KR101206269B1 - Rainwater management system integrated with water-storage - Google Patents

Abstract

PURPOSE: A rainwater management system integrated with water storage is provided to reduce heat island by evaporating water stored in an ecological pond and supplying evaporated water to the air. CONSTITUTION: A rainwater management system integrated with water storage comprises prefabricated kit type vegetative water purification channels(110) and prefabricated kit type rainwater storage vegetation zones(170). The vegetative water purification channels comprise one or more prefabricated blocks and purify rainwater. Each rainwater storage vegetation zone is located to be adjacent to one side of each vegetative water purification channel and stores rainwater passing through the vegetative water purification channel.

Description

RAINWATER MANAGEMENT SYSTEM INTEGRATED WITH WATER-STORAGE}

The present invention relates to a storage linked rainwater management system, and more specifically, a storage linked rainwater management system that can be recycled for various purposes by storing rainwater such as using vegetation and ecological ponds by purifying rainwater or rainwater. To provide.

At present, global water shortage is a major issue in many countries, and Korea has also been unable to neglect it. In order to solve such water shortage, we have found ways to efficiently manage, secure and utilize water in various ways. There is a situation.

Naturally, most of the water supplied to the ground is rainwater (excellent). In the case of natural covered soil, about 10% of the supplied rainwater flows out along the surface, about 40% evaporates, and about 50% penetrates underground. .

However, due to urban growth and expansion, if an impermeable layer, such as asphalt or concrete pavement, covers more than 75% of the earth's surface, about 55% of the rainwater supplied flows along the surface, about 30% evaporates, and only about 15% is underground. Infiltrate into.

As urbanization progresses, the amount of water penetrated into the basement decreases and the groundwater volume decreases rapidly. The shortage of industrial water and agricultural water becomes severe, and the dryness of the river, that is, the dryness of the river, occurs. There are various problems such as the occurrence of voids, which raises the risk of ground subsidence, slows the growth of trees, and changes the ecological environment of underground organisms.

In addition, in cities, when the amount of water that penetrates into the basement decreases, the amount of water evaporated from the ground decreases, causing a heat island phenomenon in which the city temperature is higher than the surrounding area. Increasingly, when heavy rain occurs, there is a problem that a disaster such as a flood occurs.

The present invention has been proposed to solve the above problems, and has a rainwater storage and water purification function in the apartment complex, as well as providing a storage-type rainwater management system considering the ecological landscape improvement and biological habitat.

The present invention can be easily penetrated into the ground or ground water such as rain (water) supplied to the ground surface, and the flow-associated rainwater is configured to be stored in a specific space after the infiltrated water is filtered fine dust, etc. Provide a management system.

The present invention provides a storage connected rainwater management system that can improve the water recyclability and compensate for the lack of water by storing the water supplied to the ground surface to be used to clean the multi-family housing complex or the city or supply to trees.

The present invention provides a storage-type rainwater management system that can create a low-management ecological pond or rain garden having rainwater storage and purification.

The present invention provides a storage-type rainwater management system that can be easily installed because it is provided in a prefabricated kit type and can reduce the constraints of the construction space.

Storage-type rainwater management system according to an embodiment of the present invention for achieving the above object, the prefabricated kit-type vegetation purification water purifying rainwater including at least one prefabricated block; And a prefabricated kit rainwater reservoir that is positioned to be in contact with one side of the vegetation purification channel, and stores rainwater that has passed through the vegetation purification channel or penetrates underground. The prefabricated kit rainwater reservoir includes: It may be provided at a lower location as the plant purification water.

By constructing as described above, it can be used for the growth of planting by using rainwater precipitation in the multi-family housing complex, improve the landscape in the multi-family housing complex by using the ecological pond or rain garden construction, and the availability of rainwater in the multi-family housing complex It can be improved.

 The prefabricated block includes a first side wall and a second side wall of which the upper or lower side is opened and face each other, and the lower rainwater passage and the upper rainwater passage are formed at the lower end of the first sidewall and the upper end of the second sidewall, respectively. The prefabricated kit vegetation purification water passage may include a plurality of prefabricated blocks that are continuously arranged such that the lower rainwater passages of the neighboring prefabricated blocks communicate with each other or the upper rainwater passages communicate with each other.

