CN112144552A - Damaged mountain ecological vegetation restoration structure, implementation method and application thereof - Google Patents

Abstract

The invention relates to a damaged mountain ecological vegetation restoration structure which comprises a plurality of V-shaped grooves arranged on a damaged mountain side slope, wherein each V-shaped groove is arranged along the width direction of the side slope, the V-shaped grooves are arranged at intervals along the slope direction of a mountain, a plurality of trapezoidal partition plates are arranged in each V-shaped groove along the length direction of the V-shaped groove, planting soil is backfilled in each V-shaped groove, and green plants are planted on the planting soil. The ecological vegetation restoration structure provided by the invention solves the problems that the surface soil of the damaged mountain is seriously stripped or the planting matrix is difficult to adhere without covering the surface soil, a reinforced concrete structure poured by the groove plates and the trapezoidal partition plates and the slope of the mountain form a V-shaped groove as the foundation of the planting matrix, so that green plants can be planted on the side slope of the damaged upper body to form a green belt, planting soil can be laid between the V-shaped grooves by using a hanging net, the green plant restoration of the side slope of the damaged mountain is realized, and the ecological vegetation restoration structure has the advantages of high matrix retention rate, good re-greening effect, high vegetation survival rate, rain erosion resistance, simple process and the like.

Description

Damaged mountain ecological vegetation restoration structure, implementation method and application thereof

Technical Field

The invention relates to the technical field of ecological vegetation restoration, in particular to a restoration structure and an implementation method of ecological vegetation of damaged mountains, and particularly aims at restoring upright rocky slopes to which planting matrixes are difficult to adhere.

Background

In the process of urban construction, the number and scale of the quarries are continuously increased and enlarged, the abandoned quarries not only seriously destroy natural landscapes, but also bring certain negative effects to the ecological environment of the area, such as air pollution, water and soil loss, collapse, debris flow and the like, and certain effects are caused to the sustainable development of the urban society and the economy. In recent years, with the enhancement of economic strength and the improvement of ecological environment protection consciousness of China, people pay more and more attention to ecological restoration of urban abandoned quarries, and on the basis of taking engineering measures to treat and restore to make geological environment stable, landscape reconstruction and vegetation restoration are combined to beautify landform landscape, improve ecological environment and realize sustainable development.

After the quarrying operation is closed, the abandoned quarry usually has the characteristics of high and steep uprightness, irregular slope surface, no step, water catchment of a pit at the bottom of the slope, no matrix and the like, and the ecological restoration of the rock slope can be smoothly carried out and expected effects can be obtained under the conditions, and the difficulty is self-evident. Through engineering experience at home and abroad, ideal treatment effects can be obtained by adopting the technologies of point planting type slope greening, paving type slope greening, spraying base material type slope greening and the like for rock slopes with the gradient less than 70 degrees. However, the ecological restoration effect of the rock slope with height of over 75 degrees and steepness does not reach the expectation of people, and the research and exploration need to be continued and the practical inspection is carried out.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a damaged mountain ecological vegetation restoration structure and an implementation method thereof, which can meet the ecological restoration problem of a rock slope with height of over 75 degrees and steepness.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an ecological vegetation restoration structure of impaired mountain body, including a plurality of V type grooves of locating impaired mountain body side slope, each the V type groove sets up along the width direction of side slope, and is a plurality of the V type groove sets up along the slope direction interval of mountain body, each V type inslot is equipped with the trapezoidal baffle of polylith along its length direction, the soil of planting is backfilled to V type inslot, plant green planting on the soil of planting.

In a preferred embodiment of the damaged mountain ecological vegetation restoration structure provided by the invention, the V-shaped groove comprises a groove plate, an inclined fixing anchor rod and a horizontal tensile anchor rod, the groove plate is made of reinforced concrete, the inclined fixing anchor rod is anchored on the mountain rock stratum at an angle of 45 degrees with the horizontal plane, the exposed end of the inclined fixing anchor rod is connected with a main rib in the groove plate, the horizontal tensile anchor rod is horizontally anchored on the mountain rock stratum, and the exposed end of the horizontal tensile anchor rod is connected with the main rib in the groove plate.

