KR101480037B1 - Low Impact Development Type Planting Structure for Street Trees Equipped with Multi-purposes Filter Applicable to Weather Change - Google Patents

Abstract

The transverse environmental planting structure of the present invention includes an upper space A for collecting and temporarily storing rainwater on the upper part, a rainwater collecting part for storing rainwater collected in order to allow the rainwater to slowly permeate into the soil, And a soil space (C) formed on the inner side of the upper space and the storage space and filled with soil for planting, wherein the upper space (A) The rainwater stored in the storage space B can be supplied to the roots of the trees that have been gradually planted for a long period of time by connecting the storage space B and the soil space C by connecting the storage space B with the filter medium to purify the collected rainwater Characterized in that it comprises at least one climate change adaptive multi-purpose filter (151, 152) installed to supply rainwater stored in the soil space (C). The horizontal environmentally-planting planter structure of the present invention further includes a steel grating 200 capable of covering the upper space A after being planted in the soil space C.

Description

TECHNICAL FIELD [0001] The present invention relates to a low-impact development type planting structure having a multi-purpose filter for adaptation to climate change,

The present invention relates to a planting planter structure for improving the lateral environment of an urban area. More particularly, the present invention relates to a low impact development type landscape environment planting structure with a climate change adaptive multi-purpose filter.

In the urban area, the surface of the earth is composed mainly of buildings and roads, and the rainwater is not penetrated into the ground, so that the vitality of the soil is gradually being lost, and accordingly, the natural ecological environment is gradually disappearing. In urban areas, which are mostly impervious areas, the urban environment has been created to cope with the flood prevention rather than the soil vitality or natural ecological environment. Thus, the urban environment was created by the rapid drainage of rainwater through the sewer pipe of the road to the outskirts of the city, rivers or rivers.

However, in the conventional urban environment, the underground penetration of the rainwater is reduced, the function of the water source of the soil is lost, and the groundwater resources are exhausted. Since rainwater must be discharged at one time, The increase of outflow causes rather flood, and the increase of air pollution and non-point pollution of roads in the city due to the increase of traffic volume lead to pollution of the river by flowing into the river together with rainfall, It is evident that adverse effects occur.

In addition, the rainwater can not penetrate into the ground in urban areas, and the ecosystem of the soil is destroyed, which leads to the destruction of the urban ecosystem. The food chain base is reduced and the vegetation structure is simplified. Furthermore, And eventually lead to disaster.

In order to solve the adverse effects of water circulation in the above-mentioned urban areas, various facilities have been proposed. However, these facilities are function-oriented facilities for storing rainwater, and there is no function of raising groundwater resources by infiltrating stormwater, Or the rainwater that overflows during the rainfall flow is only flowed to the river or river through the sewer pipe, so that the above-mentioned ecological problem of the soil is not fundamentally solved. Also, the prior art has a problem that rainwater resources are wasted such as raising the rainwater into the groundwater by some infiltration or flowing it to the river or river through the sewer pipe without the function of infiltrating the rainwater after reducing the non-point pollutant, And the bottom plate (bottom surface) are closed with concrete, and the compatibility with the surrounding soil is eliminated, so that the vegetation base and the root vegetation due to the anaerobic bacteria and microorganisms are worried about corruption, It is not appropriate to cope with urban climate change, such as causing vegetative conduction by strong winds.

Accordingly, the present inventor has developed a low impact development type planting structure (planting structure) for facilitating the ecological circulation process of rainwater, removing pollutants from rainwater, cultivating groundwater resources, Street Trees) and applied for the patent application No. 2012-30991. The present invention relates to a method and apparatus for improving the horizontal environment of a city area developed in Patent Application No. 2012-30991, in which a filter medium is installed so as to purify rainwater stored in a planting plant structure and stored rainwater is gradually planted It is equipped with adaptive climate change adaptive multi-purpose filters that can be supplied to the roots of trees.

