KR102503458B1 - Red illite water permeable pavement material and pavement method using the same - Google Patents

Abstract

The present invention relates to a water permeable packaging material and a packaging method thereof. Specifically, the present invention relates to the natural eco-friendly water permeable packaging material using cumulus mica, which is environmentally friendly while improving durability and bearing capacity by configuring a base layer and a surface layer with a water permeable packaging material having different characteristics, and the packaging method thereof. The natural eco-friendly water permeable packaging material using the cumulus mica according to the present invention comprises: the water permeable concrete base layer formed on an aggregate compaction layer on an original ground; and a cumulus mica aggregate surface layer formed on the base layer of a water permeable concrete and made of a fine-grained cumulus mica aggregate compared to the base layer of the water permeable concrete.

Description

Natural eco-friendly water permeable packaging material using cumulus mica and its packaging method {Red illite water permeable pavement material and pavement method using the same}

The present invention relates to a natural eco-friendly water permeable packaging material using cumulus mica and a method for packaging the same, and in detail, by configuring a base layer and a surface layer with water permeable packaging materials having different characteristics, durability and bearing capacity are improved while natural eco-friendly water permeability using eco-friendly cumulus mica It relates to packaging materials and their packaging methods.

In recent years, as urbanization has progressed rapidly and impermeable areas in cities have increased, surface runoff of rainwater has increased and inflow into soil has been blocked, resulting in serious water circulation disorders in cities.

In the past, the amount of rainwater infiltration into the ground was high and the amount of runoff flowing directly from the surface to the river was suppressed, resulting in natural water circulation such as flood relief, securing groundwater, and purifying water quality.

However, as the impervious areas such as concrete buildings and asphalt roads increase, rainwater leaks out in a short time and continues to cause severe water circulation disorders. As a result, environmental problems such as global warming are occurring.

In order to solve this problem, various porous and permeable paving materials such as permeable concrete, permeable asphalt, and permeable block have been developed.

Among them, permeable concrete helps the growth of plants such as roadside trees by allowing rainwater to permeate into the ground through gaps between aggregates, while allowing rainwater to permeate into the ground and retain in the soil during heavy rain, heavy rain, and the rainy season, so that rivers and rivers prevent the river from overflowing In addition, since rainwater does not collect or flow on the sidewalk, it has the advantage of being comfortable for pedestrians to walk on, so it is widely used on roads, sidewalks, and bicycle roads. At the same time, research to increase the permeability of permeable concrete has been continued.

For example, Korean Patent Laid-open Publication No. 10-2010-0038517 proposes a permeable concrete that increases the permeability and improves the strength at the same time, and prevents freezing damage by reducing moisture in the permeable concrete and a road paving method using the same. did

However, even in this case, structural defects occurred in the pavement for the surface layer due to soft ground, ground displacement due to seasonal changes, and differential subsidence of the ground due to seepage water. Due to the lack of bonding strength and adhesive strength that occurs while using mainly, defects in packaging materials are occurring.

In addition, environmental damage problems such as deformation of packaging materials such as contraction and expansion caused by seasonal temperature and environmental changes and consequently degradation of durability and contamination of groundwater due to toxic substances generated from packaging materials are aggravated.

Republic of Korea Patent Publication No. 10-2010-0038517 (2010.04.26)

The present invention provides a permeable paving material composed of a permeable pavement surface layer having a function of removing harmful substances and a permeable concrete base layer having excellent water permeability, permeability continuity, strength, and bearing capacity, An object of the present invention is to provide a natural eco-friendly water-permeable paving material using cumulus mica and a paving method thereof that can solve the problem of structural defects of surface layer paving materials caused by differential subsidence of the ground.

In addition, the present invention provides a water-permeable packaging material composed of a surface layer and a base layer having different sizes and characteristics of aggregate, so that defects in the packaging material caused by insufficient bonding strength and adhesive strength, and durability degradation due to deformation such as shrinkage and expansion of the packaging material Another object is to provide a natural eco-friendly water permeable packaging material using cumulus mica and its packaging method, which can solve environmental damage problems such as contamination of groundwater due to toxic substances generated from packaging materials and prevention of global warming.

