KR20100121855A - Paving material and constructing method thereof - Google Patents

Abstract

PURPOSE: A paving material and a construction method thereof are provided to be formed with various colors and patterns by loading a base layer and an elastic layer on the top surface of a flattened compacting layer. CONSTITUTION: A paving material(100) comprises a base layer(120), an auxiliary base layer(130), a surface layer(160), and a boundary layer(170). The base layer is formed using circulation aggregate, cement, and compound solution. The auxiliary base layer is formed on the top surface of the base layer. The surface layer is made of one of fine-textured aggregate, regenerative aggregate, clay block, scraps, rubber chips, fine aggregate, waste tire rubber chips. The boundary layer is formed on the top of the top surface of the surface layer.

Description

Packing Material and Constructing Method Thereof

The present invention relates to a packaging material and a construction method thereof, and in particular, the present invention laminates a base layer and an elastic layer on the upper surface of the flattened compaction layer, while maintaining elasticity and having heat shielding properties and water permeability / water purification properties. In addition, the present invention relates to a packaging material and a construction method for easily obtaining semi-permanent packaging materials having various colors and patterns.

Generally, the pavement includes concrete and asphalt pavement applied to roads, and elastic pavements applied to athletic and amusement facilities or pedestrian paths, and waterproof pavement applied to interior floors of buildings or waterproof floors on roofs. Elastic packing material is mainly applied to the facilities used by people to provide cushioning force when a load is generated, and is made by mixing rubber, waste tires, waste synthetic resin, waste urethane, etc. with aggregate. It is applied to flooring and walkways.

In general, in order to colorize the elastic surface layer, which is the uppermost layer of the elastic packaging material, the top layer surface of the elastic packaging material forms an elastic layer, and then a color layer is formed by coating or applying a color pigment on the upper side thereof. .

However, in the case of the color layer, the color pigment is poured onto the surface of the surface layer to form a color coating layer. In the case of the color pigment, even after the hardening of the athlete's knees hits the surface of the elastic surface layer, there is a problem that the color is stained. However, there is a problem that the intended color is easily damaged in a short time due to the wear and discoloration by natural discoloration and life friction due to rain.

On the other hand, in urban areas, a heat island phenomenon occurs in which the temperature in the city center rises locally due to a decrease in green spaces caused by buildings, deterioration of the atmospheric environment due to urbanization, pavement or road pavement. Pavements such as pedestrians or roads, which occupy a considerable portion, serve as catalysts for the heat island phenomenon. In order to prevent such heat island phenomenon, it is necessary to apply thermal insulation paving material to pavement such as pedestrian or road, but current heat shield paving material does not effectively suppress the rise of road surface temperature by reducing the amount of heat storage in the paving material. In particular, it is difficult to apply such as physical education and play facilities or pedestrian paths due to inelasticity, and there is a problem that it does not cause a crush by having a uniform color and pattern.

In addition, the walkways / roads are constructed by pavement with concrete blocks, asphalt blocks, stone blocks, etc., and have only a uniform color and pattern, such as the black of the asphalt itself, or the gray of the concrete or the stone itself. In order to solve the unpleasantness of the walking or viewing people with a sharp image, a color layer is formed by coating or applying a color pigment, and then applying the color layer to the top layer of the walkway or road.

However, it may cause environmental pollution by the color pigment of the color layer applied to the top layer of the pedestrian or road, and the color layer is difficult to permeate and purify and cause toxicity. In addition, when constructing a pedestrian or road with a paving material having a color layer applied to a top layer such as a concrete block, an asphalt block, a stone block, or the like, the water can not be drained quickly on the pedestrian or road surface in rainy weather, causing a water film phenomenon. There is a problem that the water splashes on pedestrians. In addition, when the durability of the pavement material used in the construction of the pedestrian path or road has elapsed, and the concrete block, asphalt block, stone block, etc. applied to the pavement is replaced, there is a problem of disposal of the concrete block, asphalt block, stone block, etc. It occurs seriously, and in particular, there is a problem that there is no place to discard as well as the amount to be discarded.

Accordingly, the present invention has been made to solve the above problems and an object of the present invention is to provide a variety of colors and patterns to the packaging material by laminating a base layer and an elastic layer on the upper surface of the flattened compaction layer.

In addition, another object of the present invention is to provide a non-toxic environmentally friendly packaging material having heat shielding and water permeability / water purification while maintaining elasticity by laminating a base layer and an elastic layer with a variety of environmentally friendly materials, such as on the upper surface of the compaction layer.

Further, another object of the present invention is to be able to semi-permanently maintain various colors and patterns of the constructed packaging material from damage due to natural discoloration or life friction.

Packaging material according to the present invention for achieving the above objects, circulating aggregate, cement, admixture, waste asphalt concrete crushed, coarse aggregate, fine aggregate, emulsified asphalt, additives, modifiers, fillers (calcium carbonate, carbon black, cement) , Limestone, or calcined gypsum), filler, emulsified asphalt, new aggregate, waste concrete recycled aggregate, waste ascone recycled aggregate, acrylic polymer, charcoal, loess, waste pottery, waste crushed aggregate, waste artificial marble, asphalt concrete modifier chip, block A substrate formed by selecting at least one material of a copolymer, an asphalt concrete composition, a resource recycling recycling pavement composition, and an earth curing chemical composition, and treating the selected material and then laminating it on the flattened compacted top surface; At least one or more of a water-soluble spray thin layer packaging composition, a water-permeable colored ascon composition, a neutralized asphalt composition, a water-permeable asphalt concrete composition, a composition containing a colored ceramic ceramic aggregate, and a composition for paving asphalt layers is selected, and the selected composition is An auxiliary base layer formed by laminating the upper surface of the base layer after a predetermined treatment; Fine aggregate, silica sand, recycled aggregate, clay chip, ceramic block, clay block, scrap, rubber chip, fine aggregate, waste tire rubber chip, aggregate, waste ceramic, recycled aggregate, soil, cement, waste aggregate, rice hull, waste rubber powder, Waste wood, rice straw, sawdust, waste styrofoam, waste plastic, activated carbon, rubber sheet, organic / inorganic fiber roving yarn, glass roving yarn, anion and far infrared emitter, jade, elvanite, clay, kaolin, waste paper, Wood flour, charcoal, vermiculite, pearlite, glass wool, rock wool, resin emulsion (olefin resin emulsion, acrylic resin emulsion or rubber resin emulsion, or adhesive resin emulsion), recycled rubber, pevinyl, recycled glass, clay, loess, woven fabric, nonwoven fabric A surface layer formed by selecting at least one material from among charcoal, color material, color occasional color pigments, and treating the selected material and then laminating it on the upper surface of the auxiliary base layer; And natural or recycled rubber chips, rubber powders, urethane binders, asphalt liquids, color pigments, light stabilizers, heat stabilizers, antioxidants, reinforcing agents, colorants, antimicrobial agents, preservatives, antifoaming agents, emulsifiers, crosslinking agents, lubricants, fillers, antiwear agents, polymer mats (Polyester Woven Fiber), Urethane, Epoxy, Acrylic, Polyester, Plant Mix Asphalt Modification Additive, Waterproof, Spray Rubberized Asphalt Mastic Waterproof, Plant Mix Color Colored Binder, Waste Asphalt Concrete Regeneration Modification Additive, Water Soluble Spray It includes a surface layer formed by selecting at least one or more materials from the thin layer packaging composition, room temperature curing type spray type fast curing thin layer coating composition, and treating or treating the selected material.

In addition, the base layer is formed of circulating aggregate, cement, admixture, the admixture is composed of water, MMA (Methyl methacrylate), EAM (Ethyl acrylate), lignin-based admixture, naphthalene-based admixture, the circulating aggregate is It is obtained by crushing construction waste with a jaw crusher, screening through an aggregate sorter, and removing foreign matter through a blower.

And, the base layer is formed of waste asphalt concrete crushed and coarse aggregate, fine aggregate, cement, emulsified asphalt, additives, modifiers, the additives are EAM (Ethyl acrylate), MMA (Methyl methacrylate), naphthenic oil, aromatic oil The modifier is made of natural hydrocarbon resin (NHR), styrene butadiene rubber (SBR), and cellulose fibers.

In addition, the base layer is formed of at least one of new aggregate and waste concrete recycled aggregate, waste ascon recycled aggregate, cement, acrylic polymer, and anionic emulsified asphalt to maintain the dispersed state of asphalt.

In addition, the base layer is formed of an asphalt concrete composition obtained by treating the waste ascon, and the asphalt concrete composition is selectively mixed with the waste concrete or natural aggregate in the waste ascon mixture having different weight parts of various sizes, respectively. , Cement, MMA (methylmethacrylate), BAM (Buthylacrylmonomer), AN (Acrylonitrile), emulsifiers, water, MAA (Methylacrylicacid), the composition produced by mixing and heating the catalyst, and is composed of emulsified asphalt.

In addition, the base layer is formed of the recycled recycled packaging composition, wherein the recycled recycled packaging composition is a mixture of a general aggregate or a composite aggregate mixed with a recycled aggregate pulverized waste ascon, mixed with a porous filler The degree of granularity includes a flow modifier mixed with thermoplastic resin, a fiber reinforcing agent, and a rubber chip obtained by grinding waste tires.

The base layer is formed by mixing the soil curing chemical composition, and the soil curing chemical composition includes clinker powder, sodium silicate, anhydrous gypsum, cement, polyorganosiloxane, and polyvalent organic metal salt.

In addition, the auxiliary base layer is formed of a water-soluble spray thin layer packaging composition, the water-soluble spray thin layer packaging composition includes a solid urethane acrylic aqueous emulsion, water, organic pigments, tourmaline, and anion release material, the anion release material Silver, one or more materials selected from loess, biotite, amethyst, raw ore, bamboo charcoal, uranite, jewelry, obsidian, elvan.

Further, the auxiliary base layer is formed of a water-permeable colored ascon composition, wherein the water-permeable colored ascon composition includes aggregate, asphalt, styrene-based resin, flow modifier, and fiber reinforcement agent.

In addition, the auxiliary base layer is formed of a neutralized asphalt composition, the neutralized asphalt composition includes an asphalt, an alkane compound, an amine-based or slaked lime peeling inhibitor, a reinforcing resin, a neutralizing additive.

The auxiliary base layer is formed of a water-permeable ascon composition, and the water-permeable ascon composition includes a coarse aggregate, a fine aggregate, a filler, asphalt, a styrene-based resin, a flow modifier mixed with a thermoplastic resin, a fiber reinforcing agent, adhesion aid, and strength. Additives to control.

In addition, the auxiliary base layer is formed of a composition containing colored ceramic pottery aggregate, wherein the composition containing colored ceramic pottery aggregate is calcined at a high temperature by mixing an inorganic colored pigment with raw materials of cement, water and ceramics It includes a colored ceramic (pottery) aggregate, a copolymer solid, and a water-soluble silicate prepared by grinding.

In addition, the auxiliary base layer is formed of a thin asphalt pavement composition, the asphalt thin pavement composition, coarse aggregate, fine aggregate, filler, asphalt, polymer modifier, strength enhancer, ionomer.

In addition, the surface layer is formed of fine aggregate and silica sand, the first layer formed on the upper surface of the auxiliary base layer by mixing a resin mixed with solid ascone and bio oil with a hardener and aggregate in the field, and the upper surface of the first layer And a second layer formed by mixing the fine grain aggregate, the bio resin in which the color pigment is mixed, and the additive.

The surface layer is formed of silica sand, and after mixing the clay chip and the adhesive binder, the first layer formed by uniformly compacting the upper surface of the auxiliary base layer, the clay chip, and the silica sand are mixed on the upper surface of the first layer. And a second layer formed by laying.

