KR101180310B1 - Tree box filter system for rain water filter and restoration of urban water cycle - Google Patents

Abstract

PURPOSE: A tree pot filtering system for filtering rain water and restoring the water circulation in the city is provided to effectively filter micro pollutants and coarse pollutants in the rain water. CONSTITUTION: A tree pot filtering system for filtering rain water comprises the following: vegetation soil(100) surrounding roots of a tree; a filtering layer(200) filtering pollutants from the rain water flowing into the vegetation soil; a screen basket(300) filtering coarse pollutants from the rain water; a tree pot(400) including a rain water inlet(420) for flowing the rain water into the screen basket, and a rain water outlet(440) for discharging the filtered rain water; a perforated pipe(500) having a rainwater inflow hole(520) discharging the rain water to a road rain water pipe; a bypass pipe(600) bypassing the excessive rain water flowing into the inlet of the tree pot toward the perforated pipe; a screen net(620) preventing the coarse pollutants from passing through the bypass pipe; a hanging plate supporting the screen basket; a hanging protrusion fixed to the inner wall surface of the tree pot; a basket body storing the filtered coarse pollutants; and a permeable reservoir storing the rain water flowing into the perforated pipe.

Description

TREE BOX FILTER SYSTEM FOR RAIN WATER FILTER AND RESTORATION OF URBAN WATER CYCLE}

The present invention relates to a tree pot filtration system, and more particularly to a tree pot filtration system for removing non-point contaminants present in rainwater.

Due to urbanization and industrialization, many roads with impermeable layers can be seen in urban areas. Due to these impermeable roads, various contaminants accumulate on the roads, and these contaminants become non-point contaminants during rainfall and flow into rivers to pollute the rivers. In particular, in the early stage of rainfall, when the concentration of non-point contaminants is high, the centralized treatment has a problem in that all of the non-point contaminants flow out into the river without being filtered.

In addition, conventionally known non-point contaminant filtration systems have limitations in filtering non-point contaminants, and thus, the filtration layer may be blocked by coarse and fine contaminants present in rainwater. If the filtration layer is blocked, the rainwater may no longer flow into the filtration system and may overflow over the road where the filtration system is installed.

Accordingly, it is an object of the present invention to provide a wood pollen filtration system that effectively filters coarse and fine contaminants during rainfall.

In addition, another object of the present invention is to provide a tree plant filtration system that can filter the rainwater while the trees can be planted on the roadside.

The object is, according to the present invention, in the plant pot filtration system, vegetation soil surrounding the root portion of the tree so that the vegetation is possible; A filtration layer filtering contaminants from rainwater flowing into the vegetation soil; A screen basket disposed above the filtration layer and filtering coarse contaminants in the rainwater; The vegetation soil, the filtration layer and the screen basket is accommodated therein, contaminants are removed through the rainwater inlet for introducing the rainwater toward the screen basket and the vegetation soil, the filter layer and the screen basket. A tree pot formed with a rainwater discharge port through which the purified rainwater is discharged; A perforated pipe installed at a lower portion of the tree planter and having a plurality of rainwater inlets formed along the longitudinal direction such that the rainwater filtered by the filtration layer can flow into the rainwater pipe; If the upper end is protruded outside the filter layer and the lower end is erected inside the tree planter so that the lower end is connected to the perforated tube and more rainwater is introduced through the inlet of the tree planter than the amount filtered through the filter layer A bypass tube for bypassing a part of the hole through the upper end; It is installed at the inlet of the bypass pipe and includes a screen net for preventing the coarse contaminants from passing through the bypass pipe, the locking plate and the hook installed to support the screen basket in the rainwater inlet of the tree planter It further comprises a locking jaw extending in the direction of the plate fixed to the inner wall surface of the tree planter, the screen basket, the filtration hole for filtering the coarse contaminants and coarse contaminants for storing the coarse dirt filtered by the filtration hole A basket body forming a storage space; A handle coupled to the basket body to allow the screen basket to be detachable from and attached to the tree planter, and the rainwater stored in the perforated pipe is stored and the part of the rainwater stored is penetrated into the soil layer, and the other part of the rainwater stored. An infiltration storage tank capable of discharging the water to the road storm pipe; It may be achieved by a tree plant filtration system further comprises at least one transfer pipe connecting the permeate reservoir and the hole pipe.

