KR100486931B1 - Artifical floating island for the ecological composition and the lake purification and the manufacturing method thereof - Google Patents

Abstract

The present invention relates to an ecological environment and an artificial floating island for water purification and a method for manufacturing the same, and more particularly, installed in rivers and freshwater lakes to purify water in rivers and freshwater lakes, as well as aquatic plants, The present invention relates to an insulator for ecological environment creation and water purification, and a method of manufacturing the same, which creates biological habitats such as woody plants, birds, and insects, and provides a place for sleep greening, phytoplankton generation, and an ecological environment education center.

An object of the present invention is to install a water-based artificial insulator on rivers and freshwater lakes, the upper part of the insulator to form a planting base by planting aquatic plants or tree plants to plant greenery, the surface of the insulator In the lower part, a large amount of artificial muscles is installed to provide insulators that enable the natural quality of rivers and freshwater lakes to be purified by them.

In addition, another object of the present invention is to install a artificial muscle having a tissue, such as a scrubber that can inhabit microorganisms in the lower part of the insulator that is a waterborne artificial structure, weave the artificial muscle to make a network, excellent adsorption in the network By making artificial core by filling artificial soil, it provides an insulator that can naturally purify the water quality of rivers and freshwater lakes while microorganisms inhabit the core.

Another object of the present invention is to form a water-borne artificial structure that can float the insulator on the water, in particular by planting aquatic plants or wood plants, water recording, water purification, blue The purpose is to provide insulators that enable protection of rafts, prevention of phytoplankton production, and provision of biological habitats.

Description

Insulator for ecological environment and water purification and its manufacturing method {Artifical floating island for the ecological composition and the lake purification and the manufacturing method

The present invention relates to an ecological environment and an artificial floating island for water purification and a method for manufacturing the same, and more particularly, installed in rivers and freshwater lakes to purify water in rivers and freshwater lakes, as well as aquatic plants, The present invention relates to an insulator for ecological environment creation and water purification, and a method of manufacturing the same, which creates biological habitats such as woody plants, birds, and insects, and provides a place for sleep greening, phytoplankton generation, and an ecological environment education center.

In general, the water quality of rivers and freshwater lakes, even after purification Surface sewage, domestic sewage, agricultural and livestock waste, and factory wastewater, which are introduced without undergoing a fire treatment process, are continuously introduced to increase the pollution concentration in water, thereby deteriorating the water quality. Therefore, due to the deterioration of the water quality, anaerobic microorganisms increase, causing eutrophication, and investing enormous costs to prevent this.

Therefore, it is mandatory to equip the wastewater source near the streams and freshwater lakes, and to discharge only the purified water to the wastewater purification facility, but it requires a huge cost to purify the wastewater. There is a problem of increasing pollution of rivers and freshwater lakes by releasing the wastewater without any purification treatment in rainy weather.

Therefore, in recent years, large wastewater treatment facilities have been installed in the streets of wastewater flowing into rivers and freshwater lakes as a way to solve the problems described above, but the wastewater has been purified and discharged. There is this.

The present invention has been invented to solve this problem in view of the above problems, the purpose of which is to install a non-aquatic insulators on the rivers and freshwater lakes, aquatic plants or tree plants by forming a planting base on the insulator And planting greenery by planting various trees, etc., to provide water insulators, and to provide a non-conductor to naturally purify the water quality of rivers and freshwater lakes by installing a large amount of artificial roots under the insulators.

In addition, another object of the present invention is to install a artificial muscle having a tissue, such as a scrubber that can inhabit microorganisms in the lower part of the insulator that is a waterborne artificial structure, weave the artificial muscle to make a network, excellent adsorption in the network By making artificial core by filling artificial soil, it provides an insulator that can naturally purify the water quality of rivers and freshwater lakes while microorganisms inhabit the core.

Another object of the present invention is to form a water-borne artificial structure that can float the insulator on the water, in particular by planting aquatic plants or wood plants planting water surface, water purification, protection of the lake by the prevention of blue, inhibiting the occurrence of phytoplankton and The purpose is to provide an insulator for the provision of biological habitats.

The technical configuration of the ecological environment composition and water purification insulator for the purpose of the present invention and its manufacturing method for achieving the above object are as follows.