In a preferred embodiment of the damaged mountain ecological vegetation restoration structure provided by the invention, the trapezoidal partition plate, the groove plate, the horizontal tensile anchor rod and the inclined fixing anchor rod are cast into an integral structure through concrete, and form a V-shaped groove structure with a slope of a mountain.

In a preferred embodiment of the damaged ecological vegetation restoration structure for mountains provided by the invention, the damaged ecological vegetation restoration structure for mountains further comprises an irrigation system, wherein the irrigation system comprises a water replenishing system, a water storage tank, a plurality of main water supply pipes and a plurality of branch water supply pipes, the water storage tank is arranged on the top of a slope of a mountain, the branch water supply pipes are fixed on the trapezoidal partition plates of each V-shaped groove along the length direction of the V-shaped groove, one end of each main water supply pipe is connected with the water storage tank, the other end of each main water supply pipe is connected with the plurality of branch.

In a preferred embodiment of the damaged mountain ecological vegetation restoration structure provided by the invention, water outlet holes are formed in the water supply branch pipes in the V-shaped grooves, the aperture of each water outlet hole is 2mm, and the distance between the water outlet holes is 1 m.

In a preferred embodiment of the damaged mountain ecological vegetation restoration structure provided by the invention, a grid net and a steel rope net are further arranged on the side slope between two adjacent rows of the V-shaped grooves, and the steel rope net is arranged on the opposite outer sides of the grid net.

In a preferred embodiment of the damaged mountain ecological vegetation restoration structure provided by the invention, the distance between two adjacent rows of the V-shaped grooves is set to be 4m, the green plants are selected from drought-enduring local plants with strong adaptability to be subjected to arbor, shrub and grass three-dimensional configuration, and evergreen and fallen leaf combined and shallow and deep root combined liana or shrub are selected.

The invention also provides a method for implementing the damaged mountain ecological vegetation restoration structure, which comprises the following steps:

firstly, constructing inclined fixed anchor rods on the slope surface of a side slope of a damaged mountain at intervals of 4 meters according to design requirements, constructing horizontal tensile anchor rods above the inclined fixed anchor rods, pouring anchoring sections of the inclined fixed anchor rods and the horizontal tensile anchor rods by pure cement slurry of P.O.42.5 with the water cement ratio of 0.5 and the slurry strength grade of M30, and arranging rubber sleeve cushions at the end parts of the anchoring sections;

binding main ribs of the groove plate and the trapezoidal partition plate with the obliquely-arranged fixed anchor rod and the horizontal tensile anchor rod according to the design specification of the V-shaped groove to form reinforcing ribs of the V-shaped groove;

step three, installing a template for cast-in-place to form a reinforced concrete structure with a V-shaped groove;

fourthly, distributing a main water supply pipe, and fixedly installing a branch water supply pipe in each V-shaped groove;

and step five, backfilling planting soil and planting green plants.

The invention also provides an upright rock slope or a high-steep rock slope applying the damaged mountain ecological vegetation restoration structure in the embodiment.

Compared with the prior art, the damaged mountain ecological vegetation restoration structure, the implementation method and the application thereof provided by the invention have the beneficial effects that: the ecological vegetation restoration structure provided by the invention solves the problems that the surface soil of the damaged mountain is seriously stripped or the planting matrix is difficult to adhere without covering the surface soil, a reinforced concrete structure poured by the groove plates and the trapezoidal partition plates and the slope of the mountain form a V-shaped groove as the foundation of the planting matrix, so that green plants can be planted on the side slope of the damaged upper body to form a green belt, planting soil can be laid between the V-shaped grooves by using a hanging net, the green plant restoration of the side slope of the damaged mountain is realized, and the ecological vegetation restoration structure has the advantages of high matrix retention rate, good re-greening effect, high vegetation survival rate, rain erosion resistance, simple process and the like.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic structural view of a damaged mountain ecological vegetation restoration structure provided by the present invention;

