CN108239961B

CN108239961B - Ecological bank protection of hydraulic engineering

Info

Publication number: CN108239961B
Application number: CN201810039361.5A
Authority: CN
Inventors: 钟京华; 陈逢骅; 廖昌建; 蒋旭
Original assignee: Jinhua Water Conservancy And Hydropower Survey And Design Institute Co Ltd
Current assignee: Jinhua water conservancy and Hydropower Survey and Design Institute Co., Ltd
Priority date: 2018-01-16
Filing date: 2018-01-16
Publication date: 2020-05-22
Anticipated expiration: 2038-01-16
Also published as: CN108239961A

Abstract

The invention discloses a hydraulic engineering ecological slope protection, which comprises a base body, an upper slope, a lower slope and an isolation platform, wherein the upper slope and the lower slope are positioned on the inclined plane of the base body, the isolation platform is positioned between the upper slope and the lower slope, a soil cloth layer, a gravel layer and a concrete layer are sequentially paved on the upper slope, the lower slope and the isolation platform from inside to outside, an anti-corrosion layer is arranged on the lower slope and positioned on the concrete layer, an upright post and an isolation net are arranged on the isolation platform, a greening vegetation layer is arranged on the upper slope and positioned on the concrete, and a collecting groove, a guardrail and a flower bed are arranged on the base body. The invention has the advantages of simple structure and strong practicability.

Description

Ecological bank protection of hydraulic engineering

Technical Field

The invention relates to the technical field of hydraulic engineering, in particular to a hydraulic engineering ecological slope protection.

Background

Slope protection refers to the general term of various paving and planting on a slope surface in order to prevent the slope from being washed. In the river section where the bridge site is located, the concave bank of the river bank is washed by water flow year by year, and the river bank can be continuously collapsed. In order to protect the safety of bridges and embankments, protective buildings need to be built on the concave bank. In addition, when the river flow direction changes due to the arrangement of bridges and the farmland and villages are endangered by scouring the river bank, protective buildings need to be built on the river bank. Therefore, it is necessary to design the slope protection. In current ecological bank protection, drainage effect is not good usually, and long-time use still can lead to soil erosion and water loss, has brought very big influence for the environment. In conclusion, the existing ecological slope protection has great defects in structure and design and cannot meet the actual requirements of modern times.

Disclosure of Invention

The invention aims to solve the problems and designs a hydraulic engineering ecological slope protection.

The technical scheme of the invention is that the hydraulic engineering ecological slope protection comprises a base body, an upper slope, a lower slope and an isolation platform, wherein the upper slope and the lower slope are positioned on the inclined plane of the base body, the isolation platform is positioned between the upper slope and the lower slope, a soil cloth layer, a gravel layer and a concrete layer are sequentially paved on the upper slope, the lower slope and the isolation platform from inside to outside, an anti-corrosion layer is arranged on the lower slope and positioned on the concrete layer, a plurality of uniformly distributed stand columns are arranged on the isolation platform, hanging rings are arranged on the stand columns, an isolation net is arranged between the stand columns, hooks capable of being hung on the hanging rings are arranged at two ends of the isolation net, the isolation net is connected with the stand columns through the hooks, a greening vegetation layer is arranged on the upper slope and positioned on the concrete layer, and the greening vegetation layer is formed by splicing a plurality of dry concrete building blocks, the left end of the concrete building block is provided with a first groove, the right end of the concrete building block is provided with a first lug corresponding to the first groove, the upper end of the concrete building block is provided with a second groove, the lower end of the concrete building block is provided with a second lug corresponding to the second groove, the concrete building block is in fit connection with the first lug, the second groove and the second lug through the first groove, the concrete building block is a hollow structure block, the peripheral side walls of the concrete building block are provided with drain holes, the inner wall of the concrete building block is provided with a water-proof net, a soil layer is arranged in the concrete building block and positioned between the water-proof nets, the right side of the concrete building block is provided with a water inlet penetrating through the concrete building block, a water guide pipe is inserted between the water inlets, and one side of the base body and positioned above the upper slope is provided with a flow collecting groove, open collection chute bottom has first drain port and water conservancy diversion mouth, first drain port department be equipped with first drain port sealing connection's first drain pipe, first drain pipe one end with the other end lets in is connected to first drain port the downhill path, aqueduct one end with the other end is connected to the water conservancy diversion mouth and is fixed on the downhill path, just be located on the base member collection chute with go up and be equipped with the guardrail between the downhill path, the vertical fixed cartridge of guardrail is in on the base member, just be located on the base member be equipped with the flower pond between collection chute and guardrail.

