KR100642062B1 - An elastic pavement with a water drain, filtering, nonfreezing - Google Patents

Abstract

An elastic paving material having water permeability, purification, and frostbite functions is provided to minimize the temperature variation between the road surface and the upper-most layer and to prevent a capillary tube from freezing by mounting a frostbite layer. An elastic paving material having water permeability, purification, and frostbite functions comprises a compacting layer(100) laid on the compacted ground, wherein the soil is banked/compacted; a frostbite prevention layer(200) formed by mixing a regenerative rubber chip(1~20mm) of 40~60wt%, a regenerative aggregate(10~60mm) of 40~60wt%, and an adhesion binder of 3~20wt%; a crushed stone layer(300) formed by mixing an aggregate of 40~60wt%, and a regenerative rubber chip of 40~60wt%; a filter layer(400) formed by paving at least one of a waste hollow fiber filter, a waste carbon filter, and a waste carbon fiber; a water permeable purifying layer(500) mixed with the regenerative rubber chip and a glass ceramic ball(10~50mm); and an elastic outer layer(600) formed by adding active carbon to the regenerative chip.

Description

Elastic packing material with permeability, purification and frostbite prevention function {AN ELASTIC PAVEMENT WITH A WATER DRAIN, FILTERING, NONFREEZING}

1 is a cross-sectional view of a laminated state of an elastic packaging material having a water permeation, purification, and anti-frostbite function as a first embodiment according to the present invention;

2 is a cross-sectional view of a laminated state of an elastic packaging material having a water permeation, purification, and anti-frostbite function as a second embodiment according to the present invention;

3 is a cross-sectional view of a laminated state of an elastic packaging material having a water permeation, purification, and anti-frostbite function as a third embodiment according to the present invention;

Figure 4 is a cross-sectional view of the laminated state of the elastic packaging material having a water permeation, purification, in-phase prevention function as a third embodiment according to the present invention.

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

100: compaction layer

200: frostbite prevention layer

300: crushed stone

400: filter layer

500: permeable purification layer

600: elastic surface layer

The present invention relates to an elastic packaging material, and more particularly, an in-phase prevention layer for preventing moisture from flowing through the porous surface layer of the packaging material to be evaporated or drained out in a filtered state and to suppress capillary phenomenon in contact with the road surface. The present invention relates to an elastic packaging material having a function of permeation, purification, and anti-frostbite, which is provided so that a stable support layer is formed.

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.

Such an elastic packaging material has been filed and registered by a number of applicants, and as an example, patent registration No. 10-497253, a registered right of the applicant of the present application "Waste tire, permeable elasticity using waste urethane color rubber chips Packaging materials "has been proposed.

The elastic packaging material is divided into a lower support layer and an upper elastic layer, and the lower part is mixed with fine aggregate or silica sand and a waste tire rubber chip to form a relatively hard ground layer, and the upper elastic layer is a waste urethane color rubber chip. The binder was mixed with the binder to form a soft elastic layer.

That is, the lower support layer is intended to form a stable support base on the pavement, and the upper elastic layer laminated thereon to provide cushioning power, and is currently used for bicycle roads, footpaths, infant play facilities, and sports facilities. It is in the spotlight.

However, the elastic packing material having a water permeability among the conventionally known including the above-mentioned elastic packing material has a structure such that moisture, etc. introduced through the surface layer, which is the upper layer, is drained to the road surface through the lower support layer. The pores are narrow and the lower layer has a rigid structure for a stable base, so that moisture is not quickly drained and there is a problem such that water accumulates on the upper surface of the elastic layer even with some moisture.

In addition, in a relatively cold weather such as winter, the heat of the road surface passes through the lower layer. At this time, the capillary phenomenon occurs in the lower layer due to the external temperature change, causing cracks in the lower support layer due to the expansion force due to the freezing of moisture. Further problems, such as irregular horizontal level, are occurring.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention, first; When moisture is generated on the upper surface of the elastic packaging material, the water can be drained quickly, and at the same time, bacteria and chemicals contained in the water can be purified and drained.

second; The upper and lower layers are laminated with different characteristics, and at the same time, the frost-preventing layer is provided on the lower layer in contact with the road surface, minimizing the temperature change between the road surface and the top layer to prevent freezing from occurring in capillary phenomenon. It is to make it possible.

