KR20090037280A - Artificial underwater environment creation system with spiral filtration device - Google Patents

Abstract

A system for creating artificial underwater environment with a spiral filter tower is provided to offer habitats for various biospecies by controlling flow of water and improving underwater environment through a filter tower filtering water. A system(1000) for creating artificial underwater environment includes a spiral filter tower(100), a main pond(300), and a river section(400). The spiral filter tower includes a raw water supply part. A concave part(100) is installed on a top part of the spiral filter tower to supply water. A flow channel(120) is formed on an outer surface of the tower to be connected with the concave part. The water flows in the main pond. A greenbelt section(500) is formed near the tower, the main pond, and the river section.

Description

Artificial Underwater Environment Creation System With Spiral Filtration Device

The present invention relates to a system for artificial aquatic ecological environment having a spiral filtration tower, the filtration function is performed using a spiral filtration tower for artificial aquatic ecological environment having a spiral filtration tower that can provide a habitat having a variety of habitat conditions To provide a system.

As the population of the city increases with the development and industrialization of civilization, opportunities for encountering nature decrease. Therefore, there have been proposals for providing habitats for living creatures and providing citizens with easy access to nature in an artificial way.

On the other hand, while organic materials introduced into the aquatic environment are continuously supplied, when the aquatic environment is created by an artificial method, the vegetation is not diversified and it is not properly purified. In the case of the artificial underwater environment where the amount of internal dissolved oxygen (DO) is low, it often falls into the habitat of goldfish or koi, and organic matters are not properly decomposed and odors are generated. There is a need for a separate oxygen supply means, or filtration means.

The conventional purification means of the pond proposed to solve the above problem is shown in FIG. In the pond system 10 as shown in FIG. 1, the pond water inside the pond 1 is moved to the purification means 3 through the pipe 2, and the pond is purified by the pump 6. (1) It has a circulation structure to move inside.

The purification means (3) is made to pass through the filtration layer (4) made of various materials, or to pass through the purified plant (5).

However, in the purification method shown in FIG. 1, the organic layer introduced through the tube is precipitated and adsorbed from the bottom of the filter layer to be deposited as sludge. As a result, there is a problem in that the contact with the atmosphere is blocked, so that decomposition is difficult.

In addition, the filtration layer may be closed due to sludge or the like, the function may be lost, there is a problem that takes a high cost to repair and manage it.

On the other hand, when the bottom portion of the underwater environment is formed of concrete, etc., it is difficult to be used as a habitat for living organisms, and even if some floors or gravel layers are formed on the bottom, they are easily lost and require a huge budget every year to reinforce the lost bottom portion. There is a problem.

In addition, since the floor using the concrete does not absorb the external temperature change, the temperature of the water rapidly decreases in the winter and the temperature of the water rapidly rises in the summer, so it is not suitable as a habitat for living organisms, and thus there is a problem that the diversity of life cannot exist. have.

In addition, the problem caused by the rapid change in the water temperature has the same problem not only in the artificial environment having the concrete bottom portion, but also in an environment such as a stagnant pond in which the flow velocity is not fast.

The present invention has been made to solve the problems described above, the object of the present invention is to provide a habitat for a variety of organisms without destroying the natural ecosystem, and the filtration function is performed through a spiral filter tower to improve the underwater environment It is possible to provide a system for the creation of an artificial aquatic environment with a spiral filtration tower that can inhabit more diverse species by controlling the flow of water.

The spiral filtration tower of the present invention is provided with a raw water supply portion, the diameter thereof becomes smaller toward the upper layer, and a recess is formed at the top of which water supplied from the raw water supply portion is initially supplied, and is in communication with the recess along the outer surface. Forming a helical flow path is characterized in that the filtration is performed as it flows from top to bottom.

In addition, the spiral filter tower is a waterproof layer, a rubble layer forming the lowermost layer of the tower on the waterproof layer, the gravel and sand layer formed on the top of the rubble layer, the circumference formed by the rubble layer, gravel and sand layer adhesive and waterproof membrane It is formed including a natural stone layer to be attached using, the rubble layer, sand and gravel layer, and the natural stone layer is repeatedly formed so that its diameter gradually decreases, the sloping flow path is formed from the inside of the soil layer and loess layer sequentially It features.

