KR101360240B1 - Eco-friendly storage type agricultural channel - Google Patents

Abstract

The present invention is an agricultural water channel for supplying agricultural water to farmland from irrigation water sources such as reservoirs, intake basins, collection wells and wells, and in a reservoir-type agricultural water channel in which a reservoir 30 is formed downstream of the free fall hole 10 in the farm. In this regard, the gabion (40) that crosses the reservoir 30 of the agricultural channel 30, the water wall 52 is installed, but the waterway wall 51 of the portion connected to both sides of the water wall 52, the waterway wall 51 ) By forming an inclined access path 53 in which the wall is encroached, thereby constructing an ecological passageway and a porous wall that crosses the agricultural channel.
Through the present invention, it is possible to obtain an effect of improving the water quality of the agricultural water in the agricultural channel, and the ecology of the animals around the agricultural channel through the access passage 53 connected with the underwater wall 52 and the underwater wall 52 crossing the agricultural channel. The submerged wall 52, which provides a passageway and is constructed of porous gebions 40 and is always wet, serves as a biotope, providing habitats for various aquatic plants and animals including aquatic life, Biodiversity can be secured.

Description

ECO-FRIENDLY STORAGE TYPE AGRICULTURAL CHANNEL}

The present invention is an agricultural water channel for supplying agricultural water to farmland from irrigation water sources such as reservoirs, intake basins, collection wells and wells, and in a reservoir-type agricultural water channel in which a reservoir 30 is formed downstream of the free fall hole 10 in the farm. In this regard, the gabion (40) that crosses the reservoir 30 of the agricultural channel 30, the water wall 52 is installed, but the waterway wall 51 of the portion connected to both sides of the water wall 52, the waterway wall 51 ) By forming an inclined access path 53 in which the wall is encroached, thereby constructing an ecological passageway and a porous wall that crosses the agricultural channel.

Agricultural waterways, which supply agricultural water from agricultural sources such as reservoirs, intake basins, collection wells, and wells to arable land, are constructed in the form of a waterway network that densely connects arable land in the Mong-ri area of the source. It is characterized by having multiple outlet points interspersed.

The agricultural waterway focuses on stable irrigation for a wide range of farmland rather than the rapid transportation of agricultural water, and requires stable maintenance of the flow rate. Since the supplied agricultural water is often transported back to the lowland farmland, it is necessary to keep the slope of the agricultural channel smoothly, and a drop hole is installed in the agricultural channel to control the water slope.

A free fall hole is a structure that maintains a desired flow rate by gently constructing an inclined slope of an artificial water channel, and is formed by forming a step in a water channel before and after the free drop hole. Thus, a reservoir-type farming channel has been developed to secure emergency agricultural water when water is drained by using an existing farming channel without additional water source facilities.

As such a storage-type farming channel-related technology, there is a construction method of patent 1109641 storage-type farming channel and environmentally-friendly storage-type improvement method of patent 1117960 agricultural channel.

Patent No. 1109641 consists of a wall of a condensation channel and a storage part made of a cover such as concrete, and can secure emergency agricultural water when water is drained through the condensation part. The benefits were hard to expect.

In particular, in the case of a reservoir-type agricultural channel, the agricultural water stays in the reservoir for a long time, so the dissolved oxygen in the agricultural water may decrease and the water quality may deteriorate. There was a problem that deteriorated.

Accordingly, Patent No. 1117960 has been developed to improve the ecological environment and water quality of the agricultural channel by constructing the wall of the reservoir channel with gebinion to establish a structure as close as possible to the natural channel as possible.

Patent No. 1117960 is to replace the existing concrete channel and reservoir wall with gebion filled with packed stones, forming a porous coating close to the natural channel in the agricultural channel, as well as improving the water quality of agricultural water in the agricultural channel, as well as the habitat of various aquatic flora and fauna Although it is possible to obtain an effect of improving the environment, the porous structure is limited to the side wall structure of the channel and the reservoir, and the effect was limited.

Particularly, as the structure of the wall of the channel is formed as a masonry structure, the top width of the channel can be relatively expanded in consideration of the stability of the side surface of the channel, resulting in a side effect of limiting the movement of animals inhabiting the channel. There was this.