The insulator for ecological environment creation and water purification of the rivers and freshwater lakes of the present invention is a floating artificial structure, floated on the waters of the rivers and freshwater lakes, and formed a planting base on the insulators to purify the water quality of the rivers and freshwater lakes. Wood plants are planted to form greening, but the main body of the non-conductor is made of stainless steel pipes, PE pipes or expanded urethane resin, etc., and a plurality of micropores are formed on the bottom surface of the plurality of micropores. In the lower part of the formed bottom surface, the artificial muscle in which microorganisms inhabit is detachably installed.

The artificial root installed on the bottom surface of the insulator has a large surface area of the contact material and a large space ratio, so that the waste water and air flow well, and use a brand name Sunlock without absorbency and hygroscopicity. It is formed by tying the above, and also weaving the artificial muscle to form a cylindrical network, in which the core formed by filling the artificial soil having open pores and closed pores to form a detachable to the bottom surface of the insulator It was done.

The artificial soil is mixed with 0.5 to 2 parts by weight of one or more blowing agents selected from the group consisting of calcium carbonate, carbon powder and sodium carbonate with respect to 100 parts by weight of glass powder having a particle size of 150 μm or less, iron oxide, nickel oxide, oxidation 0.5 to 2 parts by weight of one or more colorants are mixed from the group consisting of chromium and cobalt oxide, and the volume density of the artificial soil filled in the cylindrical network is 0.30 to 0.40 mg / m3, and the porosity is 60 to 85. % And the weather rate is 25 to 70%.

The artificial root is formed of polyvinyl chloride having a scouring pad-like structure, and a binding means including a clip or the like is provided on an upper portion of the artificial root to be detachable from the bottom surface of the insulator, and the plurality of micropores are formed. On the insulator having the bottom surface, a mixed soil mixed with one or two of artificial soil or natural soil is filled as a planting base, and the soil has green plants such as wood, aquatic plants, and trees.

Referring to the attached drawings for the ecological environment composition and water purification of the ecological environment and the water purification method of the river and fresh water lake of the present invention having such characteristics as described in detail as follows. All.

As shown in the process diagram of FIG. 1, the method of manufacturing the insulator body for ecological environment and water purification of the river and freshwater lake of the present invention forms a non-conductor body by using a stainless steel pipe, PE pipe, or urethane foam to float on water, and Forming a waterborne artificial structure having a plurality of micropores having a capillary phenomenon on a bottom surface thereof; Forming a planting base by laminating mixed soil in which any one or two of artificial or natural soils are mixed on an insulator body having a bottom surface on which a plurality of micropores are formed; Planting aquatic plants or tree plants and various trees on the planting base to create greening; Installing by means of a binding means detachably the artificial muscle in which the aerobic microorganisms inhabit the bottom surface of the waterborne artificial structure; And fixing the artificial structure in which the artificial muscle is installed using a fixing means so as not to float from the river and the freshwater lake.

The artificial soil is mixed with 0.5 to 2 parts by weight of one or more blowing agents selected from the group consisting of calcium carbonate, carbon powder and sodium carbonate with respect to 100 parts by weight of glass powder having a particle size of 150 μm or less, iron oxide, nickel oxide, oxidation 0.5 to 2 parts by weight of one or more colorants are mixed from the group consisting of chromium and cobalt oxide. The volume density of the artificial soil is 0.30 to 0.40 mg / m3, the porosity is 60 to 85%, and the gas phase is 25 It is -70%.

The insulator which is a waterborne artificial structure of the present invention is formed to float on the water of rivers and freshwater lakes (hereinafter referred to as "lake"), as shown in one embodiment, the insulator body 10 Is formed of a floating stainless steel pipe, PE pipe or polyurethane foam, etc., the bottom surface 11 of the non-conductor body 10 forms a plurality of micropores 12, the bottom of the bottom surface 11 The artificial muscle 20 in which the microorganisms inhabit was installed by the binding means 21 so as to be detachable from the bottom surface 11 as needed.

The non-conductor body 10 is formed using a light weight stainless pipe, PE pipe or polyurethane foam, etc. so that it floats well on the water, the bottom surface 11 is a plurality of fine water through the capillary phenomenon The hole 12 is formed, and the bottom surface 11 on which the micropores 12 are formed may be formed of a urethane foam, or may be formed by installing a screen net. However, when the bottom surface 11 is formed of a polyurethane foam, it is possible to install the binding means 21 of the artificial muscle 20 using a stainless pipe or a PE pipe at the bottom of the bottom surface 11. It is desirable to install the structure 13.

