CN207714472U - Cell rainwater-collecting and irrigation system - Google Patents
Cell rainwater-collecting and irrigation system Download PDFInfo
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- CN207714472U CN207714472U CN201721701544.6U CN201721701544U CN207714472U CN 207714472 U CN207714472 U CN 207714472U CN 201721701544 U CN201721701544 U CN 201721701544U CN 207714472 U CN207714472 U CN 207714472U
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- pipe
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- rainwater
- irrigation system
- irrigation
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Abstract
The utility model provides a kind of cell rainwater-collecting and irrigation system, can make full use of rainwater resource to irrigate cell vegetation, which is characterized in that including:Remove contamination portion, including:The pipe well of removing contamination being connected with municipal Storm Sewer Network, and the pond of removing contamination that is connected with the bottom for pipe well of removing contamination;Primary filter portion, including:The water inlet pipe being connected with the discharge outlet on pond top of removing contamination, and the filtering bolt mounted on water inlet pipe inlet, filter the inner hollow of bolt and were filled with fitros, the front and back end for filtering bolt is closed with metal screen;Secondary filtration portion, including:The cistern that top is connected with the outlet of water inlet pipe, and the filter plate mounted on cistern top, filter plate include:Concrete slab embeds the infiltration geotextiles of multiple filter hole on the slab, the activated carbon filter material being filled in each filter hole, and closing filter hole;And irrigation portion.
Description
Technical field
The utility model is related to a kind of cell rainwater-collecting and irrigation systems.
Background technology
Country is carrying forward vigorously sponge urban construction at present, and mainly intensively as urban population, water consumption is very for cell
Greatly, the greening and in cell also directly uses domestic water with water, and uses manual watering, costly, but is raining
Rainwater in Shi little Qu, which is substantially, is drained into municipal rain pipe, both uneconomical or waste water resource.
Hainan belongs to subtropical zone, sunny, and rainwater is more, there is an urgent need for can combine " ooze, it is stagnant, store, net, use, row "
The system that equal sponges city function requires and makes full use of the natural resources such as rainwater in cell.
Utility model content
The utility model provides a kind of cell rainwater-collecting and irrigation system, can make full use of rainwater resource and comes to small
Vegetation is irrigated in area.
The utility model to achieve the goals above, uses following scheme:
A kind of cell rainwater-collecting of the utility model offer and irrigation system, which is characterized in that including:Remove contamination portion, including:
The pipe well of removing contamination being connected with municipal Storm Sewer Network, and the pond of removing contamination that is connected with the bottom for pipe well of removing contamination;Primary filter portion, packet
Contain:The water inlet pipe being connected with the discharge outlet on pond top of removing contamination, and the filtering bolt mounted on water inlet pipe inlet filter bolt
Inner hollow and be filled with fitros, the front and back end for filtering bolt is closed with metal screen;Secondary filtration portion, including:
The cistern that top is connected with the outlet of water inlet pipe, and the filter plate mounted on cistern top, filter plate include:Concrete
Plate embeds multiple filter hole on the slab, the activated carbon filter material being filled in each filter hole, and closed
The infiltration geotextiles of filter opening;Irrigation portion, including:The water-supply-pipe being connected with the lower part of cistern is arranged on the water-supply-pipe
Water pump, the multiple irrigation branch pipes being connected with the water outlet of water-supply-pipe are connected with all irrigation branch pipes, are filled to cell vegetation
The irrigator irrigate.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:It removes contamination pond
It inside encloses equipped with dirt-collecting basket, two side handles of dirt-collecting basket extend to pipe well top of removing contamination.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Filter spiral shell
Bolt is hollow stainless steel bolt, and the grain size for crossing fitros is preferably 2~5cm, and the aperture of metal screen is preferably 0.3~0.7mm.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Concrete
The thickness of plate is preferably 10~20cm;Filter hole is metal circular tube fastener, and diameter is preferably 8~12cm, and multiple filter hole are in plum
Flower stake arrangement, spacing is preferably 15~25cm.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Concrete
The thickness of plate is 15cm, a diameter of 10cm of filter hole, and the spacing between adjacent head hole is 20cm, such best results.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Irrigator
Including burying to more ring-shaped round pipe of vegetation root, macromolecule seepy material, and annular are filled in every ring-shaped round pipe
The outer wall of pipe is equipped with multiple permeable holes.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Two level mistake
Filter portion also includes water level sensor, which is arranged in cistern, and positioned at the lower section of filter plate, primary filter
Portion also includes electrically operated valve and valve positioner, which is mounted on the inlet of water inlet pipe, valve positioner and water level
Sensor is connected with electrically operated valve.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Irrigation portion
Also include:Multiple branch pipe valves, multiple soil dry-wet inductors and branch pipe valve positioner, multiple branch pipe valves correspond to respectively
On each irrigation branch pipe, multiple soil dry-wet inductors, which are separately positioned on, irrigates near branch pipe, manifold valve gate system
Device is connected with all branch pipe valves and soil dry-wet inductor.
