CN213246110U - Irrigation system is collected to town road rainwater - Google Patents

Abstract

The utility model relates to an irrigation system is collected to town road rainwater relates to the field of road drainage, including the aqua storage tank, one side of aqua storage tank is equipped with the greenbelt, and a plurality of irrigation holes have been seted up to one side that the aqua storage tank is close to the greenbelt, install the one-way flowing water subassembly of control aqua storage tank to greenbelt one-way flowing water in the irrigation hole. When solving the rainwater and irrigating the greenbelt, greenbelt department may produce the problem of soil erosion and water loss, this application has the effect that reduces greenbelt department soil erosion and water loss.

Description

Irrigation system is collected to town road rainwater

Technical Field

The application relates to the field of road drainage, especially relates to an irrigation system is collected to town road rainwater.

Background

In order to prevent surface ponding, the rainwater on municipal road surface directly gets into the downspout through the inlet for stom water after collecting and discharges, however the greenbelt of road both sides need irrigate, needs additional municipal water supply again to satisfy the irrigation demand, can't directly utilize the rainwater on road surface, causes the water waste easily.

The current chinese patent with publication number CN205934647U discloses an irrigation system is collected to town road rainwater, the kerbstone that the town road side was equipped with, the kerbstone outside is equipped with the greenbelt, the kerbstone root has evenly arranged the mouth of crossing that link up the inside and outside both sides face of kerbstone, set up inlet for stom water and U type groove between the kerbstone outside and the greenbelt, the inlet for stom water is equidistant setting in the kerbstone outside, the downspout is connected to the inlet for stom water below, the inlet for stom water top surface sets up the rainwater grate, the U type groove is laid between adjacent inlet for stom water, the bottom in U type groove is the inclined plane of interior height outside low, rainwater irrigation mouth. When raining, the rainwater on the town road passes the curbstone along crossing the water gap, gets into U type inslot afterwards, and the rainwater in U type inslot then passes rainwater irrigation mouthful entering greenbelt and irrigates the greenbelt afterwards.

Aiming at the related technologies, the inventor thinks that when rainwater passes through the rainwater irrigation opening to irrigate the green belt, partial soil at the green belt can pass through the rainwater irrigation opening to enter the U-shaped groove, thereby causing the water and soil loss at the green belt.

Disclosure of Invention

When irrigating the greenbelt in order to solve the rainwater, greenbelt department may produce the problem of soil erosion and water loss, this application provides an irrigation system is collected to town road rainwater.

The application provides a municipal administration road rainwater collection irrigation system adopts following technical scheme:

the utility model provides an irrigation system is collected to town road rainwater, includes the aqua storage tank, and one side of aqua storage tank is equipped with the greenbelt, and a plurality of irrigation holes have been seted up to one side that the aqua storage tank is close to the greenbelt, install the one-way flowing water subassembly of control aqua storage tank to greenbelt one-way flowing water in the irrigation hole.

Through adopting above-mentioned technical scheme, the irrigation hole flow direction greenbelt is followed to the water in the aqua storage tank, from the completion to the irrigation of greenbelt, and the rainwater in the steerable aqua storage tank of one-way flowing water subassembly passes the irrigation hole and flows into the greenbelt, but in the water and soil in the greenbelt is difficult to the backward flow entering aqua storage tank, prevents the soil and water loss in the greenbelt.

Preferably, the one-way flowing water subassembly includes the rotor plate in the sealed irrigation hole of irrigation hole upper surface articulated, and irrigation hole upper surface fixed has the stopper that contacts the rotor plate, and the limiting plate is located one side that the rotor plate is close to the aqua storage tank.

Through adopting above-mentioned technical scheme, when having the rainwater when storing in the aqua storage tank, the rotor plate is strikeed along the bottom inclined plane of aqua storage tank to the rainwater to making the rotor plate rotate to the direction that is close to the greenbelt, the rainwater can pass the irrigation hole infiltration and advance greenbelt department this moment, strikes the rotor plate when the soil and water in the greenbelt, when the trend that flows in the directed aqua storage tank, the rotor plate can not rotate by the restriction of restriction piece, has restricted the backward flow of soil and water in the greenbelt from this.

Preferably, the irrigation holes are fixed with geotextile close to the opening of the green belt.

Through adopting above-mentioned technical scheme, geotechnological cloth has good water permeability, does not influence the irrigation hole and to the infiltration in the greenbelt, and geotechnological cloth can reduce the earth in the greenbelt and flow into the emergence of the downthehole condition of irrigation, prevents that earth from blockking up the irrigation hole and making the rotor plate be difficult to rotate.

Preferably, screen plates are fixed on two sides of the geotextile.

Through adopting above-mentioned technical scheme, the state that the screen cloth board made geotechnological cloth be connected with irrigation hole department is comparatively stable, prevents that soil and water from directly impacting geotechnological cloth for geotechnological cloth is unstable with being connected of irrigation hole department.