That is, it provides an elastic packaging material to perform water purification function along with water absorption through a number of micropores, and to suppress the capillary phenomenon through a stable support layer, as well as to secure elasticity and insulator effect during winter expansion. It is.

third; The fiber layer is mixed with the surface layer and the base portion of the elastic packaging material so as to double the bond strength.

Hereinafter, with reference to the accompanying drawings, embodiments of the water-permeable, purifying, frost-preventing function according to the present invention will be described in detail with reference to the accompanying drawings, and related related art in the description of the present invention may blur the gist of the present invention. If it is determined that the detailed description thereof will be omitted.

First Embodiment

The present invention is to be stacked on the ground compacted by the illustration of FIG. 1 to be sequentially stacked on the compaction layer compacted by the soil, the in-phase prevention layer 200 having a stable support on the upper surface of the compaction layer 100, and a support force Along with the crushed stone layer 300 having a stretch force, the filter layer 400 is formed and evenly installed in the chip shape, the permeation purification layer 500 applied to the porous material, and cushioning power and providing a permeability through activated carbon The elastic surface layer 600 is integrally joined and sequentially laminated and packaged.

The in-phase preventing layer 200 is a layer of 40 to 60 parts by weight of recycled rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), and 3 to 20 parts by weight of an adhesive binder. By increasing the durability through the recycled aggregate at the same time to provide a predetermined elastic force through the recycled rubber chip.

The crushed stone layer 300 is a layer in which 40 to 60 parts by weight of aggregates and 40 to 60 parts by weight of recycled rubber chips are installed to increase secondary durability and secure elasticity through recycled rubber chips.

The filter layer 400 is to move the water in the state of filtering foreign matter when water is generated, it is made of a material such as waste hollow fiber membrane filter, waste carbon filter, waste carbon fiber discarded after being used in the water purifier, which is fine In the crushed state in the chip is installed evenly on the upper surface of the crushed stone layer 300 so that the moisture can be quickly drained when the moisture is generated.

The water permeation purification layer 500 is a layer composed of a known recycled rubber chip, aggregates, and a glass ceramic ball (10-50mm) having a porous structure to ensure rapid drainage through porous pores.

Here, the glass ceramic ball is made of a mixture of waste glass and waste ceramic, it is formed by mixing with the recycled rubber chip in the state where the waste carbon fiber, blast furnace slag and the like is further combined to form a ball shape Porosity allows drainage.

In addition, the water permeation purification layer 500 is preferably 0.5-2mm length of the fiber material is mixed to provide moisture absorption as well as the cohesion between the materials.

The elastic surface layer 600 is a layer formed by adding activated carbon to a known reclaimed rubber chip, so that the permeable through the activated carbon and cushioning force is provided through the reclaimed rubber chip.

The elastic packaging material laminated in this way, 40 to 60 parts by weight of recycled rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), and an adhesive binder on the compaction layer 100 compacted during construction 3 to 20 parts by weight of the mixture is laid so that the in-phase prevention layer 200 is formed, and 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are continuously mixed to form the crushed stone layer 300. Then, evenly spreading the chip formed by pulverizing the hollow fiber membrane filter, waste carbon filter, waste carbon fiber material on the upper surface of the crushed stone layer 300, the filter layer 400 is formed, and continuously regenerated When the rubber chip, aggregates, and glass ceramic balls (10-50 mm) having a porous structure are mixed and laid, a water permeation purification layer 500 is formed. Then, when activated carbon is added to the known reclaimed rubber chip and laid at an even thickness, the elastic surface layer 600 is formed to complete the construction.

Then, it is possible to achieve a stable ground through the in-phase prevention layer 200, and also through the crushed stone layer 300 it is possible to secure a stretch force with a secondary stable ground force. And, through the filter layer 400, it is possible to have a fast draining power when moisture is generated, and also to filter out foreign substances such as chemicals remaining in the water drained through the water permeable purification layer 500, while the elastic surface layer ( 600) it is possible to secure the drainage and cushioning force.