It is an object of the present invention to provide a planting structure for street trees having a new structure capable of removing groundwater by removing pollutants from rainwater in a street environment in an urban area.

Another object of the present invention is to provide a landscape environment planting structure in which a filter medium is installed so as to purify rainwater stored in the planting plant structure.

Another object of the present invention is to provide a landscape environment planting structure in which a climate change adaptive multi-purpose filter is installed so that stored rainwater can be supplied to roots of planted trees gradually over a long period of time.

These and other objects of the present invention can be achieved by the present invention which is described in detail below.

The transverse environmental planting structure of the present invention includes an upper space A for collecting and temporarily storing rainwater on the upper part, a rainwater collecting part for storing rainwater collected in order to allow the rainwater to slowly permeate into the soil, And a soil space (C) formed on the inner side of the upper space and the storage space and filled with soil for planting, wherein the upper space (A) The rainwater stored in the storage space B can be supplied to the roots of the trees that have been gradually planted for a long period of time by connecting the storage space B and the soil space C by connecting the storage space B with the filter medium to purify the collected rainwater Characterized in that it comprises at least one climate change adaptive multi-purpose filter (151, 152) installed to supply rainwater stored in the soil space (C).

The horizontal environmentally-planting planter structure of the present invention further includes a steel grating 200 capable of covering the upper space A after being planted in the soil space C.

The lateral environment planting structure of the first embodiment according to the present invention comprises four outer walls 10, 20, 30, 40, four inner walls 50, 60, 70, 80, a lower center wall 90, And a bottom member (97), wherein an upper space (A) is formed at an upper side by the outer wall, an inner wall and an intermediate horizontal member, and the upper wall A storage space B is formed on the lower side by the member, and a soil space C is formed on the inner side by the inner wall.

The soil space C comprises the outer wall 10, 20, 30, 40 and the inner walls 50, 60, 70, 70 on the intermediate horizontal member 95 so as to penetrate the soil around the outside of the planting plant structure 100. [ 80 and a lower center hole 90 is formed to penetrate the soil below the structure and a lower center hole 91 is formed.

The outer walls 10, 20, 30 and 40 are formed with outer wall top holes 11, 21, 31 and 41 by the inner penetration walls 55, 65, 75 and 85, 22, 32, and 42 are formed in the lower part of the bottom wall 30, 40 so that the storage space B penetrates the outer soil.

The transverse environment planting structure of the second embodiment according to the present invention comprises four outer walls 10,20, 30,40, two inner walls 50,70, a lower center wall 90, an intermediate horizontal member 95, And the bottom member 97. The upper space A is formed on the upper side by the outer wall, the inner wall, and the intermediate horizontal member, and the lower space is formed by the outer wall, the lower center wall, the intermediate horizontal member, And a soil space C is formed inwardly by the inner wall.

The soil space C includes outer wall upper holes 61 and 81 and intermediate holes 21 and 41 formed in the outer walls 20 and 40 so as to penetrate the soil around the outside of the planting plant structure 100, A lower center wall 90 is provided to penetrate the soil below the structure to form a lower center hole 91.

In the inner walls 50 and 70, inner wall holes 51 and 71 are formed so as to pass through the upper space A and a storage space B is formed in the lower part of the outer walls 10, 20, 30 and 40, Outer wall lower holes 12 and 32 are formed so as to penetrate the soil.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The present invention relates to a planting structure for a street plant having a new structure capable of removing groundwater by removing contaminants from rainwater in a street environment in an urban area, The present invention has the effect of providing a new planting plant structure capable of purifying rainwater and capable of supplying the stored rainwater to the root of planted trees gradually over a long period of time.

FIG. 1 is a schematic cross-sectional view illustrating a landscape environment planting structure according to one embodiment of the present invention.
FIG. 2 is a schematic perspective view of a transverse environment planting structure according to one embodiment of the present invention. FIG.
FIG. 3 is a perspective view showing the internal structure of the planting plant structure. FIG.
4 is a cross-sectional view taken along line AA of FIG. 3;

The present invention relates to a planting planter structure for improving the lateral environment of an urban area, and relates to a low-impact development type horizontal environment planting planter structure equipped with a climate change adaptive multi-purpose filter.