FIG. 2 is a structural view of the reinforcement of the V-shaped groove provided in FIG. 1;

FIG. 3 is a cross-sectional view A-A provided in FIG. 2;

fig. 4 is a schematic view of an anchoring structure of the oblique set anchor or the horizontal tensile anchor provided in fig. 1;

FIG. 5 is a top view of the planting pattern I of the V-shaped groove provided in FIG. 1;

FIG. 6 is a top view of the planting pattern II of the V-shaped groove provided in FIG. 1;

fig. 7 is a schematic structural diagram of the irrigation system provided by the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 3, the present embodiment provides a damaged mountain ecological vegetation restoration structure, including a plurality of V-shaped grooves 200 disposed on a damaged mountain side slope 100, each V-shaped groove 200 is disposed along a width direction of the side slope, the plurality of V-shaped grooves are disposed at intervals along a slope direction of the mountain to form a plurality of rows of V-shaped grooves, in the present embodiment, the plurality of rows of V-shaped grooves distributed up and down are used as a foundation for backfilling planting soil, specifically, a distance between two rows of V-shaped grooves 200 can be designed to be 4m, a plurality of trapezoidal partition plates 2002 are disposed in each V-shaped groove 200 along a length direction thereof for enhancing an overall structural strength of the V-shaped groove, preferably, the distance between two adjacent trapezoidal partition plates is set to be 2000mm, a thickness of the trapezoidal partition plate is 100mm, planting soil 10 is backfilled in the V-shaped grooves 200, and green plants 101 are planted on the.

Preferably, the V-shaped groove 200 of the present embodiment includes a groove plate 2001, an oblique fixing anchor 2003 and a horizontal tensile anchor 2004, the groove plate 2001 is a reinforced concrete slab, preferably, the thickness of the groove plate 2001 is 100mm, the height is 900mm, the groove plate 2001 is disposed along the width of the slope of the mountain, the oblique fixing anchor 2003 is anchored to the mountain rock formation at an angle of 45 ° with the horizontal plane, and the exposed end is connected to the main rib in the groove plate, the horizontal tensile anchor 2004 is horizontally anchored to the mountain rock formation, and the exposed end is connected to the main rib in the groove plate, the oblique fixing anchor 2003 and the horizontal tensile anchor 2004 of the present embodiment are used as the anchoring connection structure of the groove plate 2001 and the mountain, so as to ensure the stable and reliable structure of the formed V-shaped groove 200, the oblique fixing anchor or the horizontal tensile anchor and the mountain anchoring structure are shown in fig. 4, the anchoring hole of the anchoring section is 60mm, a pure cement slurry 40 of P.O.42.5 with a water-cement ratio of 0.5 and a slurry strength rating of M30 was poured, and a rubber sleeve pad 50 was placed at the mouth of the anchor hole.

Preferably, the oblique fixing anchor 2003 of the present embodiment uses reinforcing steel bars with a diameter of 18mm and a distance of 500mm, and the horizontal tensile anchor 2004 uses reinforcing steel bars with a distance of 20mm and a distance of 2000 mm.

Preferably, the V-shaped grooves 200 of this embodiment are provided with expansion joints (not shown) at intervals of 20m, the width of the expansion joints is 20mm, and asphalt reinforcement or other elastic waterproof materials are filled in the expansion joints.

Preferably, the trapezoidal partition 2002, the groove plate 2001, the horizontal tensile anchor 2004 and the oblique fixing anchor 2003 of this embodiment are cast by concrete to form an integral structure, and form a V-shaped groove structure with the side slope of the mountain, and a cast-in-place reinforced concrete structure is adopted, so that the V-shaped groove and the damaged mountain are integrated into a whole, and the structural strength is high.

