CN203575247U - Device for lifting water from rainwater collection tank and watering trees by wind-solar complementary supply lift pump - Google Patents
Device for lifting water from rainwater collection tank and watering trees by wind-solar complementary supply lift pump Download PDFInfo
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- CN203575247U CN203575247U CN201320610063.XU CN201320610063U CN203575247U CN 203575247 U CN203575247 U CN 203575247U CN 201320610063 U CN201320610063 U CN 201320610063U CN 203575247 U CN203575247 U CN 203575247U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/12—Technologies relating to agriculture, livestock or agroalimentary industries using renewable energies, e.g. solar water pumping
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Abstract
The utility model relates to a device for lifting water from a rainwater collection tank and watering trees by a wind-solar complementary supply lift pump, and belongs to the technical field of new energy conservation and environmental protection. The sun irradiates a solar battery to generate current, and the current is inputted to an energy storage battery for storing electric energy through a conductor wire, a photovoltaic controller, a junction station and a junction controller. Wind force blows rotating blades to rapidly rotate and drives a wind generator to generate current, and the current is inputted to the energy storage battery for storing electric energy through the conductor wire, a wind power controller, the junction station and the junction controller. Rainwater drops into a rainwater collection channel with a concave top surface of a rainwater collection guardrail with a concave top surface and is collected into water flow, the water flow enters an underground rainwater collection tank through a leakage hole and a leakage pipe, and the rainwater is stored. The current outputted from the energy storage battery is inputted to the lift pump through the conductor wire and the junction controller to supply power, the lift pump lifts the water flow through a lift pipe to enter the lift pump when working, and the water flow is pressurized and then poured to green trees through a watering pipe and a watering faucet.
Description
Technical field
The utility model relates to wind light mutual complementing power supply lift pump from the device of rainwater-collecting pond water lift pouring trees, belongs to new energy source energy-saving environmental technology field.
Background technology
Owing to controlled by the warm anticyclone of northwest Pacific subtropical high or continental high almospheric pressure, cause southern china to occur large-scale continuous high temperature weather in late June, 2013 to mid-August.Late June just there are two day with high temperature in Wuxi City, Jiangsu Province, to July 15, has occurred 15 day with high temperature, wherein has 7 temperature to surpass the heat day of 37 ℃, and after this temperature one tunnel in Wuxi is elevated to 40.3 degree in August 7 and August 9.August 5, the Chinese high temperature area coverage that surpasses 35 ℃ approximately reached 1,500,000 square kilometres, over more than 40 ℃ approximately 70,000 square kilometres, August 7, southern china had the temperature of 9 provinces over 40 ℃, 40.7 ℃, Chongqing, 40.8 ℃, Shanghai, 41.2 ℃, Hangzhou, the temperature in Fenghua, Zhejiang Province reaches 43.5 ℃, the how regional high temperature number of days in Jiangsu breaks historical record, and Xinchang, city, 12 in the August Shaoxing, Zhejiang Province maximum air temperature reaches 44.1 ℃.Online friend says jokingly: " south bag heat, Jiangsu-zhejiang Shanghai Area bag is ripe." under many days high-temperature bakings, the many landscape tree leaf rollings of Jiangsu-zhejiang Shanghai Area, branch is withered, and even complete stool is withered.
High temperature is accompanied by short of rain, and large-area continuous high temperature makes the arid situation of southern china severeer, ends August 6, and the whole nation has 6,476 ten thousand mu of arable lands to suffer from drought.In national greenbelt, generally do not collect the facility of rainwater, particularly in urban construction, drainage system is unsound, rainwater and sewage are not shunted, in greenbelt construction, do not consider and build water storage facility simultaneously, add climatic variation in recent years, heavy rain increases, heavy rain is the lower waterlogging that occurs suddenly, after draining the water away, meet again burning sun to tan by the sun, greenbelt arid need to be watered, start to take waterr transporting vehicle that diesel engine or gasoline engine are power to reach side, river course at a distance and extract river, then transport to by greenbelt, use be take the sprinkler that diesel engine or gasoline engine be power and is watered river to landscape tree, do like this, inefficiency not only, and contaminated environment weight, because diesel engine or gasoline engine are in water intaking, fortune water, water lift, a large amount of carbonic acid gas and pernicious gas while providing power in the course of work of water spray, have been discharged.
