CN210104479U - Landscape road structure that permeates water - Google Patents

Abstract

The utility model belongs to the technical field of road drainage, a landscape road structure that permeates water is disclosed, its technical scheme main points are including the pavement that sets up in pairs, two be equipped with the permeable belt between the pavement, the permeable belt is including aquatic plant layer, filter layer and the planting soil layer that from top to bottom sets gradually, the filter layer bottom is buried there is the permeation tube, the sieve mesh has been seted up on the permeation tube, has concurrently and has drainage function and aesthetic property, and need not to dig the road surface when changing the permeation tube, avoids destruction and restoration to the road surface to can reduce the engineering volume, practice thrift the effect of cost.

Description

Landscape road structure that permeates water

Technical Field

The utility model relates to a technical field of road drainage, in particular to landscape road structure that permeates water.

Background

The garden road is an important link of garden design and an important component of gardens in scenic spots, and the garden road not only needs to consider the drainage function, but also needs to consider the coordination with nearby landscapes in the design process. In order to realize the drainage function of garden roads, permeable pavements are paved in a more adopted mode at present, and rainwater is allowed to directly infiltrate downwards on the surface of the roads.

Chinese patent with publication number CN207904705U discloses an ecological landscape road that permeates water, including the concrete layer that permeates water, the brick layer that permeates water, the bearing layer, the geotechnological cloth layer, permeable formation and rammer layer, the brick layer that permeates water comprises a plurality of bricks concatenation of permeating water, the brick that permeates water includes the brick body, the brick body is regular quadrangular structure, be equipped with the pressure-bearing recess on the upper surface of the brick body, be equipped with the pressure-bearing lug on the lower surface of the brick body, the bearing layer is the gravel of 5 ~ 15mm of particle size again and constitutes, the permeable formation is the mud rock stratum, be equipped with a plurality of permeation tubes in the.

This kind of ecological landscape road that permeates water top adopts the structure of permeating water, makes the road surface rainwater infiltrate down fast, buries the infiltration pipe underground in the bottom, will infiltrate down to the rainwater of infiltration layer and collect the back and drain away. However, in the actual use process, the service life of the permeation tube is certain and the permeation tube needs to be replaced periodically. The permeation tube is arranged below the road surface, the road surface can only be dug when the permeation tube is replaced, and the road surface is re-laid after the permeation tube is replaced, so that the engineering quantity is greatly increased, and the cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a landscape road structure that permeates water has and has drainage function and aesthetic property concurrently, and need not to dig the road surface when changing the infiltration pipe, avoids destruction and restoration to the road surface to can reduce the engineering volume, practice thrift the advantage of cost.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a landscape road structure that permeates water, includes the pavement that sets up in pairs, two be equipped with the permeable belt between the pavement, the permeable belt is including aquatic plant layer, filter layer and the planting soil layer that sets gradually from top to bottom, the infiltration pipe is buried in the filter layer, the last sieve mesh of having seted up of infiltration pipe.

By adopting the technical scheme, in rainy days, rainwater on a sidewalk flows into the water permeable belt, impurities with large volume in the rainwater are removed after passing through the aquatic plant layer and the filter layer, and then the rainwater is gathered into the permeation pipe through the sieve pores and then is drained away through the permeation pipe; have drainage function and aesthetic property concurrently, and need not to dig the road surface when changing the infiltration pipe, avoid the destruction and the restoration to the road surface to can reduce the engineering volume, practice thrift the cost.

Furthermore, a baffle plate is arranged in the filter layer, the baffle plate is parallel to the permeation tube, the cross section of the baffle plate is U-shaped, the opening of the baffle plate faces downwards, the baffle plate is buckled on the permeation tube, and the sieve holes are formed in the upper surface of the permeation tube.

By adopting the technical scheme, the U-shaped baffle plate is buckled on the permeation tube, rainwater seeps to the bottom of the filtration layer and then upwards bypasses the baffle plate, and then enters the permeation tube from the sieve pores on the upper surface of the permeation tube, so that the stroke of the rainwater in the filtration layer is greatly increased, and the rainwater can be more fully filtered; in addition, the baffling board separates the infiltration pipe and the aquatic plant layer, even if the filter layer of infiltration pipe top is broken away by rivers, debris in the rainwater also can't directly flow in the infiltration pipe to avoid the sieve mesh on the infiltration pipe to be blockked up.

Further, the water-permeable belt further comprises a geotextile layer, and the geotextile layer is arranged between the filter layer and the planting soil layer.

