KR100830372B1 - Low toxity concrete block - Google Patents

Abstract

An eco-friendly scour prevention concrete block is provided to prevent marine pollution by neutralizing toxicity of cement effectively and erosion of reinforced rod from efflorescence by using strong adsorption of mineral silicate and effect of anions released in large amount. An eco-friendly scour prevention concrete block contains completely dried mineral silicate powder including sericite and cholorite. The scour prevention concrete block comprises: 4 body parts(10); 4 corner parts which links the body parts(20); tapered cylindrical projection parts(12), each of which is established on the center of top side and back side of each body part; hemi-circular shaped indented grooves(14) established on central exterior surface of the body parts upward and downward; anchor holes(16) piercing through the body parts horizontally; and connective rings(22) formed on exterior surface of the corner parts.

Description

Eco-friendly concrete scour prevention block {Low Toxity Concrete Block}

1 is a manufacturing process of the eco-friendly concrete scour prevention block according to the first embodiment of the present invention,

2 is a perspective view of an eco-friendly concrete type 1 scour prevention block of the present invention,

3 is a plan view of the eco-friendly concrete type 1 scour prevention block of the present invention,

Figure 4 is a bottom view of the eco-friendly concrete type 1 scour prevention block of the present invention,

5 is a side view of the eco-friendly concrete type 1 scour prevention block of the present invention,

Figure 6 is a perspective view of the eco-friendly concrete type 2 scour prevention block of the present invention,

7 is a plan view of the eco-friendly concrete type 2 scour prevention block of the present invention,

8 is a bottom view of the eco-friendly concrete type 2 scour prevention block of the present invention,

9 is a side view of the eco-friendly concrete type 2 scour prevention block of the present invention.

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

10: body edge portion 12: protrusion

14: concave groove 16: anchor hole

20: corner portion 100: scour prevention block

200: Scour prevention block 210: Block body

212: tapered cylindrical protrusion 214: concave groove

216: anchor hole 220: corner portion

222: fastening ring

The present invention relates to an eco-friendly concrete scour prevention block, which will be described in more detail, can be installed at the bottom of the beam or the fast flow of the water or around the piers that the water hover to purify the water quality along with the scour prevention and to work with the Associate It relates to a scour prevention block.

In recent years, the land use of the river basin has increased and urbanization has significantly changed the river environment.This change in the river environment has been accelerated due to the large-scale civil works for watershed and completion purposes. It has reduced the inherent natural environment function. As well as water pollution of rivers, the density of fish and algae in the river vegetation and rivers as a component of ecosystems has decreased, and the diversity of habitats and animals has been reduced, so the function of ecosystem habitats has declined.

In urban rivers with a high density of land use around rivers, the river environment has been modified due to the maintenance of reservoirs and reservoirs for flood control, linear maintenance of river channels, and construction of river embankments. As the river was strengthened, the curvilinear line of the natural river changed to a straight line, and the lakeside part was concreted with the reservoir, and especially the aquatic plants did not stick to the water part.

Water ridge is a erosion of the bottom of the erosion that is exposed to a pool created by scouring by the fast flow of convergence. The depth of the adjacent reservoir is relatively deeper than that of the sand stock, and the riverbed is composed of gravel and coarse sand. The aqueduct adjacent to the junction is used as a migration route or shelter for fish in the river.

Reservoir lakes have high ecological productivity and biodiversity, and are equivalent to econtones in natural river ecosystems. In addition, the concrete conversion of transition zones primarily inhibits the occurrence of animals and plants inhabiting transition zones, and secondly, greatly affects the entire river ecosystem.

The ripple process of adverse effects on the river ecosystem stems from the removal of vegetation.

With the elimination of vegetation, the plant species itself is reduced, as well as the damaging habitat of aquatic insects, fish, and algae in a chain. The concrete block physically blocks river water from seeping into the soil layer. Dryness (植 生化). In addition, when the shade provided by the celestial vegetation disappears, the water temperature changes so severely that it loses its functions as aquatic benthic, fish habitat, and spawning grounds. To be damaged.

Therefore, as interest in the river environment has increased recently, attempts have been made to regenerate and restore ecologically damaged river environments. However, due to the lack of research and development of supplies and materials that make them economically and technically feasible, Unloading and retrieving efforts are just relief.

