KR101014825B1 - Artificial island for river water qualitypurification - Google Patents

Abstract

PURPOSE: An artificial island for purifying river water is provided to supply oxygen to water and root of aquatic plants and to promote growth of the aquatic plant. CONSTITUTION: An artificial island for purifying river water comprises a barge frame(10), aquatic plant planting block(20) and oxygen supply member. The barge frame is formed in cylindrical form with same circumference and has a plurality of fraction walls in a same interval. The barge frame is floated on the river.

Description

ARTISICIC ISLAND FOR RIVER WATER QUALITYPURIFICATION}

The present invention relates to an artificial island for river water purification, by installing a barge frame that is supported on the water surface of the river, and by installing a vegetation block planted aquatic plants on the barge so that the aquatic plants extend underwater, It provides a suitable space for spawning fish and microorganisms or spawning, supplying oxygen to the roots and water of aquatic plants to promote the growth of aquatic plants, and purifying water quality to prevent water pollution in advance. The present invention relates to an artificial island for river water purification that can be preserved.

In general, rivers vary in depth due to rainy and dry seasons and are constructed without considering natural ecosystems in order to increase water storage. As a result, the habitats of algae and fish are poor, and the habitats of aquatic plants such as reeds and plants are gradually lost. It is a situation.

In addition, since rivers have more inflow of contaminated water such as organic and inorganic materials than the amount of water discharged from the dryer, water pollution is accelerated. In addition, the water pollution causes abnormally changed and gradually destroyed waterside ecosystems.

Therefore, in order to improve the water pollution of rivers and the poor habitat environment of waterside ecosystems, artificial islands for water purification have been installed in rivers, and these existing artificial islands are piled with appropriate area on the bottom of rivers, and there are sandstone and soil in them. Is divided into a reclamation method of laminating the landfill and a flotation method of planting aquatic plants on a float floating above the water surface of the river, and such an artificial island provides water purification and the scenery of the river through the intake of nutrients from plants. It plays a role.

The flotation method of planting aquatic plants on the float floating above the surface of the river in the existing artificial island consists of a floating body that floats the aquatic plants so that they do not submerge in the water, and a vegetation foundation that functions by planting the aquatic plants. Most are installed in the form of rafts that float above the water surface.

However, artificial islands, which are installed in the form of existing rafts, are partially flooded or severely shaken when the surface of the water is severely affected by strong winds and heavy rains, causing problems with the aquatic plants and external damage and deteriorating the active environment. top

As a result, pollutants suspended in the water cannot be effectively cleaned.

In particular, the existing raft-type artificial islands cannot adjust the height of the floating frame in the water according to the type of aquatic plants because buoyancy is not freely controlled by itself, and the habitat environment of aquatic plants cannot be suited. As a result of collecting various pollutants suspended above the water and effectively purifying them, there is a problem that actually falls short of expectations.

The present invention has been made in order to solve the problems of the prior art, install a barge frame that is supported on the water surface of the river, to install a vegetation block planted aquatic plants on the barge so that the aquatic plants extend into the water. As a result, fish and microorganisms that live in the water can provide a suitable space for spawning or spawning, supplying oxygen to the roots and water of aquatic plants, promoting the growth of aquatic plants, and purifying the water quality to prevent water pollution. Therefore, the purpose is to provide an artificial island for river water purification that can preserve a pleasant ecosystem.

