KR101457599B1 - Artificial reefs of yellow soil and manufacturing method of the same - Google Patents

Abstract

The present invention relates to artificial reefs using yellow soil and to a manufacturing method thereof and, more specifically, to a manufacturing method comprising the steps of manufacturing yellow soil powder by drying yellow soil and by crushing the same; manufacturing a yellow soil compound by mixing 62-69 parts by weight of aggregates with 22-28 parts by weight of water and 5-15 parts by weight of a firming agent for 100 parts by weight of the yellow soil powder; and injecting the yellow soil compound in a form with vibration and compressing and molding the same; and separating the same from the form.

Description

TECHNICAL FIELD [0001] The present invention relates to artificial fishes,

The present invention relates to artificial fishes using loess and a method for producing the same, and more particularly, to a method for manufacturing artificial fishes using a loess, Mixing 62 to 69 parts by weight of the aggregate, 22 to 28 parts by weight of water and 5 to 15 parts by weight of the solidifying agent with respect to 100 parts by weight of the loess powder, And a step of molding the green loam mixture into a mold, compressing the green loam mixture while vibrating the green loam mixture, molding the green loose mixture, and demolding the green loam.

In general, artificial fishes, which are a form of fishing grounds with favorable conditions for gathering fish, are formed on the coastal seabed so as to form the ridges of the sea bed so that the fishes can gather well and artificial fishes It is an artificial fishing ground with a structure.

In the vicinity of these reefs, upwelling and descending flow are generated along the terrain, and many nutrients are transported to the lower layer, so that circulation of seawater becomes active, and a large amount of various plankton is propagated, so that the food chain of the ecosystem is naturally formed. Therefore, artificial fishes are naturally or artificially cultivated and protected in a short time in aquatic plants such as seaweeds to provide fish food creatures and habitat for fishes, and to increase the production of fishes by forming an aquatic ecosystem.

The artificial fish is an artificial structure provided in the sea for the growth, propagation and picking of seaweeds and fish and shellfish. The artificial fish is an artificial structure mainly composed of concrete or iron, and is artificially formed on the seabed of the coast, It also prevents overfishing.

In these artificial fishes, a moving path is formed in which the fish can move, and the fish are inhabited in such a moving path, and the fish are scattered in the artificial reeds, and thus the fish are increased around the artificial reeds. For this reason, artificial reefs are installed in 202 thousand hectares, which corresponds to 66% of the site availability in 2009.

In addition to concrete, artificial fish is made of artificial fishes mainly made of metal (including castings, steel wire), wood (including waste wood), synthetic resin (including recycled products of waste vinyl and waste tire).

However, the waste wire, concrete, steel, plastic, etc., which are the materials of the artifacts, can cause water pollution once they are dropped in the water, and they are not easily corroded, and serious waste pollution is occurring in the water. Especially, in case of concrete, calcium hydroxide which is very toxic due to strong alkalinity is generated due to the hydration reaction of cement, which is a raw material, and toxicity is generated around the artificial reeds. In places where algae move is small, serious damage due to toxicity occurs, There is a problem that fish do not gather around.

In order to solve these problems, artificial reeds using ceramics have been developed. However, in this case, since the ceramics are not corroded, there is still a problem that waste pollution occurs in the water.

In order to solve the above-mentioned problems, Korean Patent Publication No. 10-2012-0028793 entitled 'Artificial fish using loess', Korean Patent Registration No. 10-1017161 'Method for preparing artificial fish using loess' and Korean Patent Registration No. 10-0735079 Recently, artificial fishes have been developed using loess such as 'method of manufacturing artificial reeds using loess', but loess is weak in water and easily broken. Also, since it is weak in viscosity, it is very difficult to increase strength. It can not be used for the purpose of use, and it is continuing research and development that cracks are caused due to the nature of loess, and it is unusable.

Korean Patent Laid-Open Publication No. 10-2012-0028793 (artificial fish candle using loess) Korean Patent Registration No. 10-1017161 (Method for producing artificial reptiles using loess) Korean Registered Patent No. 10-0735079 (Method for producing artificial reef using loess)

Accordingly, it is an object of the present invention to provide an artificial reef that does not cause water pollution, does not cause toxicity, disappears naturally with the passage of time, and does not cause waste pollution in water, and a method of manufacturing the same.

Another object of the present invention is to provide an artificial reef capable of protecting fish and fish eggs as well as providing a place where fish can be inhabited and food, and a method for producing the same.