In addition, the spiral flow passage is characterized in that it is formed to have an inclination angle of 15 to 25 ° in the upper direction of the outer spiral filter tower.

On the other hand, artificial aquatic environment composition system having a spiral filter tower of the present invention spiral spiral tower having the characteristics as described above; A main pond communicating with a lower portion of the spiral filter tower and into which water passing through the spiral filter tower flows; And a river section communicating with the main pond and moving water along a constant flow; It is formed, including, the spiral filter tower, the main pond, and the river section is characterized in that a variety of plants are planted.

In addition, the water passing through the spiral filter tower, the pond, and the river section sequentially moves to the concave or pond of the spiral filter tower, the raw water supply to the concave portion of the spiral filter tower only during the operation or drought of the system. It is characterized by supplying water.

The raw water supply unit may further include a raw water storage tank, a first pump for moving raw water to an upper portion of the spiral filtration tower, and a filtration filter for removing iron or organic matter in the raw water.

In addition, the main pond is characterized in that it is formed from the bottom sequentially including a waterproof layer, soil layer, rubble layer, sand and gravel layer, and mixed layer.

In addition, the river section is characterized in that it is formed from the bottom sequentially including a waterproof layer, soil layer, rubble layer, sand and gravel layer, rubble layer.

In addition, the lower portion of the river section is provided with a storage tank and aeration tank for storing a portion of the water flowing in the river section and the water stored in the reservoir is pumped through the aeration tank, the river using rubble, gravel, or natural stone It characterized in that the flow of the river section is adjusted by adjusting the width of the section.

In addition, the river section is characterized in that the bend section is formed by setting the inclination slope of the inner portion of the river section to 70 ~ 95 °.

In addition, the artificial aquatic environment composition system is characterized in that the green zone is planted planted adjacent to the spiral filter tower, pond and river section.

Artificial aquatic environment composition system having a spiral filtration tower of the present invention has the advantage that the filtration function is performed as the raw water passes through the helical filtration tower to improve the underwater environment, spiral filtration tower, softwood, and complete section These rivers have their own characteristics and have the advantage of creating a more natural aquatic environment by providing a habitat for a variety of organisms.

Hereinafter, the spiral filter tower 100 and the artificial aquatic environment composition system 1000 having the spiral filter tower 100 of the present invention having the features as described above will be described in detail with reference to the accompanying drawings.

2 is a schematic diagram of a spiral filter tower 100 according to the present invention, FIG. 3 is a perspective view of a spiral filter tower 100 according to the present invention, and FIG. 4 is a cross-sectional view of the spiral filter tower 100 according to the present invention. .

As shown in FIGS. 2 to 4, the spiral filtration tower 100 of the present invention includes a raw water supply unit 200 and a spiral filtration tower 100 for supplying raw water.

The spiral filter tower 100 is formed to have a tower shape in which the diameter thereof becomes smaller toward the upper layer, and the concave portion 110 is formed on the uppermost portion to supply water for the first time. In addition, the helical filtration tower 100 is in communication with the concave portion 110 and forms a helical flow path 120 along the outer surface and flows from the top to the bottom is filtered.

Raw water of the raw water supply unit 200 means ground water or running water, and supplies raw water to the concave portion 110 that is the uppermost portion of the spiral filter tower 100.

The spiral filtration tower 100 is formed to have layers having various materials and sizes, so that the water supplied through the raw water supply unit 200 flows along the helical flow path 120 to perform filtration and artificial disinfection. There is an advantage that the filtration proceeds in an environmentally friendly way without treatment.

The spiral filter tower 100 is preferably formed using a natural material such as soil, gravel, sand, natural stone, it is preferable to have a structure as follows to increase the filtration performance and structural safety.

