KR20120067391A

KR20120067391A - A functional elastic pavement and constructionmethod thereof

Info

Publication number: KR20120067391A
Application number: KR1020100128758A
Authority: KR
Inventors: 박성진
Original assignee: (주)알라스코리아
Priority date: 2010-12-16
Filing date: 2010-12-16
Publication date: 2012-06-26

Abstract

PURPOSE: A functional elastic pavement material and a construction method thereof are provided to continuously emit ions and far-infrared radiation which are useful to human bodies. CONSTITUTION: A construction method of a functional elastic pavement material is as follows. Soil, dust, moisture, and foreign materials of a base layer are removed. A primer is spread on the base layer so that a primary primer layer(2) is formed. The primer is spread on the primary primer layer while forming irregularities(4,5) on a surface of the primary primer layer so that the primer layer(3) is formed. The irregularities are filled with a mixture in which a natural fiber or a binder of a synthetic resin and an elastic rubber chip are mixed so that an elastic pavement layer(6) is formed. The elastic rubber chip is formed into a chip shape by processing regeneration urethane, waste tire, EPDM, the synthetic rubber, and various elastic materials. Patterns(7) of various shapes are formed on the surface of the elastic pavement layer. Elvan, a ceramic, formalin stone, tourmaline, zeolite stone and fracture glass pieces are mixed with the binder and pigment and the mixture is spread on the surface of the elastic pavement layer so that a coating layer(8) is formed.

Description

Functional elastic pavement and construction method thereof

The present invention relates to a functional elastic packaging material and a construction method thereof, and in particular, while generating heat by light from the outside while reflecting light again in the state of mixing the far-infrared and the anion that emits anions and the deodorizing gemstone The present invention relates to a functional elastic packaging material and a method for constructing the same, which continuously produce beneficial effects on the human body at night.

Recently, road pavement has been required due to high oil price policy, and various products such as elastic pavement and permeable concrete have been developed.In addition, colored paints have been added to these products to improve pavement in urban environments. Attempts are underway.

These road pavements have been developed intensively with regard to the ability to maintain the strength to prevent cracking and sinking, and the effect of road aesthetics. There is no attempt to develop a method of paving the road for bicycles and marathon courses, either to provide a beneficial effect to the human body or for all sidewalks. Only urethane road pavements are introduced that can alleviate the impact of walking by forming a urethane surface layer on the road surface.

These pavements are suitable for pedestrian walkways, but not for bicycle or marathon roads.

The construction of urethane elastic road pavement impacts tires and pedestrians' walks such as concrete, asphalt, and sidewalk blocks, causing severe vibration and noise in the vehicle and impacting the vertebrae and brain from the heel of the foot. It can be a desirable construction method in terms of imparting structural functionality to the road pavement because it can solve the problem of adversely affecting public health.

What is required to be improved in the conventional road pavement is to give the bending strength and tensile strength, which is desperately required in the pavement, to prevent cracking and cushioning of the finished pavement, and at the same time to create a beneficial environment for everyday life The present invention relates to whether an environmentally friendly elastic road pavement that can be provided can be provided.

However, a general road pavement consisting of a mixture of aggregate and cement alone cannot satisfy all of the above conditions.

In order to construct the road pavement of the present invention, the existing road is only repaired or replaced, and is constructed by mixing urethane chips or EPDM chips, which are elastic pavement materials, for bicycle driving. There was no sense of speed and this caused discomfort.

In addition, the road pavement for the marathon course is to practice to get the results of running on concrete or asphalt roads, but did not get good results due to injuries and joint injuries during the exercise.

This problem will be able to provide an environmentally friendly and beneficial elastic pavement on the road.

Therefore, it is possible to provide an eco-friendly and economically beneficial road with elastic road pavement for pedestrian and bicycle driving road marathon courses while forming functional materials that emit negative ions and far infrared rays on the surface of existing pavement. Will be.

Therefore, Patent Application No. 10-2006-0071816 dated July 29, 2006 (anion release elastic pavement structure of bicycle driving elastic road and marathon course elastic road using eco-friendly asphalt sheet) was proposed.

This includes the steps of flattening, cleaning and cleaning the curvature of the road surface;

Applying primers to both sides of the arranged flat working surface;

Forming an asphalt sheet on the coated primer;

Drawing a figure, font, pattern, or pattern on the asphalt sheet;

Forming a ground by coating with a liquid urethane or various resins of a ground color according to the picture, letter, pattern, or pattern;

Applying a urethane or various resins to the shapes of pictures, letters, patterns, and patterns according to the drawings;

3mm on the upper part coated with urethane or various resins in the above pictures, letters, patterns and patterns. Curing by sprinkling or spraying the chips evenly according to the color of the picture, text, pattern, etc. with urethane chips or rubber chips provided with a size of 4mm;

Cured top coating 70% by weight? 80% by weight and 20% by weight tourmaline? 30% by weight of the mixture was sprayed with a paint roller or spray and coated to cure by curing.