In addition, the non-conducting body 10 to form a planting base (30) by stacking any one or two of the artificial soil or natural soil mixed, and greening with aquatic plants or wood plants or various trees (31) ), Wherein the artificial soil that forms the planting base 30 uses at least one selected from the group consisting of calcium carbonate, carbon powder, sodium carbonate and the like with respect to 100 parts by weight of glass powder having a particle size of 150 μm or less. 0.5 to 2 parts by weight of a blowing agent is mixed, and 0.2 to 2 parts by weight of at least one compound selected from the group consisting of iron oxide, nickel oxide, chromium oxide, cobalt oxide, and the like are mixed with a colorant so as to reproduce the same color as the natural soil 6 ~ then put into heat treatment furnace The granular polyglass was obtained by heating at 8 ° C / min, foaming at a temperature of 700 to 1,000 ° C, cooling and pulverizing.

If the particle size of the glass powder used as the raw material exceeds 150㎛, it takes a long time during heating for foaming and it is not economical because the heat loss increases. The granular multi-porous glass is effective because it can contribute to environmental protection as well as cost reduction by recycling the waste glass.

If the amount of the blowing agent is less than 0.5 parts by weight based on 100 parts by weight of the glass powder, the foaming degree is low, so that the porous glass having low porosity is formed, and thus the air permeability and drainage are poor. There is a problem in that the water retention is not good.

In addition, in the present invention, 0.2 to 2 parts by weight of at least one mixture selected from the group consisting of iron oxides, nickel oxides, chromium oxides, cobalt oxides, and the like as colorants in order to make the color of the prepared glass almost the same as natural soils. It is effective to foam and mix, and the colorant may be appropriately selected through repeated experiments. When the amount of the coloring agent is less than 0.2 parts by weight, the degree of coloring is weak and is expressed as a white system. When the amount of the coloring agent is more than 2 parts by weight, the synergistic effect of addition is weak and economical disadvantages are lowered.

Then, the multi-glass glass is used by grinding, the degree of the particle size is about 2 to 50mm. When the particle size exceeds 50 mm, not only the roots of the plant do not stick properly, but also the water retention of the artificial soil is lowered. When it is small, drainage and air permeability are reduced.

In the granular polyglass as described above, the particle size was 2 to 50 mm, the bulk density measured by filling at a pressure of 0.5 kg / cm 2 was 0.30 to 0.40 Mg / m 3, and the core density was measured. The porosity calculated by the amount of water when saturated with water was 60 to 85%, and the vapor phase rate when the natural saturated with water was 48 hours to be used for 48 hours was selected and used.

This is to make the artificial soil which can be lightened by lowering the bulk density while having excellent breathability and excellent drainage. The organic material to be mixed in the granular glass is preferably a hardly decomposable or mature organic material.

The use of the matured organic material is to prevent the heat and odor when decomposing the organic material, the use of poorly degradable organic material is to reduce the volume reduction of the artificial soil by the decomposition of the organic material. Artificial soil should always be kept in proper amount for plant growth, so if the amount is reduced, the artificial soil should be replenished to maintain the proper amount.

As organic matter mixed with granular glass, it is also possible to use un-aged or well-decomposed organic matter.In this case, in addition to the problem of heat and odor caused by the decomposition of organic matter, the artificial soil must be replenished due to the large volume reduction of the artificial soil. Since the amount of soil increases, it is effective to use immature organic substances or organic substances that are not well degraded.

Hardly degradable or mature organic substances contain large amounts of fiber Bark and coconut dust or compost can be used, which takes considerable time to heat, and bark or coconut dust is preferred. In particular, bark is effective because it has the effect of inhibiting the activity of pathogens.

You can choose either bark or coconut dust for granular glass, or mix both bark and coconut dust. At this time, the mixed organic matter is 1 to 50% by volume ratio, and if the organic matter exceeds 50%, the volume of artificial soil due to decomposition of organic matter over time is large, so that it is necessary to supplement artificial soil frequently. This is not only cumbersome, but the maintenance cost of artificial soil is high, and when organic matter is mixed at less than 1%, artificial soil is less fertile and is not preferable in terms of nutrition supply. In particular, the mixing ratio of the organic matter was about 20 to 40% more effective.

On the other hand, in order to impart specific functionality to the artificial soil produced as described above, other components may be added, and in addition to artificial soil, sawdust or rice husk natural soil may be added as a fertilizer.

