KR101656515B1 - Vegetation water purification device of Move type - Google Patents

Abstract

The present invention discloses a floating-type water purification apparatus. The present invention provides the floating-type water purification apparatus which is configured to purify water available for use in a floating state when a velocity of flow is equal to or lower than a predetermined speed, to rotate and move to an inclined surface of a stream in a flow direction when the velocity of flow is higher than the predetermined speed, and to return to its original location when the velocity of flow is decreased to the predetermined speed or less. Accordingly, the floating-type water purification apparatus can be prevented from being lost, turned over or damaged due to a high velocity of flow. In particular, even when the floating-type water purification apparatus is attached to a stream bed (a floor of a stream) during a dry season, plants implanted in the floating-type water purification apparatus put down roots in a streamside, and thus a problem in which the floating-type water purification apparatus is immersed in water by the roots when the height of water is restored to a normal level during a rainy season can be solved. Furthermore, a green tide, floating materials (SS), and suspended materials originating from contaminated water can be prevented from being generated in a predetermined water zone. As a result, the quality of water available for use can be efficiently managed within the predetermined water zone.

Description

[0001] The present invention relates to a vegetation water purification device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a submersed water purification apparatus installed in a certain water area (for example, a river, a reservoir, a river, etc.) The water quality control device prevents the water quality purification device according to the fast flow rate from being lost, rolled or damaged, while when the flow rate is lowered to a certain level or less, To prevent the generation of suspended solids in green tide, suspended solids (SS), and contaminated water in a certain water area, thereby efficiently purifying the water in a certain water area, .

Generally, a water treatment device for purifying the water quality is required in a certain water area having a slow flow rate such as a reef, a reservoir, a river, etc. If the water quality is not properly cleaned, Or the ecosystem is disturbed.

The green tide often occurs when it meets the five conditions of warm water, sunlight, nutrients (nitrogen and phosphorus), carbon dioxide, and wide space. Such green tide is caused by eutrophication which causes massive reproduction of phytoplankton, lack of oxygen, (Microcystis) and liver cancer-causing substances (microcystin), which cause problems such as the occurrence of hobbies and the like.

Conventionally, in order to prevent the occurrence of green tide and suspended matter in a certain water area, it is necessary to perform chemical water treatment such as spraying of a flocculant and flocculant and adsorption of nutrients, or to dissolve water by physical forced circulation or aeration Physical water treatment to increase oxygen (DO) prevents green tide in certain waters. Physical water treatment as described above is disclosed in Japanese Patent No. 10-1045455 (hereinafter referred to as Prior Art 1), Japanese Patent Application No. 10-1128133 (Hereinafter referred to as prior art 2), and Japanese Patent No. 10-1196945 (hereinafter referred to as prior art 3).

However, the water treatment described above is complicated in structure and difficult to apply.

In the past, biological water treatment, which absorbs nutrients such as planting and nitrogen fixation, has been carried out at an inflow point of nutrients using an environmentally friendly water treatment system. The biological water treatment is a variety of vegetation methods It has been verified that various aquatic plants cultivated by this vegetation method are highly effective for purification of water quality, and in particular, artificial plant islands, to which aquatic plants having a purification function are applied, are applied to appeal in various ways.

However, such artificial plant islands can be applied only to stagnant water bodies (eg, lake) where the flow velocity is low or the flow velocity is low, and even if there is a high flow rate or a slow flow rate, It is impossible to apply it to a certain water area such as a river where the flow rate is accelerated from the inflow of water).

That is, in the case of a conventional artificial plant island, if the flow velocity is increased, it will be lost or overturned or damaged due to the flow velocity.

On the other hand, artificial vegetation islands, which are located in the waterside area, are to be provided with typhoon filter media or artificial reeds for contact oxidation, and are limited to the areas with no flow velocity or very slow pace, It is technically inadequate to perform the function, and the purifying function such as the tympanic filter material or the artificial reed has the problem that it can not cope with the rapid flow rate of the river.