The transverse environmental planting structure of the present invention includes an upper space A for collecting and temporarily storing rainwater on the upper part, a rainwater collecting part for storing rainwater collected in order to allow the rainwater to slowly permeate into the soil, And a soil space (C) formed on the inner side of the upper space and the storage space and filled with soil for planting, wherein the upper space (A) The rainwater stored in the storage space B can be supplied to the roots of the trees that have been gradually planted for a long period of time by connecting the storage space B and the soil space C by connecting the storage space B with the filter medium to purify the collected rainwater Characterized in that it comprises at least one climate change adaptive multi-purpose filter (151, 152) installed to supply rainwater stored in the soil space (C).

FIG. 1 is a schematic cross-sectional view illustrating a landscape environment planting structure according to one embodiment of the present invention.

The horizontal environmentally-planting planter structure of the present invention further includes a steel grating 200 capable of covering the upper space A after being planted in the soil space C.

The planting planter structure of the present invention is a low-impact type planting structure of a low-impact type that collects rainwater in the city side and recovers the collected rainwater in the ground underground to restore a natural ecological environment.

In order to solve the problem of the prior art that raises rainwater to groundwater without storing the rainwater or causes rainwater overflowing in the case of intensive rainfall or rainfall to flow to the river or river through the sewer to cause soil ecological problem Developed.

The present invention relates to a method and apparatus for preventing groundwater resources from being depleted by treating surface runoff occurring in the horizontal and vertical portions of an urban area by treating the contaminated initial stormwater simultaneously with the collection of the surface runoff from the permeable planting planter, And it has the advantage of reducing the capacity of the sewer pipe due to the decrease of the surface runoff, thereby being able to play a role of flood control in the case of concentrated rainfall or persistent rainfall. The structure of the present invention is intended to be installed in advance in the lower part of the avenue and planting the roadside tree thereon.

As shown in FIG. 1, the rainwater collected through the steel grating 200 passes through the upper space A and is stored in the lower storage space B. In the present invention, the upper space (A) is filled with a filter medium to purify the rainwater passing through it. As a result, the purified rainwater is stored in the lower storage space (B). The filter medium for filling the upper space (A) is formed of a fine sand layer, a coarse sand layer, a small gravel layer, and a thick gravel layer from the lowermost part. The filter material for filling the upper space A can be easily carried out by a person having ordinary skill in the art to which the present invention belongs.

Figure 2 is a schematic perspective view of a transverse environment planting structure according to one embodiment of the present invention, Figure 3 is a perspective view for showing the internal structure of the planting plant structure, Figure 4 is a cross- Sectional view.

The lateral environment planting structure of the first embodiment according to the present invention comprises four outer walls 10, 20, 30, 40, four inner walls 50, 60, 70, 80, a lower center wall 90, And a bottom member (97), wherein an upper space (A) is formed at an upper side by the outer wall, an inner wall and an intermediate horizontal member, and the upper wall A storage space B is formed on the lower side by the member, and a soil space C is formed on the inner side by the inner wall.

After the trees are planted in the soil space (C), the upper space (A) is covered with the upper cover (200). The upper cover 200 is conventionally used for protecting the roadside water, and is preferably made of steel.

The upper space A forms a separate and unified space except for the soil space C formed by the inner walls 50, 60, 70 and 80.

The soil space C comprises the outer wall 10, 20, 30, 40 and the inner walls 50, 60, 70, 70 on the intermediate horizontal member 95 so as to penetrate the soil around the outside of the planting plant structure 100. [ 80 and a lower center hole 90 is formed to penetrate the soil below the structure and a lower center hole 91 is formed.