Second Embodiment

The present invention is to be stacked on the ground compacted by the illustration of FIG. 2 to be sequentially stacked on the compaction layer compacted by soil, the in-phase prevention layer (200a) having a stable support on the upper surface of the compaction layer (100a), and a support force In addition, the crushed stone layer 300a having elasticity, the filter layer 400a formed and evenly installed in a chip shape, the permeation purification layer 500a applied with a porous material, and a cushioning force and a permeability through activated carbon are provided. The elastic surface layer 600a is integrally integrated and sequentially laminated and packaged.

The in-phase preventing layer 200a is a layer formed by mixing 40 to 60 parts by weight of a recycled rubber chip (1-20mm), 40 to 60 parts by weight of a recycled aggregate (10-60mm), and 3 to 20 parts by weight of an adhesive binder. By increasing the durability through the recycled aggregate at the same time to provide a predetermined elastic force through the recycled rubber chip.

The crushed stone layer 300a is a layer in which 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are installed and increases secondary durability and secures elastic force through recycled rubber chips.

The filter layer 400a is to move water in a state in which foreign substances are filtered out when moisture is generated, and is made of a material such as a waste hollow fiber membrane filter, a waste carbon filter, and waste carbon fiber which is discarded after being used in a water purifier. In the crushed state of the chip is installed evenly on the upper surface of the crushed stone layer (300a) so that the moisture can be quickly drained when moisture is generated.

The water permeation purification layer 500a is a layer formed by mixing a known recycled rubber chip, aggregates, and a glass ceramic ball (10-50mm) having a porous structure to secure rapid drainage through porous pores.

Here, the glass ceramic ball is made of a mixture of waste glass and waste ceramic, it is formed by mixing with the recycled rubber chip in the state where the waste carbon fiber, blast furnace slag and the like is further combined to form a ball shape Porosity allows drainage.

In addition, the water permeation purification layer 500a is preferably mixed with a fiber material of 0.5-2mm in length to provide moisture absorption as well as the impregnation force between the materials.

The elastic surface layer 600a is a layer in which activated carbon is added to a known urethane resin to enable permeability through activated carbon and provide cushioning power through regenerated rubber chips.

Thus, the elastic packaging material laminated in this way, 40 to 60 parts by weight of recycled rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), and contact wear binders on the compacted layer 100a 3 to 20 parts by weight are mixed and laid so that the in-phase prevention layer 200a is formed, and 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are continuously mixed to form a crushed stone layer 300a. Then, when the chip made of the waste hollow fiber membrane filter, the waste carbon filter, the waste carbon fiber, and the like is pulverized, the chip layer 400a is formed evenly on the upper surface of the crushed stone layer 300a. When the rubber chip, aggregates, and glass ceramic balls (10-50 mm) having a porous structure are mixed and laid, a water permeation purification layer 500a is formed. Then, by adding activated carbon to a known urethane resin and laying it in an even thickness, the elastic surface layer 600a is formed, and the construction is completed.

Then, it is possible to achieve stable ground through the in-phase preventing layer (200a), and also through the crushed stone layer (300a) it is possible to secure a stretch force with the secondary stable ground force. And, through the filter layer 400a it is possible to have a fast drainage when water is generated, and also to filter out foreign substances such as chemicals remaining in the water drained through the water permeable purification layer 500a, the elastic surface layer ( Through 600a) it is possible to secure the drainage and cushioning force.

Third Embodiment

The present invention is to be stacked on the ground compacted by the illustration of FIG. 3, and sequentially stacked on the compaction layer compacted by soil, the in-phase prevention layer (200b) having a stable support on the upper surface of the compaction layer (100b), and a support force In addition, the crushed stone layer 300b having an elastic force, the filter layer 400b, which is made and evenly laid in a chip shape, the permeation purification layer 500b applied with a porous material, and an elasticity that provides a permeability through a porous roll mat. The surface layer 600b is integrally integrated and sequentially laminated and packaged.

