CN214126190U - Ecological town road design greenbelt - Google Patents

Abstract

The utility model relates to an ecological town road design greenbelt, belong to the municipal afforestation field, it includes the road and sets up the greenbelt in the both sides road, be provided with the cistern in the greenbelt, the cistern upper cover is equipped with the lid pool board, fixed mounting has the support column on the lid pool board, install on the support column and bear the frame, it is located the both sides that the greenbelt is close to the road to bear the frame, and bear the slope setting of top-down towards both sides road of frame, it is provided with a plurality of afforestation basins to bear the frame, it has green planting to plant on the afforestation basin, install the guide plate on the support column, the guide plate is located the below of bearing the frame and with bear the slope setting that parallels of frame, the inflow entrance has been seted up on the lid pool board, the lower extreme of guide plate extends to flowing entrance, be provided with the filter equipment who is used for filtering the rainwater in the cistern and be used for water delivery to the water delivery subassembly of greenbelt. Unnecessary rainwater can be collected and fall into in the greenbelt and be used for the repeated watering utilization, and the water economy resource accords with ecological town road's green construction theory.

Description

Ecological town road design greenbelt

Technical Field

The application relates to the field of municipal afforestation, especially, relate to an ecological town road design greenbelt.

Background

In the construction of town roads, green belts are often built between roads on two sides, the green belts can beautify the environmental landscape along the roads, and can play a role in reducing dust rising, weakening noise, absorbing harmful gas and releasing oxygen, in addition, the green belts can also strengthen the visual induction of drivers and relieve the tension caused by high-speed running, and therefore, the road green belts are particularly important.

The green belt is generally built on a road soil base, various shrubs and flowers and plants are planted on the soil base, in addition, a municipal drainage pipe for draining flood is generally built in the soil base, and redundant rainwater of the green belt after rainfall can be drained through the drainage pipe.

In view of the related art in the above, the inventors consider that there are drawbacks in that: the rainwater that these greenbelts can hold is less, and after the soil in the greenbelts soaked, unnecessary rainwater just directly was discharged, and after the moisture of soil was absorbed by green planting, needs the workman to go again and water the greenbelts, has not only increased the cost of labor, the water resource of wasting moreover.

SUMMERY OF THE UTILITY MODEL

In order to improve the make full use of rainwater, this application provides an ecological town road design greenbelt, can collect and fall into unnecessary rainwater in the greenbelt to carry out filtration treatment and be used for repeated watering to utilize, reduced the intensity of labour of artifical watering, and the water economy resource accords with ecological town road's green construction theory.

The application provides a pair of ecological town road design greenbelt adopts following technical scheme:

an ecological municipal road design green belt comprises roads and green belts arranged in the roads on two sides, the green belt is provided with a reservoir, a pool covering plate is arranged on the upper cover of the reservoir, a supporting column is fixedly arranged on the pool covering plate, the supporting columns are provided with bearing frames which are positioned at two sides of the green belts close to the road, the bearing frame is obliquely arranged towards roads on two sides from top to bottom, a plurality of greening basins are arranged on the bearing frame, green plants are planted on the greening pot, the support columns are provided with guide plates, the guide plates are positioned below the bearing frame and are obliquely arranged in parallel with the bearing frame, the cover plate is provided with a flow inlet, the lower end of the guide plate extends to the flow inlet, and a filtering device for filtering rainwater and a water delivery assembly for delivering water to a green belt are arranged in the reservoir.

Through adopting above-mentioned technical scheme, install green planting in the backup pad of slope and can make the greenbelt form three-dimensional afforestation clump, the area of afforestation of greenbelt has been improved, in addition, rainwater watering bears the green planting on the frame during the rainfall, unnecessary rainwater sees through and bears the frame and fall down to the guide plate on, the guide plate advances the cistern with the rainwater through the inflow entrance water conservancy diversion, the filter equipment of cistern carries out filtration treatment back to the rainwater, conveying component carries the clean rainwater after will filtering to the greenbelt top, and unnecessary irrigation water flows on the guide plate once more, collect the cistern again, make the rainwater can reuse, the labour cost of water resource and workman's watering has been practiced thrift.

