CN210562230U - High steep slope planting technique structure - Google Patents

Abstract

The utility model provides a high steep side slope planting technique structure, this structure passes through barb portion and locking rope, can fix the vegetation strip steadily at high steep side slope, and the side slope is long-term afforestation effectual. A high steep slope planting technique structure includes: the earthwork net is fixed on the surface of the side slope, and the plurality of inclined protective baffles are arranged on the side slope; a plurality of vegetation strips, the vegetation strip is located two adjacent between the guard flap. The utility model provides high side slope long-term greening effect.

Description

High steep slope planting technique structure

Technical Field

The utility model relates to a high steep side slope ecological restoration field particularly, relates to a high steep side slope planting technique structure.

Background

The high and steep side slope has the characteristics of low background weathering degree, large slope and the like, and the vegetation is difficult to recover. The existing slope greening generally adopts a soil dressing spray-seeding method, and the method is characterized in that a matrix material mixed cementing material containing nutrients required by plant growth is sprayed on a rock-based slope surface, so that a firm and breathable soil plate block which is suitable for plant growth and has hardness and is close to natural surface soil is created on the rock-based slope surface, a plant community capable of being roughly managed is planted, and the natural ecology is restored to the maximum extent. However, this method is difficult to implement for a steep slope having a slope of 60 to 90 degrees, because a sprayed layer sprayed on the steep slope cannot adhere even if an adhesive is used and can slip off at any time.

Patent CN202551646U discloses a plant growing strip for greening high and steep slopes, which is fixed on the high and steep slopes through steel nails, and the height of the plant growing strip from the high and steep slopes upwards is equal to the thickness of a greening spray-seeding layer. Used for supporting the spray seeding layer and placing the spray thin layer to slide off.

And the plant growth strip is fixed on a high and steep slope only through a steel nail and is unstable in fixation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a high steep side slope planting technique structure, this structure passes through barb portion and locking rope, can fix the vegetation strip steadily at high steep side slope, and the long-term afforestation of side slope is effectual.

The utility model provides a technical scheme that its technical problem adopted is: a high steep slope planting technique structure includes: the earthwork net is fixed on the surface of the side slope, and the plurality of inclined protective baffles are arranged on the side slope; the geotechnical net is provided with a plurality of barb parts, the length direction of the protective baffle is horizontally arranged, and the protective baffles are sequentially arranged upwards along the side slope at intervals;

the plant growth strips are arranged between two adjacent protective baffles, and the length direction of the plant growth strips is horizontally arranged; the plant growing strips are fixed on the geonet through the barb parts, and the plurality of plant growing strips cover the geonet;

the two ends of the locking rope are respectively fixed on the two adjacent protective baffles, and the locking rope is used for tightening and fixing the plant growth strip.

Furthermore, the protective baffle is provided with a through hole, and the locking rope is fixed on the protective baffle through the through hole.

Furthermore, the perforation comprises an upper perforation and a lower perforation which are vertically arranged along the height direction of the protective baffle, and the locking rope passes through the upper perforation and the lower perforation and then is crossed, tightened and fixed with the plant-growing strip.

Further, the protective baffle is arranged perpendicular to the side slope.

Furthermore, it is a plurality of its part of barb portion is horizontal direction interval distribution and makes up into the barb strip, single it with at least one to plant the strip of living.

Further, the plant growing strip is wrapped by non-woven fabrics.

Further, the geonet is anchored to the side slope through anchor rods.

The utility model has the advantages that: the geotechnical net is through fixing on high steep side slope, and barb portion on the geotechnical net can play the fixed position effect to the vegetation strip, and a plurality of guard flap can avoid the vegetation strip of large tracts of land under the unexpected condition to drop on the geotechnical net, and guard flap's locking rope is striden can lock the lock and hold the vegetation strip, plays further reinforced (rfd) effect to the vegetation strip to side slope long-term afforestation effect has been improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention with the barb, locking cord and plant growth strip engaged with each other;

fig. 3 is the utility model discloses a geotechnique net barb portion sets up the schematic diagram.

Fig. 4 is a schematic view illustrating the cooperation of another locking rope and the plant-growing strip of the present invention.

Shown in the figure: slope 1, guard flap 2, plant living strip 3, geotechnological net 4, locking rope 5, stock 6, perforation 21, barb portion 41, go up perforation 211, lower perforation 212.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1 and fig. 2, the utility model discloses a high steep slope planting technique structure, include: a plurality of vegetation strips 3, a plurality of locking ropes 5, a geonet 4 fixed on the surface of the side slope 1 and a plurality of inclined protective baffles 2. Geonet 4 is equipped with a plurality of barb portions 41, the length direction of guard flap 2 is the level setting, and is a plurality of guard flap 2 sets up along side slope 1 interval in proper order upwards. Plant and grow strip 3 and locate adjacent two between the guard flap 2, and length direction is the horizontal setting. The vegetation strip 3 is fixed in through barb portion 41 geonet 4, it is a plurality of the vegetation strip 3 covers geonet 4 sets up. Two ends of the locking rope 5 are respectively fixed on the two adjacent protective baffles 2, and the locking rope 5 is used for tightening and fixing the plant growth strip 3.