In addition, vegetation islands that are floating in dry waters have been developed in certain waters (eg, rivers and lakes), but when these plants are attached to river beds in the dry season, ), The plant island is submerged in water by roots after the normalization of labor in rainy season.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is therefore an object of the present invention to provide a method and apparatus for purifying water quality in a flooded state at a flow rate lower than a predetermined level, And constitutes a sub-aqua regeneration device capable of restoring to its original position when the flow velocity drops below a certain level, thereby preventing occurrence of loss, abortion, or breakage of the sub-aqua regeneration device at a high flow rate , Especially when dry season water quality purification equipment is attached to the river bed (river bottom), when the plants cultivated in the sub-aquaculture water purification plant roots on the river bank and the labor is normalized, (SS) in a certain area of water, and the number of polluted water It is an object of the present invention to provide a portable vegetation water purification apparatus which can prevent the generation of suspended matter and efficiently manage the quality of water in a certain water.

To achieve the above object, the present invention provides a portable vegetation water quality purification apparatus comprising: a buoyant body capable of being lifted and moved within a predetermined waterway; A vegetation module installed in the buoyant body and including a purification filter medium (filtration material) for purifying water quality in the water within a certain water area, the vegetation module being vegetated with aquatic plants; And a plant protection part installed on a lower surface of the buoyant body for protecting a root of aquatic plant vegetated on the vegetation module; Wherein the buoyant body rotates and moves to a slope side of a certain water level along a flow velocity direction if the flow velocity in a certain water zone is equal to or higher than the average flow velocity and is restored to its original position when the flow velocity in a certain water zone is lower than the average flow velocity, And a movable support member having a bending elasticity of a constant elastic modulus.

In addition, the buoyant body is made of plastic material or STS (Austenitic Stainless Steel) material having buoyancy.

In addition, the buoyant body is constituted by a plurality of unit blocks, and the buoyant bodies constituted by a plurality of unit blocks are connected by a rotatable connection structure so as to correspond to a horizontal flow or a vertical flow of water in a certain water.

In addition, the connection structure includes a hinge that forms a coupling portion at both ends of the buoyancy members formed of unit blocks, and is fitted to the coupling portions.

Further, the buoyant body is constituted by a circular or square buoyancy portion forming a rim surface and a bottom portion in the form of a mesh.

The vegetation module may further include: an upper mat including a shroud for containing the purifying filter medium and the vegetation soil for filtration; And a lower mat coupled to the upper mat to support the upper mat; .

The filtration vegetation soil includes 10 to 20% by weight of zeolite, 40 to 50% by weight of pearlite, and 30 to 40% by weight of diatomaceous earth.

The zeolite is heat-treated at a temperature of 500 to 600 ° C.

The pearlite is heat-treated at a temperature of 850 to 1200 ° C.

The diatomite is heat-treated at a temperature of 800 to 900 ° C.

Further, the envelope is an eco-friendly material.

In addition, the eco-friendly material includes coconut felt.

In addition, the shell forms a plurality of openings for exposing a part of the vegetated vegetation soil to allow the aquatic plants to be vegetated.

In addition, the upper mat and the lower mat are connected together by a fixing portion.

The fixing portion may include: a first fixing portion binding the rim of the upper mat and the rim of the lower mat; And a plurality of second fixing parts for binding the inside of the upper mat and the inside of the lower mat.

The plurality of second fixing portions each have a line shape extending in the first direction.

In addition, the plurality of second fixing portions are arranged parallel to each other at regular intervals.

In addition, the lower mat is a porous net structure having a sliding prevention layer formed therein to prevent slippage in a buoyant body during its seating.

In addition, the plant protection part is a cage-like netting structure that forms a protective layer for protecting the roots of aquatic plant and an antifouling layer for preventing rooting of aquatic plants under the dry season.

In addition, the atmospheric layer is formed by a ventral sheet provided on the bottom surface of the cage-like net structure.

Further, the moving support member is an elastic wire.

The bending elasticity of the moving support member having a constant elastic modulus is such that when the flow velocity within a certain water level is greater than or equal to the average flow velocity, the bending elasticity of the moving support member rotates the buoyant body toward the slope side, Restoring the sieve to its original position.

As described above, according to the present invention, the water quality of the water is purified in a floated state at a constant flow velocity below a certain level, while avoiding the flow of the water to the slope side of the stream along the direction of the flow velocity at a constant flow velocity, This is to prevent the occurrence of loss, overturning, or breakage of the submersible water quality purification device according to the fast flow rate, and in particular, Even when the aquaculture system is attached to the bottom of the river (bottom of the river), when the plants cultivated in the submerged water purification system roots on the riverbank and the labor is normalized, the submerged water purification system (SS) and suspended solids in contaminated water are generated in some water bodies It can be expected an effect of efficiently manage the quality of a certain number of regional water to prevent.

