CN112502097A

CN112502097A - Hydraulic engineering seawall bank protection ecological reconstruction structure

Info

Publication number: CN112502097A
Application number: CN202011417271.9A
Authority: CN
Inventors: 朱少君
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-03-16

Abstract

The invention provides an ecological reconstruction structure of a hydraulic engineering sea wall revetment, which relates to the technical field of hydraulic engineering and comprises a concrete frame; the outer side of the bottom end of the concrete fixing nail is uneven, and the bottom end of the concrete fixing nail is inserted into the soil of the seawall slope protection; the vertical concrete columns are respectively connected with the two concrete frames, and the bottom sides of the vertical concrete columns are pressed on the seawall slope protection soil; the transverse concrete columns are respectively connected with the two concrete frames, and the bottom sides of the transverse concrete columns are pressed on the seawall slope protection soil; the photovoltaic power generation assembly is arranged in the top of the transverse concrete column, and the water supply pipe is arranged on the top side of the vertical concrete column; the concrete frames are combined together and installed on the sea wall revetment, salt-tolerant green plants are planted in the square frame formed by the concrete frames, and the fixing net fixes the green plants in the square frame, so that the sea wall revetment is ecologically greened by the green plants, water and soil loss of the sea wall revetment is prevented, and the friction coefficient between the bottom of the concrete frame and the soil of the sea wall revetment is increased by the conical piece, so that the effect of preventing the concrete frames from sliding downwards and moving is achieved.

Description

Hydraulic engineering seawall bank protection ecological reconstruction structure

Technical Field

The invention belongs to the technical field of hydraulic engineering, and particularly relates to an ecological reconstruction structure of a hydraulic engineering sea wall revetment.

Background

Traditional sea wall structure is for preventing the attack of stormy waves and reducing the wave climbing height, and the building block stone platform is irritated to general wave dissipation platform adoption, and the up-and-down slope adopts wave dissipation block body slope protection structure, along with the important deployment and the requirement of country to ecological civilized construction, requires more and more to the ecological construction of sea wall, needs to carry out ecological construction to the sea wall under the prerequisite that satisfies the sea wall flood prevention, stabilize safety.

The hydraulic engineering seawall revetment can refer to patent No. CN209873717U, which mainly comprises a seawall revetment before wave dissipation constructed on the coast; a sea wall wave-breaking platform is constructed behind the sea wall wave-breaking front protection slope and is connected with the top of the sea wall wave-breaking front protection slope; and a seawall wave-breaking rear protection slope which is constructed behind the seawall wave-breaking platform and is connected with the inner side of the seawall wave-breaking platform; the seawall wave dissipation platform is characterized in that a wave dissipation structure is constructed at the joint between the seawall wave dissipation platform and the front sea wall wave dissipation slope protection, a first plant greening structure is arranged on the seawall wave dissipation platform, a plurality of strip-shaped grooves are formed in the front-to-back direction of the back sea wall wave dissipation slope protection at intervals, and a second plant greening structure is arranged in each strip-shaped groove.

Present similar hydraulic engineering seawall bank protection, ecological greening effect is relatively poor, adopts the stone to lay more and forms, and the outward appearance is the bald form more, and the structure is perceived ice-cold to the fixed effect of antiskid is relatively poor, causes the stone of laying on the seawall bank protection slope to slide downwards easily, influences seawall bank protection effect.

Disclosure of Invention

In order to solve the technical problems, the invention provides an ecological reconstruction structure of a hydraulic engineering sea wall revetment, which aims to solve the problems that the existing similar hydraulic engineering sea wall revetment is poor in ecological greening effect, is mostly formed by paving stones, is mostly bald in appearance, is cold in structural appearance, is poor in anti-skid fixing effect, and easily causes the stones paved on the sea wall revetment to slide downwards to influence the protection effect of the sea wall revetment.

The invention relates to a purpose and an effect of a hydraulic engineering seawall revetment ecological reconstruction structure, which are achieved by the following specific technical means:

an ecological reconstruction structure of a hydraulic engineering seawall revetment comprises concrete fixing nails, vertical concrete columns, transverse concrete columns and photovoltaic power generation components; the outer side of the bottom end of the concrete fixing nail is uneven, and the bottom end of the concrete fixing nail is inserted into the soil of the seawall slope protection; the vertical concrete columns are respectively connected with the two concrete frames, and the bottom sides of the vertical concrete columns are pressed on the seawall slope protection soil; the transverse concrete columns are respectively connected with the two concrete frames, and the bottom sides of the transverse concrete columns are pressed on the seawall slope protection soil; photovoltaic power generation subassembly is installed in horizontal concrete column top, and the delivery pipe is installed on perpendicular concrete column top side.