In addition, the scour-preventing block mainly uses concrete structures formed by molding concrete from formwork. The scour prevention block made of concrete worsens the environment of the seabed by discharging a large amount of carbon dioxide, and the cement composed of strong alkali has a characteristic of eluting toxic substances for a long time, so until the toxicity of the cement is completely discharged. It had to take the polluting of the ocean.

Furthermore, when water is added to cement, CaCO ₃ , Ca (OH) ₂ , Na ₂ SO ₄ , K ₂ SO ₄ , CaSO ₄ , Na ₂ CO ₃ , K in the process of moving the water-soluble constituents in the cement hardened body to the surface ₂ toxins are water hydroxyl groups (OH ^-), such as CO ₃ ^- ions and the reaction by hydration reaction in response to an ion, because of the precipitation of a white birch slowly elute the toxic components of the end of cement and water, a hydroxyl group (OH) The addition of admixtures that can be blocked beforehand has been required.

In particular, the bleaching phenomenon is to weaken the structure of the overall scour prevention block by corroding the reinforcing steel frame embedded in the concrete, so that when the steel is corroded over a long period after the installation of the scour prevention block, the scour prevention block is broken.

In addition, the existing blocks are insufficient to provide a habitat for fish and have a severe flow phenomenon during rapid flow, which causes not only ecological crabs but also collapse of bridges.

The present invention has been made to solve the above problems, and its purpose is to add the silicate mineral powder as admixture when preparing the anti-washing block, and thus the toxicity of the cement due to the strong adsorption power and the large anion effect released by the silicate mineral. It is to provide an eco-friendly concrete scour prevention block that can effectively neutralize) to prevent the pollution of the ocean by the toxic emissions of cement, and to prevent the corrosion of the reinforcing steel by the bleaching phenomenon.

Another object of the present invention is to regenerate the river ecosystem by replacing the harmful concrete blocks with eco-friendly concrete scrubbing blocks, as the damage of the river ecosystem originates from the vegetation removal, taking into account the habitat environment of the ecosystem of the river. This is to provide scrubbing prevention and eoso function and to provide scrubbing prevention block of structure close to natural type.

Another object of the present invention is easy to construct due to structural advantages, such as coastal erosion is progressing, river refraction surface erosion is large due to the large drop width, aesthetic or structurally unstable terrain after the slope cut, slopes around the river, collapse or erosion of the slope The purpose is to provide an eco-friendly concrete scour prevention block that can achieve the purpose of the scour prevention block more efficiently than expected in the place where the flow velocity around the bridge under the bridge and the bridge submerged beam is fast and anomalous.

Environmentally friendly concrete scour prevention block according to the present invention for achieving the object of the present invention, while collecting the silicate minerals of sericite, chlorite, and crushed the collected minerals into coarse particles, respectively, impurities After screening, removing and drying naturally, the moisture contained in the epidermal layer of the mineral is dried, the naturally dried minerals are put into a drying furnace, and then the heat of 500-700 ° C. is applied to completely dry the moisture contained in the minerals, and dried minerals. In the scour prevention block made by finely pulverizing each of them and filtering them with a sieve having a particle size of 200 mesh and processing them into fine powder and mixing them with gravel, sand and cement, 37 to 41% by weight of gravel and 34 to 38% by weight of sand , 14 to 16 wt% cement, 1 to 2 wt% sericite powder, 0.5 to 0.7 wt% chlorite powder, 0.5 to 0.7 wt% sewage sludge incineration ash Mixing the mixture and kneading concrete by injecting 7-9 wt% water; Forming a scour-preventing block by injecting concrete after putting the reinforced frameworks bonded to each other in the formwork; After the concrete is hardened, the formwork is separated and cured for 6 to 8 days to complete an eco-friendly concrete scour prevention block.

