JPH0561402B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for manufacturing granular material for laying, which allows the user to arbitrarily select a color that harmonizes well with the surroundings, and a simple method for paving a road surface.

[Problems to be solved by conventional technology and inventions] Conventionally, the colors of roads, poolsides, sidewalks in parks, etc. are almost always fixed to gray or black. There was a strong desire for roads and sidewalks to be colored in a way that harmonized with the surroundings.

[Means to solve the problem]

The gist of the present invention will be explained with reference to the accompanying drawings.

After crushing the white clay and making it into fine powder, an appropriate amount of fine hard granular materials such as silica stone and glass powder that increase the hardness of the fired balls (a) described later are mixed into the white powder and the white powder is colored. Next, this mixture is stirred with a stirrer, then put into a granulator to granulate approximately spherical clay particles, and then the clay particles are fired in a rotary kiln at a temperature of 1000°C or higher. The present invention relates to a method for producing a granular material for laying, which is characterized by forming a fired ball a having a substantially spherical shape.

After crushing the white clay and making it into fine powder, an appropriate amount of fine hard granular materials such as silica stone and glass powder that increase the hardness of the fired balls (a) described later are mixed into the white powder and the white powder is colored. This mixture is then stirred with a stirrer, then put into a granulator to granulate approximately spherical clay particles of different sizes, and then the clay particles are granulated in a rotary kiln.
The method involves firing at 1000°C or higher to form a roughly spherical fired ball a with different sizes of particles, mixing an adhesive such as epoxy resin into the fired ball a, and laying the mixture on the road surface to a predetermined thickness. This relates to a simple road surface paving method that is characterized by:

[Function and Examples]

As the white clay, it is desirable to use talc or kaolin extracted from a soil layer called a white clay layer.

Fine hard granular materials such as silica stone, glass powder, tardar ash, etc. are added to the white clay powder at 20% and 28% each.
%, 3% (wt%).

This hard granular material is added to suppress the water absorption of the baked ball a, which will be described later, and to make the baked ball a have a hardness suitable for the place where it will be used.The amount of mixed material should be adjusted as appropriate depending on the place and purpose of the baked ball a. adjust.

There are two ways to make baked balls a: dry method and wet method. Both are substantially the same, except for the timing of water mixing, as will be described later.

<Dry method> After crushing the white clay extracted from the white clay layer and making it into fine powder, add 20% each of quartzite, glass powder, and soda ash.
28% and 3% (wt%) and mix the coloring agent with the white clay fine powder, add 20% of the total weight of water at an appropriate time so that it can be stirred with a stirrer to make it fluid, and mix it with a stirrer. Stir.

The clay particles released by this stirring are put into a granulator and granulated.

The clay balls shaped by this granulator are placed in a rotary kiln and fired at 1000°C to 1200°C.

<Wet method> After crushing the white clay extracted from the white clay layer and making it into fine powder, add an appropriate amount of water, hard granular material and coloring agent similar to the dry method, and knead to remove air.

Place this batter into a stirrer and stir.

The clay particles released by this stirring are put into a granulator and granulated.

The clay balls shaped by this granulator are placed in a rotary kiln and fired at 1000°C to 1200°C.

The best firing temperature for the fired balls a is about 1200°C.

Above, there are two manufacturing methods.

The color tone of the fired ball a can be changed by changing the firing temperature, and can also be changed by changing the amount of oxygen during firing (oxidation firing or reduction firing).

For example, if the temperature is around 1200℃, the color will be dark, if it is around 1000℃, the color will be pale, and if fired with oxidation, the color will be vivid, and if fired with reduction, the color will be dark.

As the coloring agent used in the present invention, it is preferable to use the following ones, but other ones may also be used.

For example, cobalt oxide is used for blue coloring, zinc oxide is used for yellow coloring, and copper oxide is used for green coloring.

Furthermore, the adhesive is not limited to epoxy resin, but may be other synthetic resins.

A mixture of the colored fired balls a and an adhesive is laid on the road surface as shown in the drawing. The thickness of this pavement layer is preferably about 5 mm.

The drawing shows that under the pavement layer RO, a mixture of fired balls B and cement, which were formed using red clay taken from a red soil layer called the red clay layer in the same manner as the fired balls A, and cement, is laid as the pavement layer A. This is the case.

When making baked balls a into different grains, the large grains are about 2.5mm,
It is desirable to combine small particles with a diameter of about 0.5 mm.

To show specific numerical values necessary for carrying out the present invention, in the case of the road in the park shown in the drawing, the mixing ratio of the fired balls b and cement in the pavement layer A is about 5:1, and the mixing ratio of the fired balls a and the cement in the pavement layer B is about 5:1. Mixing ratio with adhesive is about 10:1, roadbed thickness is about 50mm, pavement layer thickness is about 30mm,
The thickness of the pavement layer is preferably about 5 mm.

Reference numeral 1 is adhesive, 2 is cement, and 3 is a roadbed made of crushed stone.

