CN213463232U - Irrigation system is collected to municipal administration road surface rainwater - Google Patents

Abstract

The utility model belongs to the technical field of building engineering's technique and specifically relates to an irrigation system is collected to municipal road surface rainwater, its technical scheme main points are: the device comprises a road for vehicles to pass through, sewers arranged at two sides of the road for rainwater to flow in, sidewalks arranged at two sides of the road for pedestrians to pass through, a plurality of planting grooves for planting plants are arranged on the sidewalks at intervals along the horizontal direction, and the device also comprises a water storage mechanism arranged at the bottom of the sidewalks for collecting rainwater and an irrigation mechanism arranged on the surface of the sidewalks for irrigating the planting grooves; the retaining mechanism includes and is linked together the cistern that is used for collecting the rainwater with the sewer and feeds through in the cistern, irrigate and be used for to irrigating the pump water subassembly of mechanism transport rainwater between the mechanism, irrigate the mechanism including feeding through in pump water subassembly and plant the raceway between the groove, the raceway is used for to planting the groove transport rainwater. This application has the technological effect of water economy resource.

Description

Irrigation system is collected to municipal administration road surface rainwater

Technical Field

The utility model belongs to the technical field of building engineering's technique and specifically relates to an irrigation system is collected to municipal road surface rainwater.

Background

With the development of economy in China, vehicles on roads are continuously increased, and the demand on municipal roads is continuously increased. The construction of municipal roads not only relates to the road surface construction, but also considers the arrangement of various pipelines such as electric power, communication, drainage and the like, and places higher requirements on cities with higher environmental requirements and greening of two sides of the roads. And the municipal road comprises a road for vehicles to walk, sidewalks arranged at two sides of the road for pedestrians to walk and plants planted on the sidewalks.

In the existing municipal road plant irrigation mode, generally, workers fill domestic water in a special sprinkler, then drive the sprinkler to run at two sides of a road, and irrigate plants through the sprinkler; when meetting thunderstorm weather, only the rainwater of minority irrigates the plant, and most rainwater flow direction sets up in the sewer of road in, and then such irrigation mode not only causes the waste to the required domestic water of people's life, still can run off the rainwater that originally is fit for irrigating, further causes the water waste.

There is therefore a need for a municipal roadway rainwater collection and irrigation system.

SUMMERY OF THE UTILITY MODEL

For the water economy resource, this application provides an irrigation system is collected to municipal administration road surface rainwater.

The application provides a pair of irrigation system is collected to municipal administration road surface rainwater adopts following technical scheme:

a municipal road surface rainwater collecting and irrigating system comprises a road for vehicles to pass through, a sewer arranged at two sides of the road for rainwater to flow in, sidewalks arranged at two sides of the road for pedestrians to pass through, a plurality of planting grooves for planting plants arranged at intervals along the horizontal direction on the sidewalks, a water storage mechanism arranged at the bottom of the sidewalks for collecting rainwater, and an irrigating mechanism arranged on the surface of the sidewalks for irrigating the planting grooves; retaining mechanism includes and is linked together the cistern that is used for collecting the rainwater with the sewer and feeds through in cistern, irrigate and be used for the pump water subassembly to irrigating mechanism transport rainwater between the mechanism, irrigate the mechanism including feeding through in pump water subassembly and planting the raceway between the groove, the raceway is used for carrying the rainwater to planting the groove.

Through adopting above-mentioned technical scheme, when taking place thunderstorm weather, most rainwater can be through road and pavement flow direction sewer, and then the rainwater flows to the cistern through the sewer, and then collects the rainwater in the cistern, utilizes pump water subassembly and raceway, and then can pump the rainwater in the cistern to the raceway, and then the groove is planted to the rainwater through the raceway flow direction, and then can irrigate planting in the plant inslot plant.

Preferably, one side of the water storage pool, which is far away from the sewer, is provided with an output channel which can be communicated with an external drainage channel, and the output channel is positioned at the top of the water storage pool.

Through adopting above-mentioned technical scheme, when rainfall is too big, the water level of cistern reachs output channel's position, and then the rainwater can flow into output channel, and then the rainwater can be discharged to outside drain, and then has reduced the rainwater and has gathered the condition emergence of sewer.

Preferably, the retaining mechanism still includes the retaining passageway that is linked together with the sewer, the pump water subassembly includes fixed mounting in the water pump in the cistern, fixed connection in inlet tube and fixed connection in the outlet pipe that the outlet end of water pump supplied the rainwater to the raceway output in the water pump income water end supply rainwater input water pump, are linked together between outlet pipe and the raceway.