A natural eco-friendly water permeable pavement using cumulus mica according to an embodiment of the present invention includes a permeable concrete base layer formed on an aggregate compaction layer on the original ground; and a surface layer of cumulus mica aggregate formed on the base layer of the water-permeable concrete and made of fine-grained cumulus mica aggregate compared to the base layer of the water-permeable concrete.

At this time, the cumulus mica aggregate used in the surface layer of the cumulus mica aggregate is 10 to 30%, 50 to 80%, and 10 ~ It may be made by mixing at a ratio of 30%.

In addition, the main material of the binder used for the surface layer of the cumulus mica aggregate is polyol, and isocyanate may be used as a curing agent.

On the other hand, the permeable concrete base layer may be formed of permeable concrete using aggregate having a particle size of 13 mm to 25 mm.

In addition, the thickness of the permeable concrete base layer and the surface layer of the cumulus mica aggregate may be changed according to the ground or topography of the place where the water-permeable paving material is applied.

A method for paving a natural eco-friendly water-permeable paving material using cumulus mica according to another embodiment of the present invention includes the steps of forming an aggregate compaction layer on the original ground; A base layer forming step of forming a permeable concrete base layer on the aggregate compaction layer; and a surface layer forming step of forming a surface layer of cumulus mica aggregate made of fine-grained cumulus mica aggregate on the permeable concrete base layer compared to the aggregate of the permeable concrete constituting the permeable concrete base layer.

At this time, the cumulus mica aggregate used in the surface layer of the cumulus mica aggregate is 10 to 30%, 50 to 80%, and 10 ~ It may be made by mixing at a ratio of 30%.

In addition, the main material of the binder used for the surface layer of the cumulus mica aggregate is polyol, and isocyanate may be used as a curing agent.

On the other hand, the permeable concrete base layer may be formed of permeable concrete using aggregate having a particle size of 13 mm to 25 mm.

In addition, the thickness of the permeable concrete base layer and the surface layer of the cumulus mica aggregate may be changed according to the ground or topography of the place where the water-permeable paving material is applied.

Natural eco-friendly water-permeable packaging material using cumulus mica and its packaging method according to the present invention provide a water-permeable packaging material consisting of a surface layer of a water-permeable packaging material having a function of removing harmful substances and a base layer of water-permeable concrete having excellent water permeability, permeability continuity, strength, and bearing capacity, It has the effect of solving the problem of structural defects of the pavement for the surface layer caused by ground displacement due to seasonal changes and differential subsidence of the ground by seepage water.

In addition, the natural eco-friendly water-permeable packaging material using cumulus mica and its packaging method according to the present invention provide a water-permeable packaging material consisting of a surface layer and a base layer having different aggregate sizes and characteristics, thereby causing defects in the packaging material due to insufficient bonding strength and adhesive strength. , It is effective to solve environmental damage problems such as degradation of durability due to deformation such as shrinkage and expansion of packaging materials and groundwater contamination due to toxic substances generated from packaging materials.

In addition, the natural eco-friendly water permeable paving material using cumulus mica and its packaging method according to the present invention have excellent deodorization and pollutant adsorption and decomposition functions, and use cumulus mica, a natural eco-friendly mineral that emits a large amount of far-infrared rays and negative ions, on the road surface layer. By doing so, it keeps the surrounding environment pleasant and activates the cells of the human body to maintain health, and also has the effect of reducing eye fatigue with a nature-friendly color by maintaining a semi-permanent natural ocher color.

1 is a view showing a cross-section of a natural eco-friendly water permeable packaging material using cumulus mica according to an embodiment of the present invention.
FIG. 2 is a view for explaining an example in which the surface layer of cumulus mica aggregate and the base layer of permeable concrete of FIG. 1 are constructed.
3 is a flowchart for explaining a method of packaging a natural eco-friendly water permeable packaging material using cumulus mica according to an embodiment of the present invention.

Hereinafter, specific embodiments for carrying out the present invention will be described with reference to the accompanying drawings.

In describing the present invention, terms such as first and second may be used to describe various components, but the components may not be limited by the terms. Terms are only for the purpose of distinguishing one element from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention.

When a component is referred to as being connected or connected to another component, it may be directly connected or connected to the other component, but it may be understood that another component may exist in the middle. .

Terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions may include plural expressions unless the context clearly dictates otherwise.

In this specification, the terms include or include are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features or numbers, It can be understood that the presence or addition of steps, operations, components, parts, or combinations thereof is not precluded.