1 is an exploded perspective view showing a structure of a portable vegetation water purification apparatus according to an embodiment of the present invention.
2 is a view showing a structure of a portable vegetation water quality purification apparatus according to an embodiment of the present invention.
3 is a perspective view of a vegetation module according to an embodiment of the present invention.
4 is a longitudinal sectional view taken along the line A-A 'in FIG. 3 as an embodiment of the present invention.
FIG. 5 is a schematic plan view showing a state in which a movable block type vegetation water quality purification unit of a unit block is connected in a multi-stage connection with a fixing member according to an embodiment of the present invention. FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing a structure of a portable vegetation water purification apparatus according to an embodiment of the present invention. FIG. 2 is a coupling diagram showing a structure of a portable vegetation water purification apparatus according to an embodiment of the present invention. FIG. 3 is a perspective view of a vegetation module according to an embodiment of the present invention. FIG.

FIG. 4 is a longitudinal sectional view taken along line A-A 'of FIG. 3 according to an embodiment of the present invention. FIG. 5 is a cross-sectional view of a portable vegetation water purification apparatus in a multi- Fig. 3 is a schematic plan view showing the state of the first embodiment of the present invention.

1 to 5, a portable vegetation water purification apparatus according to an embodiment of the present invention includes a floating buoyancy body 10, a vegetation module 20, a plant protection portion 30, and a column portion 40, a movable support member 50, and a connection structure 60.

The buoyant body 10 is a structure that is floated so as to be movable within a certain watertight, and is made of plastic material or self-buoyant plastic material or STS (Austenitic Stainless Steel) material, and has a circular or square buoyancy portion 11 And a bottom portion 12 in the form of a net.

5, the buoyant bodies 10, which are formed in a multi-stage unit block, are arranged in a horizontal flow or a vertical flow of water in a certain water channel, And may be connected to the rotatable connection structure 60 so as to correspond thereto.

The connection structure 60 includes a hinge 62 that forms a coupling portion 61 at both ends of the buoyant bodies 10 formed of unit blocks and is fitted to the coupling portions 61 .

The vegetation module 20 is installed in the bottom portion 12 of the buoyant body 10 and includes a purifying filter medium for purifying the water quality of the water within a predetermined water level, It is constructed to be vegetation.

At this time, the vegetation module 20 includes an upper mat 21 including a filtering vegetation soil 21b mixed with zeolite, pearlite and diatomaceous earth, and a shell 21a accommodating filtering vegetation soil 21b, And a lower mat 22 coupled with the mat 21 to support the upper mat 21.

The filtration vegetation soil 21b includes zeolite, pearlite and diatomaceous earth, and may include 10 to 20% by weight of zeolite, 40 to 50% by weight of pearlite and 30 to 40% by weight of diatomaceous earth, no.

The zeolite basically consists of a molecular structure having a negative charge. Accordingly, in order to maintain the electrical neutrality, metal cations are present in the periphery, and this cation exchange ability is due to the inherent ion exchange ability. Also, zeolite may have micropores in units of angstroms according to the production method, and these micropores can serve as a space where organic matter can be adsorbed. With this principle, zeolite can easily adsorb suspended solids (SS), which is a pollutant present in the external influent.

The diatomaceous earth is a sediment formed by sitting on a lake or in the sea where harmful substances of diatoms, which are single-celled plants, are deposited, and may include organic substances, sand and iron oxide. In addition, since the micropores are very light and soft and have a large amount of micropores, they can absorb the liquid of about 5 times the magnetic volume, and adsorb the microorganisms present in the absorbed liquid.

The pearlite may have a specific gravity smaller than that of the zeolite or the diatomaceous earth and may float in water. The pearlite has a specific surface area of 1 m < 2 > / g, which is very effective for removing phosphorus (P) as an impurity example, because it has a very large number of pores and serves as a carrier for microorganisms present in water.

As described above, the filtering vegetation soil 21b for filtering according to the embodiment of the present invention is made of zeolite, which is a material capable of effectively adsorbing suspended solids (SS), microorganisms, nitrogen (N), phosphorus And diatomaceous earth and pearlite, it is possible to effectively adsorb contaminants present in the contaminated water flowing from the outside.

Meanwhile, the zeolite, diatomite and pearlite included in the filtering vegetation soil 21b according to the embodiment of the present invention may be heat-treated at a constant temperature.

