KR102117123B1 - Sluice gates with the medulla purification function of the river and thereof construction method - Google Patents

Abstract

The present invention relates to an underwater embankment having a river water quality purification function and a construction method thereof. The underwater embankment comprises: a lower support part opened upwards, and arranged at a predetermined distance across a river while being buried in the bed of the river to a predetermined depth by filling the inside of a first water quality purification vegetation block forming a plurality of vegetation holes on four lateral sides with a water quality purification material; an upper partition part filling the upper part of the water quality purification material filling the inside to a predetermined height with hydroponic vegetation soil, and enabling a second water quality purification vegetation block enabling the vegetation of plants to be vegetated in the vegetation holes in the lateral side and upper part of the hydroponic vegetation soil to be stacked while coming in surface contact with the upper part of the first water quality purification vegetation blocks of the lower support part; a block spacing part enabling a third water quality purification vegetation block to be arranged behind the first water quality purification vegetation blocks of the lower support part; a water level determination block part determining a management water level for the river by forming fourth water quality purification vegetation blocks filled with a water quality purification material and hydroponic vegetation soil to enable the vegetation of plants behind the block spacing part at a height which is equal to or higher than the third water quality purification vegetation block; a water quality purification trap part in which a plurality of lines of fifth water quality purification vegetation blocks filled with a water quality purification material and hydroponic vegetation soil to enable the vegetation of plants are arranged behind the fourth water quality purification vegetation blocks at a gradually lower height; and a pumping part forming some of the fifth water quality purification vegetation blocks of the water quality purification trap part as an empty space, and including a pump provided in the space to transfer river water, flowing through the inside, upstream by pumping the river water.

Description

{Sluice gates with the medulla purification function of the river and its construction method}

The present invention relates to an underwater beam having a water quality purification function of a river and a construction method thereof, and more specifically, to ensure a flow rate and water quality purification of a river by using a water quality vegetation block that is smooth to store water while allowing low-level water to be discharged. The present invention relates to an underwater beam having a function of purifying water quality of a stream and a construction method thereof to continuously supply and circulate the purified stream water made to the downstream or upstream need.

In general, human beings and all living creatures need water to live their lives, and such water is used for various purposes such as drinking water, agricultural water, and industrial water.

In order to use this water more efficiently, dams and underwater beams are usually used for fresh water, but most of them are installed without considering the effect on the environment, resulting in side effects such as water pollution and destruction of the underwater ecosystem. have.

Underwater beam maintains a certain quantity of water without being discharged as it is, and when more water flows in, such as in the case of a flood, it flows out by natural flooding to keep the water stable so that it can be used as water for various purposes while controlling the quantity. It is a structure that is installed for stable quantity management.

Underwater beams are provided with a structure that has a gate that can be opened and closed to artificially control the amount of water, such as a dam, or by opening a part of the beam so that the minimum amount of water is always discharged while a certain amount of water is stored while the amount of water is continuously maintained. In some cases, when water flows in, it may be provided in a configuration that overflows beyond the top of the beam and overflows.

While installing underwater beams in rivers, there is an effect that meets its unique installation purpose, while various attempts have been made to do so because sediments accumulate and water quality deteriorates.

In the registered patent No. 0576063 (underwater beam with a built-in water purification device), water purification is performed by microorganisms and aquatic plants, and adsorption is performed by gravel and sand to continuously purify rivers. I have suggested it.

That is, in the prior art, a plurality of microbial rollers are rotatably installed between two fixing brackets that are slidingly inserted into the body to lay pebbles on the lower part of the inner space, to stack sand on the pebbles, and to form multiple outlets at the bottom of the front. It is a configuration that allows a plurality of underwater beams to be installed to be provided as a vegetation network that allows aquatic plants to grow by fixing a net in a frame while simultaneously providing a microbial roller plate.

