KR102092260B1 - Embankment fish way Block - Google Patents

Abstract

In the unfolded state of the present invention, the faces facing each other in the unfolded state are combined to form a three-dimensional shape and the fluid is permeable, and the inside of the module part is filled inside the module to adsorb, filter, decompose and adsorb pollutants in the river. It consists of a filtration part for precipitation.

Description

Eulbankment fish way block

The present invention relates to a fox block, and more particularly, to a fox block that is installed around a river or at the bottom and adheres to the surface of a filter medium such as gravel, thereby enabling the purification action to oxidatively decompose contaminants through microorganisms. will be.

In the existing river maintenance method, a shore block made of concrete has been mainly used for ease of construction and prevention of erosion. However, the concrete block has been a representative example of damaging the main habitat environment of river organisms by completely covering the soil, which is the basis for the growth of river vegetation.

Recently, as the importance of a habitat environment for river animals has been emphasized, an environmental block capable of introducing vegetation has been opened and applied to the site, and a method using materials such as natural stone has been developed.

These coastal methods have the advantage of allowing vegetation to flow in, but there is a risk of loss due to weak interlocking between blocks and natural stones in sections where large flow forces are expected to occur. In addition, in the actual construction at the site, there was a difficulty in construction, such as having to cut and fit a part of the block to finish the installation.

In addition, in general, the gabion, which is being constructed for the purpose of preventing scour, has to be filled with gravel more than the size of the gabion, so there was a limit to the selection and procurement of fillers. Over time, the gabion is damaged and the filled gravel is lost. there was.

In terms of water purification of rivers, in general, the purification of rivers is a principle in which microorganisms that survive and adhere to the gravel surface at the bottom of the river oxidatively decompose pollutants. A gravel contact oxidation facility that promotes self-cleaning has been mainly used, but this method has an astronomical cost to install and, over time, after the inorganic suspended matter such as sediment is deposited, the pores are closed and the processing capacity is reduced. And there was a problem that the efficiency is significantly reduced.

When creating an artificial stream, conventionally, a certain width of concrete was poured across the river, and then a natural stone was used to create the pool, but due to the nature of the river, it also provides a cause of contamination due to pouring of concrete on the site. There was a problem in that the function of the fortress was completely lost by the removal of the enclosed natural stone.

Therefore, it is necessary to develop a block of new form and function that can supplement the disadvantages of the existing shoreline block, introduce vegetation, improve the natural purification ability, and provide a natural-friendly artificial stream free of pollutants. It is becoming.

To solve the above-described problem, the present invention is provided with a fox block that is installed around the river or at the bottom and adheres to the surface of the filter medium, such as gravel, to purify the pollutants through oxidative decomposition. To have.

The object of the present invention is to install the vegetation box filled with culture soil and gravel in the yeowook block to prevent the soil loss of the vegetation box due to river flow to promote plant growth and growth to optimize the plant vegetation environment. Having

The object of the present invention is to improve the installation process efficiency to stabilize the stream by installing the filter block by filling the filter material in a form of a frame through bending in a developed state to fill the filter block per unit area successively back and forth and left and right. It is in order to let it.

An object of the present invention is to prevent the loss of plants due to the flow of the river by improving the vigor of the plant by installing a vegetation mat on the top of the brook.

In order to achieve the above object, the flow block of the present invention is a module part in the form of a transmission network that is combined in a three-dimensional shape by making the faces facing each other congruent in the unfolded state, and the inside of the module part is filled inside to contaminate the river. It consists of a filtration unit for adsorbing, filtering, decomposing and precipitating substances.

According to the present invention, the upper surface of the filter portion further includes a vegetation mat that forms a space between the yarns by repeatedly connecting yarns made of natural fiber materials to enable plant attachment.

According to the present invention, the filtering unit further includes vertically installing a vegetation box through which the fluid passes.

According to the present invention, in the vegetation box, the interior space is divided through a partition wall, and the space is filled with a large bulky lubricant in a particle direction from top to bottom.

According to the present invention, the space is divided into a landfill space and a gravel landfill space, and the landfill space is filled with culture soil and the landfill space is filled with gravel.

According to the present invention, the filter portion further includes a block having the same size as the bottom surface of the module portion.

According to the present invention, the module portion is configured such that the surfaces facing each other are coupled through a connecting ring.

According to the present invention, the filter portion is made of recycled aggregates, filter yarns.

According to the present invention, the filter portion is contained in the mesh body, and the mesh body is provided in one or more and filled in the module portion.

To solve the above-described problem, the present invention is provided with a fox block that is installed around the river or at the bottom and adheres to the surface of the filter medium, such as gravel, to purify the pollutants through oxidative decomposition. To have.

Soul block of the present invention to install the vegetation box filled with culture soil and gravel in the soul block to prevent the soil loss of the vegetation box due to river flow to promote plant growth and growth to optimize the plant vegetation environment. It has the effect.