For example, the zeolite may be heat treated at a temperature of 500 to 600 ° C, the diatomite may be heat treated at a temperature of 800 to 900 ° C, and the pearlite may be heat treated at a temperature of 850 to 1200 ° C. The purpose of the heat treatment is to enhance the hardness of each material and to secure the pores to improve the adsorption function of the contaminants.

That is, zeolite contains moisture in the fine pores and has a very low hardness. Accordingly, the moisture present in the fine pores is evaporated through the heat treatment to secure the pores, and at the same time, the supporting structure is made ceramic to strengthen the hardness.

In addition, the diatomite does not change the structure itself through heat treatment, but it can strengthen the hardness by ceramicizing the structure.

In addition, pearlite has a feature of expanding when the temperature is above a certain temperature and increasing its volume and generating pores, so that a large amount of pores can be secured through heat treatment.

As described above, it is possible to improve the adsorption performance of the contaminants by securing a large amount of pores of each material through the heat treatment, and to strengthen the hardness of each material so as to prevent damage easily after being installed in the buoyant body (10) have.

Accordingly, since the filtration vegetation soil 21b of the vegetation module 20 mounted on the buoyant body 10 is made of zeolite having high porosity, diatomaceous earth and pearlite, the pollution source present in the external influent water is effectively adsorbed, .

The envelope 21a is configured to receive and seal the filtering vegetation soil 21b, and may be made of an eco-friendly material. The eco-friendly material may include, but is not limited to, coconut felt.

As described above, environmental contamination can be minimized by using an eco-friendly material as the outer skin 21a.

In addition, the shell 21a may include a plurality of openings 21c formed at regular intervals as shown in FIG. The filtering vegetation soil 21b received through the opening 21c can be exposed and the aquatic plant 100 can be planted in the filtration vegetation soil 21b exposed through the opening 21c.

Though not shown in detail in Fig. 1, a number of fine holes may be formed in the shell 21a. At this time, the size of the fine holes formed in the shell 21a may be smaller than the size of the material particles constituting the filtering vegetation soil 21b. Thus, the filtration vegetation soil 21b housed in the shell 21a is prevented from being discharged to the outside, while the external inflow water flowing on the surface of the shell 21a can permeate into the filtration vegetation soil 21b.

The lower mat 22 is connected to the upper mat 21 to support the upper mat 21. [

When the vegetation module 20 is installed on the buoyant body 10, the lower mat 22 is supported by a support portion (not shown) forming the bottom surface of the buoyant body 10 12, respectively. Since the bottom mat 22 having a porous net structure contacts the bottom portion 12 as described above, the area of contact with the bottom portion 12 is increased and the binding force between the vegetation module 20 and the buoyant body 10 The slip prevention layer 22a formed on the lower mat 22 can prevent the vegetation mat 100 installed on the buoyant body 10 from slipping.

Meanwhile, the vegetation module 20 according to the embodiment of the present invention has a structure in which the upper mat 21 and the lower mat 22 are bound together as described above. Accordingly, the vegetation module 20 according to the embodiment of the present invention may include a fixing portion 23 for binding the upper mat 21 and the lower mat 22. [

At this time, the fixing portion 23 includes a first fixing portion 23a binding the rim portion of the upper mat 21 and a rim portion of the lower mat 22, and a second fixing portion 23b binding the inside .

In the embodiment of the present invention, the fixing portion 23 may be formed by a stapling process, but is not limited thereto.

In the embodiment of the present invention, the second fixing portions 23b may be plural as shown in FIGS. 3 and 4, and each of the second fixing portions 23b may be formed to extend in the first direction have. In addition, each of the second fixing portions 23b may be parallel to each other at regular intervals.

Although the second fixing portion 23b is formed in a line shape extending in the first direction in the drawing, the second fixing portion 23b is not limited to a line shape, but may be formed in various shapes such as a checkerboard shape or the like.

As described above, due to the plurality of second fixing portions 23b formed in a line shape extending in the first direction and formed at a predetermined interval in parallel, the upper mat 21 is provided with a portion And the curved portion B, which is a convex portion, can be formed.

At this time, as the plurality of second fixing portions 23b are formed, the recessed portion A and the curved portion B can be alternately arranged. As described above, when the upper mat 21 includes the alternatingly arranged recessed portions A and the bent portions B, water in a certain water flow is introduced into the buoyant body 10, And the flow of the introduced water is delayed, so that the filtration efficiency by the filtering vegetation soil 21b can be improved.