As shown in FIG. 4, the spiral filter tower 100 includes a waterproof layer 101, a rubble layer 102, a sand and gravel layer 103 from a lowermost layer, and the rubble layer 102 and the sand and gravel layer. It is formed including a natural stone layer 104 formed around the periphery formed by 103, the rubble layer 102, sand and gravel layer 103, and natural stone layer 104 so that its width becomes smaller toward the top This is repeatedly formed, the soil layer 105 and the loess layer 106 are sequentially formed in the spiral passage 120 from the inside.

The recess 110 is likely to be lost when the soil layer 105 or the loess layer 106 is formed, and thus the sand and gravel layer 103 is formed at the lower portion of the recess 110.

Therefore, the spiral filtration tower 100 of the present invention uses natural materials rather than an artificial process such as disinfection process as raw water flows through the recess 110 and the spiral flow path 120, and filters through a spiral structure. It is easy to proceed, the spiral filter tower 100 also has the advantage of forming a small ecosystem.

In addition, the spiral filter tower 100 of the present invention has the advantage that the maintenance and repair of the system 1000 is easy because only a minimum power is required to supply the raw water.

In more detail the formation of the spiral filter tower 100, the spiral filter tower 100 is formed in the bottom layer of the waterproof layer 101, the thickness is formed about 20 ~ 30Cm safely system without leaking It is desirable to allow this to be maintained.

The rubble layer 102 forms a basic skeleton of the spiral filter tower 100 and is formed on the waterproof layer 101.

The sand and gravel layer 103 is formed between the rubble layer 102 and the upper layer to densify the structure, and the sand and gravel layer 103 is formed to serve to prevent a sudden outflow of running water.

The magnetite layer 104 provided around the rubble layer 102 and the sand and gravel layer 103 is preferably provided using an adhesive and a waterproofing agent. The natural stone layer 104 is formed to provide a space in which the paddy soil layer 105 and the ocher layer 106 are formed later, and to form a spiral flow path 120.

The rubble layer 102, the sand and gravel layer 103, and the natural stone layer 104 are formed such that the width thereof gradually decreases toward the upper portion, and the concave portion 110 is formed at the top thereof, and the spiral is formed around the outer circumference. The flow path 120 is formed.

When the rubble layer 102, the sand and gravel layer 103, and the natural stone layer 104 are repeatedly formed, the concave portion 110 and the spiral flow path 120, which are basic structures of the spiral filter tower 100, are formed. In the spiral channel 120, the soil layer 105 and the ocher layer 106 are sequentially formed from the inside.

At this time, the spiral flow path 120 is formed to have an inclination angle of 15 to 25 ° in the upper direction toward the outside of the spiral filter tower 100 so that water flowing along the spiral flow path 120 of the spiral filter tower 100 outside To prevent splashes and spills, and to provide a habitat for a variety of organisms.

In the drawing, the ocher layer 106 is expressed in a state of being submerged in water, but in some sections, the water level is adjusted to be in contact with the outside air so that the natural stone layer 104 is formed directly inside (the outermost side of the spiral channel 120). The portion may allow to form a space where water is supplied without the flow of water.

In order to form the inclination angle, the ocher layer 106 may have a thicker layer than the paddy soil layer 105, and the paddy soil layer 105 and the ocher layer 106 may be stepped as shown in FIG. 4. Make a curved surface together.

It is preferable to plant water plants in the spiral flow path, and the planted plants not only increase the safety and stability of the structure and biological stability of the spiral filter tower 100, but also provide habitats for living organisms such as wormwood, firefly larvae, and the like. . In addition, the space may provide a place for the larvae to change to the adult, and provide a place for the organism to evacuate from the runoff rapidly increased during the rainy season.

Rubble used in the rubble layer 102 in the present invention has a particle size of 100 ~ 200mm in diameter, to increase the water resistance to create abundant oxygen inside, the habitat and spawning place of aquatic insects, etc. And helps in the formation of plankton.

The sand used for the sand and gravel layer 103 means a river sand having a particle size of 0.06-2 mm, and forms sand and gravel layer 103 together with the gravel and removes unnecessary organic matter from underwater. There is an advantage to absorb. In addition, the gravel means a particle having a diameter of about 35 ~ 45mm, by using the gravel to facilitate the oxygen supply and absorption of nutrients to the roots of plants, and helps in the protozoa habitat.