Means of the present invention for achieving the above object is floated on the surface of the water, and a plurality of partition walls are formed at regular intervals therein, respectively installed between the partition walls of the barge frame, the aquatic plants are Planted aquatic plant planting block, and is installed through the central part of the barge frame consists of the oxygen supply member for supplying oxygen to the aquatic plant and water,
The oxygen supply member,
An oxygen buoyancy tube is formed through the center of the barge, the oxygen inlet for communicating with the internal space and sucks oxygen is formed at the side, and an oxygen outlet for discharging the inhaled oxygen is formed at the bottom thereof. It is installed to communicate with the oxygen inlet in the inner space of the oxygen tube to store the oxygen flowing through the oxygen inlet, a push rod installed in the inner space of the oxygen buoyancy cylinder to abut the oxygen tube, the lower portion of the oxygen buoyancy Rotating through the inside of the rotatable, the windmill blade is formed on the upper side is rotated by the wind shaft, and the central portion is installed through the lower portion of the rotary shaft so as to be located in the inner space of the oxygen buoyancy cylinder rotation of the rotary shaft Rotating in conjunction with the roller, pressurizing the oxygen tube through the push rod on both sides to discharge the oxygen An oxygen discharge hose for discharging oxygen stored in the inside of the oxygen buoyancy cylinder is installed so that the pressurization portion formed, the one end is in communication with the inside of the oxygen tube through the oxygen outlet of the oxygen buoyancy cylinder, An oxygen discharge pipe installed at the other end to supply oxygen discharged from the oxygen discharge hose to the root and water of the aquatic plant, and installed inside the oxygen suction port of the oxygen buoyancy tube, and when oxygen flows through the oxygen suction port, The inside of the oxygen suction port is opened while being moved inward to allow oxygen to flow into the oxygen tube, or when oxygen of the oxygen tube is discharged to the outside of the oxygen suction port, characterized in that the check valve for sealing the inside of the oxygen suction port. .

The artificial island for water purification according to the present invention installs a barge frame that is supported on the water surface of the river, and installs a vegetation block on which the aquatic plants are planted so that the aquatic plants extend into the water so that they inhabit the water (B) provide a suitable space for incubating or spawning microbes to promote the growth of aquatic plants by supplying oxygen to the roots and waters of aquatic plants, and to purify water quality to prevent water pollution in advance, thus preserving a pleasant ecosystem. It can be effective.

1 is a perspective view of a combined artificial island for river water purification according to the present invention.
2 is an exploded perspective view of an artificial island for river water purification according to the present invention.
Figure 3 is a cross-sectional view showing the operation of the oxygen supply member applied to the artificial island for water purification according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be more clearly described with reference to the accompanying drawings.

1 is a combined perspective view of the artificial island for water purification according to the present invention, Figure 2 is an exploded perspective view of the artificial island for water purification according to the present invention, Figure 3 is an oxygen supply applied to the artificial island for water purification according to the present invention A plan sectional view showing the operation of the member.

As shown in FIG. 1 to FIG. 3, the artificial island for river water purification according to the present invention includes a bart 10, an aquatic plant plant block 20, and an oxygen supply member.

The pants 10 is made of a cylindrical shape having the same outer diameter as a whole, a plurality of partition walls 11 are formed at equal intervals inside the aquatic plant planting block 20 is installed.

The barge frame 10 is to be supported on the water surface of the river, it is made of a common buoy material, or can be manufactured to form a predetermined pattern while expanding by injecting air into the tube form, the shape and size of the installation It can be produced in various ways according to the place, the partition wall 11 of the barge frame 10 is installed to have a circular shape, a square frame or a constant pattern gradually narrowed toward the inside of the barge frame 10 to improve aesthetics You can also make it work.

Since the barge 10 may flow due to the flow rate, a fixing ring (not shown) is further formed at the bottom of the barge 10, and the wire 41 is attached to the weight block 40 having a constant weight. And by installing a ring-shaped wire hook 42 on the top of the wire 41 and installed in the fixing ring of the barge 10, the barge 10 is severely flowed or flowed by the flow rate You can do that.

In addition, a support network 12 is further installed inside the partition wall 11 to stably support aquatic plants inserted and fixed between the partition walls 11, and through the spaces of the support network 12. The roots of the aquatic plants planted in the plant planting block 20 extend into the water to receive water to promote the growth of the aquatic plants.

The aquatic plant planting block 20 is aquatic plants are planted, the same shape and size of the space formed between the partition wall 11 is produced between the partition wall 11 of the barge 10, respectively. The appearance of the artificial island 1 for river water purification according to the present invention, which is inserted and installed, is uniformly recorded.

The aquatic plant planting block 20 provides a suitable space for spawning or spawning fish in the river, so that the fish can be safely inhabited and spawned through the artificial island (1), thus preserving the ecosystem of the river can do.