The basic reason that high temperature, arid occur is that degeneration has occurred tellurian ecotope, the balance of ecotope is affected, the mankind in industrial production, burn a large amount of coal, discharge a large amount of carbonic acid gas, the automobile that the mankind manufacture discharges a large amount of tail gas under steam, the increase that the carbonic acid gas of take in atmosphere is main greenhouse gas concentration has produced greenhouse effect, promote climatic variation, to the survival and development of the mankind on the earth, caused increasing impact.Except watering landscape tree with waterr transporting vehicle fortune water, in city, also do not collect at present the device of rainwater water lift pouring landscape tree.
Utility model content
The purpose of this utility model is to overcome deficiency of the prior art, and the device of wind light mutual complementing power supply lift pump from rainwater-collecting pond water lift pouring trees is provided.
On August 8th, 2013, academician of the Chinese Academy of Sciences, ecologist's Zhang Xinshi were invited Wuxi to begin lecturing: ' ecological reconstruction and ecological recovery '; what he was very glad sees; in the ecological construction planning of Wuxi, there are three gratifying data: the one, non-fossil fuel accounting will develop into 9%; be that the new forms of energy accountings such as solar energy, wind energy will reach 9%; in the energy resource structure of Germany, wind-power electricity generation accounts for 14%; the 2nd, the protection of natural water will reach 45%, three, and the greening scale of Wuxi will reach 39%, the coverage rate of forest reaches 27%.
It seems, strengthen afforestation, utilize the photosynthesis of green plants to fix carbonic acid gas, the temperature and humidity that keeps suitable human living on the earth, alleviates climatic variation, rebuilds ecological, could reduce the generation of high temperature and heavy rain, this is the striving direction of human survival and sustainable development.Greatly develop and the clean energy resource such as applied solar energy, wind energy, reduce the use of fossil fuel coal and oil, the discharge that reduces carbonic acid gas is the vital measure of ecotope of preserving our planet.Recycle by every possible means, save and use water resource can guarantee the stalwartness growth of landscape tree, make landscape tree fix more carbonic acid gas, discharge more oxygen and meet the mankind and mammiferous respiratory demand.In the utility model, during plantation landscape tree, first must below greenbelt, build subsurface stormwater collecting pit, normal growth savings rainwater for landscape tree, transform existing flat-top or the dimpling shape guardrail end face that can not collect rainwater, manufacture can be collected the spill end face collection rainwater guardrail of rainwater, when rainfall, utilize spill end face collection drip molding to collect a part of rainwater and form current, current are through the bottom of spill end face collection drip molding, it is standby that leaking hole and the pipe that leaks flow into subsurface stormwater collecting pit savings rainwater, in suitable place, also can build rainwater-collecting pond, a part of ground.Remove subsurface stormwater collecting pit stone and building waste around, the good high-quality loam of soil structure that landfill can draining, again can water conservation, do like this root growth that is conducive to landscape tree and physically well develop, absorb smoothly moisture and nutrient, supply with the shoot and leaf growth of landscape tree acrial part.Due to developing rapidly of science and technology, the electric energy that utilizes solar electrical energy generation and wind-power electricity generation to produce complements each other to drive lift pump work, lift pump promotes by water lift pipe in the rainwater input lift pump of saving in subsurface stormwater collecting pit after pressurization, better to the power resources employing clean energy resource of the arbor tree of planting in greenbelt and shrub tree pouring moisture by watering tube and irrigation point.Because the photoelectric transformation efficiency of multiple solar cell is by the improvement of manufacturing process, its photoelectric transformation efficiency is more and more higher, and the electric energy producing under solar radiation is more and more.The wind-driven generator in past mainly utilizes wind speed 6 meters of wind-power electricity generations to 9 meters per second of wind speed per second, variation along with wind-driven generator product, the structure of product is dexterousr, utilizes wind speed 1.5 meters of operating efficiencies to the wind-driven generator of 3 meters per second of wind speed per second to improve constantly.Fine day, solar light irradiation silica-based solar cell produces relatively large electric current, and at night, month irradiation copper indium gallium selenium solar cell or DSSC can produce electric current in a small amount.Solar electrical energy generation is also subject to the impact that aerial cloud system changes.Wind-power electricity generation by day or can carry out night, as long as wind-force reaches certain rank, wind blows rotating vane fast rotational, just can drive wind-driven generator generation current.Solar electrical energy generation and wind-power electricity generation complement one another, and can reach to the object of lift pump balanced power supply.