The stream of the present invention is combined in a form of a frame through bending in a developed view to form a stream filled with filter media, and the stream blocks are installed in the front and rear, left and right in succession to the surrounding area of the stream to stabilize the stream. It has the effect of improving.

The present invention is effective in preventing vegetation loss due to stream flow by improving vegetation power by installing vegetation mats on the top of the vault block.

Figure 1 is a flow chart showing the manufacturing process of the yeowool block of the present invention.
Figure 2 is a cross-sectional view showing the block of the present invention.
Figure 3 is a flow chart showing a first embodiment of the first embodiment of the present invention.
Figure 4 is a cross-sectional view showing a first embodiment of the first embodiment of the present invention.
Figure 5 is a flow chart showing a second embodiment of the present invention the block.
Figure 6 is a cross-sectional view showing a second embodiment of the present invention the block.
Figure 7 is a flow chart showing a third embodiment of the present invention the block.
Figure 8 is a cross-sectional view showing a third embodiment of the present invention the block.
Figure 9 is a flow chart showing a fourth embodiment of the present invention the block.
Figure 10 is a cross-sectional view showing a fourth embodiment of the present invention the block.
Figure 11 is a cross-sectional view showing a fifth embodiment of the present invention the block.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, it should be noted that, among the drawings, the same components or parts are denoted by the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the subject matter of the present invention.

Figure 1 is a flow chart showing the manufacturing process of the present invention, the second block is a cross-sectional view showing the first embodiment of the present invention, Figure 3 is a flow chart showing a first embodiment of the first embodiment of the present invention, Figure 4 Figure 1 is a cross-sectional view showing a first embodiment of the present invention, Figure 5 is a flow chart showing a second embodiment of the present invention, Figure 6 is a cross-sectional view showing a second embodiment of the present invention , Figure 7 is a flow chart showing a third embodiment of the present invention, the block 8 is a cross-sectional view showing a third embodiment of the present invention, Figure 9 is a fourth embodiment of the present invention 10 is a cross-sectional view showing a fourth embodiment of the present invention, and FIG. 11 is a cross-sectional view showing a fifth embodiment of the present invention.

First, as illustrated in FIGS. 1 to 11, the fork block 10 of the present invention includes a module unit 100 and a filter unit 200.

The module unit 100 is made of a mesh 161a, and has a developed view shape to make a three-dimensional square shape as a whole.

That is, the module portion 100 has a quadrangular shape, and side surfaces 120 are formed on four surfaces of the bottom portion 110 corresponding to the floor.

The upper surface portion 130 is formed in succession at any one of the side portions 120.

The module unit 100 configured in this way allows the faces facing each other to be congruent in the expanded view.

That is, the four side portions 120 located on the four sides of the bottom portion are bent vertically, and then the top portion 130 is bent, so that the interior space of the module portion 100 is closed to have a rectangular block 170 shape.

In particular, the module unit 100 is formed in the form of a mesh 161a to allow the fluid of the river to permeate.

The module unit 100 configured as described above is coupled so that the faces facing each other are coupled through the connecting ring 140 so that the upper part 130, the side part 120, and the bottom part 110 are fixed to each other.

Inside the module unit 100 configured as described above, the upper surface 130 is rotated to open the upper portion of the inner space, and then the filter unit 200 is filled in the inner space.

The filter unit 200 is filled in the module unit 100 to adsorb, filter, decompose and precipitate pollutants in the river.

The filter unit 200 is made of recycled aggregate and filter yarn.

The regenerated aggregate and the filter yarn may be filled inside the module unit 100, and the regenerated aggregate and the filter yarn are contained in the mesh body 210, and one or more mesh bodies 210 are provided to be filled in the module unit 100.

That is, the process of filling the regenerated aggregate of the filter yarn in the mesh body 210 and filling the filter unit 200 inside the module unit 100 can be effectively achieved.

Finally, organic matter and nitrogen in the river water are removed by filtration and biological purification of soil microorganisms using recycled aggregates and filter yarns.

Here, the recycled aggregate and the filter yarn may be a mixture of humus, perlite, or zeolite-friendly natural media to adsorb harmful substances contained in river water.

As such, various kinds of pollutants present in the river water can be removed through physical removal methods such as filtration, adsorption, precipitation, etc., and biological decomposition under various oxidation and reduction conditions through recycled aggregates and filter yarns. .

In addition, the filter unit 200 is mounted inside the module unit 100 in the form of a mesh 161a to prevent the loss of the filter unit 200 due to river overflow during rainfall, and allows nutrient salts and hydrocarbon-based contaminants by allowing non-point source pollutants to enter the lower soil layer. , It is possible to significantly improve the water quality of rivers by treating non-point contaminants such as heavy metals.

In addition, the upper surface of the filter unit 200 further includes a vegetation mat 150 formed by forming a space between the yarns by repeatedly connecting yarns made of natural fiber materials to enable plant attachment.