However, the anion-releasing elastic pavement structure of the bicycle driving elastic road and the marathon course elastic road using the conventional eco-friendly mobile asphalt sheet as described above has a beneficial advantage to the human body while releasing far infrared rays and negative ions, but supplies them in the state of an element. In this state, the emission effect is not only temporary but also has a disadvantage that it is difficult to identify the emission at night.

Accordingly, the present invention is to solve the conventional problems as described above, while generating heat by the light from the outside while reflecting the light again in the state of mixing the far-infrared, the gemstone emitting anion and the deodorizing gemstone It is an object of the present invention to provide a functional elastic packaging material and a method of constructing the same, which continuously produce beneficial effects on the human body at night.

Functional elastic packaging material and construction method of the present invention for achieving the above object,

A ground layer cleaning step for removing soil, dust, moisture, and foreign matter from the base layer, which is the road surface of the sidewalk block, cement concrete, and asphalt concrete for paving the elastic paving layer;

A primer layer forming step of applying a primer on a base layer to increase adhesion with the layer seated thereon;

A primer layer forming step of applying a primer on the surface of the priming primer while forming irregularities on the surface;

An elastic packaging layer filled with a binder of natural fiber or urea synthetic resin material and an elastic rubber chip processed in a chip form from elastic materials of various materials such as recycled urethane, pet tire, EPDM, and synthetic rubber on the uneven surface of the primer layer. Forming step,

A pattern forming step of forming a pattern of various shapes with irregularities on the surface of the elastic packaging layer;

Applying a coating layer according to the shape on the surface including the pattern of the various shapes by mixing the crushed glass fragments with ganban stone, macksum stone, formalin stone, tourmaline, zeolite stone and the crushed glass pieces on the surface of the patterned elastic packaging layer Coating layer forming step,

After forming the coating layer is characterized by comprising a curing step of drying.

According to the above-described functional elastic pavement material and the construction method thereof, the ground layer for removing soil, dust, moisture and foreign matter of the base layer which is the road surface of the sidewalk block, cement concrete, asphalt concrete for paving the elastic pavement layer To clean, to form a primer layer with a priming primer and irregularities thereon to increase the adhesion,

An elastic packaging layer filled with a binder of natural fiber or urea synthetic resin material and an elastic rubber chip processed in a chip form from elastic materials of various materials such as recycled urethane, pet tire, EPDM, and synthetic rubber on the uneven surface of the primer layer. After forming a pattern of various shapes with irregularities on the surface, and mixed with a binder and a pigment, the machanite, macksum stone, formalin stone, tourmaline, zeolite stone and the crushed glass pieces on the surface to include the above-described pattern of various shapes By applying according to the shape according to the shape on the surface, the far-infrared ray anion, etc., which is beneficial to the human body is released during the day, and the night light is reflected on the maintenance fragments so that heat is generated from the tourmaline, so that far-infrared rays and negative ions are emitted even at night.

1 is a schematic diagram showing a construction state of the present invention.
2 is a flow chart showing the construction process of the present invention.

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

Functional elastic packaging material and its construction method according to the invention

On the road surface 1 of the sidewalk block, cement concrete, asphalt concrete for paving the elastic paving layer, forming a priming primer layer (2) to increase the adhesive force with the layer seated thereon,

The primer is applied on the surface of the priming primer layer 2 while forming the unevenness (4) and (5) on the surface to form the primer layer (3),

Filling the uneven surface of the primer layer (3) by mixing a binder of a natural fiber or urea synthetic resin material and elastic rubber chips processed in the form of chips of elastic materials of various materials, such as recycled urethane, pet tire, EPDM, synthetic rubber The elastic packaging layer 6 is formed,

A pattern forming step of forming patterns 7 of various shapes with irregularities on the surface of the elastic packaging layer 6;

On the surface of the charcoal packaging layer 6 on which the pattern 7 is formed, a mixture of ganban stone, macsum stone, formalin stone, tourmaline, zeolite stone, and crushed glass pieces with a binder and a pigment are applied to the surface including the various shapes of the pattern. The coating layer 8 is applied and configured according to the shape.

Functional elastic packaging material of the present invention configured as described above is characterized by the construction method,

A ground layer cleaning step (11) for removing soil, dust, moisture, and foreign substances from the sidewalk block, cement concrete, and asphalt concrete for paving the elastic paving layer;

A priming primer layer forming step 12 of applying a primer on the base layer 1 and applying a priming primer layer 2 to increase adhesion to a layer seated thereon;

A primer layer forming step (13) for forming a primer layer (3) by applying a primer on the surface of the priming primer layer (2) while forming irregularities (4) and (5);

Elastic rubber processed on the surface of the uneven surface (4) (5) of the primer layer (3) by a binder of natural fibers or synthetic resin of natural urethane material and elastic materials of various materials such as regenerated urethane, pet tire, EPDM, synthetic rubber, etc. An elastic packaging layer forming step 14 of mixing and filling chips to form an elastic packaging layer 6,

A pattern forming step 15 of forming patterns 7 of various shapes with irregularities on the surface of the ballistic packaging layer 6;

10 to 20% by weight of ganbanite, 10 to 20% by weight, formalinite 10 to 20% by weight, tourmaline 10 to 20% by weight and zeolite 10 to 10% by weight on the surface of the ballistic packaging layer 6 on which the pattern 7 is formed. 20 wt% and 5-15 wt% of crushed glass pieces are mixed with 5-15 wt% of the binder and 3-7 wt% of the pigment, and the surface of the elastic packaging layer 6 including the pattern 7 of the above-described various shapes. Coating layer forming step (16) and evenly applied to,

After forming the coating layer is characterized by consisting of a curing step (17) for drying for 6 to 36 hours at room temperature.