The embodiment solves the problems that the surface soil of the damaged mountain is seriously stripped or the planting matrix is difficult to adhere without covering the surface soil, and the reinforced concrete structure poured by the groove plates and the trapezoidal partition plates and the slope surface of the mountain form a V-shaped groove as the foundation of the planting matrix, so that green plants can be planted on the side slope of the damaged upper body to form a green belt.

Further, this embodiment still includes irrigation system 300, as shown in fig. 7, irrigation system 300 includes moisturizing system, cistern 3001 and many water supply person in charge 3002 and many water supply branch pipe 3003, the sloping roof of mountain is located to cistern 3001, water supply branch pipe 3003 is fixed in each along the length direction of V type groove 200 on the trapezoidal partition 2002 of V type groove, every water supply person in charge's 3002 one end is connected the cistern 3001, and many water supply branch pipe 3003 are connected to the other end, moisturizing system connects cistern 3001, specifically, moisturizing system is including locating water pump 601, sand filter 602 and the mesh filter 603 of pump house 60.

Preferably, the main water supply pipe 3002 of the present embodiment is further provided with a pressure reducing valve 70, and the post-valve pressure of the pressure reducing valve is controlled to be 0.15 MPa.

Preferably, the water supply branch pipe 3003 of this embodiment is provided with water outlet holes (not shown in the figure) at the portion inside the V-shaped groove, and the aperture of the water outlet holes is 2mm and the distance is 1 m.

Example two

On the basis of the first embodiment, a grid net 80 and a steel rope net 90 are further arranged on the side slope between two adjacent rows of the V-shaped grooves 200, and the steel rope net 90 is arranged on the opposite outer side of the grid net 80, as shown in fig. 1. The planting soil can be paved between the V-shaped grooves by utilizing the hanging net, green plant restoration of the damaged mountain side slope is realized, and the method has the advantages of high matrix retention rate, good green restoration effect, high vegetation survival rate, rainwater erosion resistance, simple process and the like.

EXAMPLE III

On the basis of the first embodiment, the green plants in the embodiment are selected from drought-enduring local plants with strong adaptability to be subjected to arbor, shrub and grass three-dimensional configuration, and liana or shrub with evergreen and fallen leaves combined and shallow and deep roots combined is selected, in the embodiment, when the elevation is below 112m, the mountain climbing tiger 1011, the bougainvillea spectabilis 1012 and the elaeagnus mollis 1013 are selected as planting plants, and when the elevation is below 120m, the mountain climbing tiger 1011, the allamanda cathartica 1012 and the elaeagnus mollis 1013 are selected as planting plants, as shown in fig. 5; for the elevation above 112m, the plants of Cactus Parvifolius 1011, Vanilla root 1012 and Hedera helix 1013 are selected, and for the elevation above 120m, the plants of Cactus Parvifolius 1011, Paenilia japonica 1012 and Hedera helix 1013 are selected, as shown in FIG. 6.

Example four

The embodiment provides a method for implementing the damaged mountain ecological vegetation restoration structure, which comprises the following steps:

firstly, constructing inclined fixed anchor rods on the slope surface of a side slope of a damaged mountain at intervals of 4 meters according to design requirements, constructing horizontal tensile anchor rods above the inclined fixed anchor rods, pouring anchoring sections of the inclined fixed anchor rods and the horizontal tensile anchor rods by pure cement slurry of P.O.42.5 with the water cement ratio of 0.5 and the slurry strength grade of M30, and arranging rubber sleeve cushions at the end parts of the anchoring sections;

binding main ribs of the groove plate and the trapezoidal partition plate with the obliquely-arranged fixed anchor rod and the horizontal tensile anchor rod according to the design specification of the V-shaped groove to form reinforcing ribs of the V-shaped groove;

step three, installing a template for cast-in-place to form a reinforced concrete structure with a V-shaped groove;

fourthly, distributing a main water supply pipe, and fixedly installing a branch water supply pipe in each V-shaped groove;

and step five, backfilling planting soil and planting green plants.

