KR101051612B1 - Water circulation floating wetland system used for filter exchanged type - Google Patents

Abstract

PURPOSE: A filtering exchanging type water circulating floating wetland system is provided to reduce cost required for maintenance by being floating on the wetland, the river, the lake, and the artificial wetland. CONSTITUTION: A first body(200) includes at least one partition(210) inducing the flowing direction of target water. The upper side of the first body is opened. A plurality of filtering materials(230) is arranged on the flowing path of the target water. A second body(300) is arranged at the lower side of the first body and floats the first body. A net(360) covers the external side of the second body, and artificial plants are planted in the net. A fixing ring is arranged at one corner of the second body. A draining pipe is arranged in the second body and drains the target water to the first body. A pump is further arranged to pumps the target water.

Description

Water Circulation Floating Wetland System used for Filter Exchanged Type

The present invention relates to a floating wetland or an artificial plant island, and more particularly, to a water circulation and filtering device of a floating wetland.

In Korea, many factories were established due to rapid industrialization, and a lot of wastewater was generated due to population concentration due to urbanization. However, water pollution became serious when natural purification reached its limit. Therefore, the government has been aware of the importance of the environment, especially the seriousness of water pollution, enacting legislation accordingly, and making a lot of efforts to improve water quality such as expansion of sewage treatment plants. As a result, the point source was successfully reduced. However, it has not been possible to achieve target water quality until recently because it has not been able to control nonpoint pollutants (substances generated by unspecified emissions pathways, such as urban road drainage or agricultural drainage, unlike those with specific discharge pathways). In particular, non-point pollutants are released when a lot of rain falls. Especially, Korea has not set emission standards systematically because it is difficult to quantify because it has four seasons and rainfall is not constant.

Therefore, various methods for purifying point pollutants and nonpoint pollutants have been proposed. Among them, a method of allowing the aquatic plants to absorb aquatic substances to be absorbed is attracting attention. Since this method is carried out under relatively natural conditions and processes, it is known that this natural purification process has an excellent effect if only vegetation is well formed. Among them, the present invention (Registration No. 10-0967170) will be described in detail as follows.

1 is a cross-sectional view showing a natural facility for the treatment of non-point pollutants according to the artificial wetland biofiltration method according to the related art. Referring to FIG. 1, the vortex-type screen 11, which is supplied with an initial rainwater flowing from a nonpoint source, is installed in the initial rainwater collection tank 10 with various foreign matters contained in the initial rainwater. Primary processing. The vortex screen 11 is a treatment mechanism using gravity sedimentation, a screen, and a filter using passive vortex vortex, gross pollutants, sediment, oil & grease, suspended matter ( SS) and the like are removed.

In addition, the initial excellent water that has undergone the screening process is naturally transported from the initial rainwater collection tank 10 through the initial rainwater supply pipe 100 to the natural non-point pollutant treatment facility 1 by the hydraulic pressure difference, and transported. The initial excellent rainwater was dephosphorized and nitrogen removed by vegetation plants planted in the artificial wetland layer 20, and some of the initial rainwater was passed through the biofilm filter 50 to decompose organic matter by the microbial action of the microbial carrier 501. You will go through the process. The initial rainwater passing through the artificial wetland layer 20 is absorbed and filtered by the biofilm inside the sand layer 301 and the gravel layer 302 which are the filtration layer 30 formed under the artificial wetland layer 20 again. And, the process of removing contaminants by the sedimentation action in the gap between the sand layer and the gravel layer is made, the initial rainwater passing through the filter layer 30, the initial rainwater passing through the biofilm filter 50, the sump crystal (60) After collecting water, it is discharged to the outside through the discharge pipe 200.

Since the conventional invention as described above requires a large site for purification, the selection of a place for purification is limited and it is expensive due to wide site management. In addition, it is impossible to recover the total amount of water contaminated with nonpoint pollutants coming from an unspecified place, and it is impossible to replace when the plant for natural purification and other purification elements have reached the limit of purification. And even if it can be replaced, it is not easy to manage because it has to go under water and work.

 In addition, even if the water is purified and discharged, it is highly likely to be recontaminated by contaminants introduced from an unspecified place, and it is difficult to refinance even if recontaminated.

Also, due to the water purifier, the aesthetics are not good.

The conventional invention has a disadvantage in that the selection of a place is limited and a huge cost for management and equipment investment due to the use of a large site.

In addition, there is a disadvantage in that it is difficult to recover the total amount of water contaminated with contaminants generated in an unspecified number of places.

And it is difficult to replace when the devices for food, living and purification reaches the purification limit.

