CN213806812U - Landscape ecological corridor frame capable of storing water - Google Patents

Abstract

The utility model relates to an ecological corridor frame, concretely relates to ecological corridor frame of view that can impound. The landscape ecological corridor frame comprises a corridor frame main body and a hardening roadbed, corridor columns are symmetrically installed at the middle part of the upper surface of the hardening roadbed at intervals, ecological grooves are symmetrically formed in the hardening roadbed at the outer sides of the corridor columns, partition plates are arranged in the ecological grooves, a river sand layer, a gravel layer, a soil layer and a vermiculite layer are sequentially paved in the ecological grooves above the partition plates from bottom to top, and landscape plants are planted on the soil layer. When the landscape ecological rack is used in rainy seasons, rainwater can flow into the ecological groove from the pavement bricks paved on the ground, and rainwater stored in hot weather can irrigate and spray landscape plants and reduce the temperature around the rack, so that the comprehensive utilization of the rainwater is realized, and the problem that the existing rainwater cannot permeate underground in time is solved; the rainwater recycling device has the advantages that inconvenience is brought to visiting, rainwater is not comprehensively utilized, and the rainwater is recycled to achieve the water resource saving effect.

Description

Landscape ecological corridor frame capable of storing water

Technical Field

The utility model relates to an ecological corridor frame, concretely relates to ecological corridor frame of view that can impound.

Background

As a garden building, the landscape corridor frame is usually provided with a cross bar at the top for the growth and climbing of vine plants, thereby beautifying the environment, increasing the landscape effect and providing shading and shielding for tourists. However, in rainy days, rainwater is often left on the surface of the corridor frame pavement (road) and cannot timely permeate into the ground, which brings inconvenience to the visit, and the rainwater is not comprehensively utilized, so that improvement is needed.

Disclosure of Invention

The utility model aims to provide a: the landscape ecological corridor frame capable of storing water is capable of purifying and storing rainwater and irrigating landscape plants by using the stored rainwater, so that the rainwater is comprehensively utilized.

The technical scheme of the utility model is that:

a landscape ecological corridor frame capable of storing water comprises a corridor frame main body and a hardened roadbed, wherein the corridor frame main body is composed of corridor columns and a top cross rod, corridor columns are symmetrically installed in the middle of the upper surface of the hardened roadbed at intervals, the tops of the corridor columns are fixedly connected with each other through the top cross rod, a pavement brick is paved on the hardened roadbed between the corridor columns, and guardrail chairs are arranged between the corridor columns on the two sides of the pavement brick; the method is characterized in that: ecological grooves are symmetrically formed in the hardened roadbed on the outer side of the corridor column, partition plates are arranged in the ecological grooves, a river sand layer, a gravel layer, a soil layer and a vermiculite layer are sequentially paved in the ecological grooves above the partition plates from bottom to top, and landscape plants are planted on the soil layer.

The corridor column is a hollow corridor column, and a communicating hose is arranged in the corridor column.

And an irrigation spray pipe is fixedly arranged on the outer side of the gallery post below the cross rod at the top.

The ecological groove below the partition plate is internally provided with a submersible pump which is communicated with the irrigation spray pipe through a communication hose.

The ecological tanks are communicated with each other through communicating pipes.

An overflow pipe is arranged in the hardened roadbed on one side of the ecological groove.

And water filtering holes are uniformly distributed on the partition plate.

The beneficial effects of the utility model reside in that:

this ecological corridor of view frame that can impound simple structure, the modern design, during rainy season, the rainwater can flow into ecological groove on the pavement's pavement brick, through the vermiculite layer, soil horizon, metalling, river sand layer purification filtration back storage, and when rainfall was great, rainwater accessible overflow pipe was saved in the ecological groove of baffle below fast to reduce the ground runoff. Rainwater stored in hot weather can irrigate and spray landscape plants through the submersible pump and the irrigation spray pipe, and the temperature around the corridor frame can be reduced, so that the comprehensive utilization of the rainwater is realized, and the problem that the conventional rainwater cannot permeate underground in time is solved; the rainwater recycling device has the advantages that inconvenience is brought to visiting, rainwater is not comprehensively utilized, and the rainwater is recycled to achieve the water resource saving effect.

Drawings

Fig. 1 is a schematic cross-sectional structure of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is an enlarged schematic view of a point a in fig. 1.

In the figure: 1. the device comprises a hardened roadbed, 2 parts of gallery columns, 3 parts of top cross rods, 4 parts of pavement bricks, 5 parts of guardrail chairs, 6 parts of irrigation spray pipes, 7 parts of partition plates, 8 parts of water storage tanks, 9 parts of river sand layers, 10 parts of gravel layers, 11 parts of soil layers, 12 parts of vermiculite layers, 13 parts of landscape plants, 14 parts of submersible pumps, 15 parts of communicating pipes and 16 parts of overflow pipes, 17 parts of water filtering holes.