The present invention was devised in view of the above-described problems, and as an agricultural waterway for supplying agricultural water to arable land, the reservoir 30 is excavated and formed at the bottom of the agricultural waterway downstream of the free fall hole 10, and the waterway wall 51 of the waterway is filled. In a reservoir type agricultural channel formed of gabions 40 filled with stones 42, an underwater wall 52 crossing the reservoir 30 of the agricultural channel is installed, but the underwater wall 52 is a filled stone. The 42 is filled with the gabion 40 and both ends of the underwater wall 52 are connected to the waterway wall 51, and the waterway wall 51 at the portion connected to both sides of the underwater wall 52 is a waterway. An access path 53 in which the wall of the wall 51 is encroached is formed, and the surfaces of the access path 53 have upper and lower elevations, respectively, with the upper end of the waterway wall 51 and the upper end of the underwater wall 52. It is an eco-friendly reservoir farm, characterized by forming a matching slope.

In addition, the downstream wall of the drop hole 10 is provided with an underwater wall 52 crossing the farm channel, the underwater wall 52 is in close contact with the end of the apron (apron) 20 of the drop hole 10, the underwater wall 52 ) Is formed by the gebion 40 filled with the filling stones 42 and both side ends of the underwater wall 52 are connected to the waterway wall 51, and the waterway wall of the portion connected to both side ends of the underwater wall 52 ( The access paths 53 in which the walls of the waterway walls 51 are encroached are formed in the 51, and the upper and lower elevations of the surfaces of the access paths 53 are respectively the upper and the underwater walls 52 of the waterway walls 51. Eco-friendly reservoir-type waterway characterized in that it forms an inclined surface corresponding to the top of the), eco-friendly storage type, characterized in that the vegetation material 44 is stacked on the top of the filling stone 42 in the gebion 40 It is a farm.

Through the present invention, the utilization of agricultural waterways limited to simple irrigation facilities can be expanded to ecological environment improvement facilities, as well as to improve the water quality of agricultural water.

In particular, through the waterway wall 52 and the access wall 53 associated with the waterway wall crossing the waterway, provides an ecological passage of the animals around the waterway, and is constructed with a porous gebion (40) to always wet By maintaining the underwater wall 52 serves as a kind of biotope (biotope) to provide a habitat for various aquatic flora and fauna, including aquatic life, it is possible to secure the biodiversity around the farm.

In other words, to improve the habitat environment of various aquatic plants and animals in the waterway, to secure access to the surrounding animals to create a surrounding ecosystem, and to establish a virtuous cycle system that maintains, preserves and expands the created ecosystem.

In addition, the gebion 40 submerged wall 52, which is a porous wall that traverses the agricultural channel, serves as a filter medium, and agricultural water passes through the pores between the packed stones 42 in the gebion 40, and thus forms a kind of reverse contact oxidation. This action not only improves the water quality of agricultural water, but also purifies the contaminants contained in the used agricultural water or rainfall runoff that is discharged from the surrounding farmland and flows into the agricultural waterway. have.

In addition, agricultural waterways can create new industrial value for agricultural facilities by breaking away from irrigation for agriculture, creating a hydrophilic environment and improving amenity, which can be used in various fields such as tourism, culture and education. Can be.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a longitudinal sectional view of the present invention
3 is a cross-sectional view taken along the line A-A 'of FIG.
4 is a cross-sectional view taken along the line B-B 'of FIG.
Figure 5 is an illustration of a drop hole structure of the present invention
Figure 6 is a longitudinal cross-sectional view of the use state of the present invention
7 is a perspective view of an embodiment of the present invention in which the small end is formed in the waterway wall
8 is a cross-sectional view taken along the line CC 'of FIG.
9 is a cross-sectional view taken along the line D-D 'of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A detailed configuration of the present invention will be described with reference to the accompanying drawings.

First, Fig. 1 is a perspective view showing the appearance of the state before the completion of the present invention after the completion of the present invention, as shown, the basic structure constituting the waterway of the agricultural waterway of the present invention is assembled into a gabion (40) It is built.

The gebion 40 used as the structural material of the present invention can be formed as a mesh mesh 41 in the form of a cube and filled with a filling stone 42 therein, as shown in the expanded portion of FIG. After the installation of filter material such as a Korean trench and a nonwoven fabric, it is assembled to constitute a waterway wall 51 of the farm.