In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:
By rotating vane 1, wind-driven generator 2, wind-powered electricity generation controller 3, solar cell 4, conductor wire 5, photovoltaic controller 6, junction station 7, after confluxing, controller 8, energy-storage battery 9, lift pump 10, watering tube 11, irrigation point 12, water lift pipe 13, spill end face collection rainwater guardrail 14, leaking hole 15, pipe 16 leaks, guardrail pillar 17, road green belt guardrail basis 18, wireless water level sensor 19, the common wind light mutual complementing power supply lift pump that forms of subsurface stormwater collecting pit 20 is from the device of rainwater-collecting pond water lift pouring trees, in greenbelt, plant and be implanted with, shrub tree 21, arbor tree 22,
A thick confession electric pole is installed on road green belt guardrail basis 18, at the epimere for electric pole, solar cell 4 is from up to down installed successively, conductor wire 5, photovoltaic controller 6, wind-powered electricity generation controller 3, in the side for electric pole epimere, power supply pole is installed, top power supply pole is provided with rotating vane 1, wind-driven generator 2, for electric pole stage casing, junction station 7 is from up to down being installed, after confluxing, controller 8, energy-storage battery 9, water lift pipe 13 is installed on subsurface stormwater collecting pit 20, the hypomere of water lift pipe 13 puts in subsurface stormwater collecting pit 20, the top of water lift pipe 13 is provided with lift pump 10, watering tube 11 and irrigation point 12, on road green belt guardrail basis 18, according to certain spacing, guardrail pillar 17 is installed, spill end face collection rainwater guardrail 14 is installed in the upper end of guardrail pillar 17, leaking hole 15 is offered according to certain spacing in bottom at the spill end face collection drip molding of spill end face collection rainwater guardrail 14, below leaking hole 15, be connected with the pipe 16 that leaks, the hollow position that the pipe 16 that leaks puts in and is suspended in subsurface stormwater collecting pit 20 through road green belt guardrail basis 18, subsurface stormwater collecting pit 20 is built in the below of greenbelt, wireless water level sensor 19 is installed on subsurface stormwater collecting pit 20, the hypomere of wireless water level sensor 19 puts in the inside of subsurface stormwater collecting pit 20, in greenbelt, plant and be implanted with shrub tree 21 and arbor tree 22,
Solar cell 4 is connected with photovoltaic controller 6 by conductor wire 5, photovoltaic controller 6 is connected with junction station 7 by conductor wire 5, junction station 7 by conductor wire 5 with conflux after controller 8 be connected, after confluxing, controller 8 is connected with lift pump 10 by conductor wire 5, after confluxing, controller 8 is connected with energy-storage battery 9 by conductor wire 5, wind-driven generator 2 is connected with wind-powered electricity generation controller 3 by conductor wire 5, wind-powered electricity generation controller 3 is connected with junction station 7 by conductor wire 5, junction station 7 by conductor wire 5 with conflux after controller 8 be connected, after confluxing, controller 8 is connected with lift pump 10 by conductor wire 5, after confluxing, controller 8 is connected with energy-storage battery 9 by conductor wire 5.
Solar cell 4 is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.
Wind-driven generator 2 is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.
