KR101357770B1 - Manufacturing method of porous concrete block with loess soil seed - Google Patents

Abstract

The present invention relates to a porous concrete block and a manufacturing method thereof and more particularly, to a manufacturing method of porous concrete block in which loess, culture soil, seed are attached. The present invention has an effect of smoothly comprising a protection of coast: by injecting the loess, the culture soil and the seed in a pore while having a curing process of the porous concrete in a fixed mold and installing in a river revetment; thereby having the germination and the afforestation properly. Accordingly, the porous concrete block in which loess, culture soil, seed are attached and the manufacturing method thereof comprises: a step of placing the porous concrete block in a formboard; a step of spraying a loess in the part of the porous concrete pore while having a curing process of the porous concrete; a step of spraying a culture soil powder in the rest part of the porous concrete pore; a step of spraying a loess water for coating the upper side of the porous concrete; a step of removing the porous concrete block from the formboard after finishing the curing process of the porous concrete; a step of spreading a wild flower seed before releasing the de-molded block. [Reference numerals] (S10) A step of placing the porous concrete in a formboard; (S20) A step of spraying a loess; (S30) A step of spraying a culture soil powder; (S40) A step of spraying a loess water; (S50) A step of removing the porous concrete block from the formboard; (S60) A step of spreading a wild flower seed

Description

Yellow clay, cultured soil, seeded porous concrete block and manufacturing method {manufacturing method of Porous concrete block with loess soil seed}

The present invention relates to a porous concrete block and a manufacturing method, and more specifically, when the porous concrete is put into a predetermined mold and cured by installing ocher, cultured soil, and seeds in the porous concrete pores, germination, greening The present invention relates to a porous concrete block and a manufacturing method of loess, cultured soil, and seed, which are preferably made to protect slopes when applied to a river lake.

General concrete is made of high-strength concrete by minimizing the voids in the concrete by filling the pores between the aggregates with a mortar and sufficient compaction. Such concrete has been used as an essential material for houses, roads, and the like that make up a modern society. However, high-strength concrete has the disadvantage of destroying natural ecosystems such as damaging the habitat and growth base of animals and plants.

Recently, with global warming and environmental problems, the development to produce concrete as an environmentally friendly material that destroys the natural ecosystem and becomes a problem of environmental pollution is being activated. As such an example, permeable concrete that can increase groundwater level due to high permeability and air permeability, vegetation-type concrete capable of growing plants well, and sound-absorbing concrete that are expected to have sound insulation and sound insulation due to high sound absorption are being developed.

In particular, raft blocks installed to protect the slopes of rivers and the shores of the seas from falling down have been commonly used to make concrete homogeneous and easy to construct, but they have increased the flow rate, causing scour phenomena and difficult vegetation. River maintenance was necessary.

As a conventional technique for solving such a problem, Korean Patent Publication No. 2001-0099032 (November 09, 2001) is a cement-free environmentally friendly clay porous concrete composition, which does not use cement at all, and is in a natural state. Alkaline stimulants (NaOH, NaCl, CaCl ₂ ,) to promote the weak autohardness of blast furnace slag and blast furnace slag which are industrial by-products in clay KOH, Ca (OH) ₂ , CaSO ₄ , A clay porous composition comprising a continuous pore cured body having 5 to 40% of voids as a composition in which a clay paste formed by mixing single or a mixture of sodium silicate with water and then rubbed with water is coated on a coarse aggregate.

However, the above cement-free environmentally friendly clay porous concrete composition is environmentally friendly because it does not use cement at all, but it does not contain cement at all, so its strength is weak. Therefore, when it is installed on the slopes of rivers or at the shore of the sea where porous concrete is used, There is a risk of failure to withstand the strength of the, and maintenance costs are high due to maintenance costs. In addition, the clay flows out of the damaged concrete concrete has a disadvantage of worsening the water quality.