In addition, shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Hereinafter, a natural eco-friendly water permeable packaging material using cumulus mica according to the present invention and a packaging method thereof will be described in detail with reference to the accompanying drawings.

1 is a view showing a cross-section of a natural eco-friendly water-permeable pavement using cumulus mica according to an embodiment of the present invention, and FIG. 2 is a view for explaining an example of construction using the water-permeable pavement of FIG. 1.

First, referring to FIG. 1, the natural eco-friendly water permeable paving material using cumulus mica according to an embodiment of the present invention includes a permeable concrete base layer 300 formed on an aggregate compaction layer 400 on a raw ground 500, and the It is formed on the water-permeable concrete base layer 300 and is composed of a cumulus mica aggregate surface layer 100 made of fine-grained cumulus mica aggregate compared to the water-permeable concrete base layer 300. Here, the water-permeable concrete base layer 300 and the cumulus mica aggregate surface layer 100 are made of water-permeable aggregate, so that water-permeable performance can be improved.

On the other hand, the permeable concrete used in the permeable concrete base layer 300 is concrete manufactured to have water permeability by forming voids between aggregates, and may be implemented with inorganic concrete, asphalt concrete, or eco-friendly concrete.

Permeability, which is an indicator of the degree of permeability of permeable concrete, is a value that indicates how easily a fluid can pass through a rock. Millidarcy is used as a unit of measurement, and absolute permeability k is defined by Darcy's law .

Here, the permeability depends on the size, shape, and distribution of pores. In general, in well-classified sandstone, the higher the porosity, the higher the permeability, but depending on the specific composition of the rock/ground, the permeability appears somewhat complicated. For example, fine-grained sedimentary rocks have high porosity but low permeability due to the surface tension effect of the fluid passage, whereas carbonate rocks have low porosity but large pores and good connectivity, so the permeability is high.

The permeable concrete base layer 300 of the present invention is formed of permeable concrete using aggregate having a particle size of 13 mm to 25 mm, and through this, a paving base layer excellent in terms of water permeability, permeability continuity, strength, and bearing capacity can be implemented.

On the other hand, in the present invention, cumulus mica aggregate surface layer 100 may use cumulus mica aggregate, which is an eco-friendly aggregate having a function of removing harmful substances.

Cumulus mica mineral itself is characterized by being composed of a microporous (porous) body, which is a result of alumina combining with oxygen to form aluminum oxide, and the particles are 5 to 6 nanometers in size. It has excellent adsorption properties.

In the present invention, the cumulus mica aggregate used in the surface layer 100 of the cumulus mica aggregate is 10 to 30%, 50 to 80%, and It is made by mixing at a ratio of 10 to 30%.

That is, the cumulus mica aggregate used in the present invention can be obtained by mixing the above three aggregates having different sizes by putting them in a stirrer at a predetermined ratio determined for each aggregate size, and the main material of the binder used at this time is polyol. It can be used and isocyanate can be used as a curing agent. Here, the method of using the polyol of the binder and the isocyanate of the curing agent can be applied as it is a conventional method, and a detailed description thereof will be omitted.

On the other hand, in the present invention, the aggregate size of the cumulus mica aggregate constituting the surface layer 100 of the cumulus mica aggregate is smaller than the aggregate size of the permeable concrete constituting the permeable concrete base layer 300 as described above, and therefore, the upper layer of the permeable concrete base layer 300 When the cumulus mica aggregate surface layer 100 is formed, the fine aggregate of the cumulus mica aggregate surface layer 100 fits between the aggregates of the permeable concrete base layer 300, through which the permeable concrete base layer 300 and the cumulus mica aggregate surface layer 100 ) The bonding force and adhesion in the adhesive surface 200 between the two are improved.

2 is a view showing an example in which the cumulus mica aggregate surface layer 100 and the permeable concrete base layer 300 of FIG. 1 are constructed.

As can be seen in FIG. 2, in the natural eco-friendly water permeable paving material using cumulus mica of the present invention, after forming the aggregate compaction layer 400 on the original ground 500, the permeable concrete base layer 300 on the aggregate compaction layer 400 ) and cumulus mica aggregate surface layer 100 can be used in a manner of sequentially forming.