The planting base 30 is planted with a variety of aquatic plants, such as reeds, buds or woody plants and various trees, and when the composition of the greening 31 is completed, the artificial root 20 on the bottom surface 11 of the insulator body (10) ), The artificial muscle 20 has a large surface area of the contact material and the space ratio is large, so that the waste water and air flow well, and use the trade name Sunlock (SUN LOCK), etc. 4 is formed of a tissue similar to a scrubber tissue as shown in FIG. 4. Therefore, the artificial muscle 20 has aerobic microorganisms Because the water grows well, the water quality of anaerobic lakes is purified to aerobic water quality and the water quality of the lake is improved.

In addition, the artificial muscle 20 installed on the bottom surface 11 may be suspended by binding means 21 such as clips by tying the upper portions of the artificial muscles 20 as shown in FIG. Each one of the muscles 20 may be suspended using a fastening means 21 such as a clip. Preferably, the upper and lower ends of the artificial muscles 20 are bundled to be detachably tied to the fastening means 21.

In addition, the artificial muscle 20, as shown in Figure 6 weave the artificial muscle 20 to make a cylindrical mesh 40, the artificial body 41 is filled in the mesh 40 to make a core, The upper portion is bundled and detachably hung on the bottom surface 11 of the non-conductor body 10 by a fastening means 21 such as a clip.

The reason for suspending the artificial muscle 20 to the bottom surface 11 of the non-conducting body 10, which is a waterborne artificial structure, is that the artificial muscle 20 is formed like a tissue of a scrubber because the tissue of the artificial muscle 20 is formed. This is because aerobic microorganisms grow and purify the water quality of the lake.

In addition, weaving the artificial muscle 20 to form a cylindrical mesh 40, the artificial soil 41 is filled into the mesh 40 to make a core, and then the bottom surface of the non-conducting body (10) that is an artificial structure The reason for the suspension is 11) because air gaps are generated between the artificial muscle 20 and the artificial soil 40 so that aerobic microorganisms grow, which also purifies the water quality of the lake.

In addition, the clip of the binding means 21 which collects several artificial muscles 20 of the present invention, binds the upper part thereof, and hangs the bottom surface 11 of the non-conductive body 10, which is an artificial structure, is hook-shaped, and the material of the hook Silver is preferably formed of stainless steel that does not corrode or synthetic resin having a predetermined elastic force.

The present invention, as shown in Figures 8 to 10 by operating a motor and pump not shown separately from the greening 31 formed on the planting base 30, such as to operate the water or spraying water or drop at a certain height, etc. By providing a fountain device 32 provided with a water supply can be given a function to purify the water of the lake again, and also to make the natural scenery more beautiful, to one side of the non-conductor body 10 to contact the water surface gravel field or sand It is possible to provide a resting place for the turtle, waterfowl, etc. by forming a lamp unit 33 such as the president.

And, by installing a variety of forms 34 such as thick wood such as lumber or long thin end of the bamboo branches can provide a resting place for insects and birds such as dragonflies, butterflies, bees.

In addition, the method of fixing the non-conductor of the present invention in order not to float on the lake, as shown in Figure 7 is connected to the fixing means 50, such as a wire, on all sides of the non-conductor body 10, the fixing means ( At the end of 50), a weight 60 such as concrete may be hung and fixed, or fixed to a lake bottom using a fixture such as an anchor.

As described above, the present invention forms a planting base by stacking a mixed soil of any one or two of artificial soils or natural soils on an insulator which is a floating artificial structure floating in water, and forms greening on the planting base, The lower portion of the insulator has a peculiar effect of installing artificial muscles inhabiting microorganisms to purify the water quality of the lake contaminated by them so that the water quality can be naturally purified and managed as clean water.

In addition, the present invention by creating a variety of trees, such as aquatic plants or wood plants on the planting base formed on the insulators that are aquatic artificial structure, to provide a variety of insects, birds and fishes to provide ecological habitat space to preserve the natural ecosystem It has the unique effect of providing environmental education center for students and creating a more beautiful environment of the lake. The waterfront living area is a lamp part of gravel fields, sandy beaches, and various fish beds in addition to the above ecological habitat. And by creating ecological habitats such as waterfalls, fountains, etc., it is possible to provide an effect of providing various natural ecological environments by using non-conductors, which are artificial structures.

1 is a process chart showing the manufacturing process of the insulators, which are the waterborne artificial structures for ecological environment composition and water purification according to the present invention,

Figure 2 is a cross-sectional view showing an example of an insulator that is a waterborne artificial structure for ecological environment composition and water purification according to the present invention,

FIG. 3 is an enlarged cross-sectional view of a portion of an insulator that is a waterborne artificial structure for ecological environment composition and water purification illustrated in FIG.