Cell rainwater-collecting involved by the utility model and irrigation system can also include:Power supply gives all electricity consumptions
Device is powered, including:At least one solar panel and accumulator, the charging interface and solar panel of accumulator
It is connected, power supply interface is connected with all electricity consumption devices.
Cell rainwater-collecting involved by the utility model and irrigation system, can also have the feature that:Cell rain
Water is collected and irrigation system includes multiple portions that remove contamination, multiple primary filter portions and multiple secondary filtration portions.
The effect of utility model
According to cell rainwater-collecting provided by the utility model and irrigation system, rainwater first flows into the pipe well and by clear of removing contamination
Dirt heavier in rainwater is got rid of in dirty pond, further flows into primary filter portion, is filtered for the first time to rainwater by filtering bolt,
Small granular suspended matters therein are filtered, secondary filtration portion is entered back into, by filter plate secondary filter, filter minute impurities therein
Deng being pumped into irrigator by water pump subsequently into columns base, and by water-supply-pipe, to being filled to cell vegetation
It irrigates, by the collection and utilization to rainwater, not only reduces the dosage of cell irrigation water, alleviate urban water pressure in short supply, drop
Low cell maintenance cost;But also the discharge of heavy rain period cell rainwater can be solved and occur the phenomenon that " seeing sea " not in time, to small
Area's water drainage is with obvious effects;And the present apparatus is simple in structure, is easily changed, environment friendly and pollution-free, is conducive to cell and is widely popularized;Into one
Step, this system can make plant fully obtain water nutrition, and reduce moisture evaporation using embed-type irrigator, from
And reach the using water wisely of maximum dynamics.
Description of the drawings
Fig. 1 is the structural schematic diagram of the cell rainwater-collecting and irrigation system involved in the utility model embodiment;
Fig. 2 is the connection relationship diagram of the remove contamination pipe well and municipal Storm Sewer Network involved in the utility model embodiment;
Fig. 3 is the structural schematic diagram of the filtering bolt and metal screen involved in the utility model embodiment, wherein (a)
It is front view, is (b) upward view;
Fig. 4 is the structural schematic diagram of the filter plate involved in the utility model embodiment;
Fig. 5 is the schematic diagram of the filter hole and activated carbon interstitital texture involved in the utility model embodiment, wherein (a)
It is front view, is (b) vertical view;And
Fig. 6 is the structural schematic diagram of the ring-shaped round pipe involved in the utility model embodiment.
Specific implementation mode
Referring to the drawings to involved by the utility model cell rainwater-collecting and irrigation system be elaborated.
<Embodiment>
As shown in Figure 1, cell rainwater-collecting and irrigation system 10 include remove contamination portion 20, primary filter portion 30, secondary filtration
Portion 40, irrigation portion 50 and power supply 60.
The portion 20 that removes contamination includes to remove contamination pipe well 21 and to remove contamination pond 22.As illustrated in fig. 1 and 2, it removes contamination pipe well 21 and municipal rain pipe
Net T-phase is connected to, and the top for pipe well 21 of removing contamination is equipped with permeable well lid, and absolute altitude is flushed with greenery patches vegetation.It removes contamination and pond 22 and removes contamination pipe well
21 bottom is connected;Remove contamination and enclose in pond 22 equipped with dirt-collecting basket (not shown), two side handles of dirt-collecting basket to
On extend to 21 top of pipe well of removing contamination, facilitate lifting dirt-collecting basket to be cleared up.Rainwater is through rainwater net T and pipe well of removing contamination
21 flow into pond 22 of removing contamination, and primary filter portion 30 is flowed into after precipitation, after pond 22 of removing contamination is full, can manually open well lid progress
Cleaning, avoids blocking.