Preferably, the filtering device comprises: the symmetry is installed the cistern is close to the first baffle and the second baffle of road both sides, and install be used for clearing up the desilting subassembly of deposit in the cistern, wherein, the lower extreme of guide plate extends to first baffle is close to a side of road, the second baffle is located first baffle is kept away from a side of road, the top of first baffle is higher than the top of second baffle.

Through adopting above-mentioned technical scheme, first baffle and second baffle divide the cistern into several filter layers, the rainwater flows into one side department that is close to the cistern wall to first baffle from the guide plate, make the rainwater at first store and deposit between first baffle and the cistern lateral wall and filter, when the rainwater overflows first baffle top gradually, the comparatively clean rainwater in upper strata overflows and deposits once more between first baffle and the second baffle, the rainwater filters the back through twice sediment, spill over to between two second baffles from the top of second baffle, make the rainwater obtain abundant filter effect.

Preferably, overflow weir plates are installed at the top ends of the first partition plate and the second partition plate.

Through adopting above-mentioned technical scheme, the rainwater overflows and goes out in the overflow weir plate, makes the rainwater overflow more evenly and goes out, has reduced because of the rainwater flows the condition that the deposit that leads to is raised excessively urgently, improves the filter effect of rainwater.

Preferably, the dredging assembly comprises: install the dredge pump on the apron, connect and be in the mud collection pipe of dredge pump input, and connect and be in the mud pipe of dredge pump output, wherein, the mud collection pipe runs through first baffle with the second baffle, and the intercommunication is provided with into mud pipe on the both sides mud collection pipe body of first baffle.

Through adopting above-mentioned technical scheme, the workman can with the pipe connection who loads the silt container to the mud pipe on, then start the mud pump, the silt of the filtering area bottom of deposit in first baffle both sides is cleared up out through advancing mud pipe, mud collection pipe by the extraction to make the cistern can filter the rainwater better.

Preferably, the water delivery assembly comprises: install suction pump on the lid pond board is connected the inlet tube of suction pump input is connected the raceway of suction pump output, and install the raceway is kept away from the shower nozzle of suction pump one end, wherein, the inlet tube extends to two in the cistern position department between the second baffle, the raceway extends to the top of greenbelt, the shower nozzle orientation is upwards and be located both sides bear the top of frame.

Through adopting above-mentioned technical scheme, collect the rainwater in the cistern and pass through the suction pump and be carried to the greenbelt top, pump and upwards spray water through the shower nozzle after sending to the greenbelt top, make water fall to the green of bearing frame both sides evenly and plant on, in addition, the splash that upwards sprays can be for road adsorption of dust, clean environment.

Preferably, the guide plate is provided with a groove, the groove extends along the inclined direction of the guide plate and is positioned below the gap between the adjacent greening basins

Through adopting above-mentioned technical scheme, the rainwater that flows in from bearing the space between the afforestation basin of frame can fall to the ditch in, makes the rainwater of guide plate evenly smoothly water conservancy diversion to the cistern in, does benefit to follow-up better and filters the rainwater.

Preferably, the greening pot bottom wall is provided with a plurality of drainage holes.

Through adopting above-mentioned technical scheme, drench after the rainwater in the afforestation basin soaks soil, unnecessary rainwater flows into to the guide plate in through the drainage hole to reduce the corruption influence that the rainwater soaks green in for the afforestation basin and plant and bring, can make reuse in more rainwater gets into the cistern moreover.

Preferably, the edge of the top of the greening basin is provided with an arc-shaped block, and the arc-shaped block is clamped and installed on the bearing frame.