As another conventional technique, the Republic of Korea Patent No. 10-0356460 (March 30, 2002) is a method for producing high functional vegetative porous concrete using resin granulated fertilizer, for high-functional vegetation using resin-treated granular fertilizer In the production of porous concrete, ordinary port cement with specific gravity of 3.14 ~ 3.16 and blast furnace slag with specific gravity of 2.65 ~ 2.75 with specific gravity of 2.65 ~ 2.75 with particle size range of 5 ~ 10㎜ and 10 ~ 20㎜, 2.8 ~ 3.0 blast furnace slag, specific gravity 2.1 ~ 2.2 It uses silica groove, high performance AE water reducing agent and granulated fertilizer with resin treatment. The mixing design makes water binder material 20 ~ 30% and porosity 20 ~ 30%. The manufacturing order is cement, industrial by-product, water, AE water reducing agent. It is known that a manufacturing method is characterized in that by mixing for 1 minute and then mixing the resin-treated granular fertilizer and mixing for 1 minute, then adding the aggregate and mixing for 2 minutes.

However, the method of producing high-performance vegetative concrete for fermented concrete using the resin-treated granular fertilizer manufactures the porous vegetal concrete for the vegetation using granular fertilizer, but it takes a lot of time for the vegetation to naturally adhere to the porous concrete to be greened. You may not be able to. In addition, in order to prevent this, even if you plant the vegetation or seeds in the field directly there is a fear that there is no soil germination well.

The present invention is to solve the problems as described above, when spraying the water in the process of curing the porous concrete into the mold, spraying ocher to the pores and spraying the culture soil on it and then applying the ocher again When ocher and cultured earth powder adheres to the pores of the porous concrete, and the seeds are sprayed on the upper surface of the porous concrete before shipment, the seeds germinate well and the greening occurs quickly without additional planting work. It is an object of the present invention to provide ocher, cultured soil, seeded porous concrete blocks, and a method for manufacturing the same, to facilitate the protection thereof.

The ocher, cultured soil, seed-porous concrete block and the production method proposed by the present invention are formed into blocks with ocher and cultured earth powder adhered to the pore-concrete pores.

Spraying pores concrete on a mold; and spraying ocher to a portion of the porous concrete pores in the process of curing the porous concrete; and spraying the culture soil powder to a portion of the porous concrete pores; and coating the upper portion of the porous concrete And applying the ocher to the ground; and demolding the porous concrete block in the mold when the porous concrete curing process is completed; and spraying wildflower seeds before leaving the demolded block.

The porous concrete uses porous concrete having a porosity of 20 to 30% to form a strength that does not interfere with the growth of vegetation and does not cause morphological deformation even when the external environment changes.

The ocher sprayed on a portion of the porous concrete pores is adhered to the porous concrete due to the water sprayed during the curing of the porous concrete and is not discharged from the porous concrete block.

According to the present invention, ocher, cultured soil, pore concrete blocks with seeds are attached, and the pore concrete is sprayed into pores in the pores in the process of curing the pores concrete, and adhered to the porous concrete by spraying ocher and cultured soil to increase the strength of the porous concrete. It works.

In addition, if the seeds are sprayed onto the porous concrete block before installation, the seeds are well germinated and greened quickly without any additional planting work, thereby protecting river slopes and protecting the water ecosystem. .

In addition, ocher and culture soil adhering to the porous concrete block makes roots easily adhere to the block and provides nutrients necessary for the growth of vegetation to help the growth of vegetation, thus creating an ecological space as a habitat for animals and plants. It has the effect of creating a friendly landscape.

1 is a block diagram showing an embodiment according to the present invention;
Figure 2 is a schematic process diagram showing an embodiment according to the present invention.
3 is a perspective view showing an embodiment according to the present invention.
4 is a cross-sectional view of an embodiment of the present invention applied to a stream lake.

The present invention is characterized in that the ocher, cultured soil, pore concrete block attached to the seed and the production method, ocher, cultured earth powder is bonded to the pores concrete pores and formed as a block provided with seeds.