As shown in Figure 1, primary filter portion 30 include water inlet pipe 31, filtering bolt 32, metal screen 33, electrically operated valve 34,
And valve positioner 35.Water inlet pipe 31 is connected with the discharge outlet on 22 top of pond of removing contamination.As shown in figs. 1 and 3, bolt 32 is filtered
Mounted on 31 inlet of water inlet pipe, its inside is hollow structure, and is filled with fitros, and the front and back end for filtering bolt 32 is equal
It is closed with metal screen 33.It is preferably hollow stainless steel bolt to filter bolt 32, and the grain size for crossing fitros is 2~5cm, metal screen
33 aperture is 0.3~0.7mm.In the present embodiment, 31 caliber of water inlet pipe is 30cm, and filtering 32 length of bolt is 50cm, metal
The aperture of strainer 33 is 0.5mm, and such filter effect is best.Electrically operated valve 34 is mounted on the inlet of water inlet pipe 31.Valve control
Device 35 processed is connected with electrically operated valve 34.
As shown in Figure 1, secondary filtration portion 40 includes cistern 41, filter plate 42 and water level sensor 43.
The top of cistern 41 is connected with the outlet of water inlet pipe 31, and side wall offers water outlet, and water outlet is higher than water storage
Bottom of pond face 20cm.Cistern 41 can be multiple according to greening demand and location arrangements in cell, and cistern 41 is armored concrete knot
Structure, 41 specification of single cistern:It is 5 meters long, 3 meters wide, 2 meters high, pool wall thickness 10cm.
Filter plate 42 is arranged at 41 top 50cm of cistern, and cistern 41 is divided to for upper and lower two parts, upper surface portion by it
Divide and be filtered, the filtered rainwater of lower part accumulation, rainwater flows under cistern 41 after 42 secondary filter of filter plate
Face lower part.As shown in Figures 4 and 5, filter plate 42 include concrete slab 42a, multiple filter hole 42b, activated carbon filter material 42c, with
And infiltration geotextiles 42d.The thickness of concrete slab 42a is preferably 10~20cm.Multiple filter hole 42b are embedded in concrete slab
On 42a, each filter hole 42b is metal circular tube fastener, and diameter is preferably 8~12cm, and multiple filter hole 42b are in plum blossom row of piles
Cloth, spacing are preferably 15~25cm.Activated carbon filter material 42c is filled in each filter hole 42b.The geotextiles that seep water 42d closings
The firmly both ends open of each filter hole 42b.In the present embodiment, 42 thickness of filter plate is 15cm, and filter hole 42b's is a diameter of
Spacing between 10cm, adjacent head hole 42b is 20cm, and such filter effect is best.
Water level sensor 43 is arranged in the lower part of cistern 41, is located at the lower section of filter plate 42, for detecting cistern
41 reserve-water-levels, and water level sensor 43 is connected with valve positioner 35, sends water level information to valve positioner 35.Valve
Door controller 35 can according to water level sensor 43 transmit come water level information control electrically operated valve 34 be turned on and off.
In the present embodiment, when water level sensor 43 receives the full water level of the next cistern 41 of the transmission of water level sensor 43
After information, valve positioner 35 controls electrically operated valve 34 and closes, and rainwater cannot flow into cistern 41;When water level sensor 43 is felt
Should arrive 41 water level of cistern it is low when, valve positioner 35 control electrically operated valve 34 open, rainwater flow into cistern 41 in.
As shown in Figure 1, irrigation portion 50 include water-supply-pipe 51, water pump 52, multiple irrigation branch pipes 53, multiple branch pipe valves 54,
Multiple soil dry-wet inductors 55, branch pipe valve positioner 56, water pump controller 57 and irrigator 58.Water-supply-pipe 51 and storage
The lower part in pond 41 is connected.Water pump 52 is arranged on water-supply-pipe 51.Multiple water outlet phases for irrigating branch pipe 53 and water-supply-pipe 51
Connection.Irrigator 58 is connected with all irrigation branch pipes 53, for irrigating cell vegetation.Multiple branch pipe valves 54 are right respectively
It should be mounted on each irrigation branch pipe 53.Multiple soil dry-wet inductors 55, which are separately positioned on, irrigates near branch pipe 53, is used for
Soil moisture is detected, and sends humidity information to branch pipe valve positioner 56 and water pump controller 57.Branch pipe valve positioner
56 are connected with all branch pipe valves 54 and soil dry-wet inductor 55, can according to soil dry-wet inductor 55 transmit come it is wet
Degree information controls corresponding branch pipe valve 54 and is turned on and off.Water pump controller 57 and 55 phase of water pump 52 and soil dry-wet inductor
Even, can according to soil dry-wet inductor 55 transmit come humidity information control water pump 52 be turned on and off.