However, the underwater beam of the prior art is not only applicable to a river with a small amount of water, but also has to be provided with a microbial roller and aquatic plants inside, making the underwater beam very difficult and purifying only a small amount of water passing through the underwater beam There is a limit that can not prevent eutrophication and deterioration of water quality in the upper part of the underwater compensation, and there is a problem that maintenance of these microbial rollers and aquatic plants is not easy.

(Literature) Registered Patent No. 0576063 (2006.04.26.)

Accordingly, the present invention is to solve and improve the above-mentioned problems, and the present invention continuously flows river water passing through a water-purifying vegetation block that forms a plurality of planting holes on the outer circumferential surface while allowing a certain amount of filtering material to be filled therein. The main purpose is to provide underwater beams having a function of purifying water quality of a river and a construction method thereof.

In addition, the present invention purifies the water quality at the top of the underwater beam by supplying the purified water to the desired location while allowing the stream water to be purified while pumping through the underwater beam to the upper part of the underwater beam by pumping it. There is another object to provide a water beam having a water purification function and a construction method thereof.

To achieve the above object, the underwater beam having the water purification function of the river according to the present invention is opened upward, and the water purification material is filled in the first water purification vegetation block that forms a plurality of planting holes on all sides. A lower support portion arranged to be spaced at a predetermined depth while being buried at the bottom of the river to be spaced apart from the river; Filling the hydroponic vegetation soil with the top of the water purification material filled with a certain height therein, and the first water quality of the second water purification vegetation block with a second water quality purification vegetation block having the vegetation plants planted in the planting hole on the side together with the top filled with the hydroponic vegetation soil The second water-purifying vegetation blocks are stacked on top of the purified vegetation blocks, and the upper partition walls are arranged to be in close contact with each other; The third water purification vegetation block filled with water purification plants and hydroponic vegetation in the rear of the first water purification vegetation blocks of the lower support portion is farther than the distance separated between the first water purification vegetation blocks. A block spacer arranged to be spaced apart; The fourth water purification vegetation blocks filled with water purification material and hydroponic vegetation inside are planted so that vegetation plants are planted at a height equal to or higher than that of the third water purification vegetation block at the rear of the block, and arranged to closely adhere to the sides. A water level determination block unit for determining the operating level of the river by doing so; A fifth water purification vegetation block that is filled with water purification material and hydroponic vegetation soil inside to form a vegetation plant is formed as a lower height from the rear of the fourth water purification vegetation block, and arranged so that the height gradually decreases in a plurality of rows to the rear. Water purification trap portion; Some of the fifth water purification vegetation blocks of the water purification trap part are to be formed as an empty space, and to be made as a pumping part to pump the stream passing through the inside to be pumped to be provided upstream.

The lower support portion and the upper partition wall portion are formed in two rows before and after.

The second water purification vegetation block of the upper partition wall portion is such that the height of the upper portion is not smaller than the flood level.

The block separation portion is filled with water purification material between the third water purification vegetation blocks spaced apart from each other.

The fifth water purification vegetation blocks provided in a plurality of rows of the water purification trap portion are in close contact with each other in the lateral direction and the anteroposterior direction.

In addition, the underwater beam construction method having a water purification function of the river of the present invention is opened upward, and the water purification material is filled in the water purification plant blocks that form a plurality of planting holes on all sides so that the water purification material is filled first. Forming a lower pedestal by arranging water purification vegetation blocks at a predetermined depth across the stream while being arranged at a predetermined depth across the stream; Filling the hydroponic vegetation soil with the top of the water purification material filled with a certain height inside, and the second water purification vegetation blocks prepared in plural by making vegetation plants planted in the planting hole on the side together with the top of the hydroponic vegetation, the first portion of the lower support part Forming an upper partition wall by stacking the water-purifying vegetation blocks while being in close contact with each other from the top; From the rear of the first support water purification vegetation blocks, a third water purification plant vegetation block filled with water purification plants and hydroponic vegetation soil is placed at a distance greater than the separation distance between the first water purification plant vegetation blocks. Forming a spaced block by being spaced apart; The fourth water purification vegetation blocks that are filled with water purification material and hydroponic vegetation soil therein so that vegetation plants are planted are arranged so as to be in close contact with the sides at a height equal to or higher than the third water purification vegetation block at the rear of the block separation portion. Forming a crystal block portion; A fifth water purification vegetation block that is filled with water purification material and hydroponic vegetation soil inside to form a vegetation plant is formed as a lower height from the rear of the fourth water purification vegetation block, and arranged so that the height gradually decreases in a plurality of rows to the rear. Forming a water purification trap portion; Some of the fifth water purification vegetation blocks are empty so that the inside is empty so that the pump is embedded in the inner space to form a pumping portion, so that construction is performed.