Through adopting above-mentioned technical scheme, make the afforestation basin be convenient for get put on bearing frame to the workman changes or repairs the green plant on to the afforestation basin.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the supporting columns and the bearing frame, a greening cluster capable of bearing the greening pot in a three-dimensional manner is constructed on the greening belt, so that the greening area of the greening belt is increased;

2. by arranging the guide plate, the water storage tank and the water delivery assembly, rainwater falling into the green belt can be collected and recycled, so that irrigation water is saved;

3. through setting up filter equipment, make the mud impurity that the rainwater erodees behind the afforestation basin under the belt can be filtered by the sediment, make irrigation water cleaner, reduce the condition emergence of water delivery jam.

Drawings

FIG. 1 is a schematic diagram of the overall structure in an embodiment of the present application;

FIG. 2 is a schematic view of a carrier construction in an embodiment of the present application;

FIG. 3 is a schematic view of a greening pot according to an embodiment of the present application;

FIG. 4 is a schematic view of a structure of a baffle in an embodiment of the present application;

fig. 5 is a schematic structural view of a first separator and a second separator in the embodiment of the present application.

Description of reference numerals: 1. a road; 2. a green belt; 21. vegetation; 3. a reservoir; 301. a first compartment; 302. a second compartment; 303. a water storage compartment; 31. covering the pond plate; 32. an inflow port; 33. a first separator; 34. a second separator; 341. an overflow weir plate; 35. a mud pump; 351. a mud collecting pipe; 352. a sludge discharge pipe; 353. a mud inlet pipe; 36. a water pump; 361. a water inlet pipe; 362. a water delivery pipe; 363. a spray head; 4. a support pillar; 41. a carrier; 411. a transverse steel pipe; 412. longitudinal steel pipes; 42. a baffle; 421. a concave channel; 5. greening pots; 51. planting green; 52. a water drainage hole; 53. an arc-shaped block.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses ecological town road design greenbelt.

Referring to fig. 1, an ecological town road design greenbelt, including road 1 and greenbelt 2 between the road 1 of both sides, plant vegetation 21 on greenbelt 2, have effects such as eliminating visual fatigue, purifying environment, beautifying the city, however, greenbelt 2 needs the workman to water vegetation 21 often, and when rainfall takes place, often direct infiltration is discharged through the municipal drainage canal under greenbelt 2 when rainwater descends to greenbelt 2, not only does not rationally utilize good rainwater resource, and the waste of water resource has been caused.

In order to improve the problem, a water reservoir 3 is arranged in a green belt 2, a cover plate 31 is arranged at an opening above the water reservoir 3 in a covering mode, a plurality of support columns 4 are symmetrically arranged on the cover plate 31, the arrangement direction of the support columns 4 is consistent with the extension direction of the green belt 2, a bearing frame 41 is arranged at the top end of each support column 4, the bearing frames 41 are located on two sides, close to a road 1, of the green belt 2, the bearing frames 41 are obliquely arranged from top to bottom towards the road 1, a plurality of green pots 5 are arranged on the bearing frames 41, multiple layers of green pots 5 are distributed on the bearing frames 41 in a stepped mode, green plants 51 are planted on the green pots 5, a three-dimensional cluster with a triangular cross section is built above the green belt 2, and the green area of the green belt 2 is increased.

As shown in fig. 1-3, the supporting frame 41 is composed of multiple sets of longitudinal steel pipes 412 and transverse steel pipes 411, each set of longitudinal steel pipes 412 is composed of two parallel pipes, a gap is reserved between the two parallel pipes, meanwhile, the arc blocks 53 are installed at the edges of the two sides of the top end of the greening basin 5, the arc blocks 53 are clamped on the longitudinal steel pipes 412 and clamped into the gaps between the two parallel pipes, each greening basin 5 is installed in a space formed by each set of longitudinal steel pipes 412 and the transverse steel pipes 411, and therefore a worker can conveniently take the greening basin 5 out of the supporting frame 41 to replace the greening plants 51, in addition, the bottom wall of the greening basin 5 is provided with multiple drainage holes 52, so that the moisture in the greening basin 5 can be dredged when rainfall occurs, and the adverse influence of rainwater soaking on the greening plants 51.