Preferably, a filter screen is detachably connected in the water storage tank.

Through adopting above-mentioned technical scheme, the filter screen can sieve the rainwater that flows into in the holding vessel, prevents that the rainwater from assaulting some great impurity and getting into the aqua storage tank in, probably blockking up irrigation hole.

Preferably, a plurality of cobblestones which are flush with the upper surface of the municipal road are laid on the upper surface of the filter screen.

By adopting the technical scheme, accidents that articles fall into the water storage tank accidentally or people step into the water storage tank carelessly can be reduced.

Preferably, the bottom surface of the water storage tank is inclined downwards towards the direction close to the irrigation hole.

Through adopting above-mentioned technical scheme, the inclined plane flow direction irrigation hole and the striking rotor plate of edge aqua storage tank are convenient for to the water in the aqua storage tank, and the rivers in the aqua storage tank of being convenient for are located to the greenbelt.

Preferably, a water outlet pipe is fixed on the side wall of the water storage tank far away from the green belt, and the water outlet pipe is positioned at the position of the water storage tank near the upper end.

Through adopting above-mentioned technical scheme, when the rainwater in the aqua storage tank is stored to being not less than the outlet pipe, partial rainwater can be followed outlet pipe flow and discharged to other positions, prevents too much rainwater irrigation greenbelt.

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

1. the unidirectional water flowing component can control rainwater in the water storage tank to flow into the green belt through the irrigation holes, but water and soil in the green belt are difficult to flow back into the water storage tank, so that water and soil loss in the green belt is prevented;

2. the geotextile has good water seepage performance, does not influence the water seepage of the irrigation holes into the green belt, can reduce the occurrence of the condition that soil in the green belt flows into the irrigation holes, and prevents the soil from blocking the irrigation holes so that the rotating plate is difficult to rotate;

3. when rainwater in the water storage tank is stored to a position not lower than the water outlet pipe, part of rainwater can flow to other positions along the water outlet pipe to be discharged, and the green belt is prevented from being irrigated by excessive rainwater.

Drawings

Fig. 1 is a schematic structural diagram of the whole rainwater collection and irrigation system.

FIG. 2 is a partial enlarged view of the embodiment shown at A in FIG. 1.

Fig. 3 is a schematic diagram of an embodiment embodying a filter screen structure.

Description of reference numerals: 1. a town road; 2. a kerbstone; 21. a water flowing hole; 3. a green belt; 4. a water storage tank; 41. irrigation holes; 42. a fixing plate; 43. a lapping block; 44. a filter screen; 45. cobblestones; 46. a water outlet pipe; 411. geotextile; 412. a screen plate; 5. a unidirectional flow assembly; 51. a rotating plate; 52. and a limiting block.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses irrigation system is collected to town road rainwater. Referring to fig. 1, irrigation system is collected to rainwater includes town road 1, and the position of the both sides of town road 1 is equipped with curb 2, and the outside of curb 2 is equipped with greenbelt 3, and a plurality of discharge orifices 21 that run through curb 2 are seted up to the side of curb 2.

Seted up aqua storage tank 4 between curbstone 2 and the greenbelt 3, the bottom surface of aqua storage tank 4 is towards the direction downward sloping that is close to greenbelt 3, and irrigation hole 41 of a plurality of intercommunication greenbelts 3 departments is seted up to the lateral wall that aqua storage tank 4 is close to greenbelt 3, and irrigation hole 41 is located the position that aqua storage tank 4 is close to the bottom.

Referring to fig. 1, in rainy days, rainwater on the municipal road 1 passes through the water flowing holes 21 on the curbstone 2 and enters the water storage tank 4, and then water in the water storage tank 4 penetrates into the green belt 3 through the irrigation holes 41, so that the irrigation of the green belt 3 by the rainwater on the municipal road 1 is completed.

Referring to fig. 2, the unidirectional water flowing component 5 is installed in the irrigation hole 41, and the unidirectional water flowing component 5 can control rainwater in the water storage tank 4 to flow into the green belt 3 through the irrigation hole 41, but water and soil in the green belt 3 are difficult to flow back into the water storage tank 4, so that water and soil loss in the green belt 3 is prevented.

Referring to fig. 2, the one-way water flowing assembly 5 includes a rotating plate 51 hinged to the upper surface of the irrigation hole 41, the lower end of the rotating plate 51 contacts the bottom surface of the irrigation hole 41 and seals the irrigation hole 41, a limiting block 52 contacting the rotating plate 51 is fixedly connected to the upper surface of the irrigation hole 41, and the limiting block 52 is located at one end of the rotating plate 51 close to the water storage tank 4.

When rainwater is stored in the water storage tank 4, the rainwater impacts the rotating plate 51 along the bottom slope of the water storage tank 4, so that the rotating plate 51 rotates in a direction close to the green belt 3, and the rainwater can penetrate into the green belt 3 through the irrigation holes 41. When water and soil in the green belt 3 strike the rotating plate 51 and tend to flow into the water storage tank 4, the rotating plate 51 is restricted by the restricting block 52 and is not rotated, thereby restricting backflow of water and soil in the green belt 3.