A steel wire mesh is arranged between the gravel layer and the concrete layer, and fastening steel bars are arranged in the concrete layer.

The isolation platform is provided with a second water outlet, a second water drainage pipe connected with the second water outlet is arranged at the position of the second water outlet, and the other end of the second water drainage pipe is connected with the first water drainage pipe.

The included angle between the upper slope and the isolation platform is 15-45 degrees.

The included angle between the downward slope and the isolation platform is 45-60 degrees.

The water guide pipe is provided with a plurality of water guide openings which are uniformly distributed.

Plants are planted in the concrete building blocks and the flower bed, and a soil layer for planting the plants is arranged in the flower bed.

And a drainage port connected with the drainage pipe is formed in the lower slope, and a filtering and isolating net is arranged at the drainage port.

The first bump and the second bump are same in size and structure, and the first groove and the second groove are same in size and structure.

The water collecting groove and the second water outlet are both provided with a filtering protection net, and the filtering protection net is made of stainless steel.

The ecological slope protection for the hydraulic engineering, which is manufactured by the technical scheme of the invention, has the advantages of good structural stability, wide adaptability, certain wave-dissipating and impact-resisting capacity, convenient drainage, capability of preventing river water from flowing backwards, capability of facilitating the propagation of aquatic organisms due to the scientifically designed slope protection, ecological environmental protection function, great safety of the whole slope protection structure, better landscape effect, reduction of the influence of water and soil loss on the environment and improvement of ecological benefit.

Drawings

Fig. 1 is a schematic structural view of an ecological slope protection of a hydraulic engineering according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1 in accordance with the present invention;

FIG. 3 is a perspective view of a concrete building block according to the present invention;

FIG. 4 is an assembled view of the concrete building block and the aqueduct according to the present invention;

FIG. 5 is a top view of a concrete building block according to the present invention;

FIG. 6 is a cross-sectional view of a concrete building block according to the present invention;