Here, the top of the tree pots may further include a tree protection frame for supporting and maintaining the tree that is vegetated in the vegetation soil.

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In addition, the filter layer, the first fiber grid for filtering the fine contaminants contained in the rainwater introduced through the rainwater inlet of the tree planter; A sand layer disposed to surround the vegetation soil to filter the rainwater that has passed through the first fiber grid; A gravel layer for discharging rainwater that has passed through the sand layer through the hole pipe; It may include a second fiber grid to prevent the sand layer and the gravel layer is mixed, and to filter the rainwater passing through the sand layer so that the filtered rainwater flows into the gravel layer.

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The tree pot filtration system of the present invention having the above-described configuration has the following effects.

First, it is possible to improve the filtration performance by installing a screen basket to filter out coarse contaminants present in rainwater so that coarse contaminants do not accumulate on the filtration layer. In addition, since the screen basket can be cleaned periodically, coarse contaminants can be accumulated to prevent the rainwater inlet from clogging.

Second, if there is a lot of rainwater inflow, it is possible to improve the phenomenon that rainwater overflows to the roadside by quickly treating rainwater using a bypass pipe.

Third, the urban water circulation can be restored by installing a permeation reservoir to facilitate the storage, discharge, and infiltration of rainwater.

1 is a longitudinal sectional view of a tree plant filtration system according to a first embodiment of the present invention;
2 (a) is a plan view of the screen basket of FIG.
2B is an enlarged cross-sectional view of the screen basket of FIG. 1;
3 is a plan view of the hole pipe of FIG.
4 is a longitudinal sectional view of a tree plant filtration system according to a second embodiment of the present invention;
5 is a plan view of the infiltration storage tank of the tree plant filtration system according to the third embodiment of the present invention.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings. Duplicate explanations will be omitted by assigning the same reference numerals to the same elements in each embodiment.

Tree potting filtration system according to a first embodiment of the present invention, as shown in Figure 1, 2, 3, vegetation soil 100, filtration layer 200, screen basket 300, tree pots ( 400), the hollow pipe 500, the bypass pipe 600, the tree protection frame 700.

The vegetation soil 100 surrounds the root portion of the tree 10 so that the tree can be vegetated.

The filtration layer 200 filters contaminants of rainwater flowing into the vegetation soil 100.

The filtration layer 200 surrounds the vegetation soil 100. In more detail, the filtration layer 200 may be provided so as to surround the vegetation soil 100 at a central portion, and surround the periphery in up, down, left and right.

As a result, rainwater introduced into the tree plant filtration system through rainwater inlet 420 to be described later is not directly transmitted to the vegetation soil 100, but passes through the screen basket 300 and the filtration layer 200. Relatively clean rainwater from which coarse contaminants and microcontaminants have been removed may be delivered to the vegetation soil 100. As a result, the tree 10 planted in the vegetation soil 100 may be well vegetated.

The filtration layer 200 includes a first fiber grid 220, a sand layer 240, a gravel layer 260, and a second fiber grid 280.

The first fiber grid 220 is located at the top of the filter layer 200 and filters the microcontaminants contained in the rainwater flows in.

The first fiber grid 220 is made of one or more of the listed material is made of one of the coil fiber (coir fiber, activated carbon fiber, activated carbon fiber, polyethylene fiber, straw straw stacking) It may be provided in a cross-laminated structure. In the case of the cross-lamination structure, the lattice spacing of the first fiber grid network 220 can be finally adjusted by adjusting the lattice spacing of the fibers to be laminated.

The sand layer 240 and the gravel layer 260 are present under the first fiber grid 220.

The sand layer 240 and the gravel layer 260 may be arranged to form a separate layer, respectively. In some cases, the sand layer 240 and the gravel layer 260 may have different layer arrangements as shown in the drawing. If necessary, the sand layer 240 and the gravel layer 260 may be mixed with each other without being divided into separate layers.