The oxygen supply member is installed in the barge frame 10 to supply oxygen to the aquatic plants and water, thereby purifying the water quality of the river, the oxygen buoyancy cylinder 31, the oxygen tube 32, and the straw ( 33, the rotating shaft 34, the pressurizing portion 35, the oxygen discharge hose 36, the oxygen discharge pipe 37 and the check valve 38.

First, the oxygen buoyancy cylinder 31 is formed in a circular or rectangular shape having a predetermined width and height, and an empty space is formed therein.

The oxygen buoyancy cylinder 31 is installed through the center portion of the barge frame 10, the oxygen inlet 31a is formed in communication with the inner space on one side and the end is exposed to the top of the barge frame 10. Oxygen is introduced into the oxygen buoyancy cylinder 31 through the oxygen inlet 31a, and an oxygen outlet for discharging oxygen introduced through the oxygen inlet 31a to the bottom of the oxygen buoyancy cylinder 31. 31b) is formed.

The oxygen tube 32 is installed in the inner space of the oxygen buoyancy cylinder 31, a portion of the oxygen in communication with the oxygen suction port 31a of the oxygen buoyancy cylinder 31 flows through the oxygen suction port 31a Is stored, and the volume varies depending on the amount of oxygen introduced.

The push rod 33 is formed in a flat rectangular or square shape, and is installed through the bracket 31c in the inner central portion of the oxygen buoyancy cylinder 31 to abut one side of the oxygen tube 32.

The push rod 33 is pressurized by the roller 35a of the pressing unit 35 is moved to the oxygen tube 32 side to pressurize the oxygen tube 32 to discharge the oxygen stored in the oxygen tube 32 It may be made of a flexible material or a flexible material.

The rotating shaft 34 is formed in a circular shape having the same outer diameter as a whole, and a lower portion of the rotating shaft penetrates the upper surface of the oxygen buoyancy cylinder 31 so as to be rotatable inside the oxygen buoyancy cylinder 31, and the windmill on the upper side thereof. The blade 34a is formed and rotated by the wind.

For example, the rotation of the rotary shaft 34 is installed on the inner bottom surface of the oxygen buoyancy cylinder 31 having a housing (not shown) having a bearing (not shown), and coupled to the bearing the lower end of the rotary shaft 34. By rotating to or by installing a fixed shaft (not shown) on the inner bottom surface of the oxygen buoyancy cylinder 31, by installing a bearing (not shown) on the bottom of the rotating shaft 34, coupled to the fixed shaft, The rotating shaft 34 may be smoothly rotated.

The pressing part 35 is manufactured to have a predetermined width and thickness, and a central portion thereof is installed through the lower portion of the rotating shaft 34 so as to be located in the inner space of the oxygen buoyancy cylinder 31 to rotate the rotating shaft 34. It is rotated in conjunction with, and rotated by the rotation of the pressing unit 35 on both sides to press the oxygen tube 32 through the push rod 33 to discharge the oxygen stored in the oxygen tube 32 ( 35a) is formed.

The discharge hose is formed in a plurality so that one end portion is passed through the oxygen discharge port 31b of the oxygen buoyancy cylinder 31 to communicate with the interior of the oxygen tube 32, the roller 35a of the pressing unit 35 Oxygen of the oxygen tube 32 discharged through the to be discharged to the outside.

The oxygen discharge pipe 37 is formed in plurality and connected to the other end of the oxygen discharge hose 36, respectively, and the hose discharged from the oxygen discharge hose 36 is supplied to the roots and water of the aquatic plants to supply aquatic plants. By promoting growth, providing a suitable space for fish or microorganisms inhabiting or spawning, and purifying the water to prevent water pollution in advance, the ecosystem of the river can be preserved comfortably.

The oxygen discharge pipe 37 is installed by bolting or welding at equal intervals along the inner periphery of the bark 10 so as to evenly supply oxygen to the roots and water of the aquatic plants, and oxygen is applied to the root of the aquatic plants. It is preferable that the path is formed in a substantially "b" shape bent in the direction of the root of the aquatic plant so that it can be supplied.