For example, when paving the floor of a small parking lot located outdoors, the thickness of the aggregate compaction layer may be 300 mm, and the thickness of the permeable concrete base layer 300 may be formed thereon to 100 mm, and also the permeable concrete Cumulus mica aggregate surface layer 100 formed on the base layer 300 may be formed to a thickness of 50 mm.

Although the above example took the case of paving the floor of a parking lot as an example, the thickness of the permeable concrete base layer and the cumulus mica aggregate surface layer in the present invention is not limited thereto, and a place where a water-permeable pavement is applied, such as a walking trail or bicycle road. It can be changed and used in various ways according to the ground and topography of the

On the other hand, when the surface layer 100 of cumulus mica aggregate is directly paved on the compaction layer 400 of the aggregate without forming the base layer 300 of the water-permeable concrete in the present invention, the surface layer of cumulus mica aggregate 100 is compacted aggregate layer 400 ) The phenomenon of separation occurs at the top, and defects may also occur due to soft ground, ground displacement due to seasonal changes, and differential settlement of the ground due to seepage water.

In addition, the binder used in the cumulus mica aggregate surface layer 100 dissolves in moisture due to rain or snow over time to form a film on the surface of the aggregate compaction layer 400, thereby reducing water permeability.

In addition, in the case of paving only the permeable concrete base layer 300 on the aggregate compaction layer 400 without forming the cumulus mica aggregate surface layer 100 in the present invention, shrinkage mainly occurs in the concrete-based paving material when the temperature environment changes in the summer season Blow-up and deformation problems may occur due to , expansion, etc.

Therefore, in the natural eco-friendly water permeable paving material using cumulus mica according to the present invention, the permeable concrete base layer 300 is first formed on the aggregate compaction layer 400, and the cumulus mica aggregate surface layer 100 is formed on the permeable concrete base layer 300. Through this, the natural eco-friendly water permeable pavement using cumulus mica according to the present invention can prevent defects due to soft ground or ground displacement due to seasonal changes, differential subsidence of the ground by infiltrating water, etc. Water permeability can be maintained by allowing the binder of the mica aggregate surface layer 100 to flow down between the aggregates of the water-permeable concrete base layer 300.

In addition, in the natural eco-friendly water-permeable paving material using cumulus mica according to the present invention, the surface layer 100 of cumulus mica aggregate blocks direct heat transfer to the permeable concrete base layer 300, which is mainly generated in concrete-based paving materials when the temperature environment changes in the summer season. Blow-up and deformation problems caused by contraction and expansion can be greatly reduced.

3 is a flowchart for explaining a method of packaging a natural eco-friendly water permeable packaging material using cumulus mica according to an embodiment of the present invention.

As can be seen in Figure 3, the packaging method of the natural eco-friendly water permeable paving material using cumulus mica of the present invention includes the aggregate compaction layer forming step (S100) of forming the aggregate compaction layer 400 on the original ground 500, the aggregate Base layer forming step (S200) of forming a permeable concrete base layer 300 on the compaction layer 400, and fine-grained cumulus mica compared to the aggregate of the permeable concrete forming the permeable concrete base layer 300 on the permeable concrete base layer 300 It consists of a surface layer forming step (S300) of forming the cumulus mica aggregate surface layer 100 made of aggregate.

At this time, forming the aggregate compaction layer 400 on the original ground 500 may be applied as it is in a conventional method, and a detailed description thereof will be omitted.

On the other hand, in the base layer formation step (S200), the permeable concrete base layer 300 is formed of permeable concrete using aggregate having a particle size of 13 mm to 25 mm as described above, through which the water permeability, water permeability continuity, strength, and bearing capacity aspects It is possible to implement an excellent packaging material base layer in

In addition, in the surface layer forming step (S300), the cumulus mica aggregate surface layer 100 is an eco-friendly aggregate having a function of removing harmful substances, and the cumulus mica aggregate used for the surface layer 100 of the cumulus mica aggregate is used as described above. As described above, aggregates of three sizes having particle sizes of 1 to 2 mm, 3 to 6 mm, and 7 to 8 mm are mixed at a ratio of 10 to 30%, 50 to 80%, and 10 to 30%, respectively. At this time, polyol may be used as the main material of the binder used, and isocyanate may be used as the curing agent.