The agricultural waterway of the present invention is a storage type agricultural waterway in which the bottom surface of the downflow agricultural waterway of the drop hole 10 is excavated to form the storage portion 30, and in the embodiment shown in FIG. 1, the storage portion 30 has an upstream side downhole 10 and It is formed in the entire area of the bottom of the agricultural channel between the downstream drop hole (10), the entire channel wall 51 is constructed as a gavion 40 has a structure close to the natural channel.

1 and 2, inside the reservoir 30 formed on the bottom of the agricultural waterway of the present invention, an underwater wall 52 crossing the reservoir 30 is installed, and the underwater wall 52 is filled with a filling stone ( 42 is filled with the gabion 40 and both side ends of the underwater wall 52 are connected to the waterway wall 51.

That is, the reservoir 30 has a structure that is divided by the submerged wall 52 formed by the gebion 40, the gebion is formed by filling the filling stones 42, such as gravel or crushed stone in the mesh 41 40 is a porous structure having a relatively large pore, so that the agricultural water can freely pass through the underwater wall 52 during the transfer of agricultural water through the agricultural waterway.

In addition, the waterway wall 51 of the portion connected to both side ends of the underwater wall 52 is formed with an access path 53 in which the wall of the waterway wall 51 is encroached, and the surface of the access path 53 has an upper end. And lower elevations form inclined surfaces corresponding to the upper end of the waterway wall 51 and the upper end of the underwater wall 52, respectively.

That is, as shown in FIG. 3, which shows the cross section of the reservoir 30 at the point where the underwater wall 52 is not installed, in most sections of the reservoir 30, a rectangular gabion 40 having a rectangular cross-sectional shape is simply formed. As shown in FIG. 4, which shows a cross section of the reservoir 30 at the point where the submerged wall 52 is installed, the gabion having the inclined surface is formed at both sides of the submerged wall 52. By bundling 40 to form an access path 53.

As shown in FIG. 2, when the top elevation of the underwater wall 52 is configured to be close to or close to the apron 20 elevation of the drop hole 10, the normal water level of the farm can be slightly above the elevation of the apron 20. To maintain the level, the upper end of the underwater wall 52 in the reservoir 30 to maintain the same or extremely low depth of the water surface, as shown in Figure 4, the access path of the side wall (52) ( Since 53) connects the ground and the farm channel around the farm channel to the inclined surface, these underwater walls 52 and access paths 53 can be utilized as the ecological pathway of animals inhabiting the farm channel.

This, the underwater wall 52 can be installed not only in the central portion of the reservoir 30, but also in the upstream and direct downstream portions of the drop hole 10, as shown in Figs. (10) As shown in FIG. 5, the upstream side foundation 11 and the downstream side foundation 12 may be configured to reinforce the basic structure of the underwater wall 52 which is assembled with the gebion 40.

The underwater wall 52 which is installed in close proximity to the free fall hole 10 may also be assembled with the gabion 40 filled with the filling stone 42 and the underwater wall (as shown in the above-described reservoir 30 transverse underwater wall 52). Both side ends of the 52 are connected to the waterway wall 51, and the access wall 53 in which the wall of the waterway wall 51 is encroached on the waterway wall 51 at the portion connected to both side ends of the underwater wall 52. Is formed, the surface of the access path 53 is to form an inclined surface of the top and bottom elevations coincide with the top of the waterway wall 51 and the top of the underwater wall 52, respectively.

In particular, the underwater wall 52 provided in the downstream portion of the free fall hole 10 by crossing the agricultural water channel reduces the flow of water that flows from the apron 20 to the storage portion 30, and thus the bottom surface of the storage portion 30. In addition to preventing excessive scour and consequent collapse of the waterway, the aeration effect caused by repeated collision with the packed stone 42 during the passage of the agricultural water through the gaps between the packed stones 42 constituting the underwater wall 52. It also shows the effect of increasing the amount of dissolved oxygen.

In the present invention having the configuration as described above, the structure of the agricultural waterway generally has a form close to the natural waterway, and the waterway wall 51 and the underwater wall 52 are constructed with a porous structure, and thus, natural swelling of aquatic plants and water plants. Not only is this promoted, it also creates favorable conditions for artificial vegetation.

6 is a longitudinal cross-sectional view showing a state of use of the present invention, a variety of aquatic plants and water vegetation can be inhabited not only in the underwater wall 52 crossing the reservoir 30, but also around the bottom of the waterway and the waterway wall 51. In addition, through the underwater wall 52 configured in the present invention to improve the habitat environment of a variety of aquatic plants and animals, as well as to secure the ecological passage of the animals around the farm waterway, between the stations generated in the process of agricultural water passing through the underwater wall 52 Through contact oxidation, the water quality of the farm can be improved.