In addition, there is a disadvantage that the purified water can not be refined upon recontamination.

Finally, there is a disadvantage in that the purification device hurts the beauty.

The present invention is to solve this problem of the prior art, to provide a water circulation floating wetland system of the filter exchange method that can be directly installed on the water surface for the purification of water, such as lakes, dams, reservoirs, artificial wetlands where water is constantly collected. The purpose is.

Another object of the present invention is to provide a water circulation floating wetland system of a filter exchange method that can replace the living organism and the purification device having a purification function.

Still another object of the present invention is to provide a water circulation floating wetland system of a filter exchange method equipped with a pump to enable continuous redefinition.

Still another object of the present invention is to provide a water circulation floating wetland system of an island type filter exchange method to beautify the beauty of water surface.

In order to achieve the above object, the upper surface according to the present invention has an open shape, provided with at least one or more partitions for inducing the movement direction of the purified water, and a plurality of filtering members in the moving passage of the purified water between the partitions. A first body, a second body positioned below the first body to float the first body and having a predetermined space in the center thereof, and a second body positioned in a predetermined space of the second body, And a pump connected to the inlet pipe for discharging the raw water and the intake pipe for raising the raw water under the water.

In this case, the filtration member is a filter that can remove particulate matter in the porous cartridge according to the direction of the water flow, when clogging occurs, it is possible to easily replace the media through the cartridge replacement.

The first body may have at least one outlet to discharge filtered purified water to the outside.

In addition, the first body and the second body may be made of any one of synthetic resin, metal, wood.

And the second body is covered with a mesh for planting the scattering artificial grass on the outer surface in contact with the purified water, and is configured to include a ring for fixing the position on the water surface on one side of the outer surface edge.

And the pump may be composed of a hydraulic pump.

The present invention is produced by floating in the wetlands, rivers, lakes, artificial wetlands by making insulators such as small islands, there is no need for a large site for filtration has the effect of reducing the management cost.

In addition, because it floats only in wetlands, rivers, lakes, etc., it is easy to install and easy to manage.

In addition, because plants have the form of growing islands, it is effective to beautify the beauty.

In addition, it is possible to replace the filter member and the filter mat has the effect of reducing the waste of resources.

In addition, the water quality is improved through the filtering member and the filter mat, thereby reducing the cost of water treatment.

1 is a cross-sectional view showing the artificial wetland biofiltration method for non-point pollutant treatment according to the prior invention.
Figure 2 is a perspective view showing a water circulation floating wetland system of the filter replacement method according to the present invention.
3 is an exploded perspective view taken along the line A-A 'of the floating wetland in accordance with the present invention.
Figure 4 is a cross-sectional view taken along the line A-A 'of the wetland in accordance with the present invention.
5 is a plan view showing the flow of purified water of the floating wetland according to the present invention.

Matters concerning the operational effects including the technical configuration of the water circulation floating wetland system 100 of the filter exchange method according to the present invention will be clearly understood by the following detailed description with reference to the drawings in which preferred embodiments of the present invention are shown. will be.

2 is a perspective view showing a water circulation floating wetland system of the filter exchange method according to the present invention, Figure 3 is an exploded perspective view along the line A-A 'of the floating wetland according to the present invention, Figure 4 is A-A 'cross section of floating wetland.

As shown in Figures 2, 3, and 4, the water exchange floating wetland system 100 of the filter exchange method according to the present invention, the upper surface is open form, at least one or more to induce the movement direction of the purified water A first body 200 having a partition wall 210 and having a plurality of filtration members 230 in a moving passage of purified water between the partition walls 210 and a lower portion of the first body 200. Floating the first body 200, the second body 300 having a predetermined space in the center, and located in a predetermined space of the second body 300, the purified water to the first body 200 It comprises a drain pipe (250) for discharging and pump 310 connected to the water intake pipe (330) for pulling up the purified water under the water surface.

Here, the filtering member 230 is a filter that can remove particulate matter in the porous cartridge according to the direction of the purified water, and when clogging occurs, the filter medium can be easily replaced by replacing the cartridge.

The filtration member 230 is installed in the partition 210 by embedding any one of a sponge, volcanic stone, activated carbon, and charcoal in order to increase the filtration function of the purified water. In addition, the filtration member 230 may be configured in various sizes and types according to the size of the first body 200, the thickness of the partition wall and the interval therebetween, it is possible to install and use.

In addition, one side of the filtering member 230 is provided with an impurity measurement sensor (not shown) to detect the purified impurities in each step to store the data. Stored data is collected by the operator and analyzed. This shows the degree of filtration at each stage.