in the figure, 1, a substrate; 2. ascending a slope; 3. descending a slope; 4. isolating the platform; 5. a soil cloth layer; 6. a crushed stone layer; 7. a concrete layer; 8. an anti-corrosion layer; 9. a column; 10. hanging a ring; 11. an isolation net; 12. hooking; 13. greening a vegetation layer; 14. a concrete building block; 15. a first groove; 16. a first bump; 17. a second groove; 18. a second bump; 19. a drain hole; 20. a water-insulating net; 21. a soil layer; 22. a water inlet; 23. a water conduit; 24. a collecting groove; 25. a first drain port; 26. a flow guide port; 27. a first drain pipe; 28. a guardrail; 29. a flower bed; 30. steel wire mesh; 31. fastening the reinforcing steel bars; 32. a second water discharge port; 33. a second drain pipe; 34. a water guide port; 35. a drainage port; 36. filtering the separation net; 37. and (4) filtering and protecting nets.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-6, a hydraulic engineering ecological slope protection comprises a base 1, an upper slope 2, a lower slope 3 and an isolation platform 4, wherein the upper slope 2 and the lower slope 3 are positioned on the inclined plane of the base 1, the isolation platform 4 is positioned between the upper slope 2 and the lower slope 3, a soil cloth layer 5, a gravel layer 6 and a concrete layer 7 are sequentially paved on the upper slope 2, the lower slope 3 and the isolation platform 4 from inside to outside, an anti-corrosion layer 8 is arranged on the concrete layer 7 and on the lower slope 3, a plurality of uniformly distributed upright posts 9 are arranged on the isolation platform 4, hanging rings 10 are arranged on the upright posts 9, an isolation net 11 is arranged between the upright posts 9, hooks 12 capable of being hung on the hanging rings 10 are arranged at two ends of the isolation net 11, and the isolation net 11 is connected with the upright posts 9 through the hooks 12, a greening vegetation layer 13 is arranged on the upper slope 2 and positioned on the concrete layer 7, the greening vegetation layer 13 is formed by splicing a plurality of concrete building blocks 14, a first groove 15 is formed in the left end of each concrete building block 14, a first bump 16 corresponding to the first groove 15 is arranged at the right end of each concrete building block 14, a second groove 17 is formed in the upper end of each concrete building block 14, a second bump 18 corresponding to the second groove 17 is arranged at the lower end of each concrete building block 14, the concrete building blocks 14 are in fit connection with the first bump 16, the second groove 17 and the second bump 18 through the first groove 15, the concrete building blocks 14 are hollow structure blocks, drain holes 19 are formed in the peripheral side walls of the concrete building blocks 14, and a water isolating net 20 is arranged on the inner wall of each concrete building block 14, a soil layer 21 is arranged in the concrete building block 14 and between the water-proof nets 20, a water inlet 22 penetrating through the concrete building block 14 is formed in the right side of the concrete building block 14, a water guide pipe 23 is inserted between the water inlet 22, a water collecting groove 24 is formed in one side of the base body 1 above the upper slope 2, a first water discharge port 25 and a water guide port 26 are formed in the bottom end of the water collecting groove 24, a first water discharge pipe 27 in sealing connection with the first water discharge port 25 is arranged at the position of the first water discharge port 25, one end of the first water discharge pipe 27 is connected with the first water discharge port 25, the other end of the first water discharge pipe is communicated with the lower slope 3, one end of the water guide pipe 23 is connected with the water guide port 26, the other end of the water guide pipe is fixed on the lower slope 3, a guardrail 28 is arranged between the water collecting groove 24 and the upper slope 2 on the base body 1, and the, a flower bed 29 is arranged on the base body 1 and between the collecting groove 24 and the guardrail 28; a steel wire mesh 30 is arranged between the gravel layer 6 and the concrete layer 7, and a fastening steel bar 31 is arranged in the concrete layer 7; a second water discharge port 32 is formed in the isolation platform 4, a second water discharge pipe 33 connected with the second water discharge port 32 is arranged at the second water discharge port 32, and the other end of the second water discharge pipe 33 is connected with the first water discharge pipe 27; the included angle between the upper slope 2 and the isolation platform 4 is 15-45 degrees; the included angle between the downward slope 3 and the isolation platform 4 is 45-60 degrees; a plurality of water guide openings 34 which are uniformly distributed are formed in the water guide pipe 23; plants are planted in the concrete building blocks 14 and the flower bed 29, and a soil layer 21 for planting the plants is arranged in the flower bed 29; a drainage port 35 connected with the drainage pipe is formed in the lower slope 3, and a filtering and isolating net 36 is arranged at the drainage port 35; the first bump 16 and the second bump 18 are the same in size and structure, and the first groove 15 and the second groove 17 are the same in size and structure; and a filtering and protecting net 37 is arranged on each of the collecting groove 24 and the second water outlet 32, and the filtering and protecting net 37 is made of stainless steel.