In particular, when artificially planting water purification plants such as Gomari and buds or inducing their natural swelling, it is possible to double the water purification effect of the present invention, and improve the habitat environment of various aquatic plants including benthic organisms through water purification. At the same time, by securing accessibility of surrounding animals, it is possible to establish a surrounding bovine ecosystem and establish a virtuous cycle system in which the created bovine ecosystem is maintained, preserved and expanded.

Meanwhile, FIG. 7 illustrates an embodiment of the present invention in which a small step 54 is formed in the waterway wall, and as shown in FIGS. 8 and 9 showing the cross section of the embodiment, the water channel to the gavion 40 is shown. In constructing the wall 51, by lowering the gabion 40 at a wider width than the upper gabion 40, the structural stability of the waterway wall 51 and the supporting force on the back ground are secured, and the formed end 54 is formed. The vegetation area can be enlarged through.

In addition, as shown in Figs. 8 and 9 showing the cross section of the reservoir 30 at the point where the underwater wall 52 is not provided and the cross section of the reservoir 30 at the point where the underwater wall 52 is installed, the gabion ( By forming the vegetation material 44 in the inside of 40), it is possible to promote the adhesion of aquatic plants and water plants.

In the embodiment shown in FIGS. 8 and 9, once the filling stones 42 are loaded to the gebion 40 to a predetermined height, the nonwoven fabric 43 is laminated on the top of the filling stones and the vegetation soil is disposed on the upper portion of the nonwoven fabric 43. By installing vegetation material 44 such as to prevent the loss of particulate vegetation material 44 and to enable a stable vegetation, in addition, soy bags filled with vegetation soil, etc. Etc. may be applied to the vegetation material 44.

As described above, by constructing the structure and vegetation state of the agricultural waterway as close to the natural waterway as possible, by forming the underwater wall 52, the access path 53 and the bench 54 to secure the habitat and accessibility of aquatic flora and fauna In addition, the agricultural canal can be used in various industries such as tourism, culture, and education by allowing the aqueduct to escape from agricultural irrigation facilities and to create a hydrophilic environment and improve amenity as well as a biotope in terms of eco-environment. Can be.

10: free fall ball
11: upstream base
12: downstream base
20: apron
30: storage part
40: gabion
41: network
42: filling stone
43: nonwoven fabric
44: vegetation
51: waterway wall
52: underwater wall
53: access road
54: bench

Claims (3)

As an agricultural waterway for supplying agricultural water to arable land, a reservoir 30 is excavated and formed at the bottom of the agricultural waterway downstream of the free fall hole 10, and the waterway wall 51 of the agricultural waterway has a gabion (40) filled with a filling stone 42. In the storage type agriculture channel which was built in),
A submerged wall 52 is installed across the reservoir 30 of the aqueduct, but the submerged wall 52 is assembled with a gabion 40 filled with a filling stone 42, and both ends of the submerged wall 52 are confined. Connected with 51;
The waterway wall 51 of the portion connected to both side ends of the underwater wall 52 is formed with an access path 53 in which the wall of the waterway wall 51 is encroached, and the surfaces of the access path 53 are at the top and bottom. Eco-friendly reservoir farm, characterized in that the elevation forms a slope corresponding to the top of the waterway wall 51 and the top of the underwater wall 52, respectively.
According to claim 1, Directly downstream of the free fall hole (10) is provided with an underwater wall (52) crossing the farm channel, the underwater wall 52 is in close contact with the apron (20) end of the free drop (10);
The underwater wall 52 is assembled with the gebion 40 filled with the filling stones 42 and both ends of the underwater wall 52 are connected with the waterway wall 51;
The waterway wall 51 of the portion connected to both side ends of the underwater wall 52 is formed with an access path 53 in which the wall of the waterway wall 51 is encroached, and the surfaces of the access path 53 are at the top and bottom. Eco-friendly reservoir farm, characterized in that the elevation forms a slope corresponding to the top of the waterway wall 51 and the top of the underwater wall 52, respectively.
The eco-friendly reservoir farm of claim 1, wherein vegetation material 44 is stacked on top of the filling stone 42 in the gebion 40.

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