The assembled block includes a first sidewall and a second sidewall which are open at the top or the bottom and have a lower rainwater through hole at the lower end of the first sidewall, The plurality of prefabricated blocks arranged in series so that the lower rainwater passages of the block communicate with each other and gradually lower toward the prefabricated kitewater reservoir; Rainwater may flow into the neighboring prefabricated block beyond the upper end of the second side wall.

The prefabricated kit vegetation purification channel may include a plurality of the prefabricated blocks continuously arranged to gradually lower toward the prefabricated kit rainwater reservoir.

The prefabricated block may be provided with a water purification filter for purifying rainwater or planting plants.

Rainwater purified by the water purification media may be formed to pass through the water purification media of the neighboring prefabricated block.

The prefabricated kit rainwater reservoir is open at the top and the bottom, and the top of the side wall contacting the prefabricated kit vegetation purification channel may be provided at a lower position than the top or top rainwater passage of the prefabricated block.

A storage tank for collecting rainwater may be formed at a lower portion of the prefabricated kit rainwater reservoir.

The storage tank may be formed in a smaller size than the prefabricated kit rainwater reservoir, and may be provided below the prefabricated kit rainwater reservoir.

Inside the prefabricated kit rainwater reservoir, a reservoir permeation layer is formed, and a soil layer including a water purification filter is formed on the reservoir permeation layer, and the reservoir permeation layer is gravel, circulating aggregate, or porous blast furnace slag aggregate. It may include at least one.

Rainwater stored in the storage tank may be formed to be forcibly supplied to the prefabricated kit vegetation purification channel.

Rainwater supply pipe for inflow of rainwater supplied from the storage tank may be formed in the prefabricated block existing at the end of the prefabricated block forming the prefabricated kit-type vegetation purification channel.

An assembled ecological pond is formed between the vegetation purification channel and the storage vegetation zone in which rainwater having passed through the vegetation purification channel is introduced or stored, and the ecological pond is provided with a base layer provided inside a sidewall forming an open top and bottom. Rainwater stored in the upper portion of the base layer, the upper end of the side wall may be formed lower than the upper rain through hole of the prefabricated block or the upper end of the first side wall and the second side wall.

As the vegetation purified water, at least one of the reservoir vegetation zone or the ecological pond may include ocher.

As described above, the storage-linked rainwater management system according to an embodiment of the present invention is filtered through several times while passing through the water purification media in the process of water such as rainwater flows into the ecological pond or the reservoir vegetation or rain garden Therefore, even without undergoing a separate filtration process, the purified clean water collected in the storage vegetation zone or the rain garden can be utilized as it is.

In the storage-associated rainwater management system according to an embodiment of the present invention, when the temperature of the region in which the rainwater management system is installed increases, the water stored in the reservoir or the ecological pond may evaporate, and the evaporated water may be supplied to the atmosphere. This reduces heat islands and prevents rising temperatures in areas where management systems are installed.

Storage-type rainwater management system according to an embodiment of the present invention is to supply water to the tree periodically because the water stored in the reservoir or rain garden supplies the water required for the growth of trees planted in the reservoir Reduce the hassle

As a vegetation purification water of the storage-linked rainwater management system according to an embodiment of the present invention, the structure of the ecological pond or the reservoir is made of loess so as to reduce the pH and reduce the rejection of the existing concrete structure.

Storage-type rainwater management system according to an embodiment of the present invention can reduce the amount of rainwater runoff because it can store the rainwater using the ecological pond or reservoir vegetation.

Storage-type rainwater management system according to an embodiment of the present invention is a vegetation purification water, because the ecological pond or the structure of the reservoir is provided as a prefabricated kit-type can be easily installed, reducing the constraints of the construction space and increase the transportability Can be.

1 is a view showing an example in which the storage linked rainwater management system according to an embodiment of the present invention is applied.
FIG. 2 is a partially cutaway perspective view illustrating a storage linked rainwater management system according to an embodiment of the present invention. FIG.
3 is a perspective view showing a part of the storage linked rainwater management system according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of a prefabricated kit-type vegetation purification channel of the storage linked rainwater management system according to an embodiment of the present invention.
5 is a perspective view illustrating a prefabricated block forming a prefabricated kit vegetation purification channel according to FIG. 4.
6 and 7 is a view showing a modification of the arrangement of the prefabricated kit-type vegetation purified water in accordance with an embodiment of the present invention.
FIG. 8 is a cross-sectional view showing the storage vegetation zone of the storage linked rainwater management system according to an embodiment of the present invention.
9 is a view showing the utilization of the storage-associated rainwater management system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described embodiments of the present invention; However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