Compared with prior art, the beneficial effects of the utility model are: 1. energy-conservation.At water intaking, fortune water, water lift also waters the fossil energy that in the mechanical work of irrigation flow, no longer carbonic acid gas and pernicious gas are discharged in dependence to landscape tree, change use into and do not discharge the photovoltaic electric power of carbonic acid gas and the energy that wind-powered electricity generation complements each other, saved fossil energy completely.2. protection of the environment.Owing to not re-using in the process at water intaking, fortune water, take the waterr transporting vehicle that diesel engine or gasoline engine be power, in water lift, the process of watering, do not re-use and take the lift pump that diesel engine or gasoline engine be power, solved the problem that diesel engine or gasoline engine discharge carbonic acid gas and pernicious gas contaminated environment when carrying out operation.3. saving water resource.From sky, the rainwater of aerial landing is the open water supply of landscape tree, and owing to lacking the facility that utilizes rainwater in existing greenbelt, the ecosystem that rainwater nourishes landscape tree is affected, and rainwater resource can not get storing and utilizing, and waste is serious.The utility model can be collected a part of rainwater and be used for watering landscape tree, re-establishes using water wisely, has recycled the ecosystem of rainwater.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
Shine upon solar cell generation current, electric current by conductor wire, photovoltaic controller, junction station, conflux after controller input energy-storage battery store electrical energy.Wind blows rotating vane fast rotational, drive wind-driven generator generation current, electric current by conductor wire, wind-powered electricity generation controller, junction station, conflux after controller input energy-storage battery store electrical energy.Rainwater is dropped in the spill end face collection drip molding of spill end face collection rainwater guardrail and is accumulated current, and current enter subsurface stormwater collecting pit savings rainwater through leaking hole, the pipe that leaks.Electric current from energy-storage battery output, by conductor wire, conflux after controller input lift pump power electricity consumption is provided, lift pump when work, promote current enter supercharging in lift pump by water lift pipe, the current after supercharging water irrigation flow by watering tube and irrigation point to landscape tree.
The utility model is further described in connection with the embodiment in accompanying drawing below:
By rotating vane 1, wind-driven generator 2, wind-powered electricity generation controller 3, solar cell 4, conductor wire 5, photovoltaic controller 6, junction station 7, after confluxing, controller 8, energy-storage battery 9, lift pump 10, watering tube 11, irrigation point 12, water lift pipe 13, spill end face collection rainwater guardrail 14, leaking hole 15, pipe 16 leaks, guardrail pillar 17, road green belt guardrail basis 18, wireless water level sensor 19, the common wind light mutual complementing power supply lift pump that forms of subsurface stormwater collecting pit 20 is from the device of rainwater-collecting pond water lift pouring trees, in greenbelt, plant and be implanted with shrub tree 21, arbor tree 22,
A thick confession electric pole is installed on road green belt guardrail basis 18, at the epimere for electric pole, solar cell 4 is from up to down installed successively, conductor wire 5, photovoltaic controller 6, wind-powered electricity generation controller 3, in the side for electric pole epimere, power supply pole is installed, top power supply pole is provided with rotating vane 1, wind-driven generator 2, for electric pole stage casing, junction station 7 is from up to down being installed, after confluxing, controller 8, energy-storage battery 9, water lift pipe 13 is installed on subsurface stormwater collecting pit 20, the hypomere of water lift pipe 13 puts in subsurface stormwater collecting pit 20, the top of water lift pipe 13 is provided with lift pump 10, watering tube 11 and irrigation point 12, on road green belt guardrail basis 18, according to certain spacing, guardrail pillar 17 is installed, spill end face collection rainwater guardrail 14 is installed in the upper end of guardrail pillar 17, leaking hole 15 is offered according to certain spacing in bottom at the spill end face collection drip molding of spill end face collection rainwater guardrail 14, below leaking hole 15, be connected with the pipe 16 that leaks, the hollow position that the pipe 16 that leaks puts in and is suspended in subsurface stormwater collecting pit 20 through road green belt guardrail basis 18, subsurface stormwater collecting pit 20 is built in the below of greenbelt, wireless water level sensor 19 is installed on subsurface stormwater collecting pit 20, the hypomere of wireless water level sensor 19 puts in the inside of subsurface stormwater collecting pit 20, in greenbelt, plant shrub tree 21 and arbor tree 22,
Solar cell 4 is connected with photovoltaic controller 6 by conductor wire 5, photovoltaic controller 6 is connected with junction station 7 by conductor wire 5, junction station 7 by conductor wire 5 with conflux after controller 8 be connected, after confluxing, controller 8 is connected with lift pump 10 by conductor wire 5, after confluxing, controller 8 is connected with energy-storage battery 9 by conductor wire 5, wind-driven generator 2 is connected with wind-powered electricity generation controller 3 by conductor wire 5, wind-powered electricity generation controller 3 is connected with junction station 7 by conductor wire 5, junction station 7 by conductor wire 5 with conflux after controller 8 be connected, after confluxing, controller 8 is connected with lift pump 10 by conductor wire 5, after confluxing, controller 8 is connected with energy-storage battery 9 by conductor wire 5.