Furthermore, the concrete frame is of a groined structure, the outer end of the concrete frame is connected with two adjacent concrete frames respectively, four conical pieces are designed and installed on the bottom side of each concrete frame respectively, the conical pieces are inserted into the seawall slope protection soil, and nine fixing nets are arranged inside and on the periphery of each concrete frame.

Furthermore, the outer end of the concrete frame is respectively provided with a slide block and a chute C, the slide block at the outer end of the concrete frame is connected in the chute C at the outer end of the other concrete frame in a sliding manner, and the two concrete frames are mutually connected in a sliding manner through the slide block and the chute C.

Furthermore, the outer end of the concrete frame is respectively connected with the vertical concrete column and the horizontal concrete column, the two sides of the top of the vertical concrete column are respectively provided with four sliding chutes A, the two sides of the top of the horizontal concrete column are respectively provided with four sliding chutes B, and the outer end sliding blocks of the concrete frame are respectively connected in the sliding chutes A at the top of the vertical concrete column and the sliding chutes B at the top of the horizontal concrete column in a sliding manner.

Furthermore, the bottom sides of the vertical concrete columns are equidistantly arranged and provided with a plurality of anti-skidding angle blocks A, the anti-skidding angle blocks A are inserted into the sea wall slope protection soil, the bottom sides of the transverse concrete columns are equidistantly arranged and provided with a plurality of anti-skidding angle blocks B, and the anti-skidding angle blocks B are inserted into the sea wall slope protection soil.

Furthermore, two ends of the vertical concrete column are respectively connected with two concrete fixing nails, two ends of the horizontal concrete column are respectively connected with two concrete fixing nails, the tops of two ends of the vertical concrete column are respectively provided with a fixing groove A, the tops of two ends of the horizontal concrete column are respectively provided with a fixing groove B, and four ends of the top of each concrete fixing nail are respectively pressed in the fixing groove A and the fixing groove B.

Furthermore, the top side of the vertical concrete column is symmetrically provided with two pipe buckles, two ends of the water supply pipe are respectively connected in the two pipe buckles on the top side of the vertical concrete column, the middle part of the water supply pipe is provided with a sprinkling irrigation head, and the water supply pipe is connected with the fresh water pipeline.

Further, horizontal concrete column top is the symmetry form and has seted up two assembly grooves, and the photovoltaic power generation subassembly is installed respectively in horizontal concrete column top assembly groove to the photovoltaic power generation subassembly passes through circuit and LED banks electric connection, and the photovoltaic power generation subassembly is installed on horizontal concrete column top end face.

Compared with the prior art, the invention has the following beneficial effects:

1. the concrete frame and the fixing net are arranged, the concrete frame is favorably combined with each other and installed on the sea wall revetment, salt-tolerant green plants are planted in a square frame formed by the concrete frame, the fixing net is used for fixing the green plants in the square frame, so that the sea wall revetment is ecologically greened through the green plants, the water and soil loss of the sea wall revetment is prevented, the friction coefficient between the bottom of the concrete frame and the soil of the sea wall revetment is increased through a taper piece, the effect of preventing the concrete frame from sliding downwards and moving is achieved, the vertical concrete column and the horizontal concrete column are arranged, the outer end of the concrete frame is respectively connected with the vertical concrete column and the horizontal concrete column in a sliding mode, the frame structure formed by the concrete frame is fixed through the vertical concrete column and the horizontal concrete column, and the stability of the.

2. The setting of solid concrete nail, be favorable to fixing perpendicular concrete column both ends and horizontal concrete column both ends respectively through solid concrete nail, guarantee perpendicular concrete column and horizontal concrete column stability, and the use of cooperation delivery pipe and sprinkler irrigation head, can carry fresh water to the sprinkler irrigation head in through the delivery pipe, the sprinkler irrigation head sprays fresh water to the inside green of planting of concrete frame in, guarantee green plant growth water supply effect, and the setting of cooperation photovoltaic power generation subassembly and LED banks, photovoltaic power generation subassembly supplies power to the LED banks at night, light that sends through the LED banks is decorated the seawall bank protection, promote the sight of seawall bank protection at night.