Meanwhile, the baffles 42 are also mounted on the carriers 41, as shown in fig. 1 and 4, the baffles 42 are arranged in parallel with the carriers 41 and are positioned below the carriers 41 on both sides, inflow ports 32 are symmetrically formed above the cover plate 31 near both side edges thereof so that the lower end of the guide plate 42 is connected to the water reservoir 3 through the inflow ports 32, and in addition, the guide plate 42 is provided with a plurality of grooves 421 arranged along the inclined direction of the guide plate 42, each groove is positioned below the gap of the parallel double pipes, when rainfall occurs, after the rainwater permeates into the soil of the greening basin 5, the redundant water flows down to the flow guide plate 42 through the drainage hole 52, the rainwater penetrating through the gap of the bearing frame 41 directly flows down to the concave channel 421, the guide plate 42 guides and collects the collected rainwater into the water reservoir 3 through the inflow opening 32, so that the green belt 2 can collect the excessive rainwater.

Since a small amount of soil in the greening basin 5 can be taken away by the rain water, in order to filter the rain water with soil impurities for reuse, a filtering device is disposed in the reservoir 3, in this embodiment, as shown in fig. 1, the filtering device includes a first partition 33 and a second partition 34, wherein the first partition 33 is symmetrically installed at two sides of the reservoir 3 near the road 1, the lower end of the flow guide plate 42 extends from the inflow opening 32 to a side of the first partition 33 near the side wall of the reservoir 3, the rain water can flow into a first compartment 301 formed by the first partition 33 and the side wall of the reservoir 3 along the flow guide plate 42, the second partition 34 is located at a side of the first partition 33 near each other, the rain water overflows to a second compartment 302 formed by the first partition 33 and the second partition 34 after overflowing to the top end of the first partition 33, and the top end of the second partition 34 is lower than the top end of the first partition 33, the rainwater is subjected to fractional precipitation and filtration in the first compartment 301 and the second compartment 302, and the precipitated rainwater finally overflows and collects between the two second partition plates 34 to form the water storage compartment 303, so that the water in the water storage compartment 303 is clarified, and the subsequent reutilization is facilitated.

In order to make the settled rainwater overflow more uniformly, as shown in fig. 1 and 5, overflow weir plates 341 are installed at the top ends of the first partition plate 33 and the second partition plate 34, each overflow weir plate 341 is a toothed plate, and the rainwater overflows from tooth grooves of the overflow weir plates 341, so that the rainwater flows uniformly and stably into the next compartment, and the phenomenon that the rainwater flows suddenly to raise sediment is reduced, thereby improving the filtering effect of the rainwater.

When the water storage tank 3 is used for a period of time, sludge is deposited on the bottom, in order to clean the sludge so as to facilitate subsequent better operation of the water storage tank 3, the filtering device further comprises a dredging component, in this embodiment, the dredging component comprises a sludge pump 35 installed on the cover plate 31, a sludge discharge pipe 352 is installed at the output end of the sludge pump 35, a sludge collection pipe 351 is installed at the input end of the sludge pump 35, the sludge collection pipe 351 extends to the bottom of the water storage compartment 303, and extends through the first partition plate 33 and the second partition plate 34 to the two sides, and a sludge inlet pipe 353 is connected to the pipe body of the sludge collection pipe 351 at the first compartment 301 and the second compartment 302. When the sludge needs to be cleaned, the worker connects the pipeline of the carrying container to the sludge discharge pipe 352, and the sludge pump 35 is started to pump the sludge of the first compartment 301 and the second compartment 302 up through the sludge inlet pipe 353 and the sludge collecting pipe 351 to be cleaned and carried away.