The in-phase preventing layer 200b is a layer formed by mixing 40 to 60 parts by weight of a recycled rubber chip (1-20mm), 40 to 60 parts by weight of a recycled aggregate (10-60mm), and 3 to 20 parts by weight of an adhesive binder. By increasing the durability through the recycled aggregate at the same time to provide a predetermined elastic force through the recycled rubber chip.

The crushed stone layer 300b is a layer in which 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are installed and increases secondary durability and secures elasticity through recycled rubber chips.

The filter layer 400b is to move water in the state of filtering foreign matters when water is generated, and is made of a material such as waste hollow fiber membrane filter, waste carbon filter, waste carbon fiber discarded after being used in a water purifier, which is fine In the crushed state of the chip is installed evenly on the upper surface of the crushed stone layer 300b so that the moisture can be quickly drained when moisture is generated.

The water permeation purification layer 500b is a layer formed by mixing a known recycled rubber chip, aggregates, and a glass ceramic ball (10-50mm) having a porous structure, thereby ensuring rapid drainage through porous pores.

Here, the glass ceramic ball is made of a mixture of waste glass and waste ceramic, it is formed by mixing with the recycled rubber chip in the state where the waste carbon fiber, blast furnace slag and the like is further combined to form a ball shape Porosity allows drainage.

In addition, the water permeation purification layer 500b is preferably 0.5-2mm length of the fiber material is mixed to provide moisture absorption as well as the impregnation force between the materials.

The elastic surface layer (600b) is made of a porous roll mat made of a resin or a fiber material and a resin and a fiber material to be able to be permeable and cushioning power is provided.

Here, it is preferable to make the porous roll mat to be made of activated carbon.

Thus, the elastic packaging material laminated in this way, 40 to 60 parts by weight of recycled rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), and an adhesive binder on the compaction layer 100b compacted during construction 3 to 20 parts by weight are mixed and laid so that the in-phase preventing layer 200b is formed, and 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are continuously mixed to form a crushed stone layer 300b. Then, when a chip made of materials including waste hollow fiber membrane filter, waste carbon filter, waste carbon fiber, and the like is crushed and evenly laid on the upper surface of the crushed stone layer 300b, the filter layer 400b is formed and continuously regenerated. When the rubber chip, the aggregates, and the glass ceramic ball (10-50mm) taking the porous structure are mixed and laid, a water permeation purification layer 500b is formed. Then, when the porous roll mat is attached to the upper surface of the water permeation purification layer 500b, the elastic surface layer 600b is formed and the construction is completed.

Then, it is possible to achieve stable ground through the in-phase preventing layer (200b), it is also possible to secure the elastic force along with the secondary stable ground force through the crushed stone layer (300b). And, through the filter layer 400b it is possible to have a fast drainage when water is generated, and also to filter out foreign substances such as chemicals remaining in the water drained through the water permeable purification layer 500b, the elastic surface layer ( Through 600b) it is possible to ensure the drainage and cushioning force.

Fourth Embodiment

The present invention is to be stacked on the ground compacted by the illustration of FIG. 4, and sequentially stacked on the compaction layer compacted by soil, the in-phase prevention layer (200c) having a stable support on the upper surface of the compaction layer (100c), and a support force Along with the crushed stone layer (300c), the crusher layer 400c is made of chip shape and evenly installed, the permeable purification layer (500c) applied to the porous material, and the fiber material and rubber are mixed and laid The elastic surface layer 600c is integrally integrated and sequentially laminated and packaged.

The in-phase preventing layer 200c is a layer formed by mixing 40 to 60 parts by weight of a recycled rubber chip (1-20mm), 40 to 60 parts by weight of a recycled aggregate (10-60mm), and 3 to 20 parts by weight of an adhesive binder. By increasing the durability through the recycled aggregate at the same time to provide a predetermined elastic force through the recycled rubber chip.

The crushed stone layer 300c is a layer in which 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are installed and increases secondary durability and secures elastic force through recycled rubber chips.

The filter layer 400c moves water in the state in which foreign substances are filtered out when moisture is generated, and is made of a material such as a waste hollow fiber membrane filter, waste carbon filter, and waste carbon fiber which is discarded after being used in a water purifier. Evenly ground on the upper surface of the crushed stone layer (300c) in the state of crushed into a fine chip so that the moisture can be quickly drained when moisture is generated.