Referring to fig. 2, irrigation hole 41 is close to one side opening part fixedly connected with geotechnological cloth 411 of greenbelt 3, and geotechnological cloth 411 has good infiltration performance, does not influence irrigation hole 41 and seeps water in to greenbelt 3, and geotechnological cloth 411 can reduce the earth in the greenbelt 3 and flow into the emergence of the condition in irrigation hole 41, prevents that earth from blockking up irrigation hole 41 and makes rotor plate 51 be difficult to rotate.

Referring to fig. 2, the screen plates 412 are fixedly connected to both sides of the geotextile 411, and the screen plates 412 make the connection state between the geotextile 411 and the irrigation holes 41 stable, prevent soil and water from directly impacting the geotextile 411, and make the connection between the geotextile 411 and the irrigation holes 41 unstable.

Referring to fig. 3, a plurality of fixing plates 42 are fixedly connected in the water storage tank 4, a filter screen 44 is detachably connected between each pair of fixing plates 42, the filter screen 44 can screen rainwater flowing into the water storage tank, and the rainwater is prevented from impacting some large impurities into the water storage tank 4 to block the irrigation holes 41.

Two opposite side walls of the water storage tank 4 are fixedly connected with a plurality of overlapping blocks 43 respectively, the filter screen 44 is overlapped on the upper surfaces of the pair of overlapping blocks 43, and the upper surface of the filter screen 44 and the upper surface of the fixing plate 42 are positioned on the same plane. The upper surface of the filter screen 44 is paved with a plurality of pebbles 45 (see fig. 1), and the pebbles 45 are filled to be flush with the upper surface of the town road 1.

Referring to fig. 1, an outlet pipe 46 is connected to the side wall of the water storage tank 4 near the kerbstone 2, the outlet pipe 46 is located inside the town road 1, and the outlet pipe 46 extends to other positions for draining rainwater. Outlet pipe 46 is located near the upper end of the reservoir 4.

When the rainwater in the water storage tank 4 is stored to be not lower than the water outlet pipe 46, part of the rainwater can flow to other positions along the water outlet pipe 46 to be discharged, and the green belt 3 is prevented from being irrigated by excessive rainwater.

The embodiment of the application provides a municipal administration road rainwater collection irrigation system's implementation principle does: when raining, rainwater on the municipal road 1 passes through the water flowing holes 21 on the curbstone 2 and enters the water storage tank 4, and then the water in the water storage tank 4 impacts the rotating plate 51 to enable the rotating plate 51 to rotate towards the direction close to the green belt 3, so that the rainwater in the water storage tank 4 can penetrate into the green belt 3 through the irrigation holes 41.

When water and soil in the green belt 3 strike the rotating plate 51 and tend to flow into the water storage tank 4, the rotating plate 51 is restricted by the restricting block 52 and is not rotated, thereby restricting backflow of water and soil in the green belt 3.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, 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 irrigation system is collected to town road rainwater, includes aqua storage tank (4), and one side of aqua storage tank (4) is equipped with greenbelt (3), and a plurality of irrigation holes (41), its characterized in that have been seted up to one side that aqua storage tank (4) are close to greenbelt (3): and a unidirectional water flowing assembly (5) for controlling the water storage tank (4) to flow water unidirectionally to the green belt (3) is arranged in the irrigation hole (41).

2. A municipal road rainwater collection and irrigation system according to claim 1, wherein: one-way flowing water subassembly (5) are including rotating plate (51) of irrigation hole (41) upper surface articulated sealed irrigation hole (41), and irrigation hole (41) upper surface is fixed with stopper (52) that contact rotating plate (51), and the limiting plate is located rotating plate (51) and is close to one side of aqua storage tank (4).

3. A municipal road rainwater collection and irrigation system according to claim 2, wherein: the openings of the irrigation holes (41) close to the green belts (3) are fixed with geotextile (411).

4. A municipal road rainwater collection and irrigation system according to claim 3, wherein: and screen plates (412) are fixed on two sides of the geotextile (411).

5. A municipal road rainwater collection and irrigation system according to claim 1, wherein: a filter screen (44) is detachably connected in the water storage tank (4).

6. A town road rainwater collection and irrigation system according to claim 5 and further comprising: and a plurality of cobblestones (45) which are flush with the upper surface of the municipal road (1) are laid on the upper surface of the filter screen (44).

7. A municipal road rainwater collection and irrigation system according to claim 2, wherein: the bottom surface of the water storage tank (4) inclines downwards towards the direction close to the irrigation hole (41).

8. A municipal road rainwater collection and irrigation system according to claim 1, wherein: a water outlet pipe (46) is fixed on the side wall of the water storage tank (4) far away from the green belt (3), and the water outlet pipe (46) is positioned at the position of the water storage tank (4) close to the upper end.

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