Through adopting above-mentioned technical scheme, the geotechnological cloth layer separates filter layer and planting soil layer, and its mesh size is far less than the width in the inside gap of filter layer, can avoid planting the intraformational soil diffusion of soil to the filter layer in betterly, and then avoids the sieve mesh on the infiltration pipe to be blockked up.

Furthermore, the water permeable belt further comprises pebble belts, the pebble belts are laid on the filter layer in pairs, and the pebble belts are arranged close to the sidewalk.

By adopting the technical scheme, when rainwater flows into the water permeable belt from the sidewalk, a certain drop is formed, the impact on the water permeable belt is large, and the rainwater easily penetrates through the aquatic plant layer to disperse the structure of the filter layer, so that the pebble belt is laid above the filter layer, and pebbles with large volume can effectively resist the impact of water flow; after the pebble belt is laid, a cool environment is formed below the pebbles, so that aquatic animals such as shrimps, crabs and fishes can conveniently inhabit, the biological diversity of the water permeable belt can be greatly increased, and the ecological balance is more stable.

Furthermore, the filter layer is formed by laying scattered ceramic grains.

By adopting the technical scheme, the ceramsite shell is hard, has strong resistance to water flow scouring erosion, has better corrosion resistance and has long service life; in addition, the ceramsite has excellent heat insulation performance, is covered above a planting soil layer, can well protect the roots of aquatic plants, and can prevent the aquatic plants from being frostbitten in a low-temperature environment.

Furthermore, a road tooth is arranged on one side of the sidewalk facing the permeable belt, and a water outlet is formed in the road tooth.

By adopting the technical scheme, the road teeth are arranged, so that the pedestrians are prevented from stepping on the water permeable belt when walking on the sidewalk.

Furthermore, the bottom surface of the water outlet is obliquely arranged, and the height of the water outlet facing one end of the water permeable belt is lower than that of the other end of the water outlet.

Through adopting above-mentioned technical scheme, the outlet bottom surface slope, when the rainwater flows in this department, highly constantly reduces, and gravitational potential energy turns into kinetic energy, and the velocity of flow accelerates to accelerate the drainage rate in outlet, make the difficult ponding in road surface.

Furthermore, a step plate is arranged on the road teeth.

By adopting the technical scheme, the step plates are erected on the road teeth on the two sides of the water permeable belt for pedestrians to step on, so that the pedestrians can conveniently stride over the water permeable belt.

To sum up, the utility model discloses following beneficial effect has:

1. the drainage function and the attractiveness are achieved, the pavement is not required to be dug when the permeation tube is replaced, and the damage and repair to the pavement are avoided, so that the engineering quantity can be reduced, and the cost is saved;

2. the baffle plates are arranged, so that the stroke of rainwater in the filtering layer is greatly increased, and the filtering effect is better;

3. through setting up the cobble area, avoid rivers direct impact to break away the filter layer on the filter layer to make the structure of water permeating area more stable, richen the ecological community of water permeating area simultaneously, make the ecosystem of water permeating area balanced more stable.

Drawings

FIG. 1 is a sectional view of the embodiment;

fig. 2 is an enlarged view at a in fig. 1.

In the figure, 1, sidewalk; 2. a water permeable tape; 11. a road tooth; 12. a water outlet; 13. a step plate; 21. an aquatic plant layer; 22. a filter layer; 23. planting a soil layer; 24. a permeate tube; 25. a baffle plate; 26. a geotextile layer; 27. a pebble zone; 241. and (4) screening holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

a landscape permeable road structure is shown in figure 1 and comprises a permeable belt 2 and sidewalks 1 which are arranged on two sides of the permeable belt 2 in pairs. The water permeable belt 2 comprises an aquatic plant layer 21, a filter layer 22, a geotextile layer 26 and a planting soil layer 23, which are arranged in sequence from top to bottom. The permeation tube 24 is embedded in the filter layer 22, is arranged along the length direction of the permeable belt 2 and is communicated with a municipal pipe network.

As shown in fig. 1, a road tooth 11 is provided on the side of the water permeable belt 2 of the sidewalk 1, the road tooth 11 is provided along the longitudinal direction of the sidewalk 1, and a plurality of water discharge ports 12 are opened at the bottom of the side wall thereof. The water outlet 12 is a through hole, one end of the bottom surface of the water outlet is connected with the sidewalk 1 and is flush with the sidewalk 1, and the other end of the water outlet is inclined downwards to guide rainwater on the sidewalk 1 into the water permeable belt 2.

As shown in figure 1, a plurality of step boards 13 are erected on the road teeth 11 at two sides of the water permeable belt 2, the step boards 13 are arranged along the horizontal direction and cross over the water permeable belt 2, and two ends of the step boards are placed on the road teeth 11 and are uniformly distributed along the length direction of the water permeable belt 2.