Specifically, the method comprises the following steps: the plant growth strip 3 is made of a material with water permeable and air permeable functions and is arranged in a strip shape, and humus, organic fertilizer, plant seeds and the like are wrapped in the middle of the plant growth strip. Because geotechnological cloth light in weight, with low costs, corrosion-resistant, advantages such as tensile strength height, the utility model discloses a plant and grow strip 3 preferred adoption non-woven fabrics. The protective baffle 2 is fixed on the variable slope 1 in an inserting mode, and the geonet 4 is anchored on the slope through the anchor rods 6, so that the fixing is more stable. The length of the barb 41 is preferably such that it can penetrate into the outer layer of the plant growth strip 3. The protective baffle 2 is provided with a perforation 21, and the locking rope 5 is fixed on the protective baffle 2 through the perforation 21. The utility model discloses well perforation 21 includes perforation 211 and lower perforation 212 on arranging from top to bottom along 2 direction of height of guard flap, and lower perforation 212 is close to the slope surface setting, and the aperture can be suitably bigger, and the plant living strip 3 between two adjacent guard flap 2 is two at least, and locking rope 5 is "8" font is alternately tightened, fixed plant living strip 3 after passing perforation 211 and lower perforation 212. Thus, compared with the mode that only the protective baffle 2 is provided with the through holes 211 (see fig. 4), the plant growth strip 3 of the former is more firmly fixed. The lower perforations 212 may also be used for water seepage, facilitating drainage from high and steep slopes. Of course, the locking rope 5 can also be fixed on the protective baffle 2 by adopting a common connecting mode.

After the green planting of high steep side slope adopted above-mentioned structure, geotechnological net 4 when playing the side slope guard action, barb portion 41 on it can play the rigidity effect to planting living strip 3, and a plurality of guard shield 2 on the side slope 1 can avoid the vegetation strip of large tracts of land under the unexpected condition to descend, can hold soil in the rainwater that flows under the environment such as torrential rain, improves high steep side slope soil and water loss problem, and the locking rope 5 of crossing guard shield 2 can lock the lock and hold planting living strip 3, plays further reinforced (rfd) effect to the vegetation strip, consequently the utility model provides the high long-term afforestation effect of slope.

As shown in fig. 2 and 3, some of the plurality of barb portions 41 are distributed horizontally at intervals to form barb strips, and a single plant growth strip is connected with at least one barb strip, so that the plant growth strip is stably fixed on the slope.

The protective barrier 2 is preferably arranged perpendicular to the side slope 1. This is beneficial to storing more soil and better fixing the position of the plant growing strip.

The high and steep slope greening planting structure can be used for spray-seeding on the surfaces of the plant-growing strips 3, the spray-seeding layers are formed in gaps among the plant-growing strips 3, the sliding phenomenon cannot occur, and the plant-growing strips 3 are internally provided with seeds, so that the overall greening effect is good.

Claims (7)

1. The utility model provides a high steep slope planting technique structure which characterized in that includes: the earthwork net (4) is fixed on the surface of the side slope (1), and the plurality of inclined protective baffles (2) are arranged on the side slope; the geotechnical net (4) is provided with a plurality of barb parts (41), the length direction of the protective baffle (2) is horizontally arranged, and the protective baffles (2) are sequentially arranged upwards along the side slope (1) at intervals;

the plant growth strips (3) are arranged between two adjacent protective baffles (2), and the length direction of the plant growth strips (3) is horizontal; the plant growth strips (3) are fixed to the geonet (4) through the barb parts (41), and the plurality of plant growth strips (3) are arranged to cover the geonet (4);

the plant growth protection device comprises a plurality of locking ropes (5), wherein two ends of each locking rope (5) are respectively fixed on two adjacent protection baffles (2), and the locking ropes (5) are used for tightening and fixing the plant growth strips (3).

2. A high and steep slope afforestation planting structure according to claim 1, wherein the guard fence (2) is provided with a perforation (21), and the locking rope (5) is fixed to the guard fence (2) through the perforation (21).

3. A high steep slope planting technique structure as claimed in claim 2, characterized in that: the through holes (21) comprise upper through holes (211) and lower through holes (212) which are vertically arranged along the height direction of the protective baffle (2), and the locking ropes (5) penetrate through the upper through holes (211) and the lower through holes (212) and then are crossed, tightened and fixed with the plant-growing strips (3).

4. A high steep slope planting technique structure as claimed in claim 1, characterized in that: the protective baffle (2) is perpendicular to the side slope (1).

5. A high steep slope planting technique structure as claimed in claim 1, characterized in that: it is a plurality of barb portion (41) wherein part is horizontal direction interval distribution and makes up into the barb strip, single plant and grow strip (3) and at least one the barb strip meets.

6. A high steep slope planting technique structure as claimed in claim 1, characterized in that: the plant growth strip (3) is made of non-woven fabric and is arranged in a strip shape.

7. A high steep slope planting technique structure as claimed in claim 1, characterized in that: the geonet (4) is anchored on the side slope (1) through an anchor rod (6).

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