Solar cell 4 is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.
Wind-driven generator 2 is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.
Solar light irradiation solar cell generation current, electric current is inputted photovoltaic controller adjustment by conductor wire, then by conductor wire, input junction station, wind blows rotating vane fast rotational, drive wind-driven generator generation current, electric current is inputted wind-powered electricity generation controller by conductor wire, then by conductor wire, input junction station, two strands of electric currents of photovoltaic electric power and wind-powered electricity generation converge in junction station, and after the electric current after converging confluxes by conductor wire input, controller is further adjusted, then by conductor wire, input lift pump, the work of driving lift pump, electric energy becomes mechanical energy in lift pump internal conversion, lift pump consumes mechanical energy and by water lift pipe, promotes the rainwater of saving in subsurface stormwater collecting pit and enter in lift pump and pressurize, and the rainwater stream after pressurization is by the wood that continues of the safflower in watering tube and irrigation point pouring greenbelt, Chinese rose, jasmine, lilac, water wax, photinia glabra, four seasons brocade band waits shrub tree and fragrant camphor tree, Chinese parasol tree, sweet osmanthus, cdear, Liriodendron chinense, kalopanax septemlobus, pale reddish brown Chinese scholartree, the arbor trees such as Chinese toon.From confluxing, the electric current of controller output also can be inputted energy-storage battery store electrical energy by conductor wire.
Now enumerate embodiment as follows:
Embodiment mono-:
Shine upon monocrystaline silicon solar cell generation current, electric current by conductor wire, photovoltaic controller, junction station, conflux after controller input energy-storage battery store electrical energy.Wind blows rotating vane fast rotational, drive perpendicular axis type wind-driven generator generation current, electric current by conductor wire, wind-powered electricity generation controller, junction station, conflux after controller input energy-storage battery store electrical energy.Rainwater is dropped in the spill end face collection drip molding of spill end face collection rainwater guardrail and is accumulated current, and current enter subsurface stormwater collecting pit savings rainwater through leaking hole, the pipe that leaks.Electric current from energy-storage battery output, by conductor wire, conflux after controller input lift pump power electricity consumption is provided, lift pump when work, lift pump promote current by water lift pipe and enter supercharging in lift pump, and the current after supercharging water irrigation flow by watering tube and irrigation point to landscape tree.
Embodiment bis-:
Shine upon polysilicon solar cell generation current, electric current by conductor wire, photovoltaic controller, junction station, conflux after controller input energy-storage battery store electrical energy.Wind blows rotating vane fast rotational, drive horizontal axial type wind-driven generator generation current, electric current by conductor wire, wind-powered electricity generation controller, junction station, conflux after controller input energy-storage battery store electrical energy.Rainwater is dropped in the spill end face collection drip molding of spill end face collection rainwater guardrail and is accumulated current, and current enter subsurface stormwater collecting pit savings rainwater through leaking hole, the pipe that leaks.Electric current from energy-storage battery output, by conductor wire, conflux after controller input lift pump power electricity consumption is provided, lift pump when work, lift pump promote current by water lift pipe and enter supercharging in lift pump, and the current after supercharging water irrigation flow by watering tube and irrigation point to landscape tree.