Yet another object of the present invention is to provide an artificial reptile capable of generating a vortex and improving the quality of the surrounding water and a method of manufacturing the same.

In order to achieve the above object, the present invention relates to a method for producing an artificial fish cake, comprising: mixing 66 parts by weight of a fine aggregate prepared by shredding concrete with 100 parts by weight of a loess powder prepared by drying and crushing loess, 5 wt% of water, 45 wt% of water, 5 wt% of an admixture, 21.5 wt% of calcium sulfoaluminate mineral, 6.5 wt% of lime, 6.5 wt% of gypsum, and 15.5 wt% of gypsum flame Shaped upper and lower surfaces facing each other at regular intervals; Four upper inclined portions formed downwardly inclined outwardly from the four ends of the upper surface; Four lower inclined portions formed upwardly inclined outward from the four ends of the lower surface so as to correspond to the upper inclined portion; Four vertical coupling parts for coupling the upper inclined part and the lower inclined part corresponding to each other; And four reinforcing joints for joining the adjacent vertically coupling parts, wherein a hollow part is formed inside and an octagon when viewed from the side.

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The artificial fish according to the present invention suppresses the use of cement, which is an environmental pollutant, by using an inorganic inorganic additive having a high hardness and natural loess, thereby improving the compressive strength while suppressing the use of aggregate and sand, , The far-infrared rays and anions generated in the natural loess that are beneficial to the human body are released, and the effect of preventing cracking after the curing of the loess material is obtained.

1 is a schematic view of an artificial ear
2 is a plan view of an artificial fish candle according to the present invention.
3 is a bottom view of an artificial fish candle according to the present invention.
Figs. 4 to 5 are schematic views showing the installation of artificial ear candles according to the present invention; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method for manufacturing an artificial fish using loess according to the present invention will be described in detail with reference to the accompanying drawings.

First, natural loess is dried and pulverized to produce loess powder.

The natural loess can be used in various places such as Chonnam, Jeonbuk, Chungnam, Korea, and the collected loess is dried and crushed to form a powder.

In general, loess is composed of minerals, amorphous materials and organics in the constituent materials, and clay minerals, quartz and other minerals in the minerals. Clay minerals contain various clay minerals, including halosite and kaolinite called kaolinite, and also consist of vermiculite, ilite and smectite. Such loess is loess which contains SiO _{2 ,} Al ₂ O ₃ and Fe ₂ O ₃ as main components, and SiO ₂ The content of CaO is 1 to 2 wt%, the content of MgO is 0.1 to 0.5 wt%, the content of K ₂ O is 0.5 to 10 wt%, the content of Al ₂ O ₃ is 29 to 32 wt%, the content of Al ₂ O ₃ is 43 to 47 wt%, the content of Al ₂ O ₃ is 29 to 32 wt%, the content of Fe ₂ O ₃ is 6 to 9 wt% 1.5% by weight, Na ₂ O 3 - 4% by weight and other components 7 - 9% by weight.

Next, the loess mixture is prepared by mixing the loess powder with aggregate, water and a solidifying agent.

The above-mentioned loess mixture is prepared by mixing 62 to 69 parts by weight of aggregate, 22 to 28 parts by weight of water and 5 to 15 parts by weight of coarse fines with respect to 100 parts by weight of loess powder.

The aggregate refers to sand or gravel produced by shattering concrete, and the solidifying agent is prepared by mixing an inorganic additive composed of calcium sulfoaluminate-based mineral, lime, gypsum and a silicic acid salt in water to which the admixture has been added , The inorganic additive is composed of 43% by weight of calcium sulfoaluminate-based mineral, 13% by weight of lime, 13% by weight of gypsum and 31% by weight of silicofluoride.

The calcium sulfo-aluminate-based mineral _{3CaO · 3Al 2 O 3 · CaSO} 4 Is a mineral containing 70 wt% or more. This mineral forms ettringite (C3A · 3CaSO ₄ · 32H ₂ O) upon hydration. The hydrate hydrate hydrates 32 bonds, has high strength, and is also produced in the presence of organic matter The calcium sulfoaluminate-based mineral may have a particle size of 3000 to 6,000 cm 2 / g in terms of blaine specific surface area, and 4,000 ± 500 cm 2 / g is suitable. The specific surface area is a factor affecting the initial reaction rate. The higher the specific surface area, the faster the reaction rate.

