edge to be bonded to the base layer;
An adhesive applying step of rolling the first urethane multi-composite sheet at the first edge and applying an adhesive to the bottom surface for attachment of the urethane multi-composite sheet to the bottom surface;
Attaching the individual multiplex composite sheet to attach the first urethane multiplex sheet to the bottom surface while unwinding the dried first urethane multiplex sheet;
In order to attach the second urethane multi-composite sheet, the temporary rolling step of the multi-composite sheet and the individual multi-composite sheet attaching step of attaching the second urethane multi-composite sheet to overlap a predetermined width after performing the adhesive application step are successively repeated. Composite waterproofing method using a urethane multi-composite sheet, characterized in that consisting of a multi-composite sheet attached repeating step
The method of claim 7, wherein
The intermediate degree for the exposed bottom surface is to apply a semi-hard superhard polyurea or polyurethane on top of the fiberglass sheet and the urethane multilayer sheet to integrate the fiberglass sheet and polyurea and the urethane multilayer sheet and polyurea. ,
Top coat for exposed bottom is coated with topcoat polyurea,
The semi-hard carbonaceous polyurea is a blend of 100 parts by volume of a curing agent having a viscosity of 600 to 800 cps35 ° C. and a specific gravity of 1.02 ± 0.1 with respect to 100 parts by volume of a viscosity of 900 to 1100 cps / 35 ° C. and a specific gravity of 1.12 ± 0.1. Apply 0.5 ~ 1.5kg / m ² on the sheet and urethane multi-composite sheet,
The topcoat polyurea is 90-99.8% by weight of isocyanate prepolmer and one or two or more of zinc oxide, magnesium oxide, tin oxide, aluminum oxide, titanium oxide, silicon oxide and magnesium silicate for UV protection. The subject consisting of 0.2 to 10% by weight of a composition comprising a; Composite waterproofing method using a urethane multiple composite sheet using a two-component paint composed of a curing agent of a polyether amine compound, and applying 1.0 to 2.0 kg / m ² on the middle layer.
The method of claim 8,
In the adhesive coating step, the adhesive uses a low-foam urethane foam adhesive,
The adhesive coating step is not affected by the behavior of the base layer and the shrinkage expansion of the urethane multilayer composite sheet, and the edges of the urethane multilayer composite sheet are completely adhered to the base layer and only a portion of the inside is attached to the base layer. The composite waterproof method using the urethane multi-composite sheet, characterized in that the edge of the base layer exposed to the low-foamed urethane foam adhesive is sprayed in a straight line so that the center portion is zigzag