The first plant growth humidity standard value of setting soil dry-wet inductor 55;When soil moisture is less than standard value, branch
Pipe valve door controller 56 controls corresponding branch pipe valve 54 of irrigating and opens, and water pump controller 57 controls 52 power initiation of water pump, stream
Water enters irrigator 58, then is poured to vegetation by irrigator 58.When soil moisture is greater than or equal to standard value, branch pipe
Valve positioner 56 controls corresponding branch pipe valve 54 of irrigating and closes, and water pump controller 57 controls 52 power supply of water pump and closes, and irrigates
Water will not flow out.
As shown in figs. 1 and 6, irrigator 58 includes and buries to more ring-shaped round pipe 58a of vegetation root, every ring-shaped round pipe
Macromolecule seepy material 58b is filled in 58a, and the outer wall of ring-shaped round pipe 58a is equipped with multiple permeable hole 58c.This implementation
In example, the outer diameter of irrigator 58 is 25cm, internal diameter 20cm.
Power supply 60 to electrically operated valve 34, valve positioner 35, water level sensor 43, water pump 52, all branch pipe valves 54,
These electricity consumption devices of all soil dry-wet inductors 55, branch pipe valve positioner 56 and water pump controller 57 are powered, it
Including at least one solar panel 61 and accumulator 62.Solar panel 61 is mounted on street lamp, receives solar irradiation,
And irradiation can be converted to electric energy.The charging interface of accumulator 62 is connected with solar panel 61, and power supply interface and institute are useful
Electrical part is connected, and receives the electric energy that the transmission of solar panel 61 comes, and stored, then the electric energy stored is exported to each
Electrical appliance.
Based on the above structure, the specific rainwater-collecting of cell rainwater-collecting and irrigation system 10 that the present embodiment is provided and
Irrigation process is:Rainwater flows into pond 22 of removing contamination through rainwater net T and pipe well 21 of removing contamination, and dirt heavier in rainwater is got rid of by precipitation
Primary filter portion 30 is flowed into after object;Then, rainwater is flowed into again in filtering bolt 32, and filtering bolt 32 carries out first mistake to rainwater
Filter, filters small granular suspended matters therein;Rainwater after primary filter flows into cistern 41 by water inlet pipe 31, by filter plate 42
Secondary filter is carried out, minute impurities therein etc. are filtered, the rainwater after secondary filter, which flows into cistern 41, to be accumulated;Then, water
Pump 52 pumps the rainwater in cistern 41 to multiple irrigation branch pipes 53 by water-supply-pipe 51, and is supplied to and is poured by irrigation branch pipe 53
Each ring-shaped round pipe 58a in device 58 is filled, rainwater is from the permeable hole 58c outflows on ring-shaped round pipe 58a, to equably to cell
Vegetation is irrigated.
Above example is only the illustration done to technical solutions of the utility model.Involved by the utility model
Cell rainwater-collecting and irrigation system are not merely defined in described structure in the embodiment above, but with claim
Subject to limited range.Any modification that the utility model one of ordinary skill in the art are made on the basis of the embodiment or
Supplement or equivalence replacement, all in the utility model range claimed.
In the cell rainwater-collecting and irrigation system of the utility model, multiple remove contamination can also be arranged according to actual demand
Portion, multiple primary filter portions and multiple secondary filtration portions.