Figure 4 is a tissue photograph showing an example of artificial muscles installed on the bottom surface of the insulator according to the present invention,

5 is an exemplary view showing a state in which the artificial muscles installed on the bottom surface of the insulator according to the present invention is bundled with a binding means;

6 is an exemplary view showing another embodiment of the artificial muscle installed on the bottom surface of the insulator according to the present invention,

Figure 7 is an exemplary view showing a method of fixing the non-conductor according to the invention in the lake, such as rivers and fresh water lakes,

8 to 10 is an exemplary view showing an embodiment provided with various forms of ecological environment on the insulator according to the present invention,

 ※ Explanation of symbols about main part of drawing ※

10 insulator 11 bottom surface 12 fine hole

13 structure 20 artificial muscle 21 binding means

30: planting based 31: greening 32: fountain

33: lamp unit 34: sink 40: mesh

41: artificial soil 50: fixing means 60: weight

Claims (13)

delete delete Stainless steel pipes, PE pipes or foamed urethane resins that float on the non-conductor body in which the greening is formed on the waterborne artificial structure to purify the water quality while creating the ecological environment around the rivers and freshwater lakes. And a plurality of micropores are formed on the bottom surface of the insulator body, and on the bottom of the bottom surface, the artificial muscles inhabiting the microorganisms are detachably installed from the bottom surface, and the artificial muscles are formed by weaving the artificial muscles. An insulator for ecological environment creation and water purification, characterized in that it is made of a mesh and filled with artificial soil in the mesh to make a core. According to claim 3, wherein the artificial soil is 0.5 to 2 parts by weight of one or more blowing agents selected from the group consisting of calcium carbonate, carbon powder, sodium carbonate with respect to 100 parts by weight of glass powder having a particle size of 150㎛ or less, Iron oxide, nickel oxide, chromium oxide, oxide An insulator for ecological environment composition and water purification, characterized by mixing 0.5 to 2 parts by weight of one or more colorants from the group consisting of cobalt. 4. The ecological environment composition according to claim 3, wherein the volume density of the artificial soil filled in the cylindrical network is 0.30 to 0.40 mg / m3, the porosity is 60 to 85%, and the meteorological rate is 25 to 70%. And insulators for water purification. delete 4. The insulator for ecological environment composition and water purification according to claim 3, wherein a binding means made of a clip or the like is provided at an upper portion of the artificial muscle so as to be detachable from the bottom surface of the insulator body. delete 4. The insulator for ecological environment creation and water purification according to claim 3, wherein a lamp unit, such as a gravel device or a sandy beach in contact with the water surface, is formed on the insulator body by using a motor and a pump. According to claim 3, Ecological environment composition and water quality is characterized in that the greening is formed on the non-conductor body with a variety of shapes such as thick wood such as thick wood such as thick wood, bamboo, etc. Purifying insulator. delete Forming an insulator body with a stainless pipe, a PE pipe, or a polyurethane foam so as to float in water, and forming a waterborne artificial structure having a plurality of micropores having a capillary effect on the bottom surface thereof; Forming a planting base by stacking a mixed soil including one or two of artificial soil or natural soil on an insulator body having a bottom surface on which a plurality of micropores are formed; Planting aquatic plants or tree plants and various trees on the planting base to create greening; Installing by means of a binding means detachably the artificial muscle in which the aerobic microorganisms inhabit the bottom surface of the waterborne artificial structure; The method of manufacturing an insulator for eco-environment and water purification, including fixing the artificial artificial water installed by using the fixing means so as not to float from the rivers and freshwater lakes, wherein the artificial soil is glass having a particle size of 150 μm or less. 0.5 to 2 parts by weight of one or more blowing agents selected from the group consisting of calcium carbonate, carbon powder and sodium carbonate are mixed with respect to 100 parts by weight of powder, and at least one member selected from the group consisting of iron oxide, nickel oxide, chromium oxide and cobalt oxide. A method for producing an insulator for ecological environment composition and water purification, characterized by mixing 0.5 to 2 parts by weight of a colorant. 13. The method of claim 12, wherein the volume density of the artificial soil is 0.30 to 0.40 mg / m3, the porosity is 60 to 85%, and the gas phase is 25 to 70%. .