In addition, the step of pouring the porous concrete in the mold; and the step of spraying ocher to a portion of the porous concrete pores in the process of curing the porous concrete; and spraying the culture soil powder to a portion of the porous concrete pores; and the top of the porous concrete Applying the ocher to be coated; and demolishing the porous concrete block in a mold when the porous concrete curing process is completed; and spraying wildflower seeds before leaving the demolded block. It features.

In addition, the porous concrete is characterized by using the porous concrete with a porosity of 20 to 30% to form a strength that does not interfere with the growth of vegetation and does not cause morphological deformation even when the external environment changes.

In addition, the ocher sprayed on a portion of the porous concrete pores is characterized in that it is adhered to the porous concrete due to the water sprayed in the process of curing the porous concrete is not discharged from the porous concrete block.

Next, with reference to the drawings a preferred embodiment of the ocher, cultured soil, pore concrete blocks and seeds attached method according to the present invention will be described in detail.

First, one embodiment of the ocher, cultured soil, pore concrete block attached to the seed and the production method according to the present invention, as shown in Figs. , Cultured earth powder spraying step (S30), loess applying step (S40), the mold demolding step (S50), consists of a seed spraying step (S60).

In the casting of the porous concrete step (S10), the porous concrete 10 is poured into the mold 15 having a predetermined size.

The porous concrete 10 is made of cement, water, coarse aggregate, and mixed material without using fine aggregates to increase strength unlike general concrete, and the porous concrete 10 is formed of a large amount of voids 11 by coarse aggregates. do. As the porous concrete 10, it is preferable to use crushed stone or the like with good engagement.

The porous concrete 10 helps the growth of the vegetation 80 if the porosity is large, but the strength is weakened, so that the block 100 may be easily damaged. Therefore, the porous concrete 10 does not interfere with the growth of the vegetation 80 without changing its shape. In order to form with this strength which does not occur, it is preferable to form porosity in 20 to 30%.

In the ocher spraying step (S20), the ocher 20 is injected into a part of the pores 11 in the process of curing the porous concrete 10.

The ocher 20 is environmentally friendly and easy to obtain as a natural soil, inexpensive and has various effects. About 200 million microorganisms per spoon, including catalase to help prevent aging and detoxification, diphenol oxidase to decompose soil, saccharase to activate growth activities of the organism, and protease to help decompose and cleanse This is alive.

In addition, the ocher 20 radiates a large amount of far-infrared rays, which helps the growth of vegetation and helps to purify water by adsorbing nitrogen and phosphorus, and does not break easily because a large amount of calcium carbonate is included.

The ocher 20 sprays the ocher 20 to a part of the pores 11 after spraying water on the porous concrete 10 in the process of spraying water on the porous concrete 10 to cure. The loess 20 is in contact with water and adheres to the porous concrete 10. In particular, the ocher 20 contains calcium carbonate and has a high viscous force, thereby quickly adhering to the porous concrete 10.

In the cultured soil powder spraying step (S30), by mixing the soil of different types so that the seed 60 is greened in the block 100, the cultured soil powder 30 is made and sprayed on the remaining portion of the pores concrete 10 voids (11). .

The main material of the cultured soil powder (30) is formed by mixing a good soil drainage, fine soil, flounder, Masato and the like drainage and water retention. Sayangto is a soft soil with relatively small amount of mud mixed with sand. Deciduous soil is a decayed leaf of hardwoods has the advantage of excellent water retention and complementary properties. Masato is a soil produced by the weathering process of granite. It has the advantage of high soil porosity, high oxygen content in the soil, and good ventilation, so that the roots are quickly lowered and roots easily stick. In addition, it is possible to mix sand, ox sorbate, artificial soil, etc. to further increase drainage and water retention.

The cultured earth powder 30 adheres to the porous concrete 10 due to the water sprayed in the curing process of the porous concrete 10.