Eco-friendly concrete scour prevention block according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

1 is a manufacturing process diagram of the eco-friendly concrete scour prevention block according to the first embodiment of the present invention. As shown, according to the present invention, a method for manufacturing an eco-friendly concrete anti-blocking block according to the present invention may be obtained by collecting silicate minerals of sericite and chlorite, and crushing the collected minerals into coarse particles. After selection and removal, it is dried naturally and dried the moisture contained in the epidermal layer of minerals. Naturally dried minerals are put into a drying furnace, and then the heat of 500-700 ° C. is applied to completely dry the moisture contained in the minerals. In the manufacturing method of producing fine scrubbing blocks by finely pulverizing finely, filtered through a sieve having a particle size of 200 mesh, mixed with gravel, sand and cement, 37-41% by weight of gravel, 34-38% by weight of sand %, Cement 14-16 wt%, Sericite powder 1-2 wt%, Chlorite powder 0.5-0.7 wt%, Sewage sludge incineration 0.5-0.7 wt% Mixing evenly and kneading concrete by injecting 7 to 9% by weight of water; Forming a scour-preventing block by injecting concrete after putting the reinforced frameworks bonded to each other in the formwork; After the concrete is hardened by removing the formwork for 6 to 8 days to complete the eco-friendly concrete scrubbing block; characterized in that it comprises a.

2 is a perspective view of an eco-friendly concrete type 1 scour prevention block manufactured according to the manufacturing method, Figure 3 is a plan view of an eco-friendly concrete type 1 scour prevention block manufactured according to the manufacturing method, Figure 4 is prepared according to the manufacturing method It is a bottom view of the eco-friendly concrete type 1 scour prevention block, Figure 5 is a side view of an eco-friendly concrete type 1 scour prevention block manufactured according to the manufacturing method.

Eco-friendly concrete scour prevention block 100 (block 1 type), four body edge portion 10 and the four corner portion 20 connecting the body edge portion 10 is formed integrally to form an octagonal body In the center of the four body edge portion 10, tapered cylindrical protrusions 12 are respectively provided on the upper and lower sides in the vertical direction, and the semicircular concave grooves 14 formed in the vertical direction on the center of the outer surface of the body edge portion 10. The center of the outer surface of at least two of the body side portion 10 facing each other is provided with an anchor hole 16 penetrating horizontally through the body side portion 10 from the concave groove 14, the four Fastening ring 22 is provided on the outer surface of the four corners 20, respectively.

6 is a perspective view of eco-friendly concrete type 2 scour prevention block, FIG. 7 is a plan view of an eco-friendly concrete type 2 scour prevention block, FIG. 8 is a bottom view of an eco-friendly concrete type 2 scour prevention block, and FIG. 9 is an eco-friendly concrete type 2 scour prevention block Side view of the block.

As shown, eco-friendly concrete scour prevention block 200 (block 2 type), the inner circumferential surface is circular and the outer circumferential surface is on the upper and lower surfaces of the block body 210, which is a closed curved shape similar to a square in which the corner portion 220 is rounded. Four tapered cylindrical protrusions 212 are provided in the up and down direction, and the block body 210 is formed from the concave groove 214 and the semi-circular concave groove 214 formed in the up and down direction on the outer surface of the block body 210. An anchor hole 216 penetrating horizontally is provided, and the fastening ring 222 is provided on the outer surface of the rounded corner portion 220, respectively.

However, in the present invention, the shape of the eco-friendly concrete scour prevention block is not limited to the shape shown in FIGS. 1 and 2, and may be configured in other shapes as long as it can perform the function of the scour prevention block. It is included in a range.

Example

Minerals such as sericite and chlorite, which are fungicide minerals that exist as natural minerals in nature, were collected.

Subsequently, the collected minerals were put into each crusher and crushed into particles having a size of about 35 mm or less, and then the particles were sorted to remove impurities and naturally dried for 7 days. The moisture contained in the epidermal layers of the minerals was dried. It became.

In this step, it is preferable to remove the fine foreign matter contained on the surface of the minerals by selecting the crushed mineral particles and then washing with water.

Subsequently, the naturally dried minerals were put into a drying furnace and dried by applying heat of 500 to 700 ° C., and the moisture contained in the minerals was completely dried.

The drying furnace is composed of a drying furnace in the form of a thermal kiln, and may be dried by adding minerals, but by adding minerals to a conveyor moving through the kiln and moving it for about 10 to 20 minutes while applying heat of about 600 ° C. or more. This mass production is possible because it is preferable.

Of course, in some cases, it is possible to inject minerals into a rotary furnace that is mounted to be inclined and heated so as to dry them by heat.