In the step, the water purification material is filled between the third water purification vegetation blocks spaced apart from each other in the block separation portion.

The vegetation plants planted in the second water purification vegetation block, the third water purification vegetation block, the fourth water purification vegetation block, and the fifth water purification plant vegetation block are made of aquatic plants.

The water beam having the function of purifying the water quality of the river according to the above configuration and the water purification vegetation block already produced by the construction method are moved to be installed in the river so that the construction can be performed very quickly and easily.

In addition, the present invention has the convenience of being able to use river purification and purified water for various purposes by allowing water treatment to be performed simultaneously with the function of water and flood control.

In particular, the present invention enables stable natural vegetation plants to grow in the river, thereby protecting the natural landscape more environmentally friendly.

1 is a side cross-sectional view illustrating an underwater beam having a water purification function of a river according to the present invention
Figure 2 is a front view illustrating the configuration of the lower support portion and the upper partition of the underwater beam having a water purification function of the river according to the present invention
Figure 3 is an enlarged side sectional view of the main portion illustrating another embodiment of the lower support portion and the upper partition wall portion in an underwater beam having a water purification function of a river according to the present invention
Figure 4 is an enlarged plan view illustrating a configuration in which a water purification material is filled in a block space in an underwater beam having a water purification function of a river according to the present invention
5 is a plan view illustrating a configuration of forming a water level determining block in an underwater beam having a water purification function of a river according to the present invention
Figure 6 is a plan view illustrating the configuration of forming a water purification trap portion in an underwater beam having a water purification function of the river according to the present invention
7 is a block diagram sequentially illustrating a construction method of an underwater beam having a water purification function of a river according to the present invention
8 is an operational state diagram of an underwater beam having a water purification function of a river according to the present invention

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice.

The scope of the present invention should not be interpreted as being limited by the embodiments described in the text.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the embodiment, the same reference numerals are assigned to the same components, and the description of the same reference numerals is omitted in some cases.

1 is a side cross-sectional view illustrating an underwater beam having a water purification function of a river according to the present invention, and FIG. 2 is a view illustrating a configuration of forming a lower support portion and an upper partition wall of an underwater beam having a water purification function of a river according to the present invention. It is a front view.

As illustrated, the underwater beam construction structure having a river purification function of the present invention is largely composed of a lower support portion 10, an upper partition portion 20, a block separation portion 30, a water level determination block portion 40, and a water purification trap portion. It consists of 50 and the pumping part 60.

In the configuration of the present invention, the lower support portion 10, the upper partition wall portion 20, the block separation portion 30, the water level determination block portion 40, the water purification trap portion 50, and the pumping portion 60 are respectively upward. The water-purifying vegetation block, which is an open, and formed concrete forming block that forms a plurality of planting holes on all sides, is commonly used.

Therefore, the lower support portion 10 of the present invention is a predetermined distance across the river by a certain depth to be embedded in the bottom of the first water purification vegetation block 11 to fill only the water purification material inside the water purification vegetation block It is configured to be spaced apart.

It is more preferable that the lower support portion 10 is formed to have a height that can be submerged in water, while also protruding from the bottom of the river to a height that can be submerged in water, while being fixed to the middle of the river bottom.

The lower support portion 10 is formed in a shape that crosses the river, but is arranged while being spaced apart at various intervals between the sides of the first water purification vegetation block 11.