The natural stone used for the natural stone layer 104 may have a size of about 25 to 45 × 45 to 60 × 35 to 55 Cm in width × length × height. In addition, the natural stone located at the bottom to increase the structural stability is preferably used having a larger particle than the natural stone located at the top, which may be variously formed according to the size and capacity of the spiral filter tower 100 of the present invention.

The soil layer 105 and the loess layer 106 have a particle size of 0.001 ~ 0.005 mm and can be used to mix each other. Said mass is an element for facilitating the planting of the soil (soil or loess): the ratio of the mass is preferably 80: 20 is formed. The soil layer 105 is formed to prevent the loss of running water and at the same time plays a role of supplying nutrients to the plant by adsorbing organic matter in the water.

5 is a perspective view of a system 1000 for artificial underwater ecological environment having a spiral filter tower 100 according to the present invention.

The artificial aquatic environment composition system 1000 having a spiral filtration tower 100 of the present invention shown in FIG. 5 includes a spiral filtration tower 100 having the characteristics as described above; A main pond (300) communicating with a lower portion of the spiral filter tower (100), into which water passing through the spiral filter tower (100) is introduced; And a stream section 400 communicating with the main pond 300 to move water along a predetermined flow, wherein the spiral filtration tower 100, the main pond 300, and the river section 400 are formed. It is characterized by various plants being planted.

Looking at the total flow of water is supplied to the concave portion 110 of the spiral filter tower 100 through the raw water supply unit 200 when the initial system 1000 is operated, the lower portion along the spiral flow path 120 The water flows into the river section 400 through the main pond (300).

First, the river section 400 is to communicate with the main pond 300 and the start and end of the main pond 300 to be circulated back to the main pond 300, or the water passed through the river section 400 is the spiral filtration It may be supplied to the concave portion 110 of the tower 100 to allow the organic material and the like introduced during the circulation to be filtered. At this time, the raw water supply unit 200 to supply only when the flow rate is insufficient during the operation of the initial system 1000 and drought.

5 shows that the main pond 300 and the river section 400 communicate with each other, and the water passing through the spiral filtration tower 100, the main pond 300, and the river section 400 is again main. An example of introducing the pond 300 is illustrated.

In addition, secondly, the present invention allows a constant amount of water to be continuously supplied from the raw water supply unit 200 in addition to the above method, and the water passing through the river section 400 may be drained, and thirdly, the The first and second methods can be used in combination.

The third method will be described in more detail, so that some water is drained and some water flows back to the system 1000, and the drainage is well known and thus description thereof is omitted.

The raw water supply unit 200 is formed to include a raw water storage tank 210 for storing the raw water, a first pump 220 for moving the raw water to the top of the spiral filtration tower 100, the filtration filter 230 It may be further provided.

When the raw water is ground water, the filtration filter 230 is configured to filter components harmful to the survival of organisms such as iron, and the artificial aquatic ecological environment-building system 1000 having the spiral filtration tower 100 is operated. It can be formed in various ways according to the local environment.

6 is a partial schematic view of the system 1000 for constructing an artificial aquatic environment with a spiral filtration tower 100 according to the present invention, wherein the raw water supply unit 200 is in the same line as the ground surface of the raw water storage tank 210. Located in, the upper layer is formed of a wire mesh through which sunlight can pass, so that sunlight is supplied to the raw water in the raw water storage tank 210 .

The main pond 300 sequentially forms a waterproof layer, soil layer, rubble layer, sand and gravel layer, and a mixed layer from the bottom, and the soil layer is a combination of paddy soil and loess at 60 to 40, and the soil layer leaks flowing water. It helps to prevent plant growth and improve water quality. However, since the soil layer can be easily lost by water, it is preferable to form the rubble layer, the sand and the gravel layer on the top of the soil layer at 55 to 80Cm after the soil layer is formed.

In addition, the mixed layer is to be variously formed as a mixture of paddy soil, loess, rubble, sand, and gravel.

The soil layer, rubble layer, sand and gravel layer, so that the temperature inside the main pond 300 is properly maintained even in the summer and winter temperature changes to facilitate the habitat of species, and is a food source of shellfish.