In addition, by forming the plurality of second fixing portions 23b, it is possible to prevent the filtration vegetation soil 21b contained in the shell 21a from being squeezed to one side.

That is, when the vegetation module 20 receives water from the outside on the bottom portion 12 of the buoyant body 10, the water can be stored in the curved portion B formed on the upper mat 21 for a predetermined time or longer, The polluted water accumulated in the intrusion portion A can permeate into the vegetation-use vegetation soil 21b through the numerous fine holes formed in the shell 21a.

At this time, if there is no recessed portion A where the water can be accumulated for a certain period of time or longer, the amount of water permeated into the filtration vegetation soil 21b is not so large, so that the unfiltered water flows into the river as it is However, by forming the recessed portion A in the upper mat 21 as in the embodiment of the present invention, the flow of the water is delayed to increase the amount of water permeating into the filtering vegetation soil 21b, The filtration efficiency of the filter can be improved.

The plant protection part 30 is a cage-like net structure provided on the lower surface of the buoyant body 10 and is configured to protect the root of the aquatic plant 100 vegetated in the vegetation module 20. [

At this time, the cage-like netting structure includes a protective layer 31 for protecting the roots of the aquatic plant 100 and a barrier layer 32 for preventing rooting of the aquatic plants 100 under the dry season The permeation layer (32) is formed through a ventral sheet provided on the bottom surface of the cage-like net structure.

The movable support member 50 has a bending elasticity of a constant modulus of elasticity having both ends connected to the columnar portion 40 and the buoyant body 10, As the elastic wire 10, the buoyant body 10 has a flow velocity in a certain water velocity range (for example, 20 cm per second) or more, And is restored to the original position by the bending elasticity of the elastic wire when the flow velocity in the constant water zone is less than the average flow velocity (for example, 20 cm per second).

As shown in FIGS. 1 to 5, the moving type vegetation water quality purification apparatus according to the embodiment of the present invention has a structure in which a column portion is formed on a slope side of a certain water area where an average flow velocity (for example, 20 cm per second) The water purification apparatus including the buoyant body 10, the vegetation module 20 and the plant protection unit 30 is installed in a unit block or a connection structure 60 (see FIG. 5) The floating unit 40 and the buoyant body 10 of the water quality purification apparatus are connected to the moving support member 50, which is an elastic wire having bending elasticity of a certain elastic modulus, in a state where the multi- .

As described above, the water quality purification apparatus floats in a predetermined water area through the vegetation module 20 mounted on the buoyancy body 10 to purify the water quality of the water.

At this time, when the flow velocity in the constant water velocity is faster than the external conditions (for example, rainfall or inflow of water) and the flow velocity is not less than the average flow velocity (for example, 20 cm per second), the buoyancy body 10 of the water quality purification apparatus has a constant elastic modulus From the bending elasticity of the movable support member 50, to the slope side of a certain water area along the direction of the flow velocity, thereby preventing loss, inversion or breakage.

On the other hand, when the flow velocity in the constant water zone is returned to an average flow velocity (for example, 20 cm per second) or less, the buoyant body 10 is restored to its original position by the bending elasticity of the movable support member 50, It is possible to purify the water quality of the water in the certain water area again.

On the other hand, when the buoyant body 10 of the water quality purification apparatus is brought into contact with the bottom (river bottom) while the water in the constant water zone during the dry season is dry, the plant protection unit 30 The protection layer 31 and the rain layer 32 of the vegetation module 20 prevent the aquatic vegetation 100 on the vegetation module 20 from roasting on the river bank. It is possible to prevent the buoyant body 10 from being immersed in the water by the roots of the aquatic plants 100 when floated.

That is, the moving type vegetation water purification apparatus according to the embodiment of the present invention improves the water quality of the water in a certain water zone when the flow velocity within a certain water zone is lower than an average flow rate (e.g., 20 cm per second) If the flow velocity is increased to more than an average flow velocity (for example, 20 cm per second) by rainfall or water inflow, especially rainy season, the rotary movement that safely avoids the slope of a certain water area through the bending elasticity of the movable support member 50, When the flow velocity falls below the average flow velocity, the bending elastic member 50 is restored to its original position by the resilient supporting member 50, thereby maximizing the effect of improving the water quality in a certain water region through the submerged water quality purification apparatus.