In addition, the surface layer is formed of clay, the first layer formed by mixing the ceramic block, clay block, scrap crushed chip and the adhesive binder and evenly compacted on the upper surface of the auxiliary base layer, selected color chips, silica sand, adhesion And a second layer formed by mixing the binder and then placed on the upper surface of the first layer, and a third layer formed by applying a color resin to the upper surface pattern portion of the second layer.

In addition, the surface layer 160 is formed of a rubber chip, a first layer formed by mixing and installing a recycled rubber chip and a urethane binder on the upper surface of the auxiliary base layer and a mesh fiber material on the upper surface of the first layer. A second layer formed by placing a heat shielding sheet formed thereon, a third layer formed by mixing a natural color or recycled color rubber chip having a color on an upper surface of the second layer with a urethane binder, and a color rubber on an upper surface of the third layer And a fourth layer formed by mixing chips, glass powder, and urethane binder.

In addition, the surface layer is formed of silica sand, and includes fine aggregate (gravel) or silica sand and waste tire rubber chips, and waste urethane color rubber chips on the auxiliary base layer.

The surface layer is formed of soil, and after mixing concrete or asphalt concrete and rubber chips, and heating the first layer formed by laying on the upper surface of the auxiliary base, and the ground ground pulverized aggregate, silica sand, waste ceramics After the heated earth ground powder is mixed with a color resin having a color color to color coat the ground material, the color coated soil ground material is heated, and then the heated color coated earth ground powder and binder resin are mixed. When the first layer is cured, a second layer is formed by applying a primer to an upper surface of the first layer and then compacting a mixture with the binder resin.

In addition, the surface layer is formed of circulating aggregate, soil, cement, waterproof admixture, the waterproof admixture consists of a waterproof admixture and water, the waterproof admixture is synthesized from the water-soluble salt and the extraction monomer of petroleum naphtha.

In addition, the surface layer, the aggregate mixture of aggregate, coal tar, cellulose fibers is applied to the upper surface of the auxiliary base layer, and heated and pressed with a roller, and then sprayed cement mortar mixed with crude cement, SBR, MMA, EAM And hardened to form.

The surface layer may be formed of waste tires, and the surface layer may include a first layer formed by mixing silica sand with a rubber chip and uniformly mixing gravel, sand, and PU (polyurethane) on an upper surface of the auxiliary base layer, and A second layer formed by uniformly mixing a rubber chip, pigment, and PU (polyurethane) on the upper surface of the first layer.

Then, the surface layer, the waste aggregate is pulverized, the surface of the pulverized aggregate aggregated by spray adsorption primary surface treatment with GR ~ 001 primer, the first coating, waste tire rubber powder on the surface of the waste aggregate treated the primary surface After mixing and adsorbing with a polyurethane binder, the secondary surface treatment to the secondary coating, it is formed of the secondary surface-treated recycled aggregate.

In addition, the surface layer includes a first layer formed mainly of fine aggregate (gravel) or silica sand and waste tire rubber chips on the upper surface of the auxiliary base layer, and a second layer formed mainly of waste urethane color rubber chips on the upper surface of the first layer. do.

Further, the surface layer may include chaffs, fiber strands in contact with neighboring chaffs, and a resin layer of either the thermosetting resin layer or the thermoplastic resin layer coated on the chaffs and the fiber strands.

In addition, the surface layer is formed of waste tires or waste rubber powder, the first layer formed of a mesh mesh of the polyolefin-based material on the upper surface of the auxiliary base layer, the urethane binder and waste rubber or waste tire powder on the upper surface of the first layer and The second layer formed by mixing the waste aggregate and the two-component urethane binder composition, the waste rubber or the waste urethane powder are mixed on the upper surface of the second layer and sprayed to give a permeable porous concavo-convex surface to the surface. A third layer and a fourth layer formed by coating a top coat coating agent to prevent slipping on the upper surface of the third layer.

The surface layer is formed of waste wood, the first layer formed of a mixture of pulverized waste wood fibers and a binder obtained by crushing the waste wood, a mixture of waste wood fibers and a binder and a rubber chip on the first layer. And a second layer formed by mixing a binder.

In addition, the surface layer is formed of regenerated rubber to prevent frostbite (freezing), the frost-resistant layer formed by mixing a reclaimed rubber chip, a reclaimed aggregate, an adhesive binder on the upper surface of the auxiliary base layer, a aggregate, a regenerated rubber chip is formed At least one of a crushed stone layer, a waste hollow fiber membrane filter, a waste carbon filter, and waste carbon fibers is formed of a chip, a permeation purification layer formed by mixing recycled rubber chips, aggregates, and glass ceramic balls, and a recycled rubber chip. It includes an elastic surface layer formed by the addition of activated carbon.

In addition, the surface layer is formed of pevinyl, by mixing the waste vinyl chips, asphalt liquid, waste vinyl chips, recycled rubber chips, emulsified resin formed by extruding the waste vinyl by a thermal extrusion machine and then crushed by a grinder It contains the additive formed.

In addition, the surface layer, crushed old blocks and stones, laminated the crushed blocks and stones on the upper surface of the auxiliary base layer, sprayed with a urethane resin-based admixture on the surface, sprayed rubber chips and laid, fine Clay and loess grains, which are natural materials, are mixed with urethane resin-based admixtures, laid, and finished with a coating.

The surface layer is formed of a nonwoven fabric, and includes a first layer in which an aggregate, a rubber chip, and a urethane resin-based mixture are mixed, and a second layer and a third layer formed by mixing polyurethane binder in different amounts on a rubber chip. do.

In addition, the surface layer includes an ester compound prepared by reacting a recycled rubber chip, a C10-18 higher fatty acid, a polybasic acid, or a polyhydric alcohol.

In addition, the surface layer, the natural or recycled rubber chip and rubber powder is mixed with a urethane binder and attached to the upper surface of the adhesive layer, a pattern sheet formed with a pattern on the attached surface, and the pattern on the upper surface of the pattern sheet It includes a color resin layer applied in the same color as the matching color, and a transparent coating layer applied to the upper surface after curing of the color resin layer.

In addition, the surface layer, the surface of the surface of the asphalt liquid, plant mix type asphalt modification additive spray rubberized asphalt mastic waterproofing material, plant mix type color coloring binder, waste asphalt concrete regeneration modifying additive, water-soluble spray thin layer packaging composition, room temperature curing type A spray type quick-curing thin coating composition is formed by spraying.

Packaging material construction method according to the present invention for achieving the above objects, circulating aggregate, cement, admixture, waste asphalt concrete pulverized, coarse aggregate, fine aggregate, emulsified asphalt, additives, modifiers, fillers (calcium carbonate, carbon black) , Cement, limestone, or plaster), filler, emulsified asphalt, new aggregate, waste concrete recycled aggregate, waste ascone recycled aggregate, acrylic polymer, charcoal, loess, waste ceramics, waste grinding aggregate, waste artificial marble, asphalt concrete modifier chip , At least one or more materials selected from among block copolymers, asphalt concrete compositions, recyclable recycling pavement compositions, and earth cured chemical compositions, and after treatment with the selected materials, are stacked on top of the flattened compacted layer to form a base layer. 1st process which makes; Select at least one or more of a water-soluble spray thin packaging composition, a water-permeable colored ascon composition, a neutralized asphalt composition, a water-permeable asphalt concrete composition, a composition containing colored ceramic ceramic aggregate, a composition for paving asphalt layer, and selecting the selected composition A second step of forming an auxiliary base layer by laminating on the upper surface of the base layer after the treatment; Fine aggregate, silica sand, recycled aggregate, clay chip, ceramic block, clay block, scrap, rubber chip, fine aggregate, waste tire rubber chip, aggregate, waste ceramic, recycled aggregate, soil, cement, waste aggregate, rice hull, waste rubber powder, Waste wood, rice straw, sawdust, waste styrofoam, waste plastic, activated carbon, rubber sheet, organic / inorganic fiber roving yarn, glass roving yarn, anion and far infrared emitter, jade, elvanite, clay, kaolin, waste paper, Wood flour, charcoal, vermiculite, pearlite, glass wool, rock wool, resin emulsion (olefin resin emulsion, acrylic resin emulsion or rubber resin emulsion, or adhesive resin emulsion), recycled rubber, pevinyl, recycled glass, clay, loess, woven fabric, nonwoven fabric A third step of selecting at least one material from among charcoal, color material, color occasional and color pigment, and treating the selected material and then laminating it on the upper surface of the auxiliary base layer to form a surface layer; And natural or recycled rubber chips, rubber powder, urethane binders, asphalt solutions, color pigments, light stabilizers, heat stabilizers, antioxidants, reinforcing agents, colorants, antibacterial agents, preservatives, antifoaming agents, emulsifiers, crosslinkers, lubricants, fillers, abrasion resistant agents, polymers Mat (Polyester Woven Fiber), Urethane, Epoxy, Acrylic, Polyester, Plant Mix Asphalt Modification Additive, Waterproof, Spray Rubberized Asphalt Mastic Waterproof, Plant Mix Color Colored Binder, Waste Asphalt Concrete Regeneration Modification Additive, Water Soluble And a fourth step of selecting at least one or more materials from the spray thin layer packaging composition and the room temperature-curable spray type quick-curing thin layer coating composition, and after coating the selected materials with a predetermined treatment, coating or spraying the surface layer to form a surface layer.

Therefore, the elastic packaging material according to the present invention has an effect of obtaining a guarantee material having various colors and patterns by laminating a base layer and an elastic layer on the upper surface of the flattened compaction layer.

In addition, the present invention can provide a non-toxic eco-friendly packaging material having a heat shielding and water permeability / water purification while maintaining elasticity by laminating the base layer and the elastic layer with a variety of environmentally friendly materials, such as on the upper surface of the compaction layer.

In addition, the present invention has the effect of semi-permanently maintaining various colors and patterns of the constructed packaging material from damage due to natural discoloration or life friction.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that the same components in the figures represent the same numerals wherever possible. Specific details are set forth in the following description, which is provided to aid a more general understanding of the present invention. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a cross-sectional view showing the structure of a packaging material according to a preferred embodiment of the present invention, Figure 2 is a flow chart of the construction method of the packaging material according to a preferred embodiment of the present invention.

The invention according to the city of Figure 1, the packaging material according to the present invention, parks, sidewalks, playgrounds, roads, bicycle roads, footpaths or roads, parking lots, general open and empty lot, inline skating rink, park basketball court, tennis court, badminton The floor of the court is to be paved. First of all, as the foundation work, the ground is grounded.

The flattening operation is a step of forming a compaction layer for supporting the packaging material laminated on the top surface by filling and compacting soil for safety ground.

The compaction layer may be ground where the ground surface is compacted, various materials such as silica sand, waste aggregate, waste wood, soil, charcoal, etc. It may be a layer compacted by combining them.

The elastic packaging material 100 according to the present invention is laminated on the top surface of the flattened compaction layer, the base layer 110 laminated on the top surface of the flattened compaction layer, and the elastic layer laminated on the base layer 110 ( 150). In addition, the base layer 110 includes a base layer 120 formed on an upper surface of the compaction layer and an auxiliary base layer 130 formed on an upper surface of the base layer 120, and the auxiliary base layer 130 is the base layer 120. It may be formed on the lower surface of the), in the present invention will be described based on the auxiliary base layer 130 is formed on the upper surface of the base layer 120. In addition, the elastic layer 150 includes a surface layer 160 formed on the upper surface of the base layer 110 and a surface layer 170 formed on the upper surface of the surface layer 160.