The second fiber grid 280 is present between the sand layer 240 and the gravel layer 260 so that the sand layer 240 and the gravel layer 260 of the filtration layer 200 do not mix.

The second fiber grid 280 may be made of one or two or more layers of the material of the first fiber grid 220, a nonwoven fabric, a geogrid, a screen net.

The screen basket 300 is disposed above the filtration layer 200 to filter coarse contaminants present in the rainwater. As a result, coarse contaminants included in the introduced rainwater may be filtered by the screen basket 300, and the filtered rainwater may flow into the filtration layer 200.

The screen basket 300 is connected to the tree planter 400 to be mounted and detached to the tree planter 400.

The screen basket 300 includes a filtration hole 320, a basket body 340, a handle 360.

Hanging jaw 460 for fixing the hanger 380 and the hanger 380 to the inner wall surface 480 of the tree planter 400 to connect the screen basket 300 to the tree planter 400. ).

When rainwater flows through the rainwater inlet 420 into the screen basket 300 inside the tree planter 400, the screen basket 300 is shaken or shaken from the locking plate 380 by the rainwater flow rate. The screen basket 300 and the locking plate 380 may be fixed by a separate fixing device (not shown) so as not to be detached.

The basket body 340 is provided to store the coarse dirt filtered by the filtration hole 320. As shown in FIG. 2 (b), the basket body 340 may have a basket structure recessed in the direction of the filtration layer 200. Of course, this is only an example and may be variously modified as long as it can filter and store the coarse contaminants.

The basket body 340 may be made of metal or plastic material.

The filtration hole 320 is formed in the screen basket 300 to pass through the rainwater introduced.

The filtration hole 320 may be provided in a size smaller than the average diameter of the coarse contaminants to filter coarse contaminants contained in the rainwater.

The filtration hole 320 may be provided in a variety of shapes, such as circular, oval, triangular, square.

The filtration hole 320 may be formed to be substantially evenly distributed along the entire surface of the screen basket 300.

The handle 360 is one end of the handle 360 is coupled to the inside of the basket body 340 and the other end is exposed upwardly to be gripped. A person who manages / maintains the tree pot filtration system may grab the handle 360 and remove the coarse contaminants stored in the basket body 340 from the basket body 340.

The hooking jaw 460 is connected to the hook plate 380 from the basket body 340 so that the basket body 340 is supported on the hook plate 380 to be described later (inner wall surface of the tree pot 400) 480).

The stopping plate 380 allows the basket body 340 to be spaced apart from the inner wall surface 480 of the tree plant 400 by a predetermined interval. As a result, the basket body 340 is spaced apart from the inner wall surface 480 of the tree planter 400 so that the coarse pollutant is filtered through the space therebetween.

The tree pot 400 accommodates the vegetation soil 100, the filtration layer 300 and the screen basket 300 to form an exterior. In some cases, the tree pot 400 may be made of a single or two or more materials of concrete, polypropylene, polyethylene, fiber reinforced plastic (FRP).

The tree planter 400 includes the rainwater inlet 420, the rainwater outlet 440, the catching plate 380, the catching jaw 460, and the inner wall surface 480.

Rainfall flowing down the road 50 during rainfall is introduced into the tree pot 400 through the rainwater inlet 420.

Rainwater introduced through the rainwater inlet 420 passes through the screen basket 300 and the filtration layer 200 accommodated in the tree pot 400 to remove contaminants.

The purified rainwater in a state in which contaminants are removed is discharged to the road storm pipe 30 through the rainwater outlet 440.

The locking jaw 460 is installed inside the tree planter 400 to support the locking plate 380.

The stopping plate 380 is the screen basket from the rainwater inlet 420 so as to maintain a gap between the screen basket 300 and the inner wall surface 480 of the tree plant 400 to discharge the rainwater. Extend toward 300.

The locking jaw 460 may be installed on the inner wall surface 480 of the tree planter 400, as shown in FIG.

The hole pipe 500 is installed below the tree pot 400.

The perforated pipe 500 includes a rainwater inlet hole 520 formed in a plurality in the longitudinal direction to enable the inflow of the rainwater.