The gypsum to be used in the present invention is a natural anhydrous gypsum which is suitable for reactivity with calcium sulfoaluminate-based minerals because its dissolution rate is slower than that of semi-gypsum gypsum gypsum, contributes to high strength and stability of solid bodies, The blending amount of the calcium sulfoaluminate-based mineral / gypsum is preferably 1 or more and 3 or less, more preferably 3,000 to 8,000 cm 2 / g in terms of the specific surface area of the powder.

The lime used in the present invention is a quick lime, which forms a hydrate by pozzolanic reaction and contributes to the development of strength. The quick lime rapidly exothermically reacts at an early stage to generate calcium hydroxide to reduce the water content of the soil, It is preferable to use quicklime rather than slaked lime.

The silicophyllite is characterized in that the initial reaction is delayed to ensure workability and the hydration reaction with the calcium sulfoaluminate-based mineral is accelerated after the start of hardening. In addition, by accelerating the dissolution rate of silica and alumina components from the soil, the pozzolanic reaction is accelerated and contributes to the high strength in the early ages.

That is, the solidifying agent according to the present invention strengthens the binding by restraining the movement of the soil particles by the ettringite formed at the hydration of the calcium sulfoaluminate-based mineral to strengthen the cohesive force, (CaO · SiO ₂ · xH ₂ O) or calcium aluminate hydrate (CaO · Al ₂ O ₃ ) reacted slowly with Ca (OH) ₂ solubilized components such as SiO ₂ and Al ₂ O ₃ eluted from Pozzolan ₃ · xH ₂ O) to promote the pozzolanic reaction to make the structure more dense, thereby enabling integration, and the constituent of the solidifying agent acts to agglomerate the particles of the soil, thereby promoting the hardening and enhancing the strength .

Then, the yellow loess mixture formed by the above-described method is put into a mold, compressed while being vibrated, and then molded and demolded.

The mold is provided with a vibrator for applying vibration, so that the loess mixture contained in the mold is more closely coupled.

Next, artificial fishes using loess according to the present invention will be described.

3 is a bottom view of an artificial fish candle according to the present invention, and Figs. 4 to 5 are views showing the installation of an artificial fish candle according to the present invention. Fig. Fig.

The artificial fish weighed according to the present invention is composed of 66 parts by weight of fine aggregate produced by crushing concrete, 27 parts by weight of water and 5 parts by weight of a solidifying agent with respect to 100 parts by weight of loess powder, %, An admixture of 5% by weight, calcium sulfoaluminate-based mineral of 21.5% by weight, lime of 6.5% by weight, gypsum of 6.5% by weight and silicofluoride of 15.5% by weight.

Herein, the calcium sulfoaluminate-based mineral, lime, gypsum and the pyrophyllite are inorganic additives, so that the loess powder, the aggregate and the water are smoothly mixed to improve the strength and cohesion as described above.

In addition, the artificial fish candle according to the present invention includes a top surface 10 and a bottom surface 20 which face each other at regular intervals; Four upper inclined portions 30 formed to be inclined downward outward from the four ends of the upper surface; Four lower inclined portions 40 formed to be upwardly inclined outwardly from the four ends of the lower surface so as to correspond to the upper inclined portion; Four vertical engaging portions 50 for engaging the upper inclined portion and the lower inclined portion corresponding to each other; And four reinforcing joining portions 60 joining the adjacent vertical joining portions. The hollow portion 1 is formed in the inside and is formed to be octagonal when viewed from the side.

Artificial fishes are used to form ecosystems favorable to the reproduction and growth of aquatic organisms by dropping a plurality of fishes in the coastal seabed and forming a group of fishes by laminating them in one or two or more stages.

Specifically, the upper surface 10 and the lower surface 20 forming the outer skeleton, the four upper inclined portions 30, the lower inclined portions 40, and the upper inclined portion 30 are formed in the shape of a hexahedron, A vertical engaging portion 50 for engaging the corresponding upper inclined portion and the lower inclined portion, and four reinforcing engaging portions 60 for engaging the vertical engaging portion. The hollow portion 1 is provided inside.

The upper surface 10 and the lower surface 20 are formed in a shape of a letter-shaped one facing the upper and lower portions of the artificial fish candle at regular intervals.

The upper inclined portion 30 is formed to be inclined downward from the four ends of the upper surface and the lower inclined portion 40 is formed to be inclined upward outward from the four ends of the lower surface to correspond to the upper inclined portion .

In addition, the vertical coupling portion 50 vertically couples the upper inclined portion and the lower inclined portion corresponding to each other.