The base layer 110 is formed by stacking various types of compositions such as aggregate, silica sand, soil, asphalt, concrete, and recycled resources obtained by pulverizing waste aggregate, waste asphalt, waste concrete, etc. for recycling resources. . For example, in more detail, the base layer 120 of the base layer 110, circulating aggregate, cement, mixed liquid, waste asphalt concrete pulverized, coarse aggregate, fine aggregate, emulsified asphalt, additives, modifiers, fillers ( Calcium Carbonate, Carbon Black, Cement, Limestone, Plaster), Filler, Emulsified Asphalt, New Aggregate, Waste Concrete Recycled Aggregate, Waste Ascon Recycled Aggregate, Acrylic Polymer, Charcoal, Ocher, Waste Ceramics, Waste Grinded Aggregate, Waste Artificial Marble, Asphalt At least one material of the concrete modifier chip, the block copolymer, the asphalt concrete composition, the resource recycling recycling pavement composition, and the soil curing chemical composition is selected, and the selected material is subjected to a predetermined treatment and laminated on the flattened compacted layer. Is formed.

The base layer 120 is formed of 100 parts by weight of circulating aggregate, 7 to 12 parts by weight of cement, and 5 to 10 parts by weight of mixed solution. Here, the mixed solution is 98.4-99.6 wt% of water, 0.1-0.3 wt% of MMA (Methyl methacrylate), 0.1-0.3 wt% of EAM (Ethyl acrylate), 0.1-0.5 wt% of a lignin-based admixture, 0.1-0.5 naphthalene-based admixture Containing the weight percent, the circulating aggregate is obtained by crushing the construction waste with a jaw crusher and sorting through an aggregate sorter, and then removing the foreign matter through a blower. At this time, the circulating aggregate passes 100% by weight of the 50mm sieve, 95-100% by weight of the 40mm sieve, 70-100% by weight of the 25mm sieve, 55-90% by weight of the 13mm sieve, 30 to 70% by weight of 8mm sieve, 17 to 55% by weight of 4.75mm sieve, 10 to 42% by weight of 2.36mm sieve, 5 to 28% by weight of 0.6mm sieve, 0.3mm sieve It has a particle size passing 3 to 22% by weight.

In addition, the base layer 120, 100 parts by weight of waste asphalt concrete crushed and 50 to 130 parts by weight of coarse aggregate, 50 to 70 parts by weight of fine aggregate, 10 to 40 parts by weight of cement, 10 to 20 parts by weight of emulsified asphalt, additive 3 5 parts by weight and 1 to 3 parts by weight of a modifier. Here, the additive is composed of 15 to 20% by weight of EAM (Ethyl acrylate), 15 to 20% by weight of MMA (Methyl methacrylate), 30 to 35% by weight of naphthenic oil, 30 to 35% by weight of aromatic oil, the modifier It consists of 10-15% by weight of natural hydrocarbon resin (NHR), 5-10% by weight of styrene butadiene rubber (SBR), and 75-85% by weight of cellulose fibers. At this time, the mixture of the waste asphalt concrete pulverized and coarse aggregate 100% by weight through a 400mm sieve, 95 to 100% by weight through a 25mm sieve, 25 to 60% by weight through a 13mm sieve, 0 ~ through a 5mm sieve It has a particle size specification that passes 10% by weight, passes through a 2.5mm sieve 0-5% by weight, and the fine aggregate has a particle size specification that passes through a 2.5mm sieve and remains in a 0.075mm sieve.

In addition, the base layer 120 is formed of at least one of new aggregate and waste concrete circulating aggregate, waste ascon circulating aggregate, cement, acrylic polymer, and anionic emulsion asphalt to maintain a dispersed state of asphalt. Here, the new aggregate and the recycled concrete circulating aggregates account for 20% by weight or less of the total asphalt concrete weight except the acrylic polymer as the particle diameter of 30mm or less, the waste ascon circulating aggregates 20mm or less of the particle size of 10mm or less, particle diameter 13 mm or less is 35% by weight or less, 30mm or less in diameter is 45% by weight or less, the sum of the weight of each particle diameter is composed of 77% to 90% by weight, the waste ascon circulation in the total asphalt concrete weight excluding the acrylic polymer Aggregate accounts for less than 50% by weight. And, the cement, 2 to 6% by weight of the total asphalt concrete weight, except for the acrylic polymer, the acrylic polymer includes 3 to 10 parts by weight when 100 parts by weight of the total asphalt concrete except the acrylic polymer The new aggregate or the recycled concrete circulating aggregate is all maintained at a particle diameter of 30 mm or less, and the amount added is 8 to 12% by weight in both, and the acrylic polymer is used for the entire asphalt concrete except for the acrylic polymer. When it is 100 parts by weight, it is included 4 to 6 parts by weight, the anionic emulsion asphalt is contained 0.2 to 2.5% by weight.

In addition, the base layer 120 is formed of an asphalt concrete composition obtained by treating waste ascon. Here, the asphalt concrete composition, waste asphalt concrete composition consisting of waste asphalt concrete mixture consisting of waste ascon particle size of more than 13mm, 25mm or less, 100 parts by weight, waste ascon particle size of more than 8mm, 13mm or less, 65-75 parts by weight, waste ascon particle size of 8mm or less, 30-40 parts by weight. 10 ~ 40 parts by weight of particle size exceeding 13mm or less than 25mm or 10 ~ 40 parts by weight of natural aggregates selectively mixed, 6 ~ 15 parts by weight of cement, MMA (methylmethacrylate), BAM (Buthylacrylmonomer), AN (Acrylonitrile), emulsifier, water, MAA (Methylacrylicacid), 2 to 6 parts by weight of the composition produced by mixing and heating the catalyst, 0.5 to 1 part by weight of emulsified asphalt. In addition, the cement, portland cement, crude steel portland cement, crude steel portland cement, medium heat portland cement, white portland cement, furnace portland cement, silica cement, fly ash cement, alumina cement, expanded cement, sulfate resistant cement, jet Select one or more of cement, furnace colloid cement, and colloid cement. The asphalt concrete composition includes 1 to 2 parts by weight of BAM, 0.05 to 0.1 parts by weight of AN, 0.02 to 0.1 parts by weight of MAA, 0.05 to 0.1 parts by weight of emulsifier, and 1 to 1 part by weight of the cement and the MMA. 1.5 parts by weight, a composition produced by mixing and heating the catalyst. In addition, the emulsion asphalt is an anionic asphalt emulsifier, carboxylate, dodecylbenzenesulfonate, sodium resinate, alkyl naphthalene derivative, chlorobenzene derivative, alkylaryl sulfonate, higher fatty acid alkali metal salt, alkylbenzene sulfonate, Alpha-olefin sulfonate, sodium alkyl aryl sulfonate, alkyl phosphate, sodium alkyl aryl ether sulfate, ammonium alkyl aryl ether sulfate (1-nonyl-phenoxy-2-polyoxy-ethylene-3-allyl-oxy-propane ~ Ammonium-sulfate, 1-nonyl-phenoxy-2-polyoxy-ethylene-3-ammonium-sulfate), sodium dioctylsulfosuccinate is selected and used.

The asphalt concrete composition, waste ascon particle size of more than 13mm 25mm or less 100 parts by weight, waste ascon particle size of more than 8mm and 13mm or less 65 to 75 parts by weight, waste ascon particle size of less than 8mm 30-30 parts by weight, waste concrete particle size 13 to 25 parts by weight 20 to 28 parts by weight, 8 to 10 parts by weight of cement, 0.5 to 1 part by weight of dodecylbenzenesulfonate, and 2 to 3 parts by weight of an aqueous acrylic polymer. Here, the asphalt concrete composition is 13 parts by weight of less than 13mm of waste ascon particle size more than 25mm, 71 parts by weight of less than 13mm waste ascon particle size, 33 parts by weight of less than 8mm waste ascon particle size, 13 parts by weight of less than 25 24 parts by weight of waste concrete, cement 9.5 parts by weight, 0.7 parts by weight of dodecylbenzenesulfonate, 2.3 parts by weight of the aqueous acrylic polymer.

In addition, the base layer 120 is formed of a resource recycling circulation packaging composition for recycling of resources. The recycled recycled packaging composition, the general aggregate or mixed aggregate 80 to 95% by weight of the aggregate mixed with the recycled aggregate crushed waste ascon, bottom ash (Bottomash, lime ash flooring) fly ash (fly ash, fly ash fly ash) ), 3 to 6 parts by weight of asphalt, 0.1 to 1.0 parts by weight of styrene-based resin, linear low density polyethylene (100 parts by weight of an aggregate aggregate of 5 to 20% by weight of at least one porous filler selected from perlite and zeolite). LLDPE), low density polyethylene (LDPE), high density polyethylene (HDPE), ethylene vinyl acetate copolymer resin, 0.1 to 1.0 parts by weight of a fluid modifier mixed with at least one thermoplastic resin selected from poly (meth) acrylic resin, fiber reinforcement 0.1 to 0.5 Part by weight, 1 to 20 parts by weight of a rubber chip having a particle diameter of 0.1 to 20 mm by milling waste tires. Here, the flow modifier is used to heat the waste resin to the melting point and to melt, and then extruded pellets or powder milled thereto. At this time, the resource recycling circulation packaging composition, 0.1 to 10 parts by weight of an additive mixed with any one or two or more selected from calcium chloride, bentonite, sodium gluconate, lignin, rosin to act as an adhesion assistant and strength control More included. The fiber reinforcing material is cellulose fiber, metal fiber or polyamide, polyester, polyurethane, polyurea, polyethylene, polyvinyl chloride, polyfluoroethylene, polyvinyl alcohol, polyacrylonitrile And at least one synthetic fiber selected from polypropylene.

When the materials as described above are laminated to the compaction layer to form the base layer 120, 80 to 250 kg per 1 m 3 of soil (crushing aggregate, etc.), which is the basic material for forming the base layer 120, is used for the soil curing chemical composition. It can be formed by mixing. The earth cured chemical composition is 10 to 50% by weight of clinker powder based on at least one mineral selected from calcium ferroaluminate or calcium sulfoaluminate, 3 to 18% by weight of sodium silicate, and 10 to 30% by weight of anhydrous gypsum. %, 10-25 wt% cement, 0.5-3 wt% polyorganosiloxane, and 0.5-5 wt% polyvalent organic metal salt. Here, the polyvalent organic metal salt is a polymetal (meth) acrylate copolymer or polystyrene copolymer having a number average molecular weight of 5,000 to 20 mol% copolymerized with acrylic acid, fumaric acid and maleic acid as a polymer metal salt substituted with metal ions. Becomes

Next, the auxiliary base layer 130 of the base layer 110 provides water permeability, water purification, etc. to the packaging material 100, and may be formed below the base layer 120 as described above. For example, in more detail, the auxiliary base 130 is a water-soluble spray thin layer packaging composition, a water-permeable colored ascon composition, a neutralized asphalt composition, a water-permeable ascon composition, a composition containing a colored ceramic ceramic aggregate, a thin asphalt layer. It is formed by selecting at least one composition from among the packaging compositions, and treating the selected composition with a predetermined process and then laminating it on the upper surface of the base layer 110.