Subsequently, the dried minerals were put in a grinder to finely grind them, and the silicate mineral powders were prepared by filtration through a sieve having a particle size of 200 mesh.

Then, 920Kg of gravel, 840Kg of sand, 350Kg of cement, 40Kg of sericite powder, 10Kg of chlorite powder, and 10Kg of sewage sludge incineration were put into a truck mixer which is a ready-mixed vehicle. After mixing, 180Kg of water was added and kneaded while continuing to mix to complete concrete.

Subsequently, the lattice-shaped reinforced steel frame, which is bound in the form of lattice, was put in the concrete, and then concrete was injected to form an eco-friendly concrete anti-wash block.

After the concrete was hardened, the scour prevention block formed by separating the formwork was cured for about 7 days. Then, the steel frame was embedded inside to complete the manufacture of the eco-friendly concrete scour prevention block having excellent durability.

Test Items Scour prevention block Test Items Scour prevention block Compressive strength 246 Kgf / cm ² Air volume 18.5Vol% Thermal conductivity 0.18Kcal / mh ℃ Sound absorption coefficient 0.28NRG The tensile strength 32 Kgf / cm ² Far Infrared Emissivity 94% max (40 degreeC)

Experimental Example: Physical property test of eco-friendly concrete scour prevention block

The experiment used environmentally-friendly concrete scour prevention block, and the compressive strength, thermal conductivity, tensile strength, air content, and sound absorption coefficient are as shown in the above table, and the far-infrared emissivity measured at a temperature of about 40 ° C. was found to be very high at 94% or more.

The eco-friendly concrete scour prevention block completed through the above-mentioned manufacturing process is a silicate mineral that emits anions in the natural state such as sericite and chromite as a mixed material, so it adsorbs the strong toxicity of cement due to the adsorption effect of particulate matter on the mineral. to be able to be neutralized, as well as it is possible to eliminate the alkaline toxic irritant odor of cement clay minerals having strong anion substituted ability to various components of the cement and water, hydroxyl groups, causing the hydration reaction (OH ^-) by ion strongly reducing It can be used to reduce the toxicity of cement by effectively preventing the waste end that whitening occurs in cement, and can significantly delay the corrosion of reinforcing steel embedded in concrete structures, thereby improving the durability of the overall scour prevention block. There is an advantage.

In addition, sericite, which is one of the most included and important substances in the process of manufacturing the present invention, emits negative ions in a natural state and is known to emit rotating electromagnetic waves (π-RAY) as published in recent academic fields. This electromagnetic wave (π-RAY) induces hardening of the cement as a property, suppresses cracks and pores of the cement, and naturally neutralizes the toxic odor, which is a strong alkaline component generated in the hardening stage of the cement, to remove irritating odor. You can do it.

On the other hand, the characteristics and action of the admixture composed of minerals, sewage sludge incineration ash used for the production of the present invention are as follows.

Sericite is a mineral that belongs to a monoclinic system with dense or fine scales. It is a mineral belonging to the monoclinic system. Refers to clay-like fine muscovite formed by 作用).

The sericite is widely used as an admixture of ceramics or refractory bricks. CaCO3, which is a hardened cement material, is absorbed by anion and rotating electromagnetic waves (π-RAY) in its natural state to adsorb particulates or separate particulates having different sizes. , Ca (OH) 2, Na2SO4, Na2CO3, K2CO3 chemical substitution of the components and induces the material conversion to absorb the strong alkali toxicity contained in the cement, as well as to inhibit the whitening phenomenon to inhibit the toxicity of cement Blocking will protect the fish from toxicity.

Chlorite is a mineral belonging to monoclinic system. It is called chlorite and its main component is hydrous silicate (Mg, Fe, Al) 12 (Si) of aluminum, iron and magnesium. Al) 8O20 (OH) 16.

The chlorite is widely found in various types of sedimentary rocks, low-temperature metamorphic rocks, and igneous rocks deteriorated by hot water, and mainly mica, hornblende, and fluorite, and are denatured, and release negative ions in nature. It can neutralize the toxicity of cement by adsorbing and decomposing toxic substances.