In the ocher material applying step (S40), the ocher 20 of the same material used in the ocher injection step (S20) is opened in the water and sprayed onto the porous concrete 10.

The ocher 40 is coated with the porous concrete 10 due to its high viscosity when moisture naturally flows into the air or directly heats the ocher 40 to evaporate the moisture.

In the mold demolding step (S50), the porous concrete 10 block 100 after the curing process is demolded from the mold 15.

The block 100 may have the strength of the loess 20 and the cultured soil powder 30 without being adhered to and discharged.

In the seed spraying step (S60), the seed is sprayed onto the block 100 before being shipped out of the block 100.

The seed 60 is preferably provided with wildflower seeds 60 that can grow well in nature.

The wildflowers are capable of promoting growth and suppression with their own power to adapt to various natural environments, thus obtaining everything they need to maintain life in nature.

When the block 100 is manufactured through the above process, as illustrated in FIG. 3, the ocher 20 and the cultured soil powder 30 are bonded to the pores 11 and the block 60 is provided with a seed 60 at the top ( 100). As shown in the figure, the shape of the block 100 may be formed in a square shape, and the shape of the block 100 may also be variously changed according to the shape of the river slope, and the form 15 forming the shape of the block 100 is provided. ) Will also change shape.

When the block 100 is applied to the river lake, as shown in FIG. 4, the foundation concrete is poured into the bottom of the river, and the block 100 is placed on each end and finished with the top-end concrete 75. The base concrete 70 and the top-end concrete 75 are preferably installed to protect the surrounding environment without breaking the block 100.

In addition, the block 100 may stabilize the river slope and create an environment-friendly landscape.

Since the block 100 is sprayed with the seed 60 before shipping, it does not require much planting work. The seeds 60 are greened and the vegetation 80 is grown. In the drawings, the vegetation 80 plants are only grown at the beginning and the end, but the vegetation 80 plants grow in all the blocks 100 because the seeds 60 are sprayed on all the blocks 100.

The cultured soil powder 30 helps seed 60 to be easily germinated and green. In addition, ocher 20 and cultured soil powder 30 is easily rooted in the block 100 and provides the nutrients necessary for the growth of vegetation (80). In addition, the ocher 20 helps to clean the water quality of the river.

Although it was described that part of the ocher 20 is sprayed onto the pores concrete 10 and the pores 11, the cultured soil powder 30 is sprayed on the porous concrete 10 by simultaneously spraying the ocher 20 and the cultured soil powder 30. It is also possible to adhere.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

10: porous concrete 11: voids 15: mold
20: ocher 30: cultured soil powder 40: ocher
60: seed 70: basic concrete 75: heavenly concrete
80: vegetation 100: block

Claims (4)

Ocher, cultured soil powder is adhered to the porous concrete pores, and the ocher, cultured soil, pore concrete block is attached to the top, characterized in that formed as a block provided with seeds.
Pouring the porous concrete into the mold; and
Injecting water to the porous concrete in the process of curing by spraying water on the porous concrete and then spraying ocher to a portion of the porous concrete pores; And
Spraying the culture soil powder on the remaining portion of the porous concrete pores; and
Applying ocher to coat the upper portion of the porous concrete; and
Demolding the porous concrete block from the mold when the porous concrete curing process is completed; and
Ocher, cultured soil, seeded porus concrete block manufacturing method characterized in that it comprises a; spraying wildflower seeds before leaving the demolded block.
The method according to claim 2,
The porous concrete is pore concrete, which is characterized in that it uses pore concrete having a porosity of 20 to 30% to form a strength that does not interfere with the growth of vegetation and does not cause morphological deformation even when the external environment changes. Block manufacturing method.
The method according to claim 2,
The ocher sprayed on a portion of the porous concrete pores is adhered to the porous concrete due to the water sprayed in the process of curing the porous concrete, ocher, cultured soil, characterized in that the porous concrete block attached to the seed is not discharged from the porous concrete block.

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