In addition, the auxiliary base layer 130 is formed of a water-soluble spray thin packaging composition so that the packaging material 100 is non-toxic and environmentally friendly. The water-soluble spray thin layer packaging composition, 20 to 70% by weight of the urethane acrylic aqueous emulsion having a solid content of 5 to 30% by weight, 5 to 15% by weight of water, organic pigments 5 to 20% by weight, tourmaline with a particle size of 0.1 to 2.5mm, 1 to 50% by weight of one or more anion emitters selected from loess, biotite, amethyst, raw ore, bamboo charcoal, uranite, precious stone, obsidian, elvan. Here, the anion-releasing material, one or more aggregates selected from tourmaline, loess, chorionic mica, amethyst, raw ore, bamboo charcoal, uwang seok, guiyang stone, obsidian, elvan, and calcined at 800 ~ 1500 ℃, the particle size is 0.1 ~ 2.5 It is obtained by grinding to mm. The auxiliary base layer 130 may include at least one rare earth natural stone selected from strontium, vanadium, zirconium, cerium, neodymium, lanthanum, barium, rubidium, cesium, and gallium based on 100 parts by weight of the water-soluble spray thin layer packaging composition. 0.1-10 weight part of this water-soluble spray thin layer packaging composition further contains. 1 to 10 parts by weight of any one or more fillers selected from fumed silica, blast furnace slag, bottom ash, fly ash, zeolite, titanium dioxide, dolomite, silica, calcium carbonate and glass beads are further included, based on 100 parts by weight of the composition. Can be. And, based on 100 parts by weight of the water-soluble spray thin layer packaging composition, 1 to 30 parts by weight of cementable cement, 0.1 to 10 parts by weight of silica sand may be further included. Wherein the filler is methyldimethoxysilane, methyldiethoxysilane, dimethylethoxysilane, dimethylvinylethoxysilane, dimethylvinylmethoxysilane, methylvinyldimethoxysilane, methylvinyldiethoxysilane, diphenyldimethoxysilane , Diphenyldiethoxysilane, phenyltrimethoxysilane, phenyltriethoxysilane, trimethylmethoxysilane, trimethylethoxysilane, dimethyldimethoxysilane, dimethyldiethoxysilane, methyltrimethoxysilane, methyltriethoxysilane It is used by coating with at least one silane compound selected from tetramethoxysilane, tetraethoxysilane or polydimethylsiloxane. In addition, the urethane acrylic aqueous emulsion is synthesized by adding an acrylic ester resin during the manufacturing process of the aqueous urethane binder.

In addition, the auxiliary base layer 130 is formed of a water-permeable colored ascon composition so that the packaging material 100 has water permeability. The water-permeable colored ascon composition, 3 to 6 parts by weight of asphalt, 0.1 to 1.0 parts by weight of styrene resin, linear low density polyethylene, low density polyethylene, high density polyethylene, ethylene vinyl acetate copolymer resin, poly (meth) ) 0.1 to 1.0 parts by weight of the flow modifier mixed with any one or two selected from acrylic resin, and 0.1 to 0.5 parts by weight of the fiber reinforcing agent. The auxiliary base layer 130 may further include 0.3 to 1.0 parts by weight of paraffin wax or polyethylene wax to the water-permeable colored ascon composition. Here, the fiber reinforcing agent, cellulose fibers, metal fibers or synthetic fibers are used, the synthetic fibers are polyamide, polyester, polyurethane, polyurea, polyethylene, polyvinyl chloride, polyfluoro Any one or two or more selected from ethylene, polyvinyl alcohol, polyacrylonitrile and polypropylene may be used in combination. In addition, the rheology modifier is a pellet used by melting and extruding agricultural waste vinyl (LDPE) or recycled resin in powder form. The styrene resin is a pellet prepared by melt extruding expanded polystyrene (EPS) or a recycled resin in powder form, and the auxiliary base layer 130 is treated by treating the water-permeable colored ascon composition at 80 to 200 ° C. To form.

In addition, the auxiliary base layer 130 is formed of a neutralized asphalt composition so that the pavement 100 is easily manufactured. The mesophilic asphalt composition contains 0.1 to 90 parts by weight of an alkane compound having 40 to 115 carbon atoms in a wax phase prepared by Fischer Tropsch synthesis as a mesophilic additive. do. The neutralizing asphalt composition further includes 0.01 to 20 parts by weight of an amine-based or slaked lime anti-peeling agent based on 100 parts by weight of the asphalt component. Here, the moderate temperature asphalt composition, at least one reinforcing resin selected from 3 to 6 parts by weight of asphalt, styrene resin, ethylene resin, ethylene vinyl acetate resin with respect to 100 parts by weight of aggregate having an average particle diameter of 1 to 20 mm. 0.1 to 1.0 parts by weight and 0.1 to 0.5 parts by weight of the fiber reinforcing agent, with respect to 100 parts by weight of the asphalt component is mixed with 0.1 to 90 parts by weight. At this time, the moderate temperature asphalt composition, the thermal power plant coal ash by-products, fly ash, pearlite, zeolite can be recycled to the resource by further comprising at least 0.01 to 50 parts by weight of any one or more porous inorganic materials selected from zeolite. have. The reinforcing resin uses a recycled resin, and compacts the neutralized asphalt composition at 90 ~ 120 ℃ to form an auxiliary base layer (130).

The auxiliary base layer 130 is formed of a water-permeable ascon composition such that the packaging material 100 has strength, durability, and excellent water permeability. The water-permeable ascon composition is 3 to 6 parts by weight of asphalt, 0.1 to 4 parts by weight of aggregate based on 50 to 80% by weight of coarse aggregate, 15 to 40% by weight of aggregate, and 5 to 10% by weight of filler. 1.0 part by weight, linear low density polyethylene, low density polyethylene, high density polyethylene, ethylene vinyl acetate copolymer resin, 0.1 to 1.0 part by weight of a fluid modifier mixed with at least one thermoplastic resin selected from poly (meth) acrylic resin, 0.1 to 0.5 part by weight of fiber reinforcement Part contains 0.1 to 10 parts by weight of an additive mixed with any one or two or more selected from calcium chloride, bentonite, sodium gluconate, lignin, and rosin to serve as adhesion aid and strength control.

In addition, the auxiliary base layer 130 is formed of a composition containing colored ceramic ceramic aggregate so that the packaging material 100 is provided by resource recycling. The composition containing the colored ceramic pottery aggregate is 20-60 parts by weight of water with respect to 100 parts by weight of cement, mixed with inorganic colored pigments in a raw material of ceramics, calcined at high temperature and then pulverized to produce a colored ceramic (pottery) aggregate 50 to 200 parts by weight, 5 to 20% by weight of water-soluble carboxylate group-containing vinyl monomer (a), 1 to 10% by weight of silyl group-containing vinyl monomer (b), and other copolymerizable with (a) and (b) 5 to 40 parts by weight of a copolymer solid prepared by emulsion polymerization of 20 to 90% by weight of a vinyl monomer, 1 to 10 parts by weight of a water-soluble polyalkylene glycol having a molecular weight of 10, 000 or less, liquid sodium silicate, liquid potassium silicate, liquid lithium silicate It includes 5 to 40 parts by weight of any one or more water-soluble silicate selected from. Here, the colored ceramic pottery aggregate is a colored ceramic pottery aggregate having pores manufactured by further adding and mixing an organic binder and a pore material in the step of mixing an inorganic colored pigment with a raw material of ceramics. The organic binder is at least one selected from methyl cellulose, hydroxypropoxy cellulose, hydroxyethyl cellulose or carboxymethyl cellulose. The pore material is at least one selected from graphite, wheat flour, starch, phenol resin, polymethyl methacrylate, polyethylene, polyethylene terephthalate, unfoamed resin or foamed resin. The auxiliary base layer 130 is any one selected from 0.1 to 20 parts by weight of pigment, 20 to 50 parts by weight of fly ash, and 20 to 50 parts by weight of silica sand in the composition containing the colored ceramic ceramic aggregate. It may further include any of the above components, or may further include any one selected from a fastener, a retardant, and a nonionic surfactant in the composition containing the colored ceramic ceramic aggregate. The water-soluble carboxylate group-containing vinyl monomer is one in which at least one monomer selected from acrylic acid, methacrylic acid, maleic acid, fumaric acid and itaconic acid is substituted with hydrogen in the form of ammonium salt, alkali metal salt or alkaline earth metal salt, and the silyl group The containing vinyl monomer is divinyl dimethoxysilane, divinyl di-beta-methoxyethoxysilane, vinyl triethoxysilane, vinyl tris-beta-methoxyethoxysilane, gamma (meth) acryloxypropyl trimethoxy It is any one or more selected from a silane, gamma- (meth) acryloxypropyltriethoxysilane, and gamma- (meth) acryloxypropylmethyldiethoxysilane. In addition, the other vinyl monomer which can be copolymerized is any one or more selected from a (meth) acrylic acid ester, styrene, and a hydroxyl-containing vinyl monomer.

In addition, the auxiliary base layer 130 is formed of a thin asphalt pavement composition so that the pavement 100 is manufactured at high speed while having water permeability and water purification. The asphalt thin pavement composition, 10 to 40 parts by weight of asphalt, 10 to 40 parts by weight of the coarse aggregate, 10 to 30% by weight of the aggregate, 10 to 30% by weight of the fine aggregate, and 5 to 10% by weight of the filler mixture. 1 to 10 parts by weight of any one or more polymer modifiers selected from styrene copolymers, 1 to 15 parts by weight of any one or more strength modifiers selected from polypropylene fibers, polyethylene fibers, cellulose fibers, glass fibers, carbon fibers, aramid fibers, A copolymer of ethylene and methacrylic acid is mixed with 0.5 to 2 parts by weight of an ionomer containing 1 to 3 valent metal salts. Here, the polymer modifier is any one of an ethylene copolymer or a number average selected from ethylene vinyl acetate, ethylene ethyl acrylate, ethylene methyl acrylate and ethylene-propylene copolymer having a number average molecular weight of 1, 500 to 90,000. Any one of styrene copolymers selected from powdered styrene-butadiene-styrene copolymers, styrene-butadiene-rubber copolymers, and acrylonitrile-styrene-acrylic acid esters having a molecular weight of 2,000 to 900, 000 is used. In addition, the auxiliary base layer 130 is formed by adding an adhesive imparting agent to the asphalt thin pavement composition, the adhesive imparting agent, aromatic petroleum resin, coumarone indene resin, aliphatic petroleum resin, phenol resin, 0.1 to 3 parts by weight of one or more selected from the group consisting of rosin, hydrogenated rosin, modified rosin, coumarone to indene resin, shellac, copal, fatty acid, polyamide resin and polyester resin. In addition, 40 to 70% by weight of any one or more high-concentration rubber latex selected from styrene butadiene rubber-based, acrylic rubber-based, ethylene-vinyl acetate-based and chloroprene-based, having 40 to 70% solids in the asphalt thin pavement composition, mineral oil, animals and plants, Or 5 to 20% by weight of any one or more heavy oils selected from synthetic oils, polyoxy ethylene nonylphenyl ether, polyoxyethylene olyl phenyl ether, polyoxyethylene cetyl ether, polyoxy ethylene lauryl ether, polyoxy ethylene stearyl ether 10-30% by weight of any one or more nonionic surfactant, at least one ion block selected from 2-calcium glyconate, ethylenediamine tetraacetic acid, ammonium glyconate, sodium trifolate, casein Any one selected from 2 to 7% by weight, liquid sodium silicate, liquid potassium silicate, liquid lithium silicate Further comprises a curing agent a mixture of on the water-soluble silicate 2-5% by weight. The hardener is used 1 to 5 parts by weight based on 100 parts by weight of the aggregate and the filler, inorganic pigments, or waste tire powder or crushed waste glass powder pulverized to 0.01 ~ 0.3 mm may be further included in the asphalt paving composition, Accordingly, the packaging material 100 becomes a more environmentally friendly packaging material.

The surface layer 160 of the elastic layer 150, fine aggregate, silica sand, recycled aggregate, clay chip, ceramic block, clay block, scrap, rubber chip, fine aggregate, waste tire rubber chip, aggregate, waste ceramic, recycled aggregate, Soil, cement, waste aggregate, chaff, waste rubber powder, waste wood, rice straw, sawdust, waste styrofoam, waste plastic, activated carbon, rubber sheet, organic / inorganic fiber roving yarn, glass roving yarn, anion and far infrared emitter, jade, Elvanite illite, kaolin, fibrous waste paper, waste cotton, wood flour, charcoal, vermiculite, pearlite, glass wool, rock wool, resin emulsion (olefin resin emulsion, acrylic resin emulsion or rubber resin emulsion, or adhesive resin emulsion), recycled rubber, At least one material selected from among vinyl, recycled glass, clay, loess, woven fabric, nonwoven fabric, charcoal, color material, color occasional, and color pigment, and after the predetermined material is treated, is laminated on the auxiliary base layer 130. So Is formed.