Therefore, the first water purification vegetation block 11 of the lower support portion 10 is to be spaced apart at regular intervals from the first water purification vegetation block 11 adjacent from the outside while allowing one or two of the first water purification vegetation blocks to be in close contact with each other. However, it is more preferable that the spacing between the first water purification vegetation blocks 11 is not greater than the length between both sides of the first water purification vegetation blocks 11.

An upper partition wall portion 20 is formed on the lower supporting portion 10 by stacking a second water purification vegetation block 21 on top of the first water purification vegetation blocks 11.

The upper partition wall portion 20 is configured by the arrangement of the second water purification vegetation blocks 21, and the second water purification vegetation block 21 is a water purification plant having a predetermined height inside the water purification plant vegetation block, which is a concrete forming block. Is filled, and the top of the water purification plant is filled with hydroponic vegetation soil, and the vegetation plants are respectively planted in the planting holes formed on the side of the block together with the top of the hydroponic vegetation soil.

The upper partition wall portion 20 is provided with a plurality of such second water purification vegetation blocks 21 to be stacked on top of the first water purification vegetation block 11 of the lower support portion 10, but the upper partition wall portion ( The second water purification vegetation blocks 21 of 20) are in close contact with each other in the direction across the river.

Therefore, the flow of river water is prevented through between the second water purification vegetation blocks 21 of the upper partition wall 20, and the second water purification through the planting holes formed in the second water purification vegetation blocks 21 River water flows only through a space spaced between the first water purification vegetation blocks 11 of the lower support portion 10 while penetrating through the vegetation blocks 21.

It is most preferable that the upper partition wall portion 20 is positioned such that the height of the upper end portion is higher than the flood level of the river to prevent overflow of the river water.

The lower support portion 10 and the upper partition wall portion 20 formed to be stacked thereon are formed in two rows in the front-rear direction as shown in FIG. 3, so that the installation state can be maintained robustly against the flow pressure of the river water. It is more preferable.

In addition, depending on the water level of the river, the lower support portion 10 and the upper partition wall portion 20 may be formed in a configuration in which two or more layers are stacked.

That is, when the river water level is high, the lower support portion 10 is formed in two layers, and the upper partition wall portion 20 is formed on the upper portion or the lower support portion 10 is formed as one layer, and the upper partition wall portion is formed on the upper portion. (20) can also be made to be laminated in two layers.

A block separation portion 30 made of a third water purification vegetation block 31 is formed behind the lower support portion 10 provided in the lower portion of the upper partition wall portion 20.

The third water purification vegetation block 31 of the block separation portion 30, like the second water purification vegetation block 21, fills the hydroponic vegetation soil with a water purification material inside the water purification vegetation block, and the upper part of the water vegetation soil Plant vegetation in the vegetation hole on the side of the block.

However, in the block separation portion 30 of the present invention, the third water purification vegetation block 31 is formed between spaces spaced apart from the side surfaces of the first water purification vegetation blocks 11 so that a certain distance across the river is established. It should be formed while being separated.

That is, the block spacer 30 is a space to collect a certain quantity of river water passing through the lower pedestal 10, and in this space, the third water purification vegetation block 31 is spaced at a predetermined distance as shown in FIG. While forming, the water purification material F may be filled with the height of the third water purification vegetation block 31 between the third water purification vegetation blocks 31.

On the other hand, the third water purification vegetation block 31 of the block spacer 30 is most preferably such that the upper end is formed as the height at which the bottom layer of the river flows.

Therefore, the third water purification vegetation block 31 of the block separation portion 30 is the first water purification by placing the upper end portion above the first water purification vegetation block 11 on the lower support portion 10 side of the front. The low-level water containing sludges of the rivers passing between the vegetation blocks 11 flows so that sludge does not naturally stack.