1 is a view showing an example of a storage linked rainwater management system according to an embodiment of the present invention, Figure 2 is a partial cutaway perspective view showing a storage linked rainwater management system according to an embodiment of the present invention, 3 is a perspective view showing a part of the storage linked rainwater management system according to an embodiment of the present invention, Figure 4 is a prefabricated kit-type vegetation purification channel of the storage linked rainwater management system according to an embodiment of the present invention 5 is a perspective view illustrating a prefabricated block forming a prefabricated kit vegetation purification channel according to FIG. 4, and FIGS. 6 and 7 are variations of an arrangement of the prefabricated kit vegetation purification channel according to an embodiment of the present invention. 8 is a cross-sectional view showing a storage vegetation zone of the storage associated rainwater management system according to an embodiment of the present invention, Figure 9 is a storage associated rainwater management according to an embodiment of the present invention A diagram showing the utilization of system.

As shown in Figures 1 to 3, the storage linked rainwater management system 100 according to an embodiment of the present invention, including prefabricated kit-type vegetation purified water for purifying rainwater including at least one prefabricated block (102, 103) Located in contact with one side of the furnace 110 and the vegetation purification channel 110 may include a prefabricated kit-type rainwater storage vegetation 170 to store or penetrate the rainwater passing through the vegetation purification channel 110.

By constructing as described above, it can be used for the growth of planting by using rainwater precipitation in the multi-family housing complex, improve the landscape in the multi-family housing complex by using the ecological pond or rain garden construction, and the availability of rainwater in the multi-family housing complex It can be improved.

Here, the ecological pond 140 may be formed between the vegetation purification channel 110 and the storage vegetation zone 170. That is, the ecological pond 140 may be selectively installed as needed, and the ecological pond 140 may also be provided in a prefabricated or kit type. The ecological pond 140 may be referred to as a low management ecological pond utilizing rainwater purified and stored in the vegetation purification channel 110 to be described later.

Storage-type rainwater management system 100 according to an embodiment of the present invention may be installed in a multi-family housing complex or a common building complex, industrial building complex, and the like to collect or collect rainwater (excellent) by filtration or purification, It is a system that can be used for rain garden, planting various trees, cleaning roads, and supplying dry springs. The storage-linked rainwater management system 100 according to an embodiment of the present invention may be installed at an initial stage of constructing a multi-family complex, but may be installed by a post-construction work after the composition of the multi-family complex is completed. . System 100 according to an embodiment of the present invention can be provided in a prefabricated or kit type (kit) can reduce the time required for construction and is easy to transport and convenient construction as well as to ensure the safety of the operator It can help.

1 to 3, the storage-associated rainwater management system 100 according to an embodiment of the present invention is a prefabricated kit-type vegetation purification channel 110, the vegetation purification channel 110 to receive and clean the rainwater rain. Receiving rainwater purified by the storage and includes a prefabricated kit rainwater storage vegetation 170 to form a rain garden, between the vegetation purification channel 110 and the storage vegetation zone 170 is purified by the vegetation purification channel 110 Using the rainwater may further comprise an ecological pond (140).

It is preferable that the storage vegetation zone 170 is installed at a lower position than the vegetation purification channel 110 so that rainwater may naturally flow from the vegetation purification channel 110 to the storage vegetation zone 170. If there is an ecological pond 140, the ecological pond 140 is installed at a lower position than the vegetation purification channel 110, and the storage vegetation zone 170 is preferably installed at a lower position than the ecological pond 140. Do.

As shown in FIGS. 4 and 5, the prefabricated kit vegetation purification channel 110 includes at least one prefabricated block 102, 102, and the prefabricated block 102, 103 is gradually cascaded closer to the reservoir 170. It is preferably arranged to be lower. Vegetation purification channel 110 is preferably formed by arranging a plurality of prefabricated blocks (102, 103) so that rain water can be purified.