The embodiment is characterized in that a concrete cloth layer, a gravel layer and a concrete layer are sequentially laid on an upper slope, a lower slope and an isolation platform from inside to outside, an anti-corrosion layer is arranged on the lower slope and positioned on the concrete layer, a plurality of uniformly distributed stand columns are arranged on the isolation platform, hanging rings are arranged on the stand columns, an isolation net is arranged between the stand columns, hooks capable of being hung on the hanging rings are arranged at two ends of the isolation net, the isolation net is connected with the stand columns through the hooks, a greening vegetation layer is arranged on the upper slope and positioned on concrete and formed by splicing a plurality of dry concrete building blocks, a first groove is formed at the left end of each concrete building block, a first lug corresponding to the first groove is arranged at the right end of each concrete building block, a second groove is formed at the upper end of each concrete building block, a second lug corresponding to the second groove is arranged at the lower end of each concrete building block, the concrete building blocks are in matching connection with the first lug and the second lug through the first groove and the second groove, the concrete building block is a hollow structure block, drain holes are formed in the peripheral side wall of the concrete building block, a water-proof net is arranged on the inner wall of the concrete building block, a soil layer is arranged in the concrete building block and located between the water-proof nets, a water inlet penetrating through the concrete building block is formed in the left side of the concrete building block, a water guide pipe is inserted between the water inlets, a flow collecting groove is formed in one side above an upper slope on the base body, a first drain hole and a flow guide port are formed in the bottom end of the flow collecting groove, a first drain pipe in sealed connection with the first drain hole is arranged at the position of the first drain hole, one end of the first drain pipe is connected with the first drain hole, the other end of the first drain pipe is connected with the flow guide port, the other end of the water guide pipe is fixed on the lower slope, a guardrail is arranged on the base body and located. The ecological slope protection for the hydraulic engineering, which is manufactured by the technical scheme of the invention, has the advantages of good structural stability, wide adaptability, certain wave-dissipating and impact-resisting capacity, convenient drainage, capability of preventing river water from flowing backwards, capability of facilitating the propagation of aquatic organisms due to the scientifically designed slope protection, ecological environmental protection function, great safety of the whole slope protection structure, better landscape effect, reduction of the influence of water and soil loss on the environment and improvement of ecological benefit.

In the embodiment, when a large amount of rainwater flows into the rainwater collecting groove, one part of the rainwater in the rainwater collecting groove can be discharged into river water through the first water discharge pipe, a small amount of rainwater is distributed to the water discharge pipe, the water discharge pipe is also provided with a flow guide port and can be discharged to a greening vegetable layer in the flowing process, the vegetation is irrigated to a certain degree, the rest water is discharged to the isolation platform and is discharged into the first water discharge pipe again through the second water discharge port and the water discharge pipe on the isolation platform and is discharged through the first water discharge pipe, the concrete building blocks can be mutually clamped and fixed through the matching of the convex blocks and the grooves, the water insulation net isolates soil, only water is allowed to seep out, water and soil loss is avoided, the lower slope is immersed in water, the erosion prevention layer can reduce river water scouring and erosion to a certain degree, the concrete layer, the crushed stone layer and the isolation soil cloth layer enable the slope protection to be more stable, the service life of the slope protection is prolonged, and the, the concrete block can play a role in buffering and environmental protection, avoids pollutants such as garbage from falling into a river, plants vegetation such as flowers and plants in the concrete block and the flower bed, is attractive and can reduce water and soil loss to a certain extent.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The ecological slope protection for the hydraulic engineering comprises a base body (1), an upper slope (2), a lower slope (3) and an isolation platform (4), and is characterized in that the upper slope (2) and the lower slope (3) are located on the inclined plane of the base body (1), the isolation platform (4) is located between the upper slope (2) and the lower slope (3), a soil cloth layer (5), a gravel layer (6) and a concrete layer (7) are sequentially paved on the upper slope (2), the lower slope (3) and the isolation platform (4) from inside to outside, an anti-corrosion layer (8) is arranged on the lower slope (3) and located on the concrete layer (7), a plurality of uniformly distributed stand columns (9) are arranged on the isolation platform (4), hanging rings (10) are arranged on the stand columns (9), an isolation net (11) is arranged between the stand columns (9), hooks (12) capable of being hung on the hanging rings (10) are arranged at two ends of the isolation net (11), the isolation net (11) is connected with the upright post (9) through a hook (12), a greening vegetation layer (13) is arranged on the upper slope (2) and on the concrete layer (7), the greening vegetation layer (13) is formed by splicing a plurality of concrete building blocks (14), a first groove (15) is formed in the left end of each concrete building block (14), a first convex block (16) corresponding to the first groove (15) is arranged at the right end of each concrete building block (14), a second groove (17) is formed in the upper end of each concrete building block (14), a second convex block (18) corresponding to the second groove (17) is arranged at the lower end of each concrete building block (14), and the concrete building blocks (14) are in fit connection with the first convex blocks (16) and the second convex blocks (18) through the first grooves (15), the concrete building block (14) is a hollow structure block, drain holes (19) are formed in the peripheral side wall of the concrete building block (14), a water-insulating net (20) is arranged on the inner wall of the concrete building block (14), soil layers (21) are arranged in the concrete building block (14) and positioned between the water-insulating nets (20), a water inlet (22) penetrating through the concrete building block (14) is formed in the right side of the concrete building block (14), a water guide pipe (23) is inserted between the water inlets (22), a water collecting groove (24) is formed in one side, above the upper slope (2), of the base body (1), a first drain hole (25) and a flow guide hole (26) are formed in the bottom end of the water collecting groove (24), a first drain pipe (27) connected with the first drain hole (25) in a sealing mode is arranged at the first drain hole (25), one end of the first drain pipe (27) is connected with the first drain hole (25), the other end of the water guide pipe (23) is communicated with the lower slope (3), one end of the water guide pipe (23) is connected with the flow guide port (26), the other end of the water guide pipe is fixed on the lower slope (3), a guardrail (28) is arranged on the base body (1) and between the flow collecting groove (24) and the upper slope (2), the guardrail (28) is vertically and fixedly inserted on the base body (1), and a flower bed (29) is arranged on the base body (1) and between the flow collecting groove (24) and the guardrail (28);