By adopting the technical scheme, when thunderstorm weather occurs, rainwater flows through the sewer and the water storage channel in sequence, and then the rainwater is gradually accumulated in the water storage tank; when needs carry the rainwater to irrigate the mechanism, the staff starts the water pump, and then in the rainwater in the cistern imported water pump through the inlet tube, utilizes the water pump, the rainwater is carried to the conveyer pipe in through the outlet pipe to later stage irrigation mechanism irrigates the plant.

Preferably, the water pipe comprises a transverse water pipe penetrating through the planting grooves along the horizontal direction and a longitudinal water pipe communicated with the transverse water pipe and the water outlet pipe along the vertical direction.

Through adopting above-mentioned technical scheme, when needs are to irrigation mechanism transport rainwater, the staff starts the water pump, and the water pump pumps the rainwater to the output tube, and then the rainwater is pumped to vertical raceway from the output tube, and then flows to horizontal raceway again, and then can flow to a plurality of and plant in the groove.

Preferably, irrigation mechanism still includes and links to each other with horizontal raceway and be used for to planting the irrigation pipe of groove delivery rainwater, irrigation pipe extends and the top of planting the groove of protrusion.

Through adopting above-mentioned technical scheme, when the rainwater stayed to horizontal delivery pipe in, utilized the irrigation pipe, the rainwater was exported from the mouth of pipe of irrigation pipe for but the rainwater top-down irrigates the plant, utilizes the irrigation pipe simultaneously, and then avoids planting the interior earth that is used for planting the plant of inslot and blocks up the condition emergence of horizontal delivery pipe mouth of pipe and irrigation pipe mouth of pipe.

Preferably, still including setting up the filtering mechanism between sewer and retaining mechanism, filtering mechanism is used for filtering the filter screen of rainwater impurity including setting up at the filtering ponds of people moving walkways bottom, communicating in the filtration passageway between sewer and the filtering ponds and setting up in the filtering ponds, the filter screen is located the below of filtering the passageway, the filtering ponds are linked together with the retaining passageway, the retaining passageway is located the below of filter screen.

Through adopting above-mentioned technical scheme, when the rainwater flowed into the sewer, the rainwater flowed through and filtered the passageway and flow to in the filter tank through filtering the passageway, because the effect of gravity, the rainwater flows to the below of vertical direction, and then the rainwater flows through the filter screen, utilizes the filter screen, filters out the impurity in the rainwater, and then the rainwater can flow to retaining passageway to in retaining passageway flow direction retaining pond.

Preferably, a humidity sensor is fixedly installed in the filter tank and located above the filter screen, and the humidity sensor is electrically connected with an external controller.

Through adopting above-mentioned technical scheme, when the rainwater water level in the filter tank reachd the plane that humidity transducer belonged to, humidity transducer signals to the external control ware, and then can remind the staff to look over the filter screen condition in the filter tank.

Preferably, the top of the filtering tank is provided with an opening communicated with the surface of the sidewalk, a cushion block used for supporting the filtering net is fixedly connected in the filtering tank, the cushion block is located below the filtering net, and the filtering net is abutted to the cushion block.

Through adopting above-mentioned technical scheme, when needs are changed or are washd the filter screen, the staff utilizes outside instrument to run through the opening and can directly be with the filter screen hook-up, and then takes out the filter screen through the opening, and then can wash or change the filter screen to the impurity of filter screen.

Preferably, the filter mechanism further comprises a cover plate covering the opening.

Through adopting above-mentioned technical scheme, utilize the apron, and then reduce the pedestrian in the pavement and drop the condition emergence of filtering ponds.

Preferably, the cover plate is fixedly connected with a handle for a worker to open the cover plate.

Through adopting above-mentioned technical scheme, when the staff need open the apron, the staff holds the handle to the apron overturns, and then can open the apron.

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

1. rainwater flows to the reservoir through the sewer, then the rainwater is collected in the reservoir, and the rainwater in the reservoir can be pumped out to the water delivery pipe by utilizing the water pumping assembly and the water delivery pipe, so that the rainwater flows to the planting groove through the water delivery pipe, and then the plants planted in the planting groove can be irrigated;

2. the water pump is started by a worker, and pumps rainwater out of the water outlet pipe, and then the rainwater is pumped out of the output pipe to the longitudinal water delivery pipe and then flows to the transverse water delivery pipe, so that the rainwater can flow into the planting grooves;

3. through rainwater flow through filter passage and through filter passage flow direction filter tank in, because the effect of gravity, the rainwater flows to the below of vertical direction, and then the rainwater flows through the filter screen, utilizes the filter screen, filters out the impurity in the rainwater, and then the rainwater can flow to retaining passageway to in retaining passageway flow direction reservoir.