Here, the prefabricated blocks 102 and 103 may include a first side wall 104 and a second side wall 108 that are open at the top and face each other, and the lower end of the first side wall 104 and the upper end of the second side wall 108 may be provided. The bottom rainwater passage 105 and the top rainwater passage 106 may be formed, respectively. The upper part of the prefabricated blocks 102 and 103 is formed to be always open, but the lower part is preferably not opened as shown in FIGS. 2 and 4. That is, the prefabricated blocks 102 and 103 may have a substantially hollow hexahedron shape and may include an open upper part and a closed lower part.

The lower rainwater passing hole 105 may be formed at the lower end of the first side wall 104 facing each other among the sidewalls of the prefabricated blocks 102 and 103, and the upper rainwater passing hole 106 may be formed at the upper end of the second side wall 108. have.

Here, the prefabricated kit-type vegetation purification channel 110 has at least one or a plurality of consecutively arranged so that the bottom rainwater passage 105 of the neighboring prefabricated blocks 102 and 103 communicate with each other or the upper rainwater passage 106 is in communication with each other. Prefabricated blocks 102 and 103 may be included.

2 and 4, in arranging the plurality of prefabricated blocks 102 and 103 to form the vegetation purification channel 110, the incoming rainwater may flow into or out of the neighboring prefabricated blocks 102 and 103. The lower rainwater passages 105 are in communication with each other, and the upper rainwater passages 106 must be assembled with the prefabricated blocks 102 and 103 to communicate with each other.

Referring to FIG. 2, the vegetation purification channel 110 is formed by arranging four prefabricated blocks 102 and 103 in a row. The first prefabricated block and the second prefabricated block from the left side communicate with each other through the bottom rainwater passage 105. And, the second prefabricated block and the third prefabricated block, the upper rainwater passage 106 is in communication with each other, the third prefabricated block and the fourth prefabricated block is the four prefabricated blocks so that the bottom rainwater passage 105 is in communication with each other ( 102 and 103 are arranged in a line.

Meanwhile, rainwater existing relatively below the purified rainwater that fills the assembled blocks 102 and 103 of the vegetation purification waterway 110 flows into the neighboring building blocks 102 and 130 through the lower rainwater hole 105, Rainwater present in the upper portion is not only introduced into the neighboring prefabricated blocks (102,103) through the upper rainwater through hole 106, but also neighboring the prefabricated blocks (102,103) beyond the top of the first side wall and the second side walls (104,108). Rainwater may also enter the system.

For example, if the rainwater is flooded enough to overflow the first and second sidewalls 104,108 and the rainwater is sufficient to fill the prefabricated blocks 102,103, the rainwater is adjacent to the top of the first and second sidewalls 104,108. It may be introduced into the prefabricated blocks (102, 103). In this case, the upper rainwater passing hole 106 may be omitted.

As such, the prefabricated kit vegetation purification channel 110 is continuously disposed such that the bottom rainwater passages 105 of the neighboring prefabricated blocks 102 and 103 communicate with each other and gradually become lower toward the prefabricated kit rainwater storage tank 170. And may include a plurality of prefabricated blocks 102 and 103 disposed therein and the rainwater may flow into the assembled blocks 102 and 103 passing through the lower rainwater passing hole 105 or neighboring beyond the upper ends of the first or second sidewalls 104 and 108 Can be.

The plurality of the assembled blocks 102 and 103 arranged continuously so as to pass through the plurality of the assembled blocks 102 and 103 in which the inflow or the purified rainwater are successively arranged are arranged in a stepwise manner as they approach the vegetation storage bar 170 Should be. As such, the prefabricated kit-type vegetation purification channel 110 includes a plurality of prefabricated blocks 102 and 103 continuously arranged to gradually lower toward the prefabricated kit-type rainwater storage tank 170, even though the rainwater forced circulation means is not provided separately. Rainwater can be sent to the vegetation reservoir 170, and the degree of purification of rainwater can be increased by passing through a plurality of prefabricated blocks 102 and 103.

Meanwhile, the prefabricated blocks 102 and 103 may have different shapes or may have the same shape as the prefabricated block 102 disposed at both ends and the prefabricated block 103 disposed at the center.

In addition, the arrangement of the plurality of prefabricated blocks (102, 103) to form the vegetation purification channel 110 is not limited to the arrangement arranged in a line as shown in Figs. 2 and 4, the storage linked rainwater management system 100 ) May vary depending on the type of space to be installed, the landscape to be constructed, and the like. For example, as shown in FIG. 6, the plurality of prefabricated blocks 102 and 103 may be disposed in a "c" shape, or as shown in FIG. 7, the plurality of prefabricated blocks 102 and 103 may be arranged in a "a" shape. However, even if the prefabricated blocks 102 and 103 are arranged in any form, the bottom rainwater passage 105 should be able to communicate with each other.