The hole pipe 500 forms a water channel communicating with the rainwater outlet 400 so that the filtered rainwater is smoothly discharged through the rainwater outlet 440.

The bypass pipe 600 is erected inside the tree pot 400 so that an upper end thereof protrudes higher than the top of the filtration layer 200 and the lower end thereof is connected to the hole tube 500.

The bypass pipe 600 is a portion of the rain through the bypass pipe 600 when more rain is introduced through the rain inlet 420 more than the rate filtered by the filter layer 200 Bypass to the hole 500.

The bypass pipe 600 includes a screen net 620 installed at an upper end of the bypass pipe 600 to prevent the coarse contaminants from passing through the bypass pipe 600.

The tree protection frame 700 is located at the top of the tree pot 400 and supports the tree 10 that is vegetated in the vegetation soil 100.

The tree protection frame 700 is the screen basket 300, the filtration layer 200, the tree 10, the bypass pipe 600, the screen net 620 inside the tree planter 400 , Can be used for effective maintenance of the hole 500. In more detail, the tree protection frame 700 is provided to be mounted and detachable to manage / maintain the above-described components disposed inside the potted plant 400.

According to the tree pot filtration system configured as described above, purifying the water required for the vegetation of the tree (10) not only supplies the clean water to the tree (10), but also nitrogen and phosphorus contained in the rainwater The tree 10 may be partially removed, and during rain, the coarse contaminants and the fine contaminants included in the rainwater may be purified and discharged to the road rainwater pipe 30.

In addition, by filtering the coarse contaminants using the screen basket 300 to prevent the coarse contaminants from accumulating on the filtration layer 200 can improve the filtration performance.

As shown in FIG. 4, the plant pot filtration system according to the second embodiment of the present invention includes the vegetation soil 100, the filter layer 200, the screen basket 300, the plant pot 400, and the perforated pipe 500. , Bypass tube 600, tree protection frame 700, the first penetration hole 800. The wood pollen filtration system of the second embodiment is different from the wood pollen filtration system of the first embodiment in that it further includes the first penetration hole 800. Due to this difference, the second embodiment may further have an effect of penetrating the filtered rainwater into the soil.

The filter layer 200 includes a first fiber grid 220, a sand layer 240, a gravel layer 260, and a second fiber grid 280.

The screen basket 300 includes a filtration hole 320, a basket body 340, a handle 360.

The tree plant 400 includes a rainwater inlet 420, rainwater outlet 440, the locking step 460, the locking plate 380, the inner wall surface 480.

The hole 500 has a rain inlet hole 520.

The bypass tube 600 includes a screen network 620.

The first penetration hole 800 is present in the form of penetrating the tree pot 400 in the lower hole 500 and the gravel layer 260.

The first penetration hole 800 allows the filtered rainwater to penetrate into the soil layer. In some cases, a second fiber grid 280 is disposed between the gravel layer 260 and the first penetration hole 800 to reduce the clogging of the first penetration hole 800 by the gravel layer 260. It may further include.

In the case of the tree plant filtration system of the above configuration, not only supplies the clean water to the tree 10 by purifying the water necessary for vegetation (10) vegetation, coarse contaminants and fine particles contained in the rainwater during rainfall The pollutants can be purified and discharged to the road storm pipe (30).

In addition, by filtering the coarse contaminants using the screen basket 300 to prevent the coarse contaminants from accumulating on the filtration layer 200 can improve the filtration performance.

As shown in FIG. 5, the plant pot filtration system according to the third embodiment of the present invention includes a gravel layer 260, a perforated pipe 500, a rainwater inlet hole 520, a penetration storage tank 900, and a transfer pipe 920. Rainwater outlet 940. Compared to the tree pollen filtration system of the first embodiment, the tree pollen filtration system of the third embodiment further includes the infiltration storage tank 900 and the transfer pipe 920. As a result, the rainwater can be stored and utilized in the infiltration storage tank 900.

The infiltration reservoir 900 serves to store the rainwater.

The rainwater stored in the infiltration reservoir 900 may be infiltrated into the soil, or reuse of the rainwater by using a pump or a hose.

The infiltration reservoir 900 includes a transfer pipe 920, a rainwater outlet 940, and a second penetration hole 820.