Functional elastic packaging material and its construction method of the present invention configured as described above

Underground Cleaning Step

The base layer cleaning step 11 is performed to remove dirt, dust, moisture, and foreign matter from the sidewalk block, cement concrete, and asphalt concrete for paving the elastic paving layer.

Primary primer layer forming step

The primer is formed on the base layer 1, and a primer layer forming step 12 is performed to apply the primer layer 2 to increase adhesion with the layer seated thereon.

Primer layer forming step

A primer layer forming step 13 of forming a primer layer 3 is performed by applying a primer on the surface of the priming primer layer 2 while forming the unevenness 4 and 5 on the surface thereof.

Elastic Packaging Layer Formation Step

Elastic rubber processed on the surface of the uneven surface (4) (5) of the primer layer (3) by a binder of natural fibers or synthetic resin of natural urethane material and elastic materials of various materials such as regenerated urethane, pet tire, EPDM, synthetic rubber, etc. The elastic packaging layer forming step 14 of mixing and filling the chips to form the elastic packaging layer 6 is performed.

Pattern formation stage

The pattern forming step 15 of forming a pattern 7 of various shapes with irregularities on the surface of the ballistic packaging layer 6 is performed.

Coating layer forming step

10 to 20% by weight of ganbanite, 10 to 20% by weight, formalinite 10 to 20% by weight, tourmaline 10 to 20% by weight and zeolite 10 to 10% by weight on the surface of the ballistic packaging layer 6 on which the pattern 7 is formed. 20 wt% and 5-15 wt% of crushed glass pieces are mixed with 5-15 wt% of the binder and 3-7 wt% of the pigment, and the surface of the elastic packaging layer 6 including the pattern 7 of the above-described various shapes. Perform a coating layer forming step 16 to apply evenly to.

Curing stage

After forming the coating layer is completed by performing a curing step 17 to dry for 6 to 36 hours at room temperature.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1: road surface 2: primary primer layer
3: primer layer 6: elastic packaging layer
7: pattern 8: coating layer

Claims

A priming primer layer 2 is formed on the road surface 1 of the sidewalk block, cement concrete, asphalt concrete for paving the elastic paving layer,
The primer layer (3) is applied onto the priming primer layer (2) while forming the unevenness (4) (5) on the surface thereof,
Elastic packing for filling the uneven surface of the primer layer (3) by mixing a binder of natural fiber or urea synthetic resin material and elastic rubber chips processed in the form of chips of regenerated urethane, pet tire, EPDM, synthetic rubber material Forms layer 6,
On the surface of the elastic packaging layer 6 to form a pattern 7 of any shape with irregularities,
On the surface of the charcoal packaging layer 6 on which the pattern 7 is formed, a mixture of ganban stone, macsum stone, formalin stone, tourmaline, zeolite stone, and crushed glass pieces with a binder and a pigment are applied to the surface including the various shapes of the pattern. Functional elastic packaging material, characterized in that the coating layer (8) is applied according to the shape and configured.

A ground layer cleaning step (11) for removing soil, dust, moisture, and foreign substances from the sidewalk block, cement concrete, and asphalt concrete for paving the elastic paving layer;
A priming primer layer forming step 12 of applying a primer on the base layer 1 and applying a priming primer layer 2 to increase adhesion to a layer seated thereon;
A primer layer forming step (13) for forming a primer layer (3) by applying a primer on the surface of the priming primer layer (2) while forming irregularities (4) and (5);
Elastic rubber processed on the surface of the uneven surface (4) (5) of the primer layer (3) by a binder of natural fibers or synthetic resin of natural urethane material and elastic materials of various materials such as regenerated urethane, pet tire, EPDM, synthetic rubber, etc. An elastic packaging layer forming step 14 of mixing and filling chips to form an elastic packaging layer 6,
A pattern forming step 15 of forming patterns 7 of various shapes with irregularities on the surface of the ballistic packaging layer 6;
10 to 20% by weight of ganbanite, 10 to 20% by weight, formalinite 10 to 20% by weight, tourmaline 10 to 20% by weight and zeolite 10 to 10% by weight on the surface of the ballistic packaging layer 6 on which the pattern 7 is formed. 20 wt% and 5-15 wt% of crushed glass pieces are mixed with 5-15 wt% of the binder and 3-7 wt% of the pigment, and the surface of the elastic packaging layer 6 including the pattern 7 of the above-described various shapes. Coating layer forming step (16) and evenly applied to,
Method for constructing a functional elastic packaging material, characterized in that consisting of a curing step (17) for drying for 6 to 36 hours at room temperature after forming the coating layer.