In the prefabricated blocks 102 and 103 forming the prefabricated kit-type vegetation purification channel 110, a water purification filter 136 for purifying rainwater is provided, and a planting material is formed on the water purification filter 136. Can be.

The water purification filter 136 used in the vegetation purification channel 110 may include sand, soil, crushed stone, gravel, etc., and preferably has a small specific gravity and a large void.

The water purification filter 136 may select a suitable blending component in consideration of the growth of plants and microorganisms, and preferably includes a component that is advantageous for nutrient absorption by the plant. In addition, the water purification filter 136 may include a plant-based contact filter, the plant planted in the water purification filter 136 may be selected that the microorganisms that are beneficial for water purification can be attached to the root.

The water purification filter 136 of the vegetation purification channel 110 or the rainwater purified by the plant may be transferred to pass through the water purification filter 136 of the neighboring prefabricated blocks 102 and 103.

Vegetation purification channel 110 having a water purification filter 136 is not only ecologically imparting rainwater storage (storing and flowing) and water purification functions in the multi-family housing complex where the storage-associated rainwater management system 100 is constructed Vegetation purification channel can be formed considering landscape improvement and biotope.

Since the lower part or the lower part of the prefabricated blocks 102 and 103 forming the prefabricated kit-type vegetation water purification channel 110 is blocked, the purified rainwater cannot penetrate or penetrate underground and flow into neighboring prefabricated blocks 102 or 103, or There is no choice but to flow into the pond 140 or the reservoir vegetation 170.

Meanwhile, the rainwater purified by the prefabricated kit vegetation purification channel 110 may be introduced into the prefabricated kit rainwater storage tank 170 through the rainwater passing holes 105 and 106 or beyond the first and second side walls 104 and 108. Can be. Here, the prefabricated kit rainwater storage tank 170 may form a low-management rain garden with rainwater storage and purification functions.

2 and 8, the prefabricated kit rainwater storage tank 170 is opened at the top and bottom, the top of the side wall 173 in contact with the prefabricated kit vegetation purification channel 110 or ecological pond 140 is It may be provided at a position lower than the upper or upper rainwater through hole 106 of the sidewalls 104 and 108 of the prefabricated block 103 or at a position lower than the sidewall 141 of the ecological pond 140. As such, the top of the side wall 173 of the rainwater retention vegetation 170 is positioned lower than the top of the sidewalls 104 and 108 of the vegetation purification channel 110 or the upper rainwater passing hole 106 to purify the vegetation purification channel 110. Rainwater may be introduced into the reservoir vegetation 170, and rainwater stored in the ecological pond 140 is located lower than the top of the sidewall 141 of the ecological pond 140. It can be smoothly introduced into the reservoir vegetation 170. That is, by gradually installing the vegetation purification channel 110, the ecological pond 140, the storage vegetation zone 170 in the order of the rainwater can flow as a whole without a separate rainwater circulation means.

Unlike the prefabricated kit vegetation purification channel 110, the prefabricated kit rainwater storage vegetation 170 may be formed in an open top and bottom.

On the other hand, the top 175 of the side wall 173 of the prefabricated kit rainwater storage tank 170 so that rainwater contained in the soil layer 181 or the storage permeation layer 186 to be described later can flow over the side wall 173. A plurality of steps 176 may be formed. Here, the lower end of the step 176 may be formed lower than the upper rainwater through hole 106 of the prefabricated blocks 102 and 103 or the upper end of the first side wall and the second side wall 104 and 108. When the ecological pond 140 is present, it is preferable that the lower end of the step 176 is lower than the upper end of the side wall 141 of the ecological pond 140.

Here, the width of the step 176 does not allow the plants of the vegetation purification channel 110 or the ecological pond 140 to enter the storage vegetation zone 170, the plant of the storage vegetation zone 170 does not escape the storage vegetation zone 170 It is preferable to have the size of.

However, the step 176 may be omitted as necessary. That is, the step 176 may or may not be formed on the upper end 175 of the sidewall 173 of the prefabricated kit rainwater reservoir 170.