Claims (10)
1. a kind of cell rainwater-collecting and irrigation system, which is characterized in that including:
Remove contamination portion, including:The pipe well of removing contamination being connected with municipal Storm Sewer Network, and be connected with the bottom of the pipe well of removing contamination
It removes contamination pond;
Primary filter portion, including:The water inlet pipe being connected with the discharge outlet for removing contamination pond top, and it is mounted on the water inlet pipe
The filtering bolt of inlet, it is described filtering bolt inner hollow and be filled with fitros, it is described filtering bolt front and back end
Closed with metal screen;
Secondary filtration portion, including:The cistern that top is connected with the outlet of the water inlet pipe, and on the cistern
The filter plate in portion, the filter plate include:Concrete slab embeds multiple filter hole on the slab, is filled in each
Activated carbon filter material in the filter hole, and close the infiltration geotextiles of the filter hole;
Irrigation portion, including:The water pump on the water-supply-pipe is arranged in the water-supply-pipe being connected with the lower part of the cistern, with institute
Multiple irrigation branch pipes that the water outlet of water-supply-pipe is connected are stated, is connected with all irrigation branch pipes, cell vegetation is filled
The irrigator irrigate.
2. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, it is enclosed in the pond of removing contamination equipped with dirt-collecting basket, two side handles of the dirt-collecting basket extend to pipe well of removing contamination
Top.
3. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, the filtering bolt is hollow stainless steel bolt, and the grain size for crossing fitros is 2~5cm, the metal screen
Aperture is 0.3~0.7mm.
4. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, the thickness of the concrete slab is 10~20cm;The filter hole be metal circular tube fastener, a diameter of 8~12cm,
The multiple filter hole arranges that spacing is 15~25cm in quincuncial pile.
5. cell rainwater-collecting according to claim 4 and irrigation system, it is characterised in that:
Wherein, the thickness of the concrete slab is 15cm, a diameter of 10cm of the filter hole, between the adjacent filter hole
Spacing is 20cm.
6. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, the irrigator includes to bury to more ring-shaped round pipe of vegetation root, is filled in the every ring-shaped round pipe
Macromolecule seepy material, and the outer wall of the ring-shaped round pipe is equipped with multiple permeable holes.
7. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, the secondary filtration portion also includes water level sensor, which is arranged in the cistern, and position
In the lower section of the filter plate,
The primary filter portion also includes electrically operated valve and valve positioner, which is mounted on the entrance of the water inlet pipe
Place, the valve positioner are connected with the water level sensor and the electrically operated valve.
8. cell rainwater-collecting according to claim 7 and irrigation system, it is characterised in that:
Wherein, the irrigation portion also includes:Multiple branch pipe valves, multiple soil dry-wet inductors and branch pipe valve positioner, institute
It is corresponding on each irrigation branch pipe respectively to state multiple branch pipe valves, the multiple soil dry-wet inductor is respectively set
Near the irrigation branch pipe, the branch pipe valve positioner incudes with all branch pipe valves and the soil dry-wet
Device is connected.
9. cell rainwater-collecting according to claim 8 and irrigation system, which is characterized in that further include:
Power supply is powered to all electricity consumption devices, including:At least one solar panel and accumulator, the electric power storage
The charging interface in pond is connected with the solar panel, and power supply interface is connected with all electricity consumption devices.
10. cell rainwater-collecting according to claim 1 and irrigation system, it is characterised in that:
Wherein, the cell rainwater-collecting and irrigation system include multiple portions that remove contamination, multiple primary filter portions and more
A secondary filtration portion.
Priority Applications (1)
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CN201721701544.6U CN207714472U (en) | 2017-12-08 | 2017-12-08 | Cell rainwater-collecting and irrigation system |
Applications Claiming Priority (1)
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CN201721701544.6U CN207714472U (en) | 2017-12-08 | 2017-12-08 | Cell rainwater-collecting and irrigation system |
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CN207714472U true CN207714472U (en) | 2018-08-10 |
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ID=63059928
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109281377A (en) * | 2018-12-10 | 2019-01-29 | 攀枝花学院 | A kind of side-ditch type rainwater collecting device |
CN109658778A (en) * | 2019-01-16 | 2019-04-19 | 宿州市鑫尧健康科技有限公司 | A kind of college teaching experimental facilities |
-
2017
- 2017-12-08 CN CN201721701544.6U patent/CN207714472U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109281377A (en) * | 2018-12-10 | 2019-01-29 | 攀枝花学院 | A kind of side-ditch type rainwater collecting device |
CN109658778A (en) * | 2019-01-16 | 2019-04-19 | 宿州市鑫尧健康科技有限公司 | A kind of college teaching experimental facilities |
CN109658778B (en) * | 2019-01-16 | 2020-09-22 | 宿州市鑫尧健康科技有限公司 | Experimental facilities is used in colleges and universities' teaching |
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