In addition, the surface layer 160 is formed of fine aggregate and silica sand so that the packaging material 100 has water permeability and water purification. That is, the surface layer 160, the first layer formed on the upper surface of the base layer 110 by mixing the resin mixed with the solid ascone and bio-oil with the curing agent and aggregate in the field, and 0.5 to the upper surface of the first layer And a second layer formed by mixing 20 mm of fine grain aggregate, bio resin mixed with color pigments, and additives. Here, the fine-grained aggregate, the recycled aggregate and silica sand, the fine-grained aggregate, the color pigment is formed after the coating is heated to 200 degrees or more, the additive is a rubber powder, solid ascon and bio-oil mixed The ratio of the main material and hardener which consisted of the resin which became said becomes 2-5: 0.5-1.8.

The surface layer 160 is formed of silica sand so that the packaging material 100 has water permeability and water purification. That is, the surface layer 160 is a first layer formed by uniformly compacting on the upper surface of the base layer 110 after mixing 60 ~ 90% by weight of clay chips crushed to 20mm or less, 10 ~ 40% by weight of the adhesive binder, and the 40 to 60 wt% of clay chips pulverized to 20 mm or less and 40 to 60 wt% of silica sand are included, and a second layer is formed by laying on the first layer. Here, the silica sand is 10mm or less, and is composed of a color resin coated on the waste slag.

In addition, the surface layer 160 is formed of clay so that the packaging material 100 has various patterns. That is, the surface layer 100 is a top surface of the flattened base layer 110 after mixing 60 ~ 90% by weight of the chip, and 10 ~ 40% by weight of the adhesive binder, the ceramic block, clay block, scrap collected and crushed to 20mm or less A second layer formed by mixing the first layer formed evenly on the chip, 30-40% by weight of the chips of the selected color, 30-40% by weight of silica sand, and 20-40% by weight of the adhesive binder, and then laying the upper surface of the first layer. And a third layer formed by applying a color resin to the upper pattern portion of the second layer. Here, the first and second layers are added charcoal, loess, fiber, wood flour so as to be a non-toxic, friendly packaging material.

In addition, the surface layer 160 is formed of a rubber chip so that the packaging material 100 has various patterns, colors, heat shielding properties, and elasticity. That is, the surface layer 160 includes a first layer formed by mixing and installing a regenerated rubber chip and a urethane binder on an upper surface of the foundation layer 110, and a heat shield sheet made of a mesh fiber material on the upper surface of the first layer. A third layer formed by mixing a second layer formed on top of the second layer and a natural color or recycled color rubber chip having a color on the upper surface of the second layer with a urethane binder, and a color rubber chip of 5 mm or less on the upper surface of the third layer 50 And a fourth layer formed by mixing 70 wt%, 5-20 wt% of the glass powder, and 30-50 wt% of the urethane binder. The fourth layer is formed by mixing 10 to 20 parts by weight of the glass powder with respect to 100 parts by weight of the urethane binder, followed by mixing for 2 to 4 minutes through a mixer.

In addition, the surface layer 160 is formed of silica sand so that the packaging material 100 has various patterns, colors, permeability, and elasticity. That is, the surface layer 160, 10 ~ 30 weight of the waste tire rubber chip pulverized to 70 ~ 80 parts by weight of fine aggregate (gravel) or silica sand with an average particle diameter of 6 ~ 10mm and a particle diameter of 4 ~ 8mm on the upper surface of the base layer 110 The lower layer material mainly comprising a portion and the upper layer material mainly composed of waste urethane color rubber chips cut to a length of 3 to 4 mm are prepared, respectively, and the lower layer material is poured and the upper layer material is poured immediately before the lower layer material is cured. Here, the upper layer of the urethane binder is mixed with 15 to 25% of the total weight of the upper elastic layer, the lower layer of the polyurethane resin is mixed with 10 to 20% of the total weight of the lower support layer.

In addition, the surface layer 160 is formed of soil so that the packaging material 100 has water permeability, water purification and heat shielding properties. That is, the surface layer 160, the first layer formed by mixing concrete or asphalt concrete and rubber chips of 2 mm or less, and then installed on the upper surface of the base layer 110, aggregate, silica sand, waste ceramics by grinding the particle size 0.2 ~ The soil crushed powder of 1.2 mm or less was heated at a temperature of 180 to 220 ° C. for 8 to 10 minutes, and the heated soil pulverized mixture was mixed with a color resin having a color color to color coat the pulverized powder. After the soil ground material is heated to a temperature of 100 ~ 150 ℃ and mixed with the heated color coated earth ground powder and the binder resin, when the first layer is cured, a primer is applied to the smooth surface of the first layer And a second layer formed by compacting a mixture with the binder resin. Here, the first layer is formed by including 10 parts by weight of waste tire or regenerated rubber powder of 1.18 mm or less with respect to 100 parts by weight of aggregate, and blending it with a binder resin and laying it on the ground. The color resin or the binder resin is prepared by mixing an adhesive resin containing vegetable bio-oil to within 50% of petroleum resin and 50% or less of the vegetable bio-oil or edible oil in 250 ° C. within 5 hours. The vegetable bio oil may be cereal oil, and the first layer may further include 10 parts by weight of glass balls or glass powder. The second layer is formed by spraying a material mixed with a heat-shielding material powder and a resin on the surface of the second layer, the soil ground material is 0.2 mm to 1.5 mm in size and 1.6 After removing the residue by separating the size by ㎜ ~ 3㎜ size, 3㎜ ~ 5㎜ size, 5㎜ ~ 19㎜ size, it is sorted into soil pulverization with stability (%) 40 or less and absorption rate 3 ~ 10 or less.

In addition, the surface layer 160, 45 to 65% by weight of circulating aggregate, 20 to 40% by weight of soil, 10% by weight of cement, waterproof admixture 5 to have waterproofness when the packaging material 100 is used in a facility place for waterproofing Contains weight percent. Here, the waterproofing admixture is composed of 8% by weight of the waterproof admixture and 92% by weight of water, the waterproof admixture is a product synthesized from a water-soluble salt of polycarboxylic acid and the extraction monomer of petroleum naphtha, the soil is water The content is 10% by weight and the particle size is 100 mesh.

And, the surface layer 160, 5 to 15 parts by weight of coal tar, cellulose fiber 0.5 to 1 with respect to 100 parts by weight of aggregate of 13 to 25 mm particle size on the upper surface of the base layer 110 so that the packaging material 100 has water permeability After applying the aggregate mixture mixed by weight, heated and pressed with a roller, 25 to 40 parts by weight of water, SBR 0.5 to 1 part by weight, MMA 0.2 to 0.5 part by weight, EAM 0.2 to 0.5 to 100 parts by weight of crude steel cement It is formed by spraying and hardening cement mortar mixed with parts by weight. Here, the aggregate mixture and cement mortar may be used in a weight ratio of 1: 0.15 to 0.25 to prevent slipping after construction of the packaging material 100, or the aggregate mixture and cement mortar may be used in a weight ratio of 1: 0.25 to 0.3 for repair. have.

In addition, the surface layer 160, the waste tire is formed so that the packaging material 100 is provided by the recycling of resources. That is, the surface layer 160 is a rubber chip pulverized in a width of 1mm to 20mm on the upper surface of the base layer 110 in a proportion of 1 to 50% by mixing silica sand and evenly coarse gravel, sand, PU (polyurethane) And a second layer formed by uniformly mixing a rubber chip, a pigment, and a PU (polyurethane) pulverized in a width of 0.6 mm to 5 mm on the upper surface of the first layer.

In addition, the surface layer 160 collects various waste aggregates, such as brick, concrete, gravel, and asphalt concrete, which are waste building aggregates, and crushes them to 8 to 30 mm so that the packaging material 100 is provided by recycling resources. Spray adsorption on the surface of waste aggregates with a primer of GR ~ 001 primer to the primary surface treatment, and the first surface treated waste aggregate rubber admixed and adsorbed 0.4 to 2 mm of waste tire rubber powder with polyurethane binder After secondary coating by secondary surface treatment, the secondary surface treatment is formed by the recycled aggregate.

In addition, the surface layer 160 is 70 to 80 parts by weight of fine aggregate (gravel) or silica sand with an average particle diameter of 6 to 10 mm and a particle diameter of 4 to 8 mm on the upper surface of the base layer 110 so that the packaging material 100 has elasticity and permeability. 10 to 30 parts by weight of the waste tire rubber chip ground as a main component, and a second layer formed as a main component of the waste urethane color rubber chips cut to a length of 3 to 4mm on the upper surface of the first layer. In the first layer, the urethane binder is mixed at 15 to 25% of the total weight of the upper elastic layer, and in the second layer, the polyurethane resin is mixed at 10 to 20% of the total weight of the second layer.

In addition, the surface layer 160, the packaging material 100 is formed of chaff to have a non-toxic environmentally friendly and permeable and elastic. That is, the surface layer 160 includes chaffs, fiber strands in contact with neighboring chaffs, and a resin layer of any one of a thermosetting resin layer or a thermoplastic resin layer coated on the chaffs and the fiber strands. In addition, the chaff and the fiber strands are formed by being bound to each other by bonding and curing of the resin layer in a pressurized state. The apparatus further includes a fragrance filled in pores of the rice husks, wherein an antimicrobial layer is formed on the surface of the resin, and the rice husks are colored chaff, or are pulverized and pressurized. The resin layer has a weight ratio of 50% to 150% of chaff, and the fiber strands are 1 to 3% by weight relative to 100% by weight of chaff, and the fragrance is 1 to 3% to 100% by weight of chaff. % By weight, the antimicrobial agent is 0.5 to 3% by weight relative to 100% by weight of chaff. And, the fragrance body is formed of a natural fragrance, the antimicrobial layer is formed of an inorganic antimicrobial agent, the fiber strands are obtained from any one of the reinforcing fibers and fiber composite material, at least any one of the color chip and color silica At least one of seed shells and herbaceous stems of chaff and other herbaceous plants is further included.

In addition, the surface layer 160 is formed of waste tires or waste rubber powder so that the packaging material 100 has an anti-slip function and has resource recycling and permeability and elasticity. That is, the surface layer 100, the first layer formed of a mesh mesh of polyolefin-based material on the upper surface of the base layer 110, by mixing a urethane binder and waste rubber or waste tire powder and waste aggregate on the upper surface of the first layer 1 to 3 mm thick by mixing the formed second layer with 10 to 20 weight% of waste rubber or waste urethane powder having a particle size of 0.1 to 1 mm with respect to 100 weight% of the two-component urethane binder composition on the upper surface of the second layer. And a third layer formed by spraying to impart a permeable porous concave-convex surface to the furnace surface, and a fourth layer formed by coating a top coat with a thickness of 50 to 100 μm to prevent slipping on the upper surface of the third layer. . Here, the top coat coating agent of the fourth layer is a 30-60% by weight of the two-component urethane resin and the silica sand having a particle size of 100 to 200 mesh with respect to 100% by weight of the two-component urethane resin composition. In addition, the top coat is 30 to 20 wt% of a photoluminescent pigment having a particle size of 10 to 20 μm based on strontium aluminate (SrAl 2 O 4) or calcium aluminate (CaAl 2 O 4) to enable photoluminescence. 50% by weight may be mixed. In addition, the top coat is a 3-10 wt% of a hollow ceramic (ceramic bubble) having a particle size of 75 ~ 200㎛ size with respect to the top coat composition 100% by weight as a heat reflecting material so that the packaging material 100 has heat shielding properties Can be. In addition, the top coat is a 100 to 100% by weight coating composition of ultrafine titanium dioxide ~ silicon dioxide (TiO2 ~ SiO2) composite oxide of 80 ~ 100nm in size so as not to be easily contaminated with the removal of volatile organic compounds (VOC) It becomes 1 to 5 weight% mixed with respect to.