The storage penetrating layer 186 may be formed in the prefabricated kit rainwater storage tank 170, and a soil layer 181 including a water purification filter may be formed on the storage penetrating layer 186. The storage permeation layer 186 preferably includes components that can maximize the amount of storage. To this end, the reservoir permeation layer 186 may include at least one of gravel, circulating aggregate or porous blast furnace slag aggregate. Recycled aggregate has a water absorption rate of 1 ~ 5% higher than that of natural aggregate. Porous blast-furnace slag aggregate has a high water absorption rate due to the presence of air bubbles inside it, and its absorption rate is 3 ~ 4% higher than natural aggregate. have. The reservoir permeation layer 186 not only stores rainwater but also penetrates into the basement to increase groundwater or may be supplied to dry water.

As shown in FIG. 8, a storage tank 190 may be provided at a lower end of the storage vegetation zone 170. Storage tank 190 may be installed to communicate with the open lower portion of the storage vegetation 170.

The storage tank 190 is preferably formed to correspond to about half the size of the open bottom of the storage vegetation 170, rather than to correspond to the overall size of the open bottom of the storage vegetation 170. The storage tank 190 may be formed in a smaller size than the prefabricated kit rainwater reservoir 170 and may be provided at the bottom of the prefabricated kit rainwater reservoir 170.

As such, by forming the storage tank 190 to correspond to a part of the storage vegetation zone 170, some of the rainwater passing through the storage vegetation zone 170 may just penetrate underground or some may be collected in the storage tank 190. Passed through the water purification filter 136 of the vegetation purification channel 110 and passed through the soil layer 181 and the storage infiltration layer 186 of the reservoir vegetation 170, so that some of the infiltration into the base And some may be collected in a reservoir 190 and then recycled.

Rainwater collected in the storage tank 190 may be supplied to the vegetation purification channel 110 by rainwater circulation means (not shown) such as a pump (see arrow WC of FIG. 8). For example, when rain does not fall, rainwater collected in the storage tank 190 may be supplied to the vegetation purification channel 110 to circulate the purified rainwater. Rainwater supplied to the vegetation purification channel 110 by a pump or the like from the storage tank 190 is the prefabricated block 102 existing at the outermost or most end of the assembly blocks 102 and 103 forming the prefabricated kit-type vegetation purification channel 110. The rainwater supply pipe 101 may be supplied or introduced.

In addition, the rainwater collected in the storage tank 190 may be used for various purposes, such as cleaning the road, a multi-family housing complex with the storage linked rainwater management system 100 is installed.

Like the prefabricated kit-type vegetation purification channel 110, the rainwater storage vegetation zone 170 can also be constructed in a prefabricated manner, it can be formed by post-work by concrete pouring at the construction site.

Meanwhile, as described above, the assembled ecological pond 140 may be formed between the vegetation purification channel 110 and the storage vegetation zone 170 in which rainwater passing through the vegetation purification channel 110 is introduced or stored. The ecological pond 140 includes a base layer 156 provided inside the side wall 141 forming an open top and bottom and rainwater 151 stored on top of the base layer 156, and an upper end of the side wall 141 It may be formed lower than the upper rainwater through hole 106 of the prefabricated block (102,103) or the upper end of the first side wall and the second side wall (104, 108). Here, the lower end of the ecological pond 140 is preferably formed in a blocked state.

At least one of the vegetation purification channel 110, the storage vegetation zone 170, or the ecological pond 140 may be formed of loess or may include an ocher component. At least one of the vegetation purification channel 110, the storage vegetation zone 170 or the ecological pond 140 is formed to include the ocher component, it is possible to prevent the rejection of the use of concrete or the environment-friendly landscape is impaired, Far-infrared rays from ocher can be used to improve the quality of rainwater or to promote planting.

As described above, the storage-associated rainwater management system 100 according to an embodiment of the present invention is a vegetation purification channel 110, the ecological pond 140 or the storage vegetation zone 170 to purify the rainwater as well as to store Therefore, the stored rainwater can be utilized for various purposes such as landscaping water and cleaning water. In addition, by penetrating a portion of the stored rainwater underground, it is possible to prevent the depletion of groundwater or rivers, and also to prevent the heat island phenomenon of the city.