EXAMPLE five

The embodiment provides an upright rocky slope or a high-steep rocky slope applying the ecological vegetation restoration structure for the damaged mountain.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The utility model provides an ecological vegetation restoration structure of impaired mountain body which characterized in that: including locating a plurality of V type grooves of impaired mountain side slope, each V type groove sets up along the width direction of side slope, and is a plurality of V type groove sets up along the slope direction interval of mountain, each V type inslot is equipped with the trapezoidal baffle of polylith along its length direction, the soil of planting is backfilled to V type inslot, it plants green planting on the soil of planting.

2. The damaged mountain ecological vegetation restoration structure of claim 1, characterized in that: the V type groove includes frid, puts fixed stock and horizontal tensile stock to one side, the frid is reinforced concrete board, put fixed stock to one side and personally submit 45 jiaos anchor in the massif stratum with the level, and expose the end and be connected with the main muscle in the frid, horizontal tensile stock horizontal anchor in the massif stratum, and expose the end and be connected with the main muscle in the frid.

3. The damaged mountain ecological vegetation restoration structure of claim 2, characterized in that: the trapezoidal partition plate, the groove plate, the horizontal tensile anchor rod and the obliquely-arranged fixing anchor rod are cast into an integral structure through concrete, and form a V-shaped groove structure with a side slope of a mountain.

4. The damaged mountain ecological vegetation restoration structure of claim 3, characterized in that: still include irrigation system, irrigation system includes water charging system, cistern and many water supplies and is responsible for and many water supply branch pipe, the slope top of mountain is located to the cistern, the water supply branch pipe is fixed in each along the length direction in V type groove on the trapezoidal baffle in V type groove, every the cistern is connected to the one end that the water supply was responsible for, many water supply branch pipes are connected to the other end, water charging system connects the cistern.

5. The damaged mountain ecological vegetation restoration structure of claim 4, characterized in that: the water supply branch pipe is in the part in the V type groove is equipped with the apopore, the aperture of apopore is 2mm, interval 1 m.

6. The ecological vegetation restoration structure for damaged mountains, according to any one of claims 1 to 5, is characterized in that: and a grating net and a steel rope net are further arranged on the side slope between the two adjacent rows of the V-shaped grooves, and the steel rope net is arranged on the opposite outer side of the grating net.

7. The damaged mountain ecological vegetation restoration structure of claim 6, characterized in that: the space between two adjacent rows of the V-shaped grooves is set to be 4m, the green plants are selected from strong-adaptability drought-enduring local plants to be subjected to arbor, shrub and grass three-dimensional configuration, and evergreen vines or shrubs combined with fallen leaves and shallow roots and deep roots are selected.

8. A method of implementing the damaged mountain ecological vegetation restoration structure of claim 7, wherein: the method comprises the following steps:

firstly, constructing inclined fixed anchor rods on the slope surface of a side slope of a damaged mountain at intervals of 4 meters according to design requirements, constructing horizontal tensile anchor rods above the inclined fixed anchor rods, pouring anchoring sections of the inclined fixed anchor rods and the horizontal tensile anchor rods by pure cement slurry of P.O.42.5 with the water cement ratio of 0.5 and the slurry strength grade of M30, and arranging rubber sleeve cushions at the end parts of the anchoring sections;

binding main ribs of the groove plate and the trapezoidal partition plate with the obliquely-arranged fixed anchor rod and the horizontal tensile anchor rod according to the design specification of the V-shaped groove to form reinforcing ribs of the V-shaped groove;

step three, installing a template for cast-in-place to form a reinforced concrete structure with a V-shaped groove;

fourthly, distributing a main water supply pipe, and fixedly installing a branch water supply pipe in each V-shaped groove;

and step five, backfilling planting soil and planting green plants.

9. An upright rocky slope or a high-steep rocky slope applying the damaged mountain ecological vegetation restoration structure of claim 7.

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