Drawings

Fig. 1 is a schematic top side axial view of the present invention.

Fig. 2 is a schematic bottom-side axial view of the present invention.

Fig. 3 is a schematic view of the axial view connection structure of the concrete-reinforcing nail, the vertical concrete column and the horizontal concrete column of the present invention.

Fig. 4 is a schematic view of the split structure of the concrete fixing nail, the vertical concrete column and the horizontal concrete column of the invention.

Fig. 5 is a schematic view of a split structure of the transverse concrete column and the photovoltaic power generation assembly.

FIG. 6 is an axial view of the concrete frame assembly of the present invention.

FIG. 7 is a schematic view of the top side axial view of the concrete frame of the present invention.

FIG. 8 is a schematic view of the bottom side axial view of the concrete frame of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. fixing concrete nails; 2. erecting a concrete column; 201. an anti-skid corner block A; 202. pipe buckling; 203. a chute A; 204. fixing grooves A; 3. a transverse concrete column; 301. an anti-skid corner block B; 302. assembling a groove; 303. a chute B; 304. fixing grooves B; 4. a photovoltaic power generation assembly; 5. an LED lamp group; 6. a concrete frame; 601. a slider; 602. a chute C; 603. a conical member; 7. fixing the net; 8. a water supply pipe; 9. a sprinkler head.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a hydraulic engineering seawall revetment ecological reconstruction structure, which comprises concrete fixing nails 1, vertical concrete columns 2, transverse concrete columns 3 and photovoltaic power generation components 4; the outer side of the bottom end of the concrete fixing nail 1 is uneven, and the bottom end of the concrete fixing nail 1 is inserted into the soil of the seawall slope protection; the vertical concrete columns 2 are respectively connected with two concrete frames 6, and the bottom sides of the vertical concrete columns 2 are pressed on the seawall slope protection soil; the horizontal concrete columns 3 are respectively connected with two concrete frames 6, and the bottom sides of the horizontal concrete columns 3 are pressed on the seawall slope protection soil; the photovoltaic power generation assembly 4 is arranged in the top of the transverse concrete column 3, and the water supply pipe 8 is arranged on the top side of the vertical concrete column 2; horizontal concrete column 3 top is the symmetry form and has seted up two assembly grooves 302, and photovoltaic power generation subassembly 4 installs respectively in horizontal concrete column 3 top assembly grooves 302, and photovoltaic power generation subassembly 4 passes through circuit and 5 electric connection of LED banks, photovoltaic power generation subassembly 4 is installed on 3 top end faces of horizontal concrete column, photovoltaic power generation subassembly 4 supplies power to LED banks 5 at night, the light that sends through LED banks 5 is embellished the seawall bank protection, promote seawall bank protection sight at night.

The concrete frame 6 is of a groined structure, the outer ends of the concrete frames 6 are respectively connected with two adjacent concrete frames 6, four conical pieces 603 are respectively arranged at the bottom sides of the concrete frames 6, the conical pieces 603 are inserted into the seawall slope protection soil, and nine fixing nets 7 are arranged inside and at the periphery of the concrete frames 6; concrete action can be installed on the seawall bank protection with concrete frame 6 each other combination together, plants salt-tolerant green planting in the square frame that concrete frame 6 made up, and the fixed net 7 is fixed green planting in the square frame to carry out ecological greening to the seawall bank protection through green planting, prevent seawall bank protection water and soil loss, and increase concrete frame 6 bottom and seawall bank protection soil coefficient of friction through awl piece 603, thereby play the effect that prevents concrete frame 6 gliding displacement.

The outer end of the concrete frame 6 is respectively provided with a slide block 601 and a chute C602, the slide block 601 at the outer end of the concrete frame 6 is connected in the chute C602 at the outer end of the other concrete frame 6 in a sliding way, and the two concrete frames 6 are mutually connected in a sliding way through the slide block 601 and the chute C602; the concrete function makes the mutual connection of the concrete frames 6 more convenient and fast, and ensures the stress effect of the connection part between the concrete frames 6.