5, the water purification agent and the hydroponic vegetation soil are filled with the same structure as the third water purification vegetation block 31 as shown in FIG. Like the second water purification vegetation block 21 of the upper partition wall portion 20, the water level determination block portion 40 is formed while allowing the surface to be closely adhered to each other across the river.

The water level determination block unit 40 is configured to determine the level of the river, and the height of the upper end of the fourth water purification vegetation blocks 41 forming the water level determination block unit 40 forms a substantial river level.

At this time, the height of the fourth water purification vegetation block 41 is to be formed equal to or higher than the third water purification vegetation block 31 in the front, but to be formed lower than the height of the upper portion of the second water purification vegetation block 21. The river leading to the block separation section 30 is to allow the upper end of the fourth water purification vegetation block 41 to flow.

Therefore, the river maintains the water level at least up to the height of the upper portion of the fourth water purification vegetation block 41, and the second water purification vegetation block 21 of the upper partition wall 20 even if the water volume suddenly increases due to flooding or the like. To maintain the water level only up to the height of the second water purification vegetation block 21 from the upper end of the fourth water purification vegetation block 41, so that the water level control of the river can be made naturally.

However, since the water level determination block part 40 also flows through the planting hole formed in the fourth water purification vegetation block 41, the water level determined by the water level determination block part 40 is substantially the same. More water than the water level filling up to the height of the upper end of the fourth water purification vegetation block 41 is simply passed through.

6, the fifth water purification vegetation block is filled with a water purification agent and hydroponic vegetation soil in the same configuration as the fourth water purification vegetation block 41, as shown in FIG. A water purification trap portion 50 made of 51 is provided.

The water purification trap portion 50 is filled by arranging the fifth water purification vegetation blocks 51 to be in close contact with each other before and after the surface of the water level determination block portion 40 over a predetermined area of the river. 5 Water Purification Through the vegetation blocks (51), the actual water quality of the river can be purified.

In the water purification trap portion 50, the fifth water purification vegetation block 51 is in close contact with the back of the fourth water purification vegetation block 41, and the fifth water purification vegetation block 51 is a fourth water purification vegetation block ( 41) to be provided with the same or lower height, the fifth water purification vegetation blocks 51 arranged in plural from the rear to be formed to gradually decrease in height to the rear.

The water purification trap unit 50 allows the river to flow through the upper surface of the fifth water purification plant blocks 51 in which the number of rivers that flows through the fourth water purification plant block 41 of the water level determination block unit 40 is stepped. do.

The water purification trap portion 50 is formed such that the fifth water purification vegetation blocks 51 formed in the rear are formed in 3 to 6 rows in the rear, but are not limited thereto.

On the other hand, river water purified through the water purification trap unit 50 is required by pumping in the pumping unit 60 formed in some of the fifth water purification vegetation blocks 51 of the water purification trap unit 50 Make sure to send it to the place where

That is, the pumping unit 60 of the present invention is configured to allow the stream water to be purified to be pushed to a desired place while passing through the water purification trap unit 50. For this purpose, the pumping unit 60 uses the pump 61 In this case, the pump 61 is such that some of the fifth water purification vegetation blocks 51 of the water purification trap part 50 are empty and provided therein, as in the embodiment of the present invention. The upper part is covered so that it can be opened and closed.

When a pump 51 is provided inside the fifth water purification vegetation block 51 in this way, the fifth water purification with the stream 61 purified by the neighboring fifth water purification vegetation blocks 51 is provided. Since it flows into the vegetation block 51, it is possible to stably pump the purified river water and send it to a place where it is needed.

In this way, the pumped stream water is pushed to the upper part of the stream to be used for purification of the stream, and in addition, it may be supplied to an appeal close to the stream, various facilities, or a water well prepared for drought.

On the other hand, the construction method of the underwater beam having a river purification function according to the present invention will be described sequentially.

According to the present invention, one side of the river is first constructed while allowing water to flow to the other side, and when the construction of one side is completed, the stream can flow to one side where the construction is completed, so that the construction can be performed in a manner of constructing the other side. , Unlike this, it is also possible to simultaneously construct a water barrier and underwater beam from one side to the other.