The rainwater entering the hole pipe 500 is discharged to the infiltration reservoir 900 through the transfer pipe 920.

Part of the rainwater entering the infiltration reservoir 900 is penetrated into the soil layer by the second penetration hole 820 which is in the form of penetrating the bottom of the infiltration reservoir 900, another portion of the rainwater The rainwater outlet 940 is discharged to the road storm pipe (30).

In the case of the tree pollen filtration system of the above configuration, by utilizing the space where trees and trees that were previously used only for landscaping are used to clean the coarse and fine contaminants contained in rainwater during rainfall, The rainwater that penetrates into the soil layer and is not penetrated can be discharged to the rainwater pipe 30 so that urban water circulation can be restored through various effects such as river dryness, urban flooding, urban non-pollutant treatment, and groundwater level.

In addition, by filtering the coarse contaminants using the screen basket 300 to prevent the coarse contaminants from accumulating on the filtration layer 200 can improve the filtration performance.

10: tree 30: road storm tube
50: Road 70: Rainfall flowed in
100: vegetation soil 200: filter layer
220: first fiber grid 240: sand layer
260: gravel layer 280: second fiber grid
300: screen basket 320: filtration hole
340: basket body 360: handle
380: hung 400: wooden planter
420: rainwater inlet 440, 940: rainwater outlet
460: locking step 480: inner wall surface
500: Merit Hall 520: Rainwater Inlet Hall
600: bypass tube 620: screen network
700: tree protection frame 800: first penetration hole
820: second penetration hole 900: infiltration reservoir
920: transfer pipe

Claims (5)

Wood pollen filtration system,
Vegetation soil surrounding the root portion of the tree to enable the vegetation;
A filtration layer filtering contaminants from rainwater flowing into the vegetation soil;
A screen basket disposed above the filtration layer and filtering coarse contaminants in the rainwater;
The vegetation soil, the filtration layer and the screen basket is accommodated therein, contaminants are removed through the rainwater inlet for introducing the rainwater toward the screen basket and the vegetation soil, the filter layer and the screen basket. A tree pot formed with a rainwater discharge port through which the purified rainwater is discharged;
A perforated pipe installed at a lower portion of the tree planter and having a plurality of rainwater inlets formed along the longitudinal direction such that the rainwater filtered by the filtration layer can flow into the rainwater pipe;
If the upper end is protruded outside the filter layer and the lower end is erected inside the tree planter so that the lower end is connected to the perforated tube and more rainwater is introduced through the inlet of the tree planter than the amount filtered through the filter layer A bypass tube for bypassing a part of the hole through the upper end;
It is installed at the inlet of the bypass pipe and includes a screen net for preventing the coarse contaminants from passing through the bypass pipe,
Further comprising a locking plate installed to support the screen basket in the rainwater inlet of the tree planter and a locking jaw extending in the direction of the locking plate fixed to the inner wall surface of the tree planter,
The screen basket,
A basket body forming a filtration hole for filtering the coarse contaminants and a coarse contaminant storage space for storing the coarse contaminant filtered by the filtration hole;
A handle coupled to the basket body to enable detachment and attachment of the screen basket to the tree planter,
A permeation storage tank capable of storing the rainwater introduced into the hole and storing some of the stored rainwater into the soil layer and discharging another portion of the stored rainwater into the road rainwater pipe;
The tree plant filtration system further comprises at least one transfer pipe connecting the permeate reservoir and the hole pipe. The method of claim 1,
The top of the tree planter, the tree planter filtration system, further comprising a tree protection frame for supporting and maintaining the tree vegetated in the vegetation soil. delete The method of claim 1,
The filtration layer,
A first fiber grid for filtering fine contaminants contained in the rainwater introduced through the rainwater inlet of the tree pot;
A sand layer disposed to surround the vegetation soil to filter the rainwater that has passed through the first fiber grid;
A gravel layer for discharging rainwater that has passed through the sand layer through the hole pipe;
And a second fiber grid to prevent the sand layer and the gravel layer from being mixed and to filter the rainwater passing through the sand layer so that the filtered rainwater flows into the gravel layer. delete

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