In order to recycle the collected clean rainwater, a water delivery assembly is further installed in the reservoir 3, the water delivery assembly comprises a water suction pump 36 installed on the cover plate 31, an input end of the water suction pump 36 is connected with and installed with a water inlet pipe 361, one end of the water inlet pipe 361 far away from the water suction pump 36 extends downwards into the water storage compartment 303, an output end of the water suction pump 36 is connected with and installed with a water delivery pipe 362, one end of the water delivery pipe 362 far away from the water suction pump 36 extends upwards above the bearing frame 41, and a vertically upward spray nozzle 363 is installed at the top end, when the green plants 51 need to be watered, a worker starts the water suction pump 36 to deliver the rainwater collected by filtering in the reservoir 3 to the top of the green belt 2, sprays water onto the green pots 5 of the bearing frame 41, so that the green plants 51 can be irrigated, and excess water during spraying can flow into the first compartment 301 of the reservoir 3 again along the guide plate 42 to be precipitated and filtered again for recycling, thereby greatly reducing the waste of water resources.

The above are all preferred embodiments of the present application, and the present embodiment is only explained for the present application, and the protection scope of the present application is not limited by this, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an ecological town road design greenbelt, includes road (1) and sets up in both sides greenbelt (2) in the road (1), its characterized in that, be provided with cistern (3) in greenbelt (2), cistern (3) upper cover is equipped with lid pool board (31), fixed mounting has support column (4) on lid pool board (31), install on support column (4) and bear frame (41), bear frame (41) and be located greenbelt (2) are close to the both sides of road (1), and bear frame (41) top-down sets up towards both sides road (1) slope, be provided with a plurality of afforestation basins (5) on bearing frame (41), plant on afforestation basin (5) green planting (51), install guide plate (42) on support column (4), guide plate (42) are located bear the below of frame (41) and with bear frame (41) slope setting, the cover plate (31) is provided with an inflow port (32), the lower end of the guide plate (42) extends to the inflow port (32), and a filtering device for filtering rainwater and a water conveying assembly for conveying water to the green belt (2) are arranged in the water storage tank (3).

2. The ecological municipal road design green belt according to claim 1, wherein the filtration device comprises: install symmetrically cistern (3) are close to first baffle (33) and second baffle (34) of road (1) both sides, and install be used for clearing up the desilting subassembly of deposit in cistern (3), wherein, the lower extreme of guide plate (42) extends to first baffle (33) are close to a side of road (1), second baffle (34) are located first baffle (33) are kept away from a side of road (1), the top of first baffle (33) is higher than the top of second baffle (34).

3. The ecological town road design green belt as claimed in claim 2, wherein the dredging component comprises: install mud pump (35) on lid pond board (31), connect in mud collection pipe (351) of mud pump (35) input, and connect in mud discharge pipe (352) of mud pump (35) output, wherein, mud collection pipe (351) run through first baffle (33) with second baffle (34), and the intercommunication is provided with into mud pipe (353) on the both sides mud collection pipe (351) body of first baffle (33).

4. The ecological municipal road design green belt according to claim 2, wherein the water delivery assembly comprises: install suction pump (36) on lid pond board (31) connect inlet tube (361) of suction pump (36) input is connected raceway (362) of suction pump (36) output, and install raceway (362) are kept away from shower nozzle (363) of suction pump (36) one end, wherein, inlet tube (361) extend to two in cistern (3) position department between second baffle (34), raceway (362) extend to the top of greenbelt (2), shower nozzle (363) orientation is just located both sides bear the top of frame (41).

5. An ecological town road design green belt as claimed in claim 2, wherein the top ends of the first partition (33) and the second partition (34) are provided with overflow weirs (341).

6. An ecological town road design green belt as claimed in claim 1, wherein the deflector (42) is provided with a groove (421), and the groove (421) extends along the inclined direction of the deflector (42) and is positioned below the gap between adjacent greening pots (5).

7. An ecological town road design green belt as claimed in claim 1, wherein the bottom wall of the green basin (5) is provided with a plurality of drainage holes (52).

8. An ecological town road design green belt as claimed in claim 1, wherein the top edge of the green basin (5) is provided with an arc block (53), and the arc block (53) is snap-fitted on the bearing frame (41).

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