At this time, for the construction of the present invention, first, it is opened upward, and a plurality of planting holes are formed on the sides of all directions, and a water-purifying vegetation block having an empty shape is prepared in a number proportional to the area to be constructed.

7 is a block diagram sequentially illustrating a construction method of an underwater beam having a water purification function of a river according to the present invention, and FIG. 8 is an operational state diagram of an underwater beam having a water purification function of a river according to the present invention.

As illustrated, the underwater beam construction method of the present invention forms the first water purification vegetation blocks 11 by filling the interior space as a water purification material, and these first water purification vegetation blocks 11 have a constant bottom at the bottom of the river. While being buried to the depth to be formed in a shape that crosses the river in the width direction, the lower support portion 10 is formed by being arranged with a predetermined distance between the first water purification vegetation blocks 11 in the width direction of the river.

At this time, the separation distance between the first water purification vegetation blocks 11 is not greater than the length between both sides of the first water purification vegetation blocks 11, and it is buried at the bottom of the river with a sufficient depth so that a solid fixed state can be maintained. .

When the lower pedestal 10 is formed by the first water purification vegetation blocks 11, the water purification plant is filled with a certain height therein, and then the hydroponic vegetation soil is filled with the upper portion of the hydroponic vegetation soil. The second water purification vegetation block 21 in which vegetation plants are planted is stacked on top of the first water purification vegetation block 11.

At this time, while the second water purification vegetation block 21 is stacked on top of the first water purification vegetation block 11, the second water purification vegetation blocks 21 are mutually close to each other in the direction crossing the river so that the upper partition wall portion (20) is formed.

In this way, the upper partition wall portion 20 is stacked on the upper portion of the lower support portion 10 so that the river water is formed at a height that cannot flow even in the event of a flood.

The lower support portion 10 and the upper partition wall portion 20 formed of a laminated structure are more preferably formed to be in close contact from the rear to be formed in two rows so that the installation structure can be sufficiently maintained even at a reasonable flow rate of stream water flowing through the river.

In the lower support portion 10 made of the first water purification vegetation block 11, a block separation portion 30 is formed rearward.

The block separating part 30 is such that the second water purification vegetation block 20 is filled with water purification material to a certain height inside, and then filled with hydroponic vegetation soil to the top thereof, vegetation plants in the planting holes on the top and side of the hydroponic vegetation soil The distance between the third water purification vegetation blocks 31 while allowing the third water purification vegetation block 31 to be planted to be provided in close contact with the rear surface of the first water purification vegetation block 11 is the first water purification vegetation block 11 ) To be located at a longer distance than the distance spaced apart from each other, thereby forming a space for collecting the low-level water flowing to the bottom layer of the river.

At this time, it is preferable that the water purification material is filled between the third water purification vegetation blocks 31, and the height of the upper end of the third water purification vegetation block 31 and the water purification plant is the upper end of the first water purification vegetation block 11 It is more preferable to make a part of the bottom of the stream be buried so that the upper end is positioned higher than the height.

When the bottom water of the river is introduced between the third water purification vegetation blocks 31, sludge at the bottom of the river is also introduced at the same time.

After forming a space in which low-floor water is introduced by the block separation portion 30, the third water purification vegetation block 31 of the block separation portion 30 has a second water purification vegetation block on the upper partition wall 20 side toward the rear side. As in 21), after the water purification material is filled with a certain height therein, the hydroponic vegetation soil is filled with the upper portion thereof, and the fourth water purification vegetation block 41 is made so that vegetation plants are planted in the planting holes on the upper and side surfaces of the hydroponic vegetation soil. ) To form close contact between the sides to form the water level determining block 40.

At this time, the fourth water purification vegetation block 41 in the water level determination block part 40 flows into the block separation part 30 by making the upper water level equal to or higher than the third water purification vegetation block 31. Make sure that the level of the river water can be maintained at a constant height.