Wherein, the outer end of the concrete frame 6 is respectively connected with the vertical concrete column 2 and the horizontal concrete column 3, the two sides of the top of the vertical concrete column 2 are respectively provided with four chutes A203, the two sides of the top of the horizontal concrete column 3 are respectively provided with four chutes B303, and the slide block 601 at the outer end of the concrete frame 6 is respectively connected in the chute A203 at the top of the vertical concrete column 2 and the chute B303 at the top of the horizontal concrete column 3 in a sliding way; the concrete function can be with 6 outer ends of concrete frame with erect concrete column 2 and horizontal concrete column 3 sliding connection together respectively, fix the frame construction that concrete frame 6 made up through erecting concrete column 2 and horizontal concrete column 3, ensure 6 stability of concrete frame.

Wherein, the bottom side of the vertical concrete column 2 is provided with a plurality of anti-skid angle blocks A201 in an equidistant arrangement, the anti-skid angle blocks A201 are inserted into the seawall slope protection soil, the bottom side of the horizontal concrete column 3 is provided with a plurality of anti-skid angle blocks B301 in an equidistant arrangement, and the anti-skid angle blocks B301 are inserted into the seawall slope protection soil; the concrete action, increase 2 undersides of perpendicular concrete column and 3 undersides of horizontal concrete column and seawall bank protection slope soil coefficient of friction to play the effect that prevents perpendicular

concrete column

2 and 3 gliding displacements of horizontal concrete column.

Wherein, two ends of the vertical concrete column 2 are respectively connected with two concrete fixing nails 1, two ends of the horizontal concrete column 3 are respectively connected with two concrete fixing nails 1, the tops of two ends of the vertical concrete column 2 are respectively provided with a fixing groove A204, the tops of two ends of the horizontal concrete column 3 are respectively provided with a fixing groove B304, and four ends of the top of the concrete fixing nail 1 are respectively pressed in the fixing groove A204 and the fixing groove B304; concrete effect, accessible solid concrete nail 1 is fixed 2 both ends of erecting concrete column and 3 both ends of horizontal concrete column respectively, ensures to erect

concrete column

2 and 3 stability of horizontal concrete column.

Wherein, the top side of the vertical concrete column 2 is symmetrically provided with two pipe buckles 202, two ends of a water supply pipe 8 are respectively connected in the two pipe buckles 202 on the top side of the vertical concrete column 2, the middle part of the water supply pipe 8 is provided with a sprinkling irrigation head 9, and the water supply pipe 8 is connected with a fresh water pipeline; the concrete function can be carried fresh water to sprinkler irrigation head 9 in through delivery pipe 8, and sprinkler irrigation head 9 sprays fresh water to the inside green of planting of concrete frame 6 in, the green growth water supply effect that plants of guarantee.

The top of the transverse concrete column 3 is symmetrically provided with two assembling grooves 302, the photovoltaic power generation assemblies 4 are respectively installed in the assembling grooves 302 on the top of the transverse concrete column 3, the photovoltaic power generation assemblies 4 are electrically connected with the LED lamp groups 5 through circuits, and the photovoltaic power generation assemblies 4 are installed on the end face of the top of the transverse concrete column 3; the concrete effect, photovoltaic power generation subassembly 4 supplies power to LED banks 5 at night, decorates the seawall bank protection through the light that LED banks 5 sent, promotes seawall bank protection sight at night.

The specific use mode and function of the embodiment are as follows:

when the device is used, a worker combines the concrete frames 6 together and installs the concrete frames on the sea wall revetment, the cone members 603 at the bottom sides of the concrete frames 6 are inserted into the soil of the sea wall revetment, salt-tolerant green plants are planted in a square frame combined by the concrete frames 6, the fixing nets 7 fix the green plants in the square frame, so that the sea wall revetment is ecologically greened through the green plants, the friction coefficient between the bottom of the concrete frame 6 and the soil of the sea wall revetment is increased through the cone members 603, and the effect of preventing the concrete frames 6 from sliding downwards and moving is achieved; then, the outer end of the concrete frame 6 is respectively connected with the vertical concrete column 2 and the horizontal concrete column 3 in a sliding manner by a worker, and the frame structure combined by the concrete frame 6 is fixed through the vertical concrete column 2 and the horizontal concrete column 3, so that the stability of the concrete frame 6 is guaranteed; then, a worker crushes the concrete fixing nail 1 into the seawall protection slope, so that the four ends at the top of the concrete fixing nail 1 are respectively pressed in the fixing groove A204 and the fixing groove B304, and the two ends of the vertical concrete column 2 and the two ends of the transverse concrete column 3 are respectively fixed through the concrete fixing nail 1, so that the stability of the vertical concrete column 2 and the stability of the transverse concrete column 3 are guaranteed; the staff can carry fresh water to sprinkler irrigation 9 in through delivery pipe 8, and sprinkler irrigation 9 sprays fresh water to the green of 6 inside planting of concrete frame and plants in, the green growth water supply effect of planting of guarantee, and photovoltaic power generation subassembly 4 can supply power to LED banks 5 at night, decorates the seawall bank protection through the light that LED banks 5 sent, promotes seawall bank protection sight at night.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a hydraulic engineering seawall bank protection ecological transformation structure which characterized in that: comprises concrete-fixing nails (1), vertical concrete columns (2), transverse concrete columns (3) and photovoltaic power generation components (4); the outer side of the bottom end of the concrete fixing nail (1) is uneven, and the bottom end of the concrete fixing nail (1) is inserted into the seawall slope protection soil; the vertical concrete columns (2) are respectively connected with the two concrete frames (6), and the bottom sides of the vertical concrete columns (2) are pressed on the seawall slope protection soil; the transverse concrete columns (3) are respectively connected with the two concrete frames (6), and the bottom sides of the transverse concrete columns (3) are pressed on the seawall slope protection soil; photovoltaic power generation subassembly (4) are installed in horizontal concrete column (3) top, and delivery pipe (8) are installed and are being erected concrete column (2) top side.

2. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the concrete frame (6) is of a groined structure, the outer end of the concrete frame (6) is connected with two adjacent concrete frames (6) respectively, four conical pieces (603) are designed and installed on the bottom side of the concrete frame (6) respectively, the conical pieces (603) are inserted into seawall slope protection soil, and nine fixing nets (7) are arranged inside and on the periphery of the concrete frame (6).

3. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the outer end of the concrete frame (6) is respectively provided with a slide block (601) and a chute C (602), the slide block (601) at the outer end of the concrete frame (6) is connected in the chute C (602) at the outer end of the other concrete frame (6) in a sliding manner, and the two concrete frames (6) are mutually connected in a sliding manner through the slide block (601) and the chute C (602).

4. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: concrete frame (6) outer end links to each other with perpendicular concrete column (2) and horizontal concrete column (3) respectively, and erects concrete column (2) top both sides and has seted up four spout A (203) respectively, and horizontal concrete column (3) top both sides have seted up four spout B (303) respectively to concrete frame (6) outer end slider (601) respectively sliding connection is in erecting concrete column (2) top spout A (203) and in horizontal concrete column (3) top spout B (303).

5. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the bottom side of the vertical concrete column (2) is equidistantly arranged and is provided with a plurality of anti-skidding angle blocks A (201), the anti-skidding angle blocks A (201) are inserted into the seawall slope protection soil, the bottom side of the horizontal concrete column (3) is equidistantly arranged and is provided with a plurality of anti-skidding angle blocks B (301), and the anti-skidding angle blocks B (301) are inserted into the seawall slope protection soil.

6. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the concrete fixing structure is characterized in that two ends of the vertical concrete column (2) are respectively connected with two concrete fixing nails (1), two ends of the horizontal concrete column (3) are respectively connected with the two concrete fixing nails (1), the tops of two ends of the vertical concrete column (2) are respectively provided with a fixing groove A (204), the tops of two ends of the horizontal concrete column (3) are respectively provided with a fixing groove B (304), and four ends of the top of each concrete fixing nail (1) are respectively pressed in the fixing groove A (204) and the fixing groove B (304).

7. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the top side of the vertical concrete column (2) is symmetrically provided with two pipe buckles (202), two ends of a water supply pipe (8) are respectively connected in the two pipe buckles (202) on the top side of the vertical concrete column (2), the middle part of the water supply pipe (8) is provided with a sprinkling irrigation head (9), and the water supply pipe (8) is connected with a fresh water pipeline.

8. The hydraulic engineering seawall revetment ecological transformation structure of claim 1, characterized in that: the top of the transverse concrete column (3) is symmetrically provided with two assembling grooves (302), the photovoltaic power generation assemblies (4) are respectively installed in the assembling grooves (302) at the top of the transverse concrete column (3), the photovoltaic power generation assemblies (4) are electrically connected with the LED lamp sets (5) through circuits, and the photovoltaic power generation assemblies (4) are installed on the end face of the top of the transverse concrete column (3).