Detailed Description

This ecological corridor of view frame that can impound includes corridor frame main part and sclerosis road bed 1, corridor frame main part comprises corridor post 2 and top horizontal pole 3, and corridor post 2 is installed to the surface middle part of sclerosis road bed 1 for interval form symmetry, and corridor post 2 tops are through 3 mutual fixed connection of top horizontal pole, and corridor post 2 is hollow corridor post, is equipped with the intercommunication hose in the corridor post 2. An irrigation spray pipe 6 is fixedly arranged on the outer side of the gallery post 2 below the top cross rod 3; the irrigation spray pipe 6 is communicated with a communication hose.

Pavement bricks 4 are laid on the hardened roadbed 1 between the corridor columns 2, and the pavement bricks 4 are laid in a micro-arch shape to prevent water accumulation in rainy days. And guardrail chairs 5 are arranged between the gallery posts 2 at the two sides of the sidewalk brick 4 for the rest of the tourist. Ecological grooves are symmetrically arranged on the hardened roadbed 1 at the two sides of the corridor column 2 and are communicated with each other through a communicating pipe 15.

A partition plate 7 is arranged in the ecological groove, and water filtering holes 17 are uniformly distributed on the partition plate 7. Thereby dividing the ecological groove into a planting groove above the clapboard 7 and a water storage groove 8 below the clapboard 7 in an up-and-down shape.

A river sand layer 9, a gravel layer 10, a soil layer 11 and a vermiculite layer 12 are sequentially paved in the planting groove above the partition plate 7 from bottom to top, and landscape plants 13 are planted on the soil layer 11. A submersible pump 14 (connected with an external power supply) is arranged in the water storage tank 8 below the partition plate 7, and the submersible pump 14 is communicated with the irrigation spray pipe 6 through a communication hose. An overflow pipe 16 is arranged in the hardened roadbed 1 at one side of the ecological groove and is used for communicating the planting groove above the lower part of the clapboard 7 with the water storage groove 8 below the clapboard 7.

This ecological corridor frame of view that can impound simple structure, the modern design, during rainy season, the rainwater can flow into the ecological groove on the pavement's pavement brick 4, then behind vermiculite layer 12, soil horizon 11, metalling 10, river sand layer 9 purification filtration in the ecological groove, in the drainage hole 17 entering reservoir 8 storage of equipartition on through baffle 7.

When the rainfall is large, rainwater can be quickly discharged through the overflow pipe 16 and stored in the water storage tank 8 below the partition plate 7, so that the ground runoff is reduced. When the weather is hot, rainwater stored in the water storage tank 8 can irrigate and spray landscape plants 13 through the submersible pump 14 and the irrigation spray pipe 6, the landscape effect can be improved while the irrigation and the spraying are carried out, the temperature around the gallery frame can be reduced, therefore, the comprehensive utilization of the rainwater is realized, and the problem that the existing rainwater cannot timely permeate into the ground is solved; the rainwater recycling device has the advantages that inconvenience is brought to visiting, rainwater is not comprehensively utilized, and the rainwater is recycled to achieve the water resource saving effect.

Claims (7)

1. A landscape ecological corridor frame capable of storing water comprises a corridor frame main body and a hardening roadbed (1), wherein the corridor frame main body is composed of corridor columns (2) and top cross rods (3), the corridor columns (2) are symmetrically installed in the middle of the upper surface of the hardening roadbed (1) at intervals, the tops of the corridor columns (2) are fixedly connected with each other through the top cross rods (3), a pavement brick (4) is laid on the hardening roadbed (1) between the corridor columns (2), and guardrail chairs (5) are arranged between the corridor columns (2) on the two sides of the pavement brick (4); the method is characterized in that: ecological grooves are symmetrically arranged on the hardened roadbed (1) on the outer side of the corridor column (2), partition plates (7) are arranged in the ecological grooves, a river sand layer (9), a gravel layer (10), a soil layer (11) and a vermiculite layer (12) are sequentially paved in the ecological grooves above the partition plates (7) from bottom to top, and landscape plants (13) are planted on the soil layer (11).

2. The landscape ecological corridor frame capable of storing water according to claim 1, characterized in that: the corridor column (2) is a hollow corridor column, and a communicating hose is arranged in the corridor column (2).

3. The landscape ecological corridor frame capable of storing water according to claim 1, characterized in that: and an irrigation spray pipe (6) is fixedly arranged on the outer side of the gallery column (2) below the top cross rod (3).

4. The landscape ecological corridor frame capable of storing water according to claim 1, characterized in that: the ecological groove below the partition plate (7) is internally provided with a submersible pump (14), and the submersible pump (14) is communicated with the irrigation spray pipe (6) through a communication hose.

5. The landscape ecological corridor frame capable of storing water according to claim 1, characterized in that: the ecological tanks are mutually communicated through a communicating pipe (15).

6. The ecological corridor of landscape that can impound of claim 5, characterized in that: an overflow pipe (16) is arranged in the hardened roadbed (1) at one side of the ecological groove; used for communicating the ecological grooves on the upper part and the lower part of the clapboard (7).

7. The ecological corridor frame of landscape that can impound of claim 6, characterized by: and water filtering holes (17) are uniformly distributed on the partition plate (7).

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