The fourth water purification vegetation block 41 of the water level determination block part 40 is a low layer water flowing through the first water purification vegetation blocks 11 of the lower support part 10 from the lower part of the upper partition part 20. A stream wall is formed to flow through the upper portion while allowing the river water containing to be filled up to the water level in the upper portion.

Therefore, the water level determination block unit 40 simultaneously flows through the upper portion of the sludge at the bottom of the river along with the low-floor water, and simultaneously flows through the upper portion while forming the fourth water purification vegetation blocks 41 of the water level determination block unit 40. As it penetrates through the hole, the low-rise water is continuously purified.

At the rear of the water level determining block 40, a water purification plant is filled with a certain height therein as in the fourth water purification vegetation block 41, and then a hydroponic vegetation soil is filled with an upper portion of the hydroponic vegetation soil. The water purification trap portion 50 made of the fifth water purification vegetation blocks 51 in which the vegetation plants are planted is formed.

The water purification trap portion 50 is filled with the fifth water purification vegetation block 51 at a certain area from the rear of the water level determination block 40 of the river, while the fifth water purification vegetation blocks 51 are front and back and both sides. While mutually close to each other, it is to be formed in a plurality of rows backward.

In this way, the water purification trap portion 50 gradually lowers the height of the upper portion from the fifth water purification vegetation block 51 that is in close contact with the back of the fourth water purification vegetation blocks 41 of the water level determination block portion 40. As a result, a downward step is formed between the upper ends of the hot fifth water purification vegetation block 51.

The fifth water purification vegetation blocks 51 are used to pump some of the fifth water purification vegetation blocks 51 inside the water purification trap portion 50, and a pump 61 is built in the pumping part. (60) is to be provided.

That is, the pumping unit 60 allows the pump 61 to be accommodated therein while some of the fifth water purification vegetation blocks 51 are emptied inside, and the upper part is covered to be openable and closed through the planting hole on the side. It is to be pumped by the pump 61, the purified stream water flowing in to be pushed to a desired place.

However, the upper end of the fifth water purification vegetation block 51 forming the pumping part 60 is opened and closed to prevent the sludge flowing with low-floor water from flowing into the inside to more stably manage the pump 61. Make it possible.

The purified stream water forcedly pumped by the pump 61 is supplied to the upstream of the stream, so that the water quality of the entire stream can be improved while mixing with the purified stream water continuously from the upstream.

In addition, through the water purification trap portion 50 of the present invention, the sludge at the bottom of the river along with the low-rise water is also prevented and prevented from eutrophication of the river due to sedimentation of sludge while overflowing and purifying the water, and each water purification vegetation block 11 , 21, 31, 41, 51) to supply purified river water as appeal or other various waters, thereby allowing more efficient water management by recycling unnecessarily discarded water.

Above all, the present invention is simply required to install the pre-prepared water purification vegetation blocks 11, 21, 31, 41, 51 at a desired location, so it is not only very easy to construct, but also can significantly shorten the construction cost. The savings can provide very economical benefits.

In particular, the water-purifying vegetation block of the present invention has an effect of providing a more beautiful landscape because the vegetation plants are planted so that the surrounding landscape can be made more environmentally friendly with water purification.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and modifications can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

10: lower support
11: 1st water purification vegetation block
20: upper partition wall
21: 2nd water purification vegetation block
30: block separation
31: 3rd water purification vegetation block
40: water level determination block unit
41: 4th water purification vegetation block
50: water purification trap unit
51: 5th water purification vegetation block
60: pumping unit
61: pump

Claims (8)