Soil (soil and loess), rubble, sand, and gravel forming the main pond 300 are the same as the properties of the material forming the spiral filter tower 100, and thus the description thereof will be omitted. do.

In addition, as shown in Figure 5, it is possible to form a bridge across the main pond 300, by providing a habitat for another organism by the shade formed by forming the bridge, There is an advantage of easier observation.

FIG. 7 is a cross-sectional view of a stream section 400 of a system 1000 for forming an artificial aquatic environment with a spiral filtration tower 100 according to the present invention. As shown in FIG. 7, the helical filtration tower 100 of the present invention. The river section 400 of the artificial aquatic environment composition system 1000 has a waterproof layer 401, soil layer 402, rubble layer 403, sand and gravel layer 404, rubble layer sequentially from the bottom. And 405).

The river section 400 is the same as the bottom layer of the main pond 300, but the uppermost layer is formed of the rubble layer 405.

The river section 400 is a storage tank 410 in which a portion of the water flowing in the river section 400 is stored on the upper portion of the waterproof layer 401 and an aeration tank for spraying the water stored in the storage tank 410 in a specific direction A 420 is formed to control the flow, and the top layer rubble layer 405 is formed to prevent the lower layer from being lost by the flow of water.

In addition, the river section 400 is provided with the storage tank 410 and the aeration tank 420, as well as the rubble, gravel, or natural stone on the upper portion of the rubble layer 405 of the river section 400 Adjust the width or the width to form ripples that speed up the flow of water.

In addition, the river section 400 is set to bend slope of the inner portion of the river section 400 to 70 ~ 95 ° so that the complete section 430 is formed. The bending slope refers to the inside of the complete section 430 in the direction in which the river section 400 is viewed from the top, and the complete section 430 allows the fine material flowing along the water to be deposited.

The complete section 430 is inclined toward the bottom of the bottom of the bottom portion in accordance with the flow of water, the inner side is about 15 to 25 °, the outer side is about 25 to 35 °. That is, the depth of the inside is formed deeper.

One or more complete sections 430 may be formed according to the size of the river section 400 and the environment of the system 1000.

In the case of the actual natural river section 400, there is a sharp difference in some species between 50 ~ 100m because the organisms that can inhabit depending on the flow rate and flow rate.

Artificial aquatic ecological environment composition system 1000 having a spiral filter tower 100 of the present invention has the advantage of allowing various organisms to inhabit by controlling the flow of water using the effects of nature as described above, the river By controlling the flow of the section 400 quickly to facilitate the oxygen supply in the water there is an advantage to facilitate the decomposition of organic matter.

8 is a plan configuration diagram of the system 1000 for constructing an artificial aquatic environment with a spiral filtration tower 100 according to the present invention, as shown in FIG. 8, in the filtration tower, pond and river section 400. It is preferable to form a green zone 500 in which plants are planted adjacently.

It is easy to observe the water and land plants and organisms through the green zone 500 serves to provide a resting space.

Table 1 is the spiral filter tower 100, the main pond 300, the river 400, the complete section 430 of the artificial aquatic ecological environment composition system having a spiral filter tower 100 according to the present invention This is a table listing plants, aquatic insects, fish, and shellfish that can live in the area.

As confirmed in Table 1 below, the present invention has the advantage that various species can be inhabited in one system 1000.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1 is a schematic view showing a conventional pond system.

2 is a schematic view of a spiral filtration tower in accordance with the present invention.

3 is a perspective view of a spiral filter tower according to the present invention.

4 is a cross-sectional view of the spiral filter tower according to the present invention.

5 is a perspective view of a system for artificial underwater ecological environment having a spiral filter tower according to the present invention.

Figure 6 is a partial schematic view of the system for artificial aquatic ecological environment having a spiral filter tower according to the present invention.

Figure 7 is a pond cross-sectional view of the system for artificial aquatic ecological environment having a spiral filter tower according to the present invention.

Figure 8 is a plan view of a system for the composition of artificial underwater ecology with a spiral filter tower according to the present invention.