While the present invention has been described in connection with the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the present invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

10; A buoyant body 11; Buoyancy part
12; Bottom 20; Vegetation module
21; Upper mat 21a; coat
21b; Filtration vegetation soil 21c; Opening
22; A lower mat 22a; Slip prevention layer
23; Fixing portion 23a; The first fixing part
23b; A second fixing portion 30; Plant Protection Department
31; A protective layer 32; A bedrock
40; Column portion 50; The moving support member
60; Connection structure 61; Engaging portion
62; A hinge 100; Aquatic plants

Claims (22)

Buoyant bodies that can be floated and moved within certain waterways; A vegetation module installed in the buoyant body and including a purification filter medium (filtration material) for purifying water quality in the water within a certain water area, the vegetation module being vegetated with aquatic plants; And a plant protection part installed on a lower surface of the buoyant body for protecting a root of an aquatic plant vegetated on the vegetation module; And,
The buoyant bodies are constituted by a plurality of unit blocks and the buoyant bodies constituted by a plurality of unit blocks are connected by a rotatable connection structure so as to correspond to a horizontal flow or a vertical flow of water in a certain water,
The buoyant body, which is constituted by a plurality of unit blocks and connected to the connecting structure, is connected to a column portion provided on a slope side of a certain water area and an elastic wire having a bending elasticity of a certain elastic modulus, When the flow velocity in a certain water zone is equal to or more than the average flow velocity, the elastic wire rotates to a slope side in a constant water zone along the flow velocity direction due to the bending elasticity of the elastic wire. Of the moving-type vegetation water purification apparatus. The portable vegetation water purification apparatus according to claim 1, wherein the buoyant body is made of plastic material having a buoyancy or STS (Austenitic Stainless Steel) material. delete The method according to claim 1,
Wherein the connection structure comprises a hinge which is formed at both ends of the buoyant members made up of unit blocks and is fitted to the coupling parts. 2. The portable vegetation water purification apparatus according to claim 1, wherein the buoyant member comprises a circular or angular buoyancy portion forming a rim surface and a bottom portion in the form of a net. The vegetation module according to claim 1,
An upper mat comprising a purifying filter medium and an envelope for containing filtering vegetable soil; And a lower mat coupled to the upper mat to support the upper mat; And a control unit for controlling the flow of the water. The portable vegetation water purification apparatus according to claim 6, wherein the filtration vegetation soil comprises 10 to 20% by weight of zeolite, 40 to 50% by weight of pearlite, and 30 to 40% by weight of diatomaceous earth. The portable vegetation water purification apparatus according to claim 7, wherein the zeolite is heat-treated at a temperature of 500 to 600 ° C. The portable vegetation water purification apparatus according to claim 7, wherein the pearlite is heat-treated at a temperature of 850 to 1200 ° C. The portable vegetation water purification apparatus according to claim 7, wherein the diatomite is heat-treated at a temperature of 800 to 900 ° C. The portable vegetation water purification apparatus according to claim 6, wherein the shell is an eco-friendly material. 12. The portable vegetation water purification apparatus according to claim 11, wherein the environmentally friendly material comprises coconut felt. The portable vegetation water purification apparatus according to claim 6, wherein the shell forms a plurality of openings for exposing a part of the vegetated vegetation soil to allow the aquatic plants to be vegetated. 7. The portable vegetation water purification apparatus according to claim 6, wherein the upper mat and the lower mat are coupled by a fixed portion. 15. The apparatus according to claim 14,
A first fixing unit binding the rim of the upper mat and the rim of the lower mat; And
And a plurality of second fixing parts for binding the inside of the upper mat and the inside of the lower mat. The mobile vegetation quality purification apparatus according to claim 15, wherein the plurality of second fixing portions are each in a line shape extending in a first direction. 16. The portable vegetation water purification apparatus according to claim 15, wherein the plurality of second fixing portions are disposed parallel to each other at regular intervals. [7] The apparatus as claimed in claim 6, wherein the lower mat is a porous net structure, and the slip prevention layer is formed in the buoyant body to prevent slippage when the bottom mat is seated. [3] The vegetation protecting part according to claim 1, wherein the plant protection part is a cage-like netting structure for forming a protective layer for protecting roots of aquatic plants and an antifouling layer for preventing root- Water purification system. 20. The portable vegetation water purification apparatus according to claim 19, wherein the atmospheric layer is formed by a carrousel sheet installed on a bottom surface of the cage-like mesh structure. delete delete

Images