In addition, the surface layer 160 is formed of waste wood so that the packaging material 100 has non-toxic eco-friendly and heat shielding and elasticity by recycling resources. That is, the surface layer 100 may include a first layer formed of a mixture of 100 parts by weight of crushed waste wood fibers and 20 to 40 parts by weight of a binder obtained by crushing the waste wood, and 100 parts by weight of waste wood fibers on the first layer. A second layer is formed by mixing 80 to 120 parts by weight of the binder and 20 to 35 parts by weight of the binder to 100 parts by weight of the rubber chip having a size of 1 to 5 mm. The waste wood fibers are dyed with natural dyes, mixed with the pigments to be used, or color binders containing the pigments.

In addition, the surface layer 160 has the resource recycling and permeability and water purification of the packaging material 100, and is formed of recycled rubber to prevent frostbite (freezing). That is, the surface layer 160, 40 to 60 parts by weight of recycled rubber chips (1 to 20 mm), 40 to 60 parts by weight of recycled aggregates (10 to 60 mm), 3 to 20 weights of the adhesive binder on the upper surface of the base layer 110 A crusher layer formed by mixing the frost-prevented layer and the aggregate 40 to 60 parts by weight of the aggregate, and the 40 to 60 parts by weight of the recycled rubber chip, and the waste hollow fiber membrane filter, the waste carbon filter, and the waste carbon fiber are formed of chips. The layer includes a permeation purification layer formed by mixing a layer, a regenerated rubber chip, aggregate, and a glass ceramic ball (10 to 50 mm), and an elastic surface layer formed by adding activated carbon to the regenerated rubber chip. Here, the surface layer 160 is formed by combining a fiber material of 0.5 to 2mm in length to the water permeable purification layer and the elastic surface layer. In addition, the elastic surface layer is a state in which activated carbon is added to the urethane resin, a porous roll mat to which activated carbon is added, or a fiber material (length 0.5 to 2 mm) made of one of yarn or mesh type and a rubber chip are mixed in a liquid state. It is formed by foaming. The glass ceramic ball is made of a mixture of waste glass and waste ceramic, at least one or more of the waste carbon fiber or blast furnace slag is further mixed with the recycled rubber chip to take the ball shape.

In addition, the surface layer 160 is formed of pevinyl to recycle resources of the packaging material 100. That is, the surface layer 160 is a waste vinyl chip, asphalt liquid, waste vinyl chip formed by extruding the waste vinyl by a thermal extrusion molding machine, and then pulverized to a size of 0.03 to 10 mm with a size of 0.05 to 18 mm. It is formed by mixing the recycled rubber chip formed by pulverization and the additive formed by mixing the emulsified resin with the construction waste recycled aggregate having an particle size of 5 to 50 mm and the additive and heating to a softening point of 120 to 280 ° C. Here, the additive is formed by mixing 0.5 to 50 parts by weight of waste vinyl chips, 0.3 to 1.8 parts by weight of recycled rubber chips pulverized to a size of 0.05 to 18 mm, and 1 to 5 parts by weight of an emulsified resin relative to the total weight of asphalt liquid. The surface layer 160 is formed by mixing 70 to 80% by weight of construction waste recycled aggregate having a particle size of 5 to 50 mm and 20 to 30% by weight of an additive to a softening point of 120 to 280 ° C. Here, the surface layer 160 is an additive by mixing 0.5 to 50 parts by weight of waste vinyl chips, 0.3 to 1.8 parts by weight of recycled rubber chips pulverized to a size of 0.05 to 18 mm, and 1 to 5 parts by weight of an emulsified resin, based on the total weight of asphalt liquid. 70 to 80% by weight of the construction waste recycled aggregate having a particle size of 5 to 50 mm and 20 to 30% by weight of an additive was mixed and heated to a softening point of 120 to 280 ° C., and a urethane on the upper surface of the first layer. The resin and the colored rubber chip ground to a size of 0.05 to 18 mm are mixed 2: 1 to include a second layer. The second layer is formed by applying one of a urethane resin, an epoxy resin, and an acrylic resin on the upper surface of the first layer.

In addition, the surface layer 160 is formed of waste aggregate and natural materials for resource recycling and eco-friendliness of the packaging material 100. That is, the surface layer 160, crushed old blocks and stones to a size of less than 45mm, and laminated the crushed blocks and stones on the upper surface of the base layer 110, and then sprayed with a urethane resin-based admixture on the surface, Sprinkle and install regenerated rubber chips of 8mm or less, and mix and install clay and loess grains, which are natural materials with fine grain size of 1mm ~ 20mm, by mixing with the admixture of urethane resin series, and finish by coating. Here, the surface layer 160 is mixed with a urethane resin-based admixture or recycled glass grains having a fineness of 1mm to 20mm instead of clay and loess grains, which are natural materials having a fineness of 1mm to 20mm. The silica sand and fine aggregate having a fineness of 20 mm may be mixed with a urethane resin-based admixture, or a ceramic chip having a fineness of 1 mm to 20 mm may be mixed with a urethane resin-based admixture.

In addition, the surface layer 160 is formed of a nonwoven fabric to facilitate separation of each layer formed thereon during maintenance of the packaging material 100 after construction. That is, the surface layer 160, the thickness is 100 to 150mm, the particle size of 5mm to 30mm aggregates and the mixture of rubber chips and urethane resin series, but the ratio of the aggregates and rubber chips and the mixture material in a volume ratio of 10 to 50:40 ~ A first layer of 80:10 to 30, a second layer consisting of a rubber chip having a thickness of 15mm to 55mm and a particle size of 2mm to 15mm mixed with a polyurethane binder having a weight ratio of 15 to 30%, and a thickness of 25mm to 35mm And a third layer composed of a rubber binder having a particle size of 2 mm to 10 mm and a polyurethane binder having a weight ratio of 15 to 30%. Here, silver, copper, and zinc ions, which are inorganic antibacterial agents, are added to any or all of the first to third layers to sterilize bacteria generated from animal feces. The rubber chip is formed of any one of waste tires, rubber, recycled rubber and synthetic rubber of coated wire, and the color chip is black waste tire rubber chip, rubber chip, recycled rubber chip, synthetic rubber chip of coated wire. It is formed by coating a dye on any one of, or at least one of a color EPDM chip, a color rubber chip, a polyurethane chip.

In addition, the surface layer 160 is formed of a rubber chip so that the packaging material 100 is environmentally friendly and elastic. That is, the surface layer 160 is crushed to a size of 1 ~ 10mm, heated to 100 ~ 250 ℃ and aged for 10 to 30 minutes and then dried to 100 parts by weight of natural or recycled rubber chips, 10 to 18 carbon atoms 50 to 70% by weight of higher fatty acids, 10 to 20% by weight of one polybasic acid selected from the group consisting of phthalic anhydride, adipic acid, maleic acid and mixtures thereof, glycerin, trimethylolpropane, pentaerythritol and mixtures thereof 20 to 30% by weight of one polyhydric alcohol selected from the group consisting of 5 to 30 parts by weight of an ester compound prepared by reacting. Here, the rubber chip further comprises any one of sawdust, ocher powder, charcoal powder, cork powder, coconut powder.

In addition, the surface layer 160, in order to prevent cracking of the packaging material 100, after applying the concrete on the upper surface of the base layer 100, grooves of width 2 ~ 4cm, depth 3 ~ 5cm in a 4 ~ 6m interval in a straight line The surface layer 160 may be formed after digging and filling the grooves with asphalt asphalt.

The surface layer 170 of the elastic layer 150 is formed by spraying or coating a predetermined material on the upper surface of the surface layer 160 in order to extend the expiration date of the packaging material 100. For example, in more detail, the surface layer 170 may include natural or recycled rubber chips, rubber powder, urethane binder, asphalt liquid, color pigments, light stabilizers, heat stabilizers, antioxidants, hardeners, colorants, antibacterial agents, Preservatives, defoamers, emulsifiers, crosslinkers, lubricants, fillers, abrasion resistant agents, polymer mats (polyester woven fibers), urethanes, epoxies, acrylics, polyesters, plant mix asphalt modifiers, waterproofing materials, spray rubberized asphalt mastic waterproofing materials, At least one or more materials of a plant mix color coloring binder, waste asphalt concrete regeneration modifying additive, water soluble spray thin layer packaging composition, and room temperature curing type spray hardening thin layer coating composition are selected, and the selected material is treated. ) It is formed by coating or spraying on the upper surface.

The surface layer 170 is attached to the upper surface of the surface layer 160 formed by mixing 0.5-10 mm of natural or recycled rubber chip and rubber powder with a urethane binder, and has a pattern sheet with a pattern on the surface and the pattern. It includes a color resin layer applied to the upper surface of the sheet in the same color as the pattern, and a transparent coating layer applied to the upper surface after curing of the color resin layer. The said adhesive material is a urethane resin or an epoxy resin, and the said pattern sheet paper becomes a paper or a cloth material.

In addition, the surface layer 170 includes an asphalt layer formed by spraying the asphalt solution on the surface of the surface layer 160 with a spray once or three times to harden the surface of the packaging material 100. Here, the asphalt liquid is made of a resin-type curing coating agent at room temperature curing type is formed by mixing with a color pigment on the asphalt pavement and coated with a finish, or porous glass for reducing the heat of the surface of the water-permeable pavement in the asphalt solution The surface coating material to which any one or more of the glass fine particles, the fiber powder and the rubber powder is added is put into a blender, and then adsorbed 1 to 3 times on the surface layer surface of the water-permeable packaging material to be cured for 4 hours. In addition, the surface of the asphalt layer, by using a patterned base paper to apply a color resin 1 to 3 times to form a pattern, and then mixed with a color resin and rubber powder to include a coating layer formed by secondary coating, On the surface of the asphalt layer, a binder resin and silica sand is mixed and applied to the surface with a thickness of 3 ~ 20mm comprises a prevention layer formed to prevent slipping.

In addition, the surface layer 170 is formed by spraying a plant mix type asphalt modification additive on the top surface 160. The plant mix asphalt modifying additive is a process oil and a low softening point asphalt 25 to 45% by weight and petroleum resin or thermoplastic resin 20 to 40% by weight in a uniform phase at a temperature of 150 to 180 ℃, TPE or rubber 20 to 55% by weight is added thereto, and 0.1 to 0.5% by weight of heat resistant antioxidant, 0.1 to 0.3% by weight of UV stabilizer, and 0.2 to 0.6% of viscosity lowering agent are added thereto, and then the mixture is sufficiently uniform in a temperature of 150 to 200 ° C. After dispersion, it is formed by molding into particles having a diameter of 5 mm or less and a length of 2 cm or less.

In addition, the surface layer 170 is formed by spraying rubberized asphalt mastic waterproofing material is sprayed on the top surface 160 so that the packaging material 100 is waterproof when used in a facility location for waterproofing. The spray rubberized asphalt mastic waterproofing material is 20 to 75.7% by weight of process oil, 3 to 20% by weight of modifier, 5 to 25% by weight of waste tire powder of 30 to 120 mesh, 3 to 20% by weight of viscosity modifier, asphalt It consists of 13 to 60% by weight and a special compatibilizer 0.3 to 1.0% by weight, the mixture further comprises a predetermined heat stabilizer, anti-aging agent or a mixture thereof.