Soil space (C) is a space where trees are planted, and the roots of trees can be extended. The roots can be extended to the soil outside the structure through the outer wall upper holes 11, 21, 31, 41 between the outer walls 10, 20, 30, 40 and the inner walls 50, And the roots can extend to the soil under the structure through the lower central hole 91.

The inner wall holes 51, 61, 71 and 81 may be selectively formed in the inner walls 50, 60, 70 and 80 and the storage spaces B may be formed in the lower portions of the outer walls 10, The outer wall lower holes 12, 22, 32, and 42 may be selectively formed to penetrate the outer soil.

As shown in FIG. 1 to FIG. 4, the rainwater stored in the storage space B by connecting the storage space B and the soil space C is supplied to the roots of the trees gradually planted over a long period of time One or more climate change adaptive multi-purpose filters (151, 152) installed to supply the rainwater stored in the soil space (C) for the purpose of supplying rainwater.

The multi-purpose filters 151 and 152 supply the rainwater stored in the soil space C by the capillary phenomenon into the soil space C so as to be supplied to the roots of the planted trees gradually over a long period of time. The multi-purpose filters 151 and 152 can be made of various materials such as fibers and fabrics. Any materials capable of supplying water from the storage space (B) into the soil space (C) by capillary action are all usable.

The intermediate horizontal member 95 must have permeability because the purified rainwater in the upper space A has to descend into the soil space C. [ The intermediate horizontal member 95 also naturally has a function as a filtration layer.

The rainwater stored in the storage space (B) seeps into the lower ground through the bottom member (97) and joins the groundwater, thereby restoring the ecosystem in the ground. The bottom member 97 should also be water permeable like the middle horizontal member 95. The rainwater stored in the storage space B may be impregnated into the outer soil of the side portion through the outer wall lower holes 12, 22, 32, and 42 formed at the lower portions of the outer walls 10, 20, 30 and 40.

Since the planting plant structure of the present invention is almost semi-permanently used, it is preferable to be made of a synthetic resin such as plastic. The size and shape of the structure can be variously modified depending on the environment of the place to be installed, the plant species, and the like, and such modification can be easily performed by a person having ordinary skill in the art to which the present invention belongs.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: plant planter structure 151, 152: multipurpose filter
200: Steel grating

Claims (4)

An upper space A for collecting and temporarily storing rainwater at an upper portion of the upper space, a storage space B for storing rainwater collected at a lower portion of the upper space to allow the rainwater to slowly penetrate into the soil, And a soil space (C) formed on the inner side of the space and the storage space and filled with soil for planting,
The upper space (A) is filled with a filter medium to purify the rainwater collected,
The rainwater stored in the storage space (B) is connected to the storage space (B) and the soil space (C) so that the rainwater stored in the storage space (B) can be supplied to the roots of the planted trees gradually over a long period of time. One or more climate change adaptive multi-purpose filters (151, 152)
The transverse environmental planting structure comprises four outer walls 10, 20, 30, 40, four inner walls 50, 60, 70, 80, a lower center wall 90, an intermediate horizontal member 95, Member 97,
The upper space A is formed on the upper side by the outer wall, the inner wall, and the intermediate horizontal member,
The storage space (B) is formed on the lower side by the outer wall, the lower center wall, the middle horizontal member, and the bottom member,
Wherein the soil space (C) is formed inward by the inner wall,
A low impact development type landscape environment planting structure with a climate change adaptive multi-purpose filter.
The method of claim 1, wherein the transverse environment planting structure further comprises a steel grating (200) capable of covering the upper space (A) after planting in the soil space (C) Low impact development type landscape environment planting structure equipped with climate change adaptive multi - purpose filter.
delete The method of claim 1, wherein the soil space (C) comprises an outer wall (10, 20, 30, 40) and an inner wall And the lower central wall 90 is provided so as to penetrate through the soil below the structure so that the lower central hole 91 (see FIG. ) Is formed on the surface of the low-impact environment.

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