The check valve 38 is installed inside the oxygen inlet 31a of the oxygen buoyancy tube 31 to allow oxygen from outside to flow into the oxygen tube 32 through the oxygen inlet 31a. In order to prevent the oxygen stored in the back through the oxygen inlet 31a, the oxygen inlet 31a is moved to the inside of the oxygen inlet 31a when oxygen is introduced through the oxygen inlet 31a. When the oxygen is introduced into the oxygen tube 32 by opening, and oxygen from the oxygen tube 32 is discharged through the oxygen inlet 31a by the push rod 33, the oxygen moves to the outside of the oxygen inlet 31a. The inside of the inlet 31a is sealed to allow oxygen to be discharged only through the oxygen discharge hose 36 and the oxygen discharge pipe 37.

1: artificial island 10: pants
11 partition wall 12 support network
20: aquatic plant planting block 30: oxygen supply member
31: oxygen buoyancy cylinder 31a: oxygen intake
31b: oxygen outlet 31c: bracket
32: oxygen tube 33: rod
34: rotation axis 34a: windmill blade
35 pressurization part 35a roller
36: oxygen discharge hose 37: oxygen discharge pipe
38: check valve 40: weight block
41: wire 42: wire hook

Claims (4)

A barge 10 which is supported above the water surface and has a plurality of partition walls 11 formed at equal intervals therein;
An aquatic plant planting block 20 inserted between the partition walls 11 of the barge frame 10 and in which aquatic plants are planted;
Consists of penetrating the central part of the barge 10, the oxygen supply member for supplying oxygen to the aquatic plants and water;
The oxygen supply member,
Oxygen buoyancy which is installed through the central part of the barge, the oxygen inlet 31a for communicating with the internal space and sucks oxygen is formed at the side, and the oxygen outlet 31b for discharging the oxygen is formed at the bottom. Oxygen tube 32 and the oxygen tube 32 is installed in communication with the oxygen inlet 31a in the interior space of the oxygen buoyancy cylinder 31, the oxygen flowing through the oxygen inlet 31a is stored, and the oxygen The push rod 33 is installed in the inner space of the oxygen buoyancy cylinder 31 to be in contact with the tube 32, the lower portion is rotatably installed inside the oxygen buoyancy cylinder 31, the upper side of the windmill blade 34a And a central portion penetrates through the lower portion of the rotary shaft 34 to be positioned in the inner space of the oxygen buoyancy tube 31 and the rotary shaft 34 rotated by wind. Rotating in conjunction with, through the push rod 33 on both sides The pressurizing part 35 in which a roller 35a is formed to pressurize the oxygen tube 32 to discharge oxygen, and one end thereof is formed through the oxygen outlet 31b of the oxygen buoyancy tube 31. Is installed to communicate with the inside of the oxygen discharge hose (36) for discharging the oxygen stored in the oxygen buoyancy tube (31), and the other end of the acid oxygen discharge hose (36) is installed in the oxygen discharge hose ( Oxygen discharge pipe 37 for supplying the oxygen discharged from the 36 to the root and water of the aquatic plant, and the oxygen inlet 31a of the oxygen buoyancy tube 31 is installed inside the oxygen inlet 31a When introduced into the oxygen suction port 31a, the oxygen suction port 31a is opened and the inside of the oxygen suction port 31a is opened so that oxygen flows into the oxygen tube 32, or when oxygen from the oxygen tube 32 is discharged from the oxygen suction port 31a. Push the inside of the oxygen inlet 31a while moving to the outside of the The artificial island for river water purification, characterized in that the closing is made of a check valve (38).
The method of claim 1,
The barge 10 is the artificial water island for river water purification, characterized in that the bottom is further provided with a weight block 40 is installed through the wire 41 so that the barge frame 10 is fixed on the water surface.
The method of claim 1,
The support wall 12 is further installed in the partition wall 11 to support the aquatic plant planting block 20 so that the root of the aquatic plant planted in the aquatic plant planting block 20 extends into the water. An artificial island for river water purification, characterized in that.
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