Opened upward, and arranged on the side of each side so that the water purification material is filled in the interior of the first water purification vegetation block forming a plurality of planting holes, so that it is buried at a certain depth at the bottom of the river, and is spaced apart from each other across the river. Lower base;
Filling the hydroponic vegetation soil with the top of the water purification material filled with a certain height inside, and the first water quality of the second water purification vegetation block with a second water quality purification vegetation block in which the vegetation plants are planted in the planting hole on the side with the top filled with the hydroponic vegetation soil The second water-purifying vegetation blocks are stacked on top of the purified vegetation blocks, and the upper partition walls are arranged to be in close contact with each other;
The third water purification vegetation block that is filled with water purification plants and hydroponic vegetation soil from the rear of the first water purification vegetation blocks of the lower support portion is farther than the distance separated between the first water purification vegetation blocks. A block spacer arranged to be spaced apart;
The fourth water purification vegetation blocks filled with water purification material and hydroponic vegetation inside are planted so that vegetation plants are planted at a height equal to or higher than that of the third water purification vegetation block at the rear of the block, and arranged to closely adhere to the sides. A water level determination block unit for determining the operating level of the river by doing so;
A fifth water purification vegetation block that is filled with water purification material and hydroponic vegetation soil inside to form a vegetation plant is formed as a lower height from the rear of the fourth water purification vegetation block, and arranged so that the height gradually decreases in a plurality of rows to the rear. Water purification trap portion;
A part of the fifth water purification vegetation blocks of the water purification trap part to form an inside as an empty space, a pump to be provided therein, to pump the river water passing therein to be pumped to the upstream;
An underwater beam that has the function of purifying the water quality of a river.
The method according to claim 1,
The lower support portion and the upper partition wall portion is an underwater beam having a water purification function of the river to be formed in two rows before and after.
The method according to claim 1,
The second water purification vegetation block in the upper partition wall is an underwater beam having a water purification function of a river so that the height of the upper portion is not smaller than the flood level.
The method according to claim 1,
An underwater beam having a water purification function of a river to fill the block spaces between the third water purification vegetation blocks spaced apart from each other as a water purification material.
The method according to claim 1,
The fourth water purification vegetation blocks provided in a plurality of rows of the water purification trap portion are underwater beams having a water purification function of a river to be in surface contact with each other in the lateral and anteroposterior directions.
The water is purified upwardly and is filled with water purification material inside the water purification plant blocks that form a plurality of planting holes on all sides, so that the first water purification vegetation blocks prepared in plural are buried at a certain depth on the bottom of the stream, thus crossing the river. Forming a lower support portion by being arranged at regular intervals;
Filling the hydroponic vegetation soil with the top of the water purification material filled with a certain height inside, and the second water purification vegetation blocks prepared in plural by making vegetation plants planted in the planting hole on the side together with the top of the hydroponic vegetation, the first portion of the lower support part Forming an upper partition wall by stacking the water-purifying vegetation blocks while being in close contact with each other from the top;
A third water purification vegetation block filled with water purification plants and hydroponic vegetation soil from the rear of the first water purification vegetation blocks of the lower support portion to a distance greater than the separation distance between the first water purification vegetation blocks Forming a spaced block by being spaced apart;
The fourth water purification vegetation blocks that are filled with water purification material and hydroponic vegetation soil therein so that vegetation plants are planted are arranged so as to be in close contact with the sides at a height equal to or higher than the third water purification vegetation block at the rear of the block separation portion. Forming a crystal block portion;
A fifth water purification vegetation block that is filled with water purification material and hydroponic vegetation soil inside to form a vegetation plant is formed as a lower height from the rear of the fourth water purification vegetation block, and arranged so that the height gradually decreases in a plurality of rows to the rear. To form a water purification trap portion;
Forming a pumping part by partially emptying the inside of the fifth water purification vegetation block so that a pump is embedded in the interior space;
Construction method of an underwater beam having a water purification function of a river to be performed as.
The method according to claim 6,
A method of constructing an underwater beam having a water purification function of a river such that a water purification material is filled between the third water purification vegetation blocks spaced apart from each other in the block separation part.
The method according to claim 6,
The second water purification vegetation block, the third water purification vegetation block, the fourth water purification vegetation block, and the vegetation plants planted in the fifth water purification vegetation block, a method for constructing underwater beams having a water purification function of a river made of aquatic plants.

Images