Claims (3)
1. wind light mutual complementing power supply lift pump is from the device of rainwater-collecting pond water lift pouring trees, it is characterized in that, by rotating vane (1), wind-driven generator (2), wind-powered electricity generation controller (3), solar cell (4), conductor wire (5), photovoltaic controller (6), junction station (7), controller after confluxing (8), energy-storage battery (9), lift pump (10), watering tube (11), irrigation point (12), water lift pipe (13), spill end face collection rainwater guardrail (14), leaking hole (15), pipe (16) leaks, guardrail pillar (17), road green belt guardrail basis (18), wireless water level sensor (19), subsurface stormwater collecting pit (20) forms wind light mutual complementing power supply lift pump jointly from the device of rainwater-collecting pond water lift pouring trees,
A thick confession electric pole is installed on road green belt guardrail basis (18), at the epimere for electric pole, solar cell (4) is from up to down installed successively, conductor wire (5), photovoltaic controller (6), wind-powered electricity generation controller (3), in the side for electric pole epimere, power supply pole is installed, top power supply pole is provided with rotating vane (1), wind-driven generator (2), for electric pole stage casing, junction station (7) is from up to down being installed, controller after confluxing (8), energy-storage battery (9), water lift pipe (13) is installed on subsurface stormwater collecting pit (20), the hypomere of water lift pipe (13) puts in subsurface stormwater collecting pit (20), the top of water lift pipe (13) is provided with lift pump (10), watering tube (11) and irrigation point (12), upper according to certain spacing installation guardrail pillar (17) on road green belt guardrail basis (18), spill end face collection rainwater guardrail (14) is installed in upper end at guardrail pillar (17), leaking hole (15) is offered according to certain spacing in bottom at the spill end face collection drip molding of spill end face collection rainwater guardrail (14), in the below of leaking hole (15), be connected with the pipe (16) that leaks, the pipe (16) that leaks puts in and is suspended in the hollow position in subsurface stormwater collecting pit (20) through road green belt guardrail basis (18), subsurface stormwater collecting pit (20) is built in the below of greenbelt, wireless water level sensor (19) is installed on subsurface stormwater collecting pit (20), the hypomere of wireless water level sensor (19) puts in the inside of subsurface stormwater collecting pit (20),
Solar cell (4) is connected with photovoltaic controller (6) by conductor wire (5), photovoltaic controller (6) is connected with junction station (7) by conductor wire (5), junction station (7) by conductor wire (5) with conflux after controller (8) be connected, controller after confluxing (8) is connected with lift pump (10) by conductor wire (5), controller after confluxing (8) is connected with energy-storage battery (9) by conductor wire (5), wind-driven generator (2) is connected with wind-powered electricity generation controller (3) by conductor wire (5), wind-powered electricity generation controller (3) is connected with junction station (7) by conductor wire (5), junction station (7) by conductor wire (5) with conflux after controller (8) be connected, controller after confluxing (8) is connected with lift pump (10) by conductor wire (5), controller after confluxing (8) is connected with energy-storage battery (9) by conductor wire (5).
2. wind light mutual complementing power supply lift pump according to claim 1 is from the device of rainwater-collecting pond water lift pouring trees, it is characterized in that, described solar cell (4) is monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or compound solar cell.
3. wind light mutual complementing power supply lift pump according to claim 1, from the device of rainwater-collecting pond water lift pouring trees, is characterized in that, described wind-driven generator (2) is perpendicular axis type wind-driven generator or horizontal axial type wind-driven generator.
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CN201320610063.XU CN203575247U (en) | 2013-09-30 | 2013-09-30 | Device for lifting water from rainwater collection tank and watering trees by wind-solar complementary supply lift pump |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103477946A (en) * | 2013-09-30 | 2014-01-01 | 无锡同春新能源科技有限公司 | Device for irrigating trees by water lifted by wind-solar complementary powered water lifting pump from rainwater collecting pool |
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2013
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103477946A (en) * | 2013-09-30 | 2014-01-01 | 无锡同春新能源科技有限公司 | Device for irrigating trees by water lifted by wind-solar complementary powered water lifting pump from rainwater collecting pool |
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Granted publication date: 20140507 Termination date: 20150930 |
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