The first body 200 includes at least one outlet 500 to discharge the filtered purified water to the outside. At this time, the outlet 500 is provided with a button-type screening film (not shown) to close the screening screen (not shown) when changing the outlet of the purified water can be used by opening another outlet.

In addition, a plurality of lights (not shown) are installed on the partition wall 210 in consideration of the height of the purified water. The lights (not shown) are also lit at night to emit various types of colors to beautifully decorate the beauty of the surrounding wetland.

The electricity supply of the lighting (not shown) is installed on both sides of the floating wetland hexagonal shape, and has a solar cell module (not shown) and a storage battery (not shown) of a predetermined size.

The first body 200 and the second body 300 may be made of any one of synthetic resin, metal, and wood. Among them, considering the adaptability to the purified water, durability, price, manufacturing method, etc., it is most preferable to produce a synthetic resin. As an embodiment, a lot of FRP (Fiber Reinforced Plastics) are selected and manufactured. In addition, the first body 200 and the second body 300 is connected by a fastening member (not shown).

And the second body 300 is covered with a mesh 360 for planting the scattering artificial grass on the outer surface in contact with the purified water, the outer surface has a ring (not shown) for fixing the position on the water surface one side edge Doing.

The net 360 includes a water hyacinth, buttercup, moon root grass, reeds, water lily, tax, mussels, water lilies, cabbages, lotus, water poppy, water coin, papyrus, green grass, yellow irises Plant at least two kinds of plants, such as irises, pampas grass, strings and wireworms, to help purify water.

And the ring (not shown) is to be connected to the ground or the ground below the ground to prevent the floating wet land is damaged by moving by the wind from the water surface.

The pump 310 is a hydraulic pump.

In addition, the intake pipe 330 is provided with a manual valve 400 for shutting off the water supplied to the first body 200 when the pump 310 malfunctions, the intake pipe 330 is the pump ( It is connected to the 310 and can be rotated to absorb the purified water from all directions.

The intake pipe 330 is connected to a water intake core 350 that directly absorbs the purified water. In addition, the intake pipe 330 is formed in multiple stages can be adjusted in length to send down the intake depth 350 to the depth deep to circulate the purified water.

The water intake core 350 is provided with a plurality of absorption holes 351 of a predetermined size to filter foreign matters, and inserts gravel, sand, volcanic stone, charcoal, and the like into the filtered primary water.

5 is a plan view showing the flow of purified water of the floating wetland according to the present invention.

As shown in FIG. 5, the purification raw water supplied from the pump 310 of the central portion moves in a predetermined direction along the partition wall 210. Each of the partition walls 210 includes at least one or more filtration members 230, and as shown, a long flow path of the purification source water is formed to increase contact with oxygen to help purify the purification source water.

Although the preferred embodiment of the present invention has been described in detail above, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

Accordingly, the scope of the present invention should not be limited to the disclosed embodiments but should be regarded as belonging to various modifications and improvements of those skilled in the art using the basic concept of the present invention as defined in the following claims, or the scope of the present invention. .

100: water circulation floating wetland system of the filter replacement method 200: the first body
210: partition 230: filter member
250: drain pipe 300: second body
310: pump 330: intake pipe
350: water intake 351: absorption hole
360: mesh 400: valve
500: exit

Claims (6)

A first body having an open top surface and having at least one partition wall for guiding a movement direction of the purification source water, and having a plurality of filtration members in a movement path of the purification source water between the partition walls;
Located below the first body to float the first body, has a predetermined space in the center,
A second body which is covered with a net for planting scattering artificial grass on the outer surface which is in contact with the purified water, and has a ring for fixing the position on the surface at one side of the outer surface edge;
Located in the predetermined space of the second body, the water circulation of the filter exchange method comprising a drain pipe for discharging the purification raw water to the first body, and a pump connected to the water intake pipe for raising the purification raw water under the water surface Wetland System. The method of claim 1, wherein the filtration member
A filter that can remove particulate matter in the porous cartridge according to the direction of the water stream, and when the blockage occurs, the filter can be replaced easily by replacing the filter medium. Wetland System. The method of claim 1, wherein the first body is
And at least one outlet to filter the filtered raw water to the outside. The method of claim 1, wherein the first body and the second body
Water circulation floating wetland system of the filter exchange method, characterized in that made of any one of synthetic resin, metal, wood. delete The method of claim 1, wherein the pump
Water circulation floating wetland system of the filter exchange method, characterized in that the hydraulic pump.

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