The vegetation mat 150 can bring various effects such as providing the natural beauty of the stream side where the river block 10 will be installed, providing a habitat and hiding place for fish, and preventing waterside erosion.

To enable this, the vegetation mat 150 is made of a material extracted from natural plants, but can be applied with rice straw and coconut fiber.

The vegetation mat 150 is a superposed structure of a double structure of the upper mat 152 and the lower mat 151, and the lower mat 151 is cut to a predetermined length and alternately connected to intertwine with each other so that the working structure of the straw yarn is densely formed. To lose.

In addition, the upper mat 151 is stacked on the upper surface of the lower mat 151, but the upper mat 152 is made of coconut fiber, cut to a predetermined length, and then alternately connected to intertwine with each other so that the structure of the coconut fiber yarn is less dense than the lower mat 151. Try to do it in a non-state.

Through the vegetation mat 150 configured as described above, the roots are settled between a plurality of pores formed by entanglement between the fiber yarns, and the roots are stably settled to the lower mat 151 to achieve vegetation vigorously.

In addition, a vegetation box 160 through which the fluid passes is vertically installed inside the filtration unit 200.

The vegetation box 160 is formed in the form of a mesh 161a or a box in which a plurality of holes are formed to allow the inflow of a river into the vegetation box 160.

In addition, the vegetation box 160 is provided with a partition wall 161 in which a mesh 161a and a non-woven fabric 161b are stacked in an interior space where the upper portion is opened, thereby dividing the interior space of the vegetation box 160 into a culture landfill space 162 and a gravel layer landfill space 163.

The vegetation box 160 has an opening with an upper opening, and a plurality of holes or meshes 161a are formed on the circumferential surface of the vegetation box 160, and a partition wall 161 in which the mesh 161a and the nonwoven fabric 161b are stacked is installed inside the vegetation box 160. The interior space of the vegetation box 160 is divided into a landfill space for culture soil 162 and a landfill space for gravel layer 163.

Here, the hole or mesh 161a is preferably formed on the wall surface of the vegetation box 160 of the gravel layer buried space 163.

The cultured landfill space 162 is located at the top of the vegetation box 160 so that the cultured soil 164b is buried and plants can be planted after planting, and the gravel layer landfill space prevents the loss of cultured soil 164b by the flow of the river and the cultured soil 164b The gravel 164a is buried so that river water can be supplied to the side to supply moisture.

That is, in the vegetation box 160, the interior space is divided through a partition wall 161, and the space is filled with a lubricating material 164 whose particles are gradually bulky from the top to the bottom, and the top of the vegetation box 160 is filled with culture soil 164b. The vegetation is planted, and gradually, the bulky gravel 164a layer is filled in the lower portion so that the fluid in the river flows into the gravel 164a layer to supply fluid to the culture soil 164b side.

Eventually, the soil is received through the vegetation box 160 to plant vegetation, and vertically installed in the center of the filter unit 200 to promote plant growth and growth, optimizing the vegetation environment of the plant, ensuring ecosystem restoration and water change. , It can improve the neighborhood hydrophilic environment composition.

Further, the lower portion of the filter unit 200 further includes a block 170 of the same size as the bottom surface of the module unit 100.

That is, the block 170 is cured with a concrete mortar and hardened, and the block 170 is provided with a block 170 on the bottom surface 110 of the module part 100 and then the side part 120 and the top part 130 of the module part 100 are combined. If the block 170 is supported on the bottom of the module unit 100, the block 170 can stably maintain the shape of the module unit 100 when transporting and moving the module unit 100 having a weight filled therein.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope of the present invention without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

10: yeoul block 100: module unit
110: bottom portion 120: side portion
130: upper surface 140: connecting ring
150: vegetation mat 151: lower mat
152: upper mat 160: vegetation box
161: bulkhead 161a: mesh
161b: non-woven fabric 162: culture soil landfill space
163: Gravel layer reclamation space 164: Sliding material
164a: Gravel 164b: Culture soil
170: block 200: filter
210: mesh

Claims (10)

In the unfolded state so that the faces facing each other are congruent, the modules are combined into a three-dimensional shape and the fluid is transmitted,
Filled inside the module portion is made of a filter for adsorbing, filtering, decomposing and sedimenting the pollutants of the river,
A vegetation box through which the fluid passes is vertically installed inside the filtration unit,
In the vegetation box, the interior space is divided through a partition wall, and the space gradually fills the bulky lubricant in a direction from top to bottom,
The space is divided into a landfill space for a cultured soil and a landfill space for a gravel layer, and the landfill space for filling the culture soil is filled with gravel, and a gravel layer is filled with gravel, and at the same time, a lower part of the filter part includes a block having the same size as the bottom surface of the module part. Soul block to be made.




delete delete delete delete delete delete delete delete delete

Images