Test results when implementing the simple paving method of the present invention Curing conditions: 21 days curing at 20℃ (1) Compressive strength (Kg/cm ² ) Average 180Kg/cm ² (2) Bending strength (Kg/cm ² ) Average 64Kg /cm ² (3) Abrasion resistance taper wear coefficient (mg) *Testing machine Toyo Seiki taper type wear tester Wear wheel H22 Load 500g Number of revolutions 1000 times Average 13.115mg [Reference] Concrete is approximately 15.000 using the same method (4 ) Water permeability test Water permeability average 431.3/ ^m
It can also be carried out at athletic fields and poolside.

〔Effect of the invention〕 The present invention has the following features.

1. Coloring agents are mixed into white clay balls, so by simply selecting and mixing any coloring agent, clay balls of any color can be obtained, and if roads, sidewalks, etc. are paved with these clay balls, any color can be created. In addition, the pavement of the present invention is different from the conventional pavement in which a coloring agent is simply mixed into cement, etc., and the pavement of the present invention is made by mixing clay balls with a coloring agent and then firing them. Because of the use of
Roads, sidewalks, etc. are provided that will not fade in color and blend perfectly with the location.

2. Also, since the hard granular material is added to the clay balls, the water absorption of the clay balls is suppressed, and the fired balls have sufficient hardness, so if the fired balls a are used, a solid road will be provided.

3 In addition, this hard granular material is used to close the evaporation holes of water that comes out from inside the clay balls when the clay balls are fired, so when paving with an adhesive mixed into the fired balls a, the evaporation holes This prevents adhesive from flowing into the area, reducing the amount of adhesive used.
This is a very economical paving method.

4 Furthermore, the paving method of the present invention has water permeability because the baked balls are combined to form a structure similar to that of a baked confectionery, and rainwater is well guided underground, resulting in good drainage. This will improve the water supply to plants and other plants, allowing them to grow better and making them ideal for parks and green areas.

5 In addition, the paving method of the present invention uses spherical fired balls and does not use crushed irregularly shaped balls, so the surface area of the fired balls is constant, and therefore the bonding stability is high and the strength is uniform. This will make the road as a whole more solid.

6 In addition, since the baked ball a of the present invention is produced by mixing a coloring agent and then baking it, it is ensured that all parts have the same color. Therefore, for example, when paved with the baked ball a, the road will not be worn out. There is no difference in color in the worn parts, and the aesthetic appearance is not impaired.

7. Furthermore, since the pavement of the present invention is water-permeable, there is no possibility of water puddles forming on the road surface, and since the surface is bonded by the unevenness of the fired balls, accidents due to slipping are prevented.

8 In addition, when the fired balls are made into the same grains and used for pavement instead of being made into particles of different sizes, the water permeability (water permeability) is too good, causing dirt, small gravel, etc. on roads and sidewalks to form between the fired balls. However, if the fired balls are made into particles of different sizes as in the present invention, dirt, small gravel, etc. will stay on the surface of roads, etc. Since it does not enter the interior of roads, etc., a decrease in water permeability (water permeability) can be reliably prevented by simply cleaning the surface of roads, etc.

9 Furthermore, since the pavement of the present invention does not require heat treatment unlike asphalt pavement, it is easier to construct.

10 Furthermore, since the fired balls of the present invention are fired at 1000°C or higher, they have good heat resistance and do not discolor due to sunlight. Therefore, if the fired ball a is used for paving, it will not soften in the hot summer like asphalt, and
Also, to provide a road that does not easily discolor.

11 In the case of gravel, although it is permeable to water, the stones are not firmly attached to the road surface, making it dangerous as they may be blown away by rotary cutters when mowing grass. However, unlike the pavement of the present invention made of gravel, the baked balls a are mixed with an adhesive and laid on the road, so there is no such danger at all.

12 Furthermore, unlike asphalt pavement, the pavement of the present invention does not radiate direct sunlight and have no adverse effect on plants.

INDUSTRIAL APPLICATION As mentioned above, this invention produces an epoch-making effect, such as being most suitable for green space passages, such as a park.

[Brief explanation of the drawing]

The drawing shows one embodiment of the present invention, and is a perspective view of a part of a road surface obtained by the method. a... Baked ball.

Claims (1)

[Claims] 1. After crushing white clay and making it into fine powder,
An appropriate amount of fine hard granular materials such as silica stone and glass powder that increase the hardness of the fired ball a described later are mixed into this finely powdered white clay, and a coloring agent is mixed into the finely powdered white clay.
Next, this mixture is stirred with a stirrer, and then put into a granulator to granulate approximately spherical clay particles.Then, the clay particles are fired in a rotary kiln at 1000°C or higher to form approximately spherical clay particles. A method for producing a granular material for laying, characterized by forming beads a. 2. After crushing the white clay and making it into fine powder,
An appropriate amount of fine hard granular materials such as silica stone and glass powder that increase the hardness of the fired ball a described later are mixed into this finely powdered white clay, and a coloring agent is mixed into the finely powdered white clay.
Next, this mixture is stirred with a stirrer, then put into a granulator to granulate approximately spherical clay particles of different sizes, and then the clay particles are passed through a rotary kiln.
The method involves firing at 1000°C or higher to form a roughly spherical fired ball a with different sizes of particles, mixing an adhesive such as epoxy resin into the fired ball a, and laying the mixture on the road surface to a predetermined thickness. A simple method of paving road surfaces.