As shown in FIG. 1, the filtering layer 22 is formed by laying scattered ceramsite, and the particle size of the ceramsite is between 5mm and 10 mm. Two pebble belts 27 are laid on the filter layer 22, and the two pebble belts 27 are arranged along the length direction of the water permeable belt 2, are respectively positioned at two sides of the water permeable belt 2 and are arranged close to the sidewalk 1.

The particle size of the pebbles is 50mm to 200mm, and when rainwater flows into the water permeable belt 2 through the water outlet 12, the rainwater is firstly intercepted by the aquatic plant layer 21 and then impacts on the pebble belt 27, so that the ceramsite of the filter layer 22 cannot be dispersed.

As shown in FIGS. 1 and 2, the thickness of the filter layer 22 is 200mm, the permeation tube 24 is embedded in the middle upper part of the filter layer 22, the upper surface thereof is provided with a sieve 241, and the aperture of the sieve 241 is less than 5 mm. The permeation tube 24 is reversely buckled with a baffle plate 25, the baffle plate 25 is parallel to the permeation tube 24, the cross section of the baffle plate 25 is U-shaped, the opening of the baffle plate is downward, the baffle plate and the permeation tube 24 are embedded in the filter layer 22, and two side walls of the baffle plate 25 extend downwards to the bottom of the filter layer 22.

After entering the water permeable belt 2, the rainwater firstly passes through the aquatic plant layer 21, then seeps down to the bottom of the filter layer 22, bypasses the baffle plate 25, then upwards seeps to the top of the permeation pipe 24, enters the permeation pipe 24 through the sieve holes 241, and then is discharged through the permeation pipe 24. In the process, the rainwater is fully filtered, impurities with larger volume are filtered out, and the sieve holes 241 and the permeation tube 24 cannot be blocked.

As shown in fig. 1, the geotextile layer 26 separates the filter layer 22 from the planting soil layer 23, and prevents the soil in the planting soil layer 23 from diffusing upwards into the rainwater, thereby preventing water and soil loss.

The specific implementation process comprises the following steps:

in rainy days, rainwater on the sidewalk 1 flows into the water permeable belt 2 through the water discharge port 12, and after passing through the aquatic plant layer 21 and the filter layer 22, impurities with large volume in the rainwater are removed, and then the rainwater is collected into the permeation pipe 24 through the sieve holes 241 and then is discharged through the permeation pipe 24. When the permeation tube 24 needs to be repaired or replaced, the permeation tube 24 can be lifted directly from the filter layer 22 without damaging the structure of the sidewalks 1 on both sides.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a landscape road structure that permeates water which characterized in that: the water permeable belt comprises sidewalks (1) which are arranged in pairs, wherein a water permeable belt (2) is arranged between the sidewalks (1), the water permeable belt (2) comprises an aquatic plant layer (21), a filter layer (22) and a planting soil layer (23) which are sequentially arranged from top to bottom, a permeation pipe (24) is buried in the filter layer (22), and sieve holes (241) are formed in the permeation pipe (24).

2. The landscape permeable road structure of claim 1, which is characterized in that: the filter layer (22) is internally provided with a baffle plate (25), the baffle plate (25) is arranged in parallel to the permeation tube (24), the cross section of the baffle plate (25) is U-shaped, the opening of the baffle plate faces downwards, the baffle plate (25) is buckled on the permeation tube (24), and the sieve holes (241) are arranged on the upper surface of the permeation tube (24).

3. The landscape permeable road structure of claim 1, which is characterized in that: the water permeable belt (2) further comprises a geotextile layer (26), and the geotextile layer (26) is arranged between the filter layer (22) and the planting soil layer (23).

4. The landscape permeable road structure of claim 1, which is characterized in that: the water permeable belt (2) further comprises pebble belts (27), the pebble belts (27) are laid on the filter layer (22) in pairs, and the pebble belts (27) are arranged close to the sidewalk (1).

5. The landscape permeable road structure of claim 1, which is characterized in that: the filter layer (22) is formed by laying scattered ceramic grains.

6. The landscape permeable road structure of claim 1, which is characterized in that: one side of the sidewalk (1) facing the water permeable belt (2) is provided with road teeth (11), and the road teeth (11) are provided with water outlets (12).

7. The landscape permeable road structure of claim 6, which is characterized in that: the bottom surface of the water outlet (12) is obliquely arranged, and the height of the water outlet (12) facing one end of the water permeable belt (2) is lower than that of the other end of the water permeable belt.

8. The landscape permeable road structure of claim 6, which is characterized in that: and a step plate (13) is erected on the curbs (11).

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