As shown in FIG. 9, the storage-associated rainwater management system 100 according to an exemplary embodiment of the present invention may use rainwater in a storage vegetation zone 170 or a rain garden composition, and may have been purged into or stored underground. Rainwater can be sent to rivers and can be applied to construct urban waterways (not shown) to supply stored rainwater to rivers.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, 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 invention as defined by the appended claims. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: storage linked rainwater management system
102, 103: prefabricated blocks 104, 108: side walls
105, 106: rainwater passage 110: vegetation purification water
136: water purification filter 140: ecological pond
141: pond sidewall 156: base layer
170: reservoir vegetation 172, 173: side wall
175: top 176: step
181: soil layer 186: reservoir penetration layer

Claims (14)

Prefabricated kit vegetation water purification to purify the rain water, including at least one prefabricated block; And
It is located to be connected to one side of the vegetation purification channel, prefabricated kit-type rainwater storage vegetation for storing the rainwater passing through the vegetation purification channel or penetrates into the base;
The prefabricated kit rainwater reservoir is provided at a lower position with the prefabricated kit vegetation purified water,
A storage tank for collecting rainwater is formed at the bottom of the prefabricated kit rainwater reservoir, and the rainwater stored in the storage tank is formed to be forcibly supplied to the prefabricated kit vegetation purification channel.
The method of claim 1,
The prefabricated block includes a first side wall and a second side wall of which the top or bottom is open and facing each other,
Lower rainwater through holes and upper rainwater through holes are formed at the lower end of the first side wall and the upper end of the second side wall, respectively.
The prefabricated kit-type vegetation purification channel includes a plurality of the prefabricated blocks continuously arranged such that the lower rainwater passages of the neighboring prefabricated blocks communicate with each other or the upper rainwater passages communicate with each other.
The method of claim 1,
The prefabricated block includes a first side wall and a second side wall of which the top or bottom is open and facing each other,
A lower rainwater passing hole is formed at the lower end of the first side wall,
The prefabricated kit vegetation purification channel includes a plurality of the prefabricated blocks continuously arranged such that the lower rainwater passing holes of neighboring prefabricated blocks communicate with each other and gradually lower toward the prefabricated kit rainwater reservoir.
Storage-type rainwater management system, the rainwater is introduced into the neighboring prefabricated block passing through the lower rainwater passing hole or over the top of the first side wall and the second side wall.
The method of claim 2,
The prefabricated kit vegetation purification channel includes a plurality of the prefabricated blocks arranged in series so as to be gradually lowered toward the prefab kit rainwater reservoir.
5. The method of claim 4,
Inside the prefabricated block is a storage associated rainwater management system that is provided with a water purification filter for purifying rainwater or planting.
The method of claim 5,
Rainwater purified by the water purification media is formed to pass through the water purification media of the neighboring prefabricated block, the storage linked rainwater management system.
The method according to any one of claims 2 to 6,
The prefabricated kit rainwater reservoir is open at the top and bottom, and the top of the side wall contacting the prefabricated kit vegetation water purification channel is provided at a lower position than the top or top rainwater passage of the prefabricated block, the storage linked rainwater management system.
delete The method of claim 7, wherein
The storage tank is formed in a smaller size than the prefabricated kit rainwater reservoir, and is provided under the prefabricated kit rainwater reservoir.
10. The method of claim 9,
Inside the prefabricated kit-type rainwater reservoir, a reservoir permeation layer is formed, and a soil layer including a water purification filter is formed on the reservoir permeation layer.
The storage penetrating layer comprises at least one of gravel, recycled aggregates or porous blast furnace slag aggregate, storage linked rainwater management system.
delete The method of claim 10,
Storage-type rainwater management system, the rainwater supply pipe for the inflow of rainwater supplied from the storage tank is formed on the prefabricated block existing at the end of the prefabricated block to form the prefabricated kit-type vegetation purification channel.
The method of claim 7, wherein
An assembled ecological pond is formed between the vegetation purification channel and the storage vegetation zone in which rainwater passing through the vegetation purification channel is introduced or stored.
The ecological pond includes a base layer provided inside a sidewall forming an open top and bottom, and rainwater stored on top of the base layer,
An upper end of the side wall is formed to be lower than the upper rain through hole of the prefabricated block or the upper end of the first side wall and the second side wall.
The method of claim 13,
As the vegetation purification water, at least one of the reservoir vegetation zone or the ecological pond comprises loess, storage associated rainwater management system.

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