In addition, the surface layer 170 is formed by spraying a plant mix color coloring binder on the top surface 160. The plant mix type color coloring binder is uniformly dispersed in 10 to 30% by weight of process oil and 20 to 60% by weight of petroleum resin or thermoplastic resin at a temperature of 160 to 200 ° C, and 15 to 30% by weight of TPE or rubber. And 0.1 to 0.5% by weight of a thermal antioxidant, uniformly dispersed at a temperature of 160 to 200 ° C, and 0.1 to 0.5% of a UV stabilizer, and 0.1 to 0.5% of a special additive that improves the compatibility of the polymer and the resin. After the addition, the inorganic or organic pigments of the desired color are added to the uniformly mixed binder at a temperature of 160 to 200 ° C. and the binder: pigment weight ratio is added in a ratio of 20: 1 to 10: 1 to sufficiently disperse the mixture into a uniform phase. It is formed by molding into solid particles having a diameter of 1 cm or less and a length of 2 cm or less.

In addition, the surface layer 170 is formed by spraying waste asphalt concrete regeneration modifying additive on the top surface 160. The waste asphalt concrete regeneration modifying additive is 40 to 80% by weight of petroleum process oil, 4 to 35% by weight of tackifier, 15 to 35% by weight of polymer modifier, 0.5 to 5% by weight of compatibilizer, and 0.2 to 5% by weight of heat stabilizer. % And 0.1 to 5% by weight of weathering improver, wherein the heat stabilizer is butylated hydroxytoluene, and the petroleum process oil is one or two selected from the group consisting of naphthenic, paraffinic and aromatic oils. Mixtures of species or more.

In addition, the surface layer 170 is formed by spraying the water-soluble spray thin layer packaging composition on the top surface 160. The water-soluble spray thin layer packaging composition is 20 to 50% by weight urethane acrylic aqueous emulsion, 5 to 15% by weight water, 30 to 60% by weight calcium carbonate, 5 to 20% by weight organic pigment, fumed silica, dolomite, silica, 1 to 10% by weight of any one or more fillers selected from calcium carbonate, glass beads, ceramic aggregates. Here, with respect to 100 parts by weight of the water-soluble spray thin layer packaging composition, 1 to 30 parts by weight of cemented carbide, 0.1 to 10 parts by weight of silica sand may be further included. The filler is methyldimethoxysilane, methyldiethoxysilane, dimethylethoxysilane, dimethylvinylethoxysilane, dimethylvinylmethoxysilane, methylvinyldimethoxysilane, methylvinyldiethoxysilane, diphenyldimethoxysilane, diphenyl Diethoxysilane, phenyltrimethoxysilane, phenyltriethoxysilane, trimethylmethoxysilane, trimethylethoxysilane, dimethyldimethoxysilane, dimethyldiethoxysilane, methyltrimethoxysilane, methyltriethoxysilane, tetramethoxy It is used by coating with any one or more silane compounds selected from oxysilane, tetraethoxysilane or polydimethylsiloxane. The urethane acrylic aqueous emulsion is synthesized by adding an acrylic ester resin during the production process of the aqueous urethane binder.

In addition, the surface layer 170 is formed by spraying a room temperature curing type spray type rapid curing thin coating composition on the top surface 160. The room temperature-curable spray type fast-curing thin layer coating composition is an epoxy equivalent of 200 to 350, a modified epoxy resin 10 to 30% by weight of an epichlorohydrin modified with fatty acid and bisphenol A, and an epoxy equivalent of 200 to 350 Alkyl phenol, polyvalent polyamine, formaldehyde, di, based on 100 parts by weight of the main composition consisting of 60 to 80% by weight of epoxy resin mixed with 70 to 90% by weight of bisphenol A-type epoxy resin and 20 to 40% by weight of unsaturated polyester resin 80 to 95% by weight of at least one epoxy curing agent selected from ethyltoluenediamine and at least one unsaturated polyester curing agent selected from methyl ethyl ketone peroxide, benzoyl peroxide, lauryl peroxide, acetyl peroxide and octyl peroxide 5 1-30 parts by weight of a mixed curing agent mixed with 20 wt%, dimethyl paratoluidine, dimethyl aniline, diethyl aniline, ethylmeth 0.1 to 5 parts by weight of any one or more curing accelerators selected from toluidine, pyridine, phenylmorpholine, piperidine, diethanol aniline, cobalt naphtanate, dipentaerythritol monohydroxyacrylate, trimethylolpropane triacrylate, Neopentyl glycol hydroxy pibarate diacrylate, 1, 4- butanediol diacrylate, 1, 6- hexanediol diacrylate, pentaerythritol triacrylate, ethylene glycol dimethacrylate, triethylene glycol dimetha 5-20 parts by weight of any one or more polyfunctional acrylic compounds selected from methacrylate, tetraethylene glycol dimethacrylate, 1, 3-butylene glycol dimethacrylate, trimethylolpropane trimethacrylate, and aryl methacrylate It is used by mixing.

As shown in FIG. 2, in the above-described packaging material according to the present invention, the first step 210 of forming the base layer 120 by laminating the upper surface of the compaction layer and forming the auxiliary base layer 130 on the upper surface of the base layer 120 is performed. The second process 220, the third process 230 of forming the surface layer 160 on the upper surface of the auxiliary base layer 130, and the fourth process 240 of forming the surface layer 170 on the surface layer 160. The construction is carried out sequentially. Here, the formation order of the base layer 120 and the auxiliary base layer 130 can be changed.

The first process 210 is a step of forming the base layer 120 on the upper surface of the compaction layer by using various materials such as aggregate, silica sand, waste ceramic, and the like, for example, concrete blocks, asphalt blocks, and stone blocks to be discarded. The second process 220 is a step of forming the auxiliary base layer 130 to have various characteristics in the region where the packaging material is constructed, and the base layer 110 by the first process 210 and the second process 220. ) Is constructed.

The third process 230 is a step of forming the surface layer 160 to have a variety of characteristics, in particular a variety of colors and elasticity in the region where the packaging material is constructed, the fourth process 240, the durability of the constructed packaging material In order to reinforce, the surface layer 170 is formed by spraying or coating a predetermined material, and the elastic layer 150 is constructed by the third process 230 and the fourth process 240. Here, since the formation of each layer formed by the first to fourth processes 210, 220, 230, and 240 has been described above in detail, a detailed description thereof will be omitted.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a cross-sectional view showing the structure of a packaging material according to a preferred embodiment of the present invention.

Figure 2 is a flow chart of the construction method of the packaging material according to a preferred embodiment of the present invention.

Claims (35)