Drawings

FIG. 1 is a schematic view showing the overall structure of a municipal roadway rainwater collection and irrigation system according to the embodiment;

FIG. 2 is a partial sectional view of the filter mechanism, the water storage mechanism and the irrigation mechanism in the present embodiment;

fig. 3 is a partial structural sectional view of the water storage mechanism and the irrigation mechanism in the present embodiment.

In the figure, 1, road; 2. a sidewalk; 21. planting grooves; 3. a sewer; 4. a plant; 5. a filtering mechanism; 51. a filtration tank; 511. an opening; 512. cushion blocks; 52. a filtration channel; 53. a filter screen; 54. a cover plate; 541. a handle; 55. a humidity sensor; 6. a water storage mechanism; 61. a reservoir; 62. a water storage channel; 63. a water pumping assembly; 631. a water inlet pipe; 632. a water pump; 633. a water outlet pipe; 64. an output channel; 7. an irrigation mechanism; 72. a water delivery pipe; 721. a transverse water conveying pipe; 722. a longitudinal water delivery pipe; 73. an irrigation pipe.

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 municipal road surface rainwater. Referring to fig. 1 and 2, the rainwater collection and irrigation system comprises a road 1 for vehicles to walk along a horizontal direction, sidewalks 2 for pedestrians to walk along two sides of the road 1 along a horizontal direction, and a sewer 3 arranged at two sides of the road 1 and located at the bottom of the road 1. The sewer 3 is used for rainwater in the road 1 and the sidewalk 2 to flow in. The sidewalk 2 is evenly provided with a plurality of planting grooves 21 for planting the plants 4 at intervals along the horizontal direction, and the planting grooves 21 are rectangular. The rainwater collecting and irrigating system further comprises a filtering mechanism 5 which is arranged at the bottom of the sidewalk 2 along the vertical direction and is communicated with a sewer 3, a water storage mechanism 6 which is arranged at the bottom of the sidewalk 2 along the vertical direction and is communicated with the filtering mechanism 5, and an irrigating mechanism 7 which is arranged on the surface of the sidewalk 2 along the vertical direction and is respectively communicated with the water storage mechanism 6 and the planting groove 21. The filtering mechanism 5 is used for filtering the rainwater flowing through the sewer 3, the water storage mechanism 6 is used for collecting the rainwater which has finished filtering, and the irrigation mechanism 7 is used for irrigating the rainwater in the water storage mechanism 6 to the plants 4 planted in the planting groove 21.

Referring to fig. 1 and 2, in particular, the filtering mechanism 5 includes a filtering tank 51 vertically disposed inside the sidewalk 2, a filtering net 53 horizontally installed in the filtering tank 51 for filtering rainwater, a filtering channel 52 horizontally and fixedly connected to the sewer 3 and between the filtering tanks 51 for rainwater to flow into the filtering tank 51, and a cover plate 54 covering the top of the filtering tank 51. Opposite ends of the filtering passage 52 are connected to the drain 3 and the filtering tank 51 in a horizontal direction, respectively, and the filtering passage 52 is communicated with the drain 3 and the filtering tank 51, respectively. The end of the filtering channel 52 facing the sewage 3 is located at the bottom of the sewage 3. The filtering tank 51 is a cuboid, and the filtering tank 51 is welded with the cushion blocks 512 for supporting the filtering net 53 along two inner side walls opposite to each other in the horizontal direction. The spacers 512 extend in the width direction of the inner side walls. The filter screen 53 is directly placed at the bottom of the two blocks 512 in the horizontal direction, and then the filter screen 53 is installed in the filter tank 51. The filter screen 53 is located directly below the filter passage 52. The side wall of the filter screen 53 is connected with a humidity sensor 55 through bolts, the humidity sensor 55 is located above the filter screen 53, the humidity sensor 55 is electrically connected with an external controller, and the external controller is electrically connected with an external signal lamp. The filtering tank 51 is communicated with the outside of the sidewalk 2, an opening 511 for covering the cover plate 54 is arranged at one end of the filtering tank 51, which is far away from the bottom of the tank, and the opening 511 is communicated with the sidewalk 2. A handle 541 for workers to open the cover plate 54 is welded on one end of the cover plate 54, which faces away from the filter tank 51, along the vertical direction.