The water permeation purification layer 500c is a layer formed by mixing a known recycled rubber chip, aggregates, and a glass ceramic ball (10-50mm) having a porous structure to secure rapid drainage through porous pores.

Here, the glass ceramic ball is made of a mixture of waste glass and waste ceramic, it is formed by mixing with the recycled rubber chip in the state where the waste carbon fiber, blast furnace slag and the like is further combined to form a ball shape Porosity allows drainage.

In addition, the water permeation purification layer 500c is preferably 0.5-2mm length of the fiber material is mixed to provide moisture absorption as well as the impregnation force between the materials.

The elastic surface layer (600c) is made of a thread or mesh shape is cut fiber material (length 0.5-2mm) and rubber chips are mixed in a liquid phase and foamed through a spray gun or the like is installed.

Here, it is preferable that the fiber material of the thread or mesh type is 0.1-2 mm in diameter and 0.5-2 mm in length.

The elastic packaging material laminated in this way is 40 to 60 parts by weight of recycled rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), and contact wear binders on the compaction layer 100c, which was compacted during construction. 3 to 20 parts by weight are mixed and laid so that the in-phase prevention layer 200c is formed, and 40 to 60 parts by weight of aggregate and 40 to 60 parts by weight of recycled rubber chips are continuously mixed to form a crushed stone layer 300c. Then, evenly spreading chips made of materials including waste hollow fiber membrane filters, waste carbon filters, waste carbon fibers, and the like on the upper surface of the crushed stone layer 300c form the filter layer 400c, and continuously regenerating the chips. When the rubber chip, aggregates, and glass ceramic balls (10-50 mm) having a porous structure are mixed and laid, a water permeation purification layer 500c is formed. Thereafter, when the fiber material and the rubber solution are mixed and foamed through a spray gun or the like and attached to the upper surface of the water permeation purification layer 500c, the elastic surface layer 600c is formed to complete the construction.

Then, it is possible to achieve stable ground through the in-phase preventing layer (200c), and also through the crushed stone layer (300c) it is possible to secure the elastic force with the secondary stable ground force. And, through the filter layer 400c it is possible to have a fast drainage when water is generated, and also to filter out foreign substances such as chemicals remaining in the water drained through the water permeable purification layer (500c), while the elastic surface layer ( Through the 600c) of the fiber material it is possible to secure the cushion force through the drainage and rubber chips.

Here, a known color coating layer is formed on the elastic surface layer applied to the first to fourth embodiments so that the elastic surface layer can be applied in various colors.

Therefore, the elastic packaging material having a water permeation, purification, and frostbite prevention function according to the present invention, so that the moisture can be quickly drained when the moisture occurs on the upper surface of the elastic packaging material laminated in multiple layers and at the same time the bacteria and chemicals contained in the water is purified It is effective to allow drainage.

In addition, the upper and lower layers are laminated in different layers with different characteristics, and at the same time, the in-phase preventing layer is provided on the lower layer in contact with the road surface, thereby minimizing the temperature change between the road surface and the uppermost layer so that frost does not occur even in the capillary phenomenon. It is effective to protect.

In addition, there is an effect to perform the water purification function with the absorption of water through a number of micropores, and also to have a stable support layer to suppress the capillary phenomenon, as well as to secure the elasticity during the expansion according to the water and to have a winter insulation effect.

In other words, it can have secondary stable ground force through frostbite prevention layer and crushed stone layer, as well as filter water and permeate purification layer to filter foreign substances such as chemicals with quick drainage when moisture is generated, and elastic surface layer Through the effect of ensuring the drainage and cushioning power.

In addition, the fiber yarn is provided in the elastic surface layer is mixed, there is an effect that can double the drainage capacity.

In addition, the fiber material is mixed with the water permeation purification layer and the elastic surface layer, thereby providing an effect of impregnation of the material.