a steel wire mesh (30) is arranged between the gravel layer (6) and the concrete layer (7), and a fastening steel bar (31) is arranged in the concrete layer (7);

a second water outlet (32) is formed in the isolation platform (4), a second water discharge pipe (33) connected with the second water outlet (32) is arranged at the second water outlet (32), and the other end of the second water discharge pipe (33) is connected with the first water discharge pipe (27);

the included angle between the upper slope (2) and the isolation platform (4) is 15-45 degrees;

the included angle between the lower slope (3) and the isolation platform (4) is 45-60 degrees;

a plurality of water guide openings (34) which are uniformly distributed are formed in the water guide pipe (23);

plants are planted in the concrete building block (14) and the flower pond (29), and a soil layer (21) for planting the plants is arranged in the flower pond (29);

a drainage port (35) connected with the first drainage pipe is formed in the lower slope (3), and a filtering and isolating net (36) is arranged at the drainage port (35);

the first bump (16) and the second bump (18) are same in size and structure, and the first groove (15) and the second groove (17) are same in size and structure;

the water collecting groove (24) and the second water outlet (32) are both provided with a filtering and protecting net (37), and the filtering and protecting net (37) is made of stainless steel;

when the rain water collecting tank is used, when a large amount of rain water flows into the rain water collecting tank, a part of the rain water in the rain water collecting tank can be discharged into river water through the first drainage pipe, a small amount of rain water is shunted to the water guide pipe, the water guide pipe is also provided with a water guide opening which can be discharged to a greening vegetation layer in the flowing process, vegetation is irrigated to a certain degree, the rest water is discharged to the isolation platform and is discharged into the first drainage pipe again through the second drainage opening and the second drainage pipe on the isolation platform and is discharged through the first drainage pipe, the concrete building blocks can be mutually clamped and fixed through the matching of the convex blocks and the grooves, the water-proof net isolates soil, only water is allowed to seep out, water and soil loss are avoided, the lower slope is immersed in water, the erosion-proof layer can reduce river water scouring and erosion to a certain degree, the concrete layer, the rubble layer and the isolation soil cloth layer enable the slope protection to be more stable, the service life, the novel flower bed has the advantages that the buffering effect and the environment-friendly effect can be achieved, pollutants are prevented from falling into rivers, plants are planted in the concrete building blocks and the flower bed, and the novel flower bed is attractive in appearance and can reduce water and soil loss to a certain degree.