When needs filter the rainwater, in the rainwater flows into sewer 3 from road 1 and pavement 2 surface, and then the rainwater flows into in filtering channel 52 to in filtering channel 52 flows into filtering ponds 51, utilize the effect of rainwater gravity, when the rainwater flows into filtering ponds 51 downwards, the rainwater can pass through filter screen 53, and then filter screen 53 filters the earth in the rainwater, accomplish filterable rainwater then the bottom that flows to filtering ponds 51, and then accomplish the filtration to the rainwater.

When the filter screen 53 needs to be replaced or cleaned, the worker holds the handle 541, turns over the cover plate 54, turns out the cover plate 54 from the opening 511, and then the worker can directly draw out the filter screen 53 upwards along the vertical direction by using an external tool, and then the filter screen 53 is drawn out of the filter tank 51, so that the filter screen 53 can be cleaned or replaced.

When the water level in the filter tank 51 reaches the position of the humidity sensor 55, the humidity sensor 55 is in contact with rainwater, then the humidity sensor 55 sends a signal to an external controller, and then the external controller sends an instruction to an external signal lamp, and the external signal lamp is on, so that a worker can open the cover plate 54 by using a hirer, and the worker can check the internal condition and check whether the rainwater level rises due to the reason of the filter screen 53.

Referring to fig. 2 and 3, in particular, the water storage mechanism 6 includes a water storage tank 61 disposed at the bottom of the sidewalk 2 in a vertical direction, a water storage channel 62 communicating between the water storage tank 61 and the filter tank 51 in a horizontal direction, and an output channel 64 disposed at a side of the water storage tank 61 facing away from the water storage channel 62 in the horizontal direction. One end of the water storage channel 62 is welded to the bottom of the filtering tank 51 and is communicated with the inside of the filtering tank 51, and the other end of the water storage channel 62 is welded to the bottom of the water storage tank 61 along the horizontal direction and is communicated with the inside of the water storage tank 61, so that the water storage tank 61 is communicated with the filtering tank 51 through the water storage channel 62. The reservoir 61 is located below the filtration tank 51. An outlet passage 64 is located at the top of the reservoir 61 and communicates with an external drain. When needs are to the interior water injection of cistern 61, utilize the effect of gravity, the rainwater that has accomplished filtration can automatic flow through retaining passageway 62, and then flows into in the cistern 61, and then realizes retaining. When the water level in the reservoir 61 is high, the rainwater in the reservoir 61 can be discharged through the outlet channel 64, thereby reducing the accumulation of rainwater in the sewer.

Referring to fig. 2 and 3, in particular, the water storage mechanism 6 further comprises a water pumping assembly 63 mounted inside the water storage tank 61 for delivering rainwater to the irrigation mechanism 7. Specifically, the water pumping assembly 63 includes a water pump 632 fixed at the bottom of the water reservoir 61 by bolts for pumping rainwater to the irrigation mechanism 7, a water inlet pipe 631 fixedly connected to the water inlet end of the water pump 632 for supplying water to the water pump 632, and a water outlet pipe 633 fixedly connected to the water outlet end of the water pump 632 for supplying water to the water pump 632 for pumping water to the irrigation mechanism 7. The end of the water outlet pipe 633 facing away from the water pump 632 penetrates the top of the water reservoir 61 in the vertical direction and is communicated with the irrigation mechanism 7.

Referring to fig. 2 and 3, in particular, the irrigation mechanism 7 includes a plurality of irrigation pipes 73 for irrigating the plants 4 and water pipes 72 communicated between the irrigation pipes 73 and the water outlet pipes 633 for conveying rainwater to the irrigation pipes 73. The concrete water pipe 72 includes a horizontal water pipe 721 horizontally disposed inside the sidewalk 2 and simultaneously penetrating through the plurality of planting grooves 21, and a longitudinal water pipe 722 vertically connected between the water outlet pipe 633 and the horizontal water pipe 721. Irrigation pipe 73 is located planting groove 21, and irrigation pipe 73's one end and horizontal raceway 721 welded fastening, irrigation pipe 73's the other end extend and protrusion in planting groove 21's top along vertical direction, and irrigation pipe 73 deviates from the port of horizontal raceway 721 and is located planting groove 21 notch directly over, is linked together between irrigation pipe 73 and the horizontal raceway 721.