Claims (11)

A compacted layer placed on compacted ground to fill soil; 40 to 60 parts by weight of regenerated rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), 3 to 20 parts by weight of an adhesive binder are mixed with the in-phase preventive layer; 40 to 60 parts by weight of aggregates, 40 to 60 parts by weight of regenerated rubber chips, crushed stone layer is installed; A filter layer comprising at least one of hollow fiber membrane filters, waste carbon filters, and waste carbon fibers evenly laid with chips; Permeable purification layer made of a mixture of recycled rubber chip, aggregate, glass ceramic ball (10-50mm); An elastic surface layer comprising activated carbon added to the recycled rubber chip; A permeable, purifying, elastic packaging material having an anti-frostbite function, characterized in that the lamination is made. A compacted layer placed on compacted ground to fill soil; 40 to 60 parts by weight of regenerated rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), 3 to 20 parts by weight of an adhesive binder are mixed with the in-phase preventive layer; 40 to 60 parts by weight of aggregates, 40 to 60 parts by weight of regenerated rubber chips, crushed stone layer is installed; A filter layer formed by at least one of the hollow hollow fiber membrane filter, the waste carbon filter, and the waste carbon fibers evenly installed in the chip; Permeable purification layer made of a mixture of recycled rubber chip, aggregate, glass ceramic ball (10-50mm); An elastic surface layer comprising activated carbon added to the urethane resin; A permeable, purifying, elastic packaging material having an anti-frostbite function, characterized in that the lamination is made. The method according to claim 1 or 2, Elastic packaging material, characterized in that the fiber material of 0.5-2mm length is bonded to the water permeable purification layer and the elastic surface layer. A compacted layer placed on compacted ground to fill soil; 40 to 60 parts by weight of regenerated rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), 3 to 20 parts by weight of an adhesive binder are mixed with the in-phase preventive layer; 40 to 60 parts by weight of aggregates, 40 to 60 parts by weight of regenerated rubber chips, crushed stone layer is installed; A filter layer comprising at least one of hollow fiber membrane filters, waste carbon filters, and waste carbon fibers evenly laid with chips; Permeable purification layer made of a mixture of recycled rubber chip, aggregate, glass ceramic ball (10-50mm); And An elastic surface layer made of a porous roll mat; A permeable, purifying, elastic packaging material having an anti-frostbite function, characterized in that the lamination is made. The method of claim 4, wherein Elastic packaging material, characterized in that the permeable purification layer is mixed with a fiber material of 0.5-2mm length. The method of claim 4, wherein The porous roll mat is a resilient packaging material having a function of permeability, purification, frostbite, characterized in that one of a resin material or a fiber material and a resin material and a fiber material mixed. The method according to claim 4 or 6, The porous roll mat is an elastic packaging material having a function of permeability, purification, frostbite, characterized in that the activated carbon is added. A compacted layer placed on compacted ground to fill soil; 40 to 60 parts by weight of regenerated rubber chips (1-20mm), 40 to 60 parts by weight of recycled aggregates (10-60mm), 3 to 20 parts by weight of an adhesive binder are mixed with the in-phase preventive layer; 40 to 60 parts by weight of aggregates, 40 to 60 parts by weight of regenerated rubber chips, crushed stone layer is installed; A filter layer comprising at least one of hollow fiber membrane filters, waste carbon filters, and waste carbon fibers evenly laid with chips; Permeable purification layer made of a mixture of recycled rubber chip, aggregate, glass ceramic ball (10-50mm); And An elastic surface layer which is foamed and laid in a state in which a fiber material (length 0.5-2mm) and a rubber chip made of one of yarn or mesh type are mixed in a liquid phase; A permeable, purifying, elastic packaging material having an anti-frostbite function, characterized in that the lamination is made. The method of claim 8, Elastic permeable material, characterized in that the permeable purification layer is mixed with a fiber material of 0.5-2mm length. The compound according to any one of claims 1,2,4 and 8, The glass ceramic ball, It 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 mixed with the recycled rubber chip to have a ball shape, characterized in that the permeability, purification, frostbite prevention function Elastic packing material. The compound according to any one of claims 1,2,4 and 8, The elastic surface layer has a water-permeable, purifying, in-phase elastic packaging material, characterized in that the color layer is formed of a coating.

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