In addition, as described above, the thickness of the permeable concrete base layer and the surface layer of cumulus mica aggregate in the present invention can be changed in various ways according to the ground and topography of the place where the permeable pavement is applied, such as a parking lot, a walking trail, a bicycle road, etc.

As described above, the natural eco-friendly water permeable packaging material using cumulus mica and its packaging method according to the present invention are a water permeable packaging material composed of a surface layer of a water permeable packaging material having a function of removing harmful substances and a base layer of water permeable concrete having excellent water permeability, permeability continuity, strength and bearing capacity. By providing, it is possible to solve the problem of structural defects of paving materials for the surface layer caused by soft ground, ground displacement according to seasonal changes, and differential subsidence of the ground due to seepage water. In addition, by providing a permeable packaging material consisting of a surface layer and a base layer having different sizes and characteristics of aggregate, defects in packaging materials caused by insufficient bonding strength and adhesive strength, problems in durability due to deformation such as shrinkage and expansion of packaging materials, and packaging materials It can solve environmental damage problems such as groundwater contamination caused by toxic substances generated from

What has been described above includes examples of one or more embodiments. Of course, it is not possible to describe every possible combination of components or methods for purposes of describing the above embodiments, but those skilled in the art will recognize that many additional combinations and permutations of various embodiments are possible. Accordingly, the described embodiments are intended to cover all alternatives, modifications and adaptations falling within the spirit and scope of the appended claims.

Claims (10)

As a packaging material for paving the floor,
A permeable concrete base layer formed on the aggregate compaction layer on the original ground; and
Cumulus mica aggregate surface layer formed on the permeable concrete base layer and made of fine-grained cumulus mica aggregate compared to the aggregate of the permeable concrete constituting the permeable concrete base layer to improve the bonding strength and adhesion at the adhesive surface with the permeable concrete base layer; include,
The cumulus mica aggregate used for the surface layer of the cumulus mica aggregate,
Aggregates of three sizes with particle sizes of 1 to 2 mm, 3 to 6 mm, and 7 to 8 mm are mixed at a ratio of 10 to 30%, 50 to 80%, and 10 to 30%, respectively,
The permeable concrete base layer,
Natural eco-friendly water permeable packaging material using cumulus mica, characterized in that it is formed with permeable concrete using aggregate having a particle size of 13mm to 25mm.
delete According to claim 1,
A natural eco-friendly water permeable packaging material using cumulus mica, characterized in that the main material of the binder used in the surface layer of the cumulus mica aggregate is polyol, and isocyanate is used as a curing agent.
delete According to claim 1,
The thickness of the permeable concrete base layer and the surface layer of the cumulus mica aggregate,
Natural eco-friendly water permeable packaging material using cumulus mica, characterized in that it is used according to the ground or topography of the place where the water permeable packaging material is applied.
As a packaging method using a packaging material,
Aggregate compaction layer forming step of forming an aggregate compaction layer on the original ground;
A base layer forming step of forming a permeable concrete base layer on the aggregate compaction layer; and
Formation of a surface layer for forming a surface layer of cumulus mica aggregate made of fine-grained cumulus mica aggregate compared to the aggregate of the permeable concrete constituting the permeable concrete base layer on the permeable concrete base layer so as to improve the bonding force and adhesion at the adhesive surface with the permeable concrete base layer Step; including,
The cumulus mica aggregate used for the surface layer of the cumulus mica aggregate,
Aggregates of three sizes with particle sizes of 1 to 2 mm, 3 to 6 mm, and 7 to 8 mm are mixed at a ratio of 10 to 30%, 50 to 80%, and 10 to 30%, respectively,
The permeable concrete base layer,
Packaging method of natural eco-friendly water permeable pavement using cumulus mica, characterized in that it is formed with permeable concrete using aggregate having a particle size of 13mm to 25mm.
delete According to claim 6,
The main material of the binder used for the surface layer of the cumulus mica aggregate is polyol, and the curing agent is a natural eco-friendly water-permeable packaging method using cumulus mica, characterized in that isocyanate is used.
delete According to claim 6,
The thickness of the permeable concrete base layer and the surface layer of the cumulus mica aggregate,
Packaging method of natural eco-friendly water permeable packaging material using cumulus mica, characterized in that it is changed and used according to the ground or topography of the place where the water permeable packaging material is applied.

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