The embodiment of the application provides a municipal administration road surface rainwater collection irrigation system's implementation principle does:

when needs are to irrigate plant 4, the staff opens water pump 632, and then water pump 632 will be located the rainwater in cistern 61 and carry to vertical raceway 722 through inlet tube 631 and outlet pipe 633 in proper order, and then the rainwater flows to horizontal raceway 721 through vertical raceway 722, and then the rainwater flows through irrigation pipe 73, and the rainwater deviates from the port blowout of horizontal raceway 721 from irrigation pipe 73, and then rainwater top-down irrigates plant 4. When irrigation is completed, the worker turns off the water pump 632, and the rainwater stops irrigation automatically.

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 (10)

1. The utility model provides an irrigation system is collected to town road surface rainwater, includes road (1) that supplies the vehicle to pass, sets up sewer (3) that supply the rainwater to flow in and set up and supply pedestrian's current pavement (2) in road (1) both sides, and pavement (2) are provided with planting groove (21) that a plurality of is used for planting plant (4) along the horizontal direction interval, its characterized in that: the rainwater collecting and irrigating device further comprises a water storage mechanism (6) arranged at the bottom of the sidewalk (2) and used for collecting rainwater and an irrigating mechanism (7) arranged on the surface of the sidewalk (2) and used for irrigating the planting groove (21); retaining mechanism (6) include link to each other with sewer (3) and be used for collecting cistern (61) of rainwater and communicate in cistern (61), irrigate pump water subassembly (63) that are used for carrying the rainwater to irrigation mechanism (7) between mechanism (7), irrigation mechanism (7) are including communicateing in pump water subassembly (63) and planting raceway (72) between groove (21), and raceway (72) are used for carrying the rainwater to planting groove (21).

2. A municipal roadway rainwater harvesting and irrigating system according to claim 1, wherein: one side of the water storage pool (61) departing from the sewer (3) is provided with an output channel (64) which can be communicated with an external drainage channel, and the output channel (64) is positioned at the top of the water storage pool (61).

3. A municipal roadway rainwater harvesting and irrigating system according to claim 1, wherein: the water storage mechanism (6) further comprises a water storage channel (62) communicated with a sewer (3), the water pumping component (63) comprises a water pump (632) fixedly installed in the water storage tank (61), a water inlet pipe (631) fixedly connected to the water inlet end of the water pump (632) for inputting rainwater into the water pump (632) and a water outlet pipe (633) fixedly connected to the water outlet end of the water pump (632) for outputting rainwater to the water pipe (72), and the water outlet pipe (633) is communicated with the water pipe (72).

4. A municipal roadway rainwater harvesting and irrigating system according to claim 3, wherein: the water conveying pipe (72) comprises a transverse water conveying pipe (721) penetrating through the planting grooves (21) along the horizontal direction and a longitudinal water conveying pipe (722) communicated with the transverse water conveying pipe (721) and the water outlet pipe (633) along the vertical direction.

5. A municipal roadway rainwater collection and irrigation system according to claim 4, wherein: irrigation mechanism (7) still include and link to each other general irrigation pipe (73) that are used for carrying the rainwater to planting groove (21) with horizontal raceway (721), irrigation pipe (73) extend and the top of protrusion planting groove (21).

6. A municipal roadway rainwater harvesting and irrigating system according to claim 3, wherein: still including setting up filtering mechanism (5) between sewer (3) and retaining mechanism (6), filtering mechanism (5) are including setting up filtering ponds (51) in pavement (2) bottom, communicate in filtration passageway (52) between sewer (3) and filtering ponds (51) and set up filter screen (53) that are used for filtering rainwater impurity in filtering ponds (51), filter screen (53) are located the below of filtering passageways (52), filtering ponds (51) are linked together with retaining passageway (62), retaining passageway (62) are located the below of filter screen (53).

7. A municipal roadway rainwater collection and irrigation system according to claim 6, wherein: the filter tank (51) is internally and fixedly provided with a humidity sensor (55), the humidity sensor (55) is positioned above the filter screen (53), and the humidity sensor (55) is electrically connected with an external controller.

8. A municipal roadway rainwater harvesting and irrigating system according to claim 7, wherein: an opening (511) which can be communicated with the surface of the sidewalk (2) is formed in the top of the filtering tank (51), a cushion block (512) which is used for supporting the filter screen (53) is fixedly connected in the filtering tank (51), the cushion block (512) is located below the filter screen (53), and the filter screen (53) is abutted to the cushion block (512).

9. A municipal roadway rainwater harvesting and irrigating system according to claim 8, wherein: the filtering mechanism (5) also comprises a cover plate (54) covered at the opening (511).

10. A municipal roadway rainwater harvesting and irrigating system according to claim 9, wherein: the cover plate (54) is fixedly connected with a handle (541) for a worker to open the cover plate (54).

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