** Description of the symbols for the main parts of the drawings **

100: spiral filtration tower

101: waterproof layer 102: rubble layer

103: sand and gravel layer 104: natural stone layer

105: paddy soil layer 106: ocher layer

110: recess 120: spiral flow path

200: raw water supply unit

210: raw water storage tank 220: first pump

230: filtration filter

300: main pond

400: river section

401: waterproof layer 402: soil layer (field soil + loess)

403: rubble layer 404: sand and gravel layer

405: rubble

410: storage tank 420: aeration tank

430: complete section

500: green zone

1000: System for artificial underwater ecology with spiral filtration tower

Claims (9)

The raw water supply unit 200 is provided, the diameter thereof becomes smaller toward the upper layer, and a concave portion 110 is formed at the top of which the water supplied from the raw water supply portion 200 is initially supplied, and the concave portion 110 and Spiral filtration tower 100, characterized in that the filtration is performed as the flow flows from the top to the bottom to form a spiral flow path along the outer surface; A main pond (300) communicating with a lower portion of the spiral filter tower (100), into which water passing through the spiral filter tower (100) is introduced; The river section 400 is in communication with the main pond 300 and the water is moved along a certain flow; Is formed, including, the spiral filtration tower 100, the main pond 300, and the river section 400 is a system for artificial aquatic ecological environment with a spiral filtration tower 100, characterized in that a variety of plants are planted . The method of claim 1, The spiral filter tower 100 is a waterproof layer, a rubble layer forming a lowermost layer of the tower on the waterproof layer, the gravel and sand layer formed on the top of the rubble layer, the circumference formed by the rubble layer, gravel and sand layer adhesive and waterproof It is formed including a natural stone layer attached using a film, The rubble layer, sand and gravel layer, and natural stone layer is formed repeatedly so that the diameter gradually decreases, The spiral flow path 120 is a system for artificially aquatic ecological environment having a spiral filter tower 100, characterized in that the soil layer and the ocher layer is formed sequentially from the inside. The method of claim 1, Water passing through the spiral filter tower 100, the pond, and the river section 400 sequentially moves to the recess 110 or the pond of the spiral filter tower 100. The raw water supply unit 200 is an artificial underwater with a spiral filtration tower 100, characterized in that to supply water to the recess 110 of the spiral filtration tower 100 only during the operation or drought of the system 1000. Ecological environment creation system. The method of claim 3, wherein The raw water supply unit 200 is a raw water storage tank 210, the first pump 220 for moving the raw water to the upper portion of the spiral filtration tower 100, and the filtration filter 230 for removing iron or organic matter in the raw water. System for artificial aquatic ecological environment having a spiral filtration tower 100, characterized in that is further provided. The method of claim 1, The main pond 300 is a system for artificial underwater ecological environment having a spiral filter tower 100, characterized in that formed from the bottom sequentially including a waterproof layer, soil layer, rubble layer, sand and gravel layer, and mixed layer. The method of claim 1, The river section 400 is a system for artificial underwater ecological environment with a spiral filtration tower 100, characterized in that formed from the bottom sequentially including a waterproof layer, soil layer, rubble layer, sand and gravel layer, rubble layer. The method of claim 6, The reservoir (410) and the aeration tank 420 is installed in the lower portion of the river section 400 is stored a portion of the water flowing in the river section 400 (absorbed) water stored in the reservoir (410) is Pumped through the aeration tank 420, by adjusting the width of the river section 400 by using rubble, gravel, or natural stone spiral filter tower 100, characterized in that to control the flow of the river section 400 System for creating artificial aquatic environment. The method of claim 7, wherein The river section 400, the artificial aquatic environment with a spiral filtration tower 100, characterized in that the complete section 430 is formed by setting the inclination slope of the inner portion of the river section 400 to 70 ~ 95 ° Formulation system. The method of claim 1, The artificial aquatic environment composition system 1000 is a spiral filtration tower 100, characterized in that the green zone 500 is planted planted adjacent to the spiral filtration tower 100, pond and river section 400 is formed. System for artificial aquatic ecological environment with

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