Further, the reinforcing coupling portion 60 is provided for coupling between the adjacent vertical coupling portions.

The upper surface 10, the upper inclined portion 30, the vertical engaging portion 50, the lower inclined portion 40, and the lower surface 20 are sequentially connected to form an octagon as viewed from the side, The hollow portion 1 is formed.

The central portion of the upper surface 10 and the lower surface 20 may be formed in a '+' shape so as to protrude from the front, the rear, the left, and the right, respectively, and the reinforcing ribs may be further formed at corners desirable.

The upper surface 10, the upper inclined portion 30, the vertical engaging portion 50, the lower inclined portion 40, and the lower surface 20 are successively arranged in the order of And the hollow part 1 is formed therein to ensure the structural stability, and it is integrally formed so that there is no deformation, breakage, cracking or distortion.

That is, since the artificial ear candle is formed in the shape of an octagonal ring as a whole, it can be expected that the artificial ear candle can be structurally stabilized corresponding to not only the pressure received in the vertical or horizontal direction but also the diagonal pressure. Even if a group of artificial fishes is formed by stacking artificial fishes in parallel when the group of fishes is formed by stacking at least two or more stages, it is not collapsed due to the load of artificial fishes even if they are pushed out by typhoons or currents, .

5, when the artificial fish candle 100 according to the present invention is mounted on a horizontal floor, the artificial fish candles 100a are arranged in the same direction, It is preferable to arrange the artificial fish pads 100b in the other row so as to be arranged in the other direction so that the coupling of the fish group can be stably maintained.

6, when the artificial fish candle is simply dropped from the water surface when the fishing reef group is formed, the upper inclined portion 30, the vertical engaging portion 50 and the lower inclined portion 40 are partially protruded from the hollow portion (1) and are engaged with each other so that the artificial ear can be easily stacked and stably fixed.

In addition, the hollow portion 1 is provided in the interior of the artificial fish to provide resting and feeding space for fixation and benthic fishes by forming suitable algae such as boiling and swirling, and is also suitable for providing habitat of migratory fish species.

Also, since the surface area of artificial fishes increases, it is possible to increase the surface area of shellfishes and seaweeds by increasing the attachable area of the attachment organisms such as seaweeds. As a result, the seaweeds and attachment organisms can be inhabited, .

Examples. Composition of artificial fishes using loess

First, 10 kg of loess powder was mixed at a ratio of 6.6 kg of aggregate, 2.7 L of water and 0.5 kg of solidifying agent to prepare a loess mixture.

Here, the above-mentioned solidifying agent is composed of 4.5 liters of water, 0.5 liter of admixture, 2.15 kg of calcium sulfoaluminate mineral, 0.65 kg of lime, 0.65 kg of gypsum and 1.55 kg of gypsum flame.

Thereafter, the yellow loam mixture is put into a mold, compressed while being vibrated, and molded, followed by demolding to form an artificial red bean using the loess according to the present invention.

Since the artificial fish as described above uses natural soil, it is possible to obtain construction materials without damaging the natural environment. By mixing yellow loam, inorganic additive and solvent, it is possible to simplify various manufacturing processes And the environmental and environmental factors can be solved to some extent.

100: artificial fish sec 1: hollow part
10: upper surface 20: lower surface
30: upper inclined portion 40: lower inclined portion
50: vertical coupling portion 60: reinforcing coupling portion

Claims (4)

In artificial fish seconds,
66 parts by weight of fine aggregate prepared by crushing concrete, 27 parts by weight of water and 5 parts by weight of a solidifying agent were mixed with 100 parts by weight of the loess powder prepared by drying and pulverizing the loess,
The solidifying agent is composed of 45% by weight of water, 5% by weight of an admixture, 21.5% by weight of calcium sulfoaluminate-based mineral, 6.5% by weight of lime, 6.5% by weight of gypsum and 15.5%
A top surface 10 and a bottom surface 20 of a + sigmoid shape facing each other at regular intervals; Four upper inclined portions 30 formed downwardly slanting outward from the four ends of the upper surface; Four lower inclined portions 40 formed to be upwardly inclined outwardly from the four ends of the lower surface so as to correspond to the upper inclined portion; Four vertical engaging portions 50 for engaging the upper inclined portion and the lower inclined portion corresponding to each other; And four reinforcing joints (60) joining the adjoining vertical joining parts, wherein a hollow part (1) is formed in the inside and an octagonal shape is formed in a side view. Artificial fishes.
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