In the packaging material, Circulating aggregate, cement, admixture, waste asphalt concrete crushed, coarse aggregate, fine aggregate, emulsified asphalt, additive, modifier, filler (calcium carbonate, carbon black, cement, limestone, or plaster), filler, emulsified asphalt, new aggregate, Waste Concrete Recycled Aggregate, Waste Ascone Recycled Aggregate, Acrylic Polymer, Charcoal, Ocher, Waste Ceramics, Waste Grinding Aggregate, Waste Artificial Marble, Asphalt Concrete Modifier Chip, Block Copolymer, Asphalt Concrete Composition, Resource Recycling Recycled Packaging Composition, Soil A base layer formed by selecting at least one material from among curing chemical compositions, and laminating the selected material on a planarized top surface of the flattened layer; Select at least one or more of a water-soluble spray thin packaging composition, a water-permeable colored ascon composition, a neutralized asphalt composition, a water-permeable asphalt concrete composition, a composition containing colored ceramic ceramic aggregate, a composition for paving asphalt layer, and selecting the selected composition An auxiliary base layer formed by laminating on an upper surface of the base layer after the treatment; Fine aggregate, silica sand, recycled aggregate, clay chip, ceramic block, clay block, scrap, rubber chip, fine aggregate, waste tire rubber chip, aggregate, waste ceramic, recycled aggregate, soil, cement, waste aggregate, rice hull, waste rubber powder, Waste wood, rice straw, sawdust, waste styrofoam, waste plastic, activated carbon, rubber sheet, organic / inorganic fiber roving yarn, glass roving yarn, anion and far infrared emitter, jade, elvanite, clay, kaolin, waste paper, Wood flour, charcoal, vermiculite, pearlite, glass wool, rock wool, resin emulsion (olefin resin emulsion, acrylic resin emulsion or rubber resin emulsion, or adhesive resin emulsion), recycled rubber, pevinyl, recycled glass, clay, loess, woven fabric, A surface layer formed by selecting at least one or more of a nonwoven fabric, charcoal, a color material, color occasional, and color pigments, and treating the selected material and then laminating the upper surface of the auxiliary base layer; And Natural or recycled rubber chips, rubber powder, urethane binders, asphalt liquids, color pigments, light stabilizers, heat stabilizers, antioxidants, reinforcing agents, coloring agents, antimicrobial agents, preservatives, antifoaming agents, emulsifiers, crosslinking agents, lubricants, fillers, abrasion resistant agents, polymer mats ( Polyester woven fiber), urethane, epoxy, acrylic, polyester, plant mix asphalt modification additive, waterproofing material, spray rubberized asphalt mastic waterproofing, plant mix color coloring binder, waste asphalt concrete regeneration modifying additive, water soluble spray thin layer A packaging material comprising a surface layer formed by selecting at least one or more materials from a packaging composition and a room temperature-curable spray type fast-curing thin coating composition, and treating or treating the selected material. The method of claim 1, The base layer is formed of circulating aggregate, cement, mixed solution, the mixed solution is composed of water, MMA (Methyl methacrylate), EAM (Ethyl acrylate), lignin-based admixture, naphthalene-based admixture, the circulating aggregate is construction waste The packaging material, which is obtained by crushing with a jaw crusher and screening through an aggregate sorter and removing foreign matter through a blower. The method of claim 1, The base layer is formed of waste asphalt concrete pulverized and coarse aggregate, fine aggregate, cement, emulsified asphalt, additives, modifiers, the additive is composed of EAM (Ethyl acrylate), MMA (Methyl methacrylate), naphthenic oil, aromatic oil , The modifier NHR (Natural hydrocarbon resin), SBR (Styrene butadiene rubber), packaging material characterized in that consisting of cellulose fibers. The method of claim 1, The base material is a pavement, characterized in that formed of anionic emulsion asphalt to maintain the dispersed state of at least one of new aggregate and waste concrete recycled aggregate, waste ascon recycled aggregate, cement, acrylic polymer, and asphalt. The method of claim 1, The base layer is formed of an asphalt concrete composition obtained by treating waste ascon, and the asphalt concrete composition is selectively mixed with waste concrete or natural aggregate in a waste ascon mixture having different parts by weight of various sizes, cement, MMA (methylmethacrylate), BAM (Buthylacrylmonomer), AN (Acrylonitrile), emulsifier, water, MAA (Methylacrylicacid), a composition produced by mixing and heating the catalyst, characterized in that the packaging material consisting of emulsified asphalt. The method of claim 1, The base layer is formed of the recycled recycled packaging composition, the recycled recycled packaging composition, the general aggregate or the aggregate aggregate of mixing the aggregate and the recycled aggregate pulverized waste ascon, the filling degree of mixing the porous filler A packing material comprising: a flow modifier mixed with a thermoplastic resin, a fiber reinforcing agent, and a rubber chip obtained by grinding waste tires with respect to aggregate. The method of claim 1, The base layer is formed by mixing the earth cured chemical composition, the earth cured chemical composition, characterized in that it comprises a clinker powder, sodium silicate, anhydrous gypsum, cement, polyorganosiloxane, and polyvalent organic metal salts Packaging materials. The method of claim 1, The auxiliary base layer is formed of a water-soluble spray thin layer packaging composition, wherein the water-soluble spray thin layer packaging composition includes a solid urethane acrylic aqueous emulsion, water, an organic pigment, tourmaline, and an anion releasing material, and the anion releasing material is A packaging material characterized by one or more materials selected from ocher, corundum, amethyst, raw ore, bamboo charcoal, uranite, precious stone, obsidian and elvan. The method of claim 1, The auxiliary base layer is formed of a water-permeable colored ascon composition, wherein the water-permeable colored ascon composition comprises aggregates, asphalt, styrene-based resins, flow modifiers, and fiber reinforcing agents. The method of claim 1, The auxiliary base layer is formed of a neutralized asphalt composition, wherein the neutralized asphalt composition, asphalt, alkanes, amines or slaked lime preventive agent, reinforcing resin, characterized in that the neutralizing additive. The method of claim 1, The auxiliary base layer is formed of a permeable ascon composition, the permeable ascon composition, the coarse aggregate, fine aggregate, filler, asphalt, styrene-based resin, a thermoplastic modifier mixed with a fluid modifier, fiber reinforcing agent, adhesion aid and strength control A packaging material comprising an additive. The method of claim 1, The auxiliary base layer is formed of a composition containing colored ceramic pottery aggregates, and the composition containing colored ceramic pottery aggregates is mixed with raw materials of cement, water and ceramics, calcined at high temperature, and then pulverized. A packaging material comprising a colored ceramic (pottery) aggregate, a copolymer solid, and a water-soluble silicate prepared. The method of claim 1, The auxiliary base layer is formed of a thin asphalt pavement composition, wherein the asphalt thin pavement composition, coarse aggregate, fine aggregate, filler, asphalt, polymer modifier, strength enhancer, ionomer pavement, characterized in that. The method of claim 1, The surface layer is formed of fine aggregate and silica sand, the first layer formed on the upper surface of the auxiliary base layer by mixing the resin mixed with the solid ascone and bio oil with the hardener and aggregate in the field, and the fine grain on the first layer A packaging material comprising a second layer formed by mixing aggregate, a bio resin mixed with color pigments, and an additive. The method of claim 1, The surface layer is formed of silica sand, and after mixing the clay chip and the adhesive binder, the first layer formed by uniformly compacting on the upper surface of the auxiliary base layer, the clay chip and the silica sand are mixed and laid on the upper surface of the first layer A packaging material comprising a second layer formed. The method of claim 1, The surface layer is formed of clay, the first layer formed by mixing the ceramic block, clay block, scrap crushed chip and the adhesive binder and evenly compacted on the upper surface of the auxiliary base layer, selected color chips, silica sand, adhesive binder And a third layer formed by mixing the upper surface of the first layer after mixing, and a third layer formed by applying a color resin to the upper surface pattern portion of the second layer. The method of claim 1, The surface layer is formed of a rubber chip, a first layer formed by mixing and installing a recycled rubber chip and a urethane binder on the upper surface of the auxiliary base layer, and a heat shield sheet made of a mesh fiber material on the upper surface of the first layer A third layer formed by mixing the formed second layer with a natural color or recycled color rubber chip having a color on the upper surface of the second layer with a urethane binder, and a colored rubber chip, glass powder, and urethane on the upper surface of the third layer. A packaging material comprising a fourth layer formed by mixing and laying a binder. The method of claim 1, The surface layer is formed of silica sand, characterized in that it comprises a fine aggregate (gravel) or silica sand and waste tire rubber chips, and waste urethane color rubber chips on the upper surface of the auxiliary base layer. The method of claim 1, The surface layer is formed of soil, and mixed with concrete or asphalt concrete and rubber chips, and the first layer formed by laying on the upper surface of the auxiliary base layer, and after heating the soil pulverized crushed aggregate, silica sand, waste ceramics After the earth ground powder is mixed with a color resin having a color color to color coat the ground powder, the color coated earth ground powder is heated, and then the heated color coated earth ground powder and binder resin are mixed. And a second layer formed by coating a primer on the upper surface of the first layer and then compacting the mixture with the binder resin when the first layer is cured. The method of claim 1, The surface layer is formed of circulating aggregate, soil, cement, waterproof admixture, the waterproof admixture is composed of a waterproof admixture and water, the waterproof admixture is a packaging material, characterized in that synthesized from the water-soluble salt and the extraction monomer of petroleum naphtha. The method of claim 1, The surface layer is coated with an aggregate mixture of aggregate, coal tar, and cellulose fiber on the upper surface of the auxiliary base layer, heated and pressed with a roller, and then sprayed and hardened cement mortar mixed with crude cement, SBR, MMA, and EAM. A packaging material characterized by being formed. The method of claim 1, The surface layer is formed of waste tires, and the surface layer comprises: a first layer formed by mixing silica sand with a rubber chip on the upper surface of the auxiliary base layer and uniformly mixing gravel, sand, and PU (polyurethane) with each other; A packaging material comprising a second layer formed by uniformly mixing a rubber chip, a pigment, and PU (polyurethane) on a layer upper surface. The method of claim 1, The surface layer is pulverized waste aggregate, the primary surface treatment by spray adsorption primary surface treatment with GR ~ 001 primer on the ground surface of the pulverized aggregate aggregate, and the waste tire rubber powder on the surface of the waste aggregate treated poly The packaging material characterized in that the secondary surface treatment by mixing and adsorbing mixed with the uretan binder after the secondary coating, the secondary surface treatment formed of the recycled aggregate. The method of claim 1, The surface layer may include a first layer having a fine aggregate (gravel) or silica sand and waste tire rubber chips as a main component on an upper surface of the auxiliary base layer, and a second layer having a waste urethane color rubber chip as a main component on an upper surface of the first layer. Characteristic packaging material. The method of claim 1, The surface layer, the packaging material characterized in that it comprises chaff, the fiber strands in contact with each other chaff adjacent to each other and the resin layer of any one of the thermosetting resin layer or the thermoplastic resin layer coated on the chaffs and the fiber strands. . The method of claim 1, The surface layer is formed of waste tires or waste rubber powder, the first layer formed of a mesh mesh of a polyolefin-based material on the upper surface of the auxiliary base layer, the urethane binder and waste rubber or waste tire powder and waste aggregate on the upper surface of the first layer A third layer formed by mixing a second layer formed by mixing a mixture with a two-component urethane binder composition, waste rubber or waste urethane powder on the upper surface of the second layer to impart a permeable porous concavo-convex surface to the surface; And, The packaging material characterized in that it comprises a fourth layer formed by coating a top coat coating agent to prevent slipping on the upper surface of the third layer. The method of claim 1, The surface layer is formed of waste wood, the first layer formed of a mixture of pulverized waste wood fibers and a binder obtained by crushing the waste wood, a mixture of waste wood fibers and a binder on the upper surface of the first layer and a binder on a rubber chip Packaging material comprising a second layer formed by mixing. The method of claim 1, The surface layer is formed of recycled rubber to prevent frostbite (freezing), the frost-free layer formed by mixing the recycled rubber chip, recycled aggregate, adhesive binder on the upper surface of the auxiliary base layer, and the crushed stone layer formed by mixing the aggregate, recycled rubber chip And a filter layer formed of at least one of a hollow fiber membrane filter, a waste carbon filter, and waste carbon fibers formed of chips, a permeation purification layer formed by mixing recycled rubber chips, aggregates, and glass ceramic balls, and activated carbon in the recycled rubber chips. Packaging material characterized in that it comprises an elastic surface layer formed by addition. The method of claim 1, The surface layer is made of pevinyl, an additive formed by mixing waste vinyl chips, asphalt liquid, waste vinyl chips, recycled rubber chips, and emulsion resins, which are formed by extruding the waste vinyl by a heat extruder and then pulverizing with a grinder. Packaging material characterized in that it comprises a. The method of claim 1, The surface layer is crushed old blocks and stones, laminated crushed blocks and stones on the upper surface of the auxiliary base layer, sprayed with a urethane resin-based admixture on the surface, sprinkled with regenerated rubber chips, having a fineness Packaging material characterized in that it is formed by mixing clay and loess grains, which are natural materials, with admixtures of urethane resin series and finishing with coating. The method of claim 1, The surface layer is formed of a nonwoven fabric, and includes a first layer in which an aggregate, a mixture of rubber chips and a urethane resin series are mixed, and a second layer and a third layer formed by mixing polyurethane binder in different amounts on a rubber chip. Packaging material characterized in that. The method of claim 1, The surface layer is a packaging material, characterized in that it comprises a recycled rubber chip, a C10-C18 higher fatty acid, polybasic acid, ester compound prepared by reacting a polyhydric alcohol. The method of claim 1, The surface layer is mixed with a natural or recycled rubber chip and rubber powder with a urethane binder and attached to the upper surface of the surface layer as an adhesive material, and the pattern on the surface is attached to the pattern sheet, and the color of the pattern on the upper surface of the pattern sheet A packaging material comprising a color resin layer applied in the same manner, and a transparent coating layer applied to the upper surface of the color resin layer after curing. The method of claim 1, The surface layer, the upper surface of the asphalt liquid, plant mix asphalt modification additive spray rubberized asphalt mastic waterproofing material, plant mix color coloring binder, waste asphalt concrete regeneration modification additive, water-soluble spray thin layer packaging composition, room temperature curing type spraying A packaging material, characterized in that formed by spraying the fast-curing thin coating composition. In the packaging material construction method, Circulating aggregate, cement, admixture, waste asphalt concrete crushed, coarse aggregate, fine aggregate, emulsified asphalt, additive, modifier, filler (calcium carbonate, carbon black, cement, limestone, or plaster), filler, emulsified asphalt, new aggregate, Waste Concrete Recycled Aggregate, Waste Ascone Recycled Aggregate, Acrylic Polymer, Charcoal, Ocher, Waste Ceramics, Waste Grinding Aggregate, Waste Artificial Marble, Asphalt Concrete Modifier Chip, Block Copolymer, Asphalt Concrete Composition, Resource Recycling Recycled Packaging Composition, Soil A first step of selecting at least one material from among the chemical compositions for curing, and treating the selected material and then laminating it on the planarized compaction layer to form a base layer; Select at least one or more of a water-soluble spray thin packaging composition, a water-permeable colored ascon composition, a neutralized asphalt composition, a water-permeable asphalt concrete composition, a composition containing colored ceramic ceramic aggregate, a composition for paving asphalt layer, and selecting the selected composition A second step of forming an auxiliary base layer by laminating on the upper surface of the base layer after the treatment; Fine aggregate, silica sand, recycled aggregate, clay chip, ceramic block, clay block, scrap, rubber chip, fine aggregate, waste tire rubber chip, aggregate, waste ceramic, recycled aggregate, soil, cement, waste aggregate, rice hull, waste rubber powder, Waste wood, rice straw, sawdust, waste styrofoam, waste plastic, activated carbon, rubber sheet, organic / inorganic fiber roving yarn, glass roving yarn, anion and far infrared emitter, jade, elvanite, clay, kaolin, waste paper, Wood flour, charcoal, vermiculite, pearlite, glass wool, rock wool, resin emulsion (olefin resin emulsion, acrylic resin emulsion or rubber resin emulsion, or adhesive resin emulsion), recycled rubber, pevinyl, recycled glass, clay, loess, woven fabric, A third step of selecting at least one material from among non-woven fabric, charcoal, color material, color occasional color pigment, and treating the selected material and then laminating it on the auxiliary base layer to form a surface layer; And Natural or recycled rubber chips, rubber powder, urethane binders, asphalt liquids, color pigments, light stabilizers, heat stabilizers, antioxidants, reinforcing agents, coloring agents, antimicrobial agents, preservatives, antifoaming agents, emulsifiers, crosslinking agents, lubricants, fillers, abrasion resistant agents, polymer mats ( Polyester woven fiber), urethane, epoxy, acrylic, polyester, plant mix asphalt modification additive, waterproofing material, spray rubberized asphalt mastic waterproofing, plant mix color coloring binder, waste asphalt concrete regeneration modifying additive, water soluble spray thin layer Method for constructing a packaging material comprising a fourth step of selecting at least one or more materials from the packaging composition, room temperature curing type spray-curable thin-layer coating composition, and after coating the selected material with a predetermined process to form a surface layer .

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