Sewage sludge incineration ash is collected from the incinerator by heating it to a temperature of about 1,400 ℃ in an incinerator, and is collected by a dust collector.When sewage sludge incineration is used as a mixed material in cement, carbon dioxide emissions are higher than general cement. Since it is very small, it is possible to improve the habitat of fish, and when used as recycled cement, it is very advantageous and can realize environmentally friendly cement.

As such, the eco-friendly concrete scour prevention block to which sewage sludge incineration is added not only improves long-term strength and water tightness, but also improves strength and durability by miniaturizing voids in concrete, and wastes by recycling wastes. There are advantages such as reducing the processing cost.

Although the present invention has been described in connection with the above-mentioned preferred embodiment, the scope of the present invention is not limited to the embodiment, various modifications and variations will be possible.

According to the present invention, the silicate mineral powder is added to the admixture when preparing the scour prevention block, and the neutralization of the cement is effectively neutralized by the strong adsorptive power of the silicate mineral and the anion effect released in large quantities. An eco-friendly concrete scour prevention block is provided that can prevent marine pollution and prevent corrosion of reinforcing steel due to bleaching.

In addition, as the damage to the river ecosystem originated from the vegetation removal, the ecological cleaning of the river is regenerated by replacing concrete blocks with harmful concrete with eco-friendly concrete scrubbing blocks. It is possible to provide a scour prevention block that is close to the natural type.

In addition, the construction is easy due to the advantages of the structure, while the erosion is in progress, the river has a large drop width, erosion is in progress, aesthetic or structural unstable terrain after the slope cut, slopes around the river, collapse or erosion of the slopes, An eco-friendly concrete scour prevention block is provided that can achieve the purpose of installing the scour prevention block more efficiently than expected in the place where the flow velocity around the bridge bottom and bridge submerged beam is fast and anomalous.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, the scope of the present invention is not limited to these embodiments, and the scope of the present invention is defined by the following claims, and equivalent scope of the present invention. It will include various modifications and variations belonging to.

Claims (3)

delete Silicate minerals of sericite and chlorite are collected, and the collected minerals are crushed into coarse particles, and the impurities are selected and removed, followed by natural drying to dry the moisture contained in the epidermal layer of the mineral. After the dried minerals are put into the drying furnace, the water contained in the minerals is completely dried by applying heat of 500 to 700 ° C, and the dried minerals are finely pulverized and sieved through a sieve having a particle size of 200 mesh to be processed into fine powder. In eco-friendly concrete scour prevention block manufactured by mixing with gravel, sand, cement, The eco-friendly concrete scour prevention block, four body portion 10 and the four corner portion 20 connecting the body portion 10 is formed integrally to form an octagonal body, the four body edge portion ( 10, the tapered cylindrical protrusions 12 are respectively provided on the upper and lower sides in the vertical direction, and the semicircular concave grooves 14 formed in the vertical direction are provided at the center of the outer side of the body edge 10 and face each other. An anchor hole 16 penetrating the body edge portion 10 horizontally from the concave groove 14 is provided at the center of the outer side surface of the at least two body edge portions 10. Eco-friendly concrete scour prevention block, characterized in that the fastening ring 22 is provided on the outer surface. Silicate minerals of sericite and chlorite are collected, and the collected minerals are crushed into coarse particles, and the impurities are selected and removed, followed by natural drying to dry the moisture contained in the epidermal layer of the mineral. After the dried minerals are put into the drying furnace, the water contained in the minerals is completely dried by applying heat of 500 to 700 ° C, and the dried minerals are finely pulverized and sieved through a sieve having a particle size of 200 mesh to be processed into fine powder. In eco-friendly concrete scour prevention block manufactured by mixing with gravel, sand, cement, The eco-friendly concrete scour prevention block, the inner peripheral surface is circular and the outer peripheral surface is a closed curved shape similar to the rectangular shape rounded corners 220 rounded tapered cylindrical protrusions 212 on the upper and lower sides of the four in the vertical direction A dog is provided, and the outer surface of the block body 210 is provided with a semi-circular concave groove 214 formed in the vertical direction and the anchor hole 216 horizontally penetrating the block body 210 from the concave groove 214 Eco-friendly concrete scour prevention block, characterized in that the fastening ring 222 is provided on the outer surface of the rounded corner portion 220, respectively.

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