CN211909841U - Photovoltaic water lifting irrigation equipment - Google Patents

Photovoltaic water lifting irrigation equipment Download PDF

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Publication number
CN211909841U
CN211909841U CN202020343108.1U CN202020343108U CN211909841U CN 211909841 U CN211909841 U CN 211909841U CN 202020343108 U CN202020343108 U CN 202020343108U CN 211909841 U CN211909841 U CN 211909841U
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China
Prior art keywords
water
photovoltaic
layer
vertical shaft
planting
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CN202020343108.1U
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Chinese (zh)
Inventor
李正华
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Yunnan Lvmiba New Energy Co ltd
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Yunnan Lvmiba New Energy Co ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/25Greenhouse technology, e.g. cooling systems therefor
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/12Technologies relating to agriculture, livestock or agroalimentary industries using renewable energies, e.g. solar water pumping
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/14Measures for saving energy, e.g. in green houses

Abstract

The utility model discloses a photovoltaic water lifting irrigation device, belonging to the technical field of photovoltaic application, wherein a solar battery component is used for supplying power to a photovoltaic water pump; the photovoltaic water pump is arranged in the vertical shaft and used for pumping water in the vertical shaft to the transverse pipe; the transverse pipe is arranged on the roof of the culture chamber, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the transverse pipe; the spraying nozzle is used for spraying water to the water-receiving vertical curtain; the water-collecting vertical curtain freely droops from the lower part of the transverse pipe and is used for evaporating water in a large area; a tip part is arranged below the water receiving vertical curtain and is used for collecting water flowing down from the water receiving vertical curtain; the tip points to the position between the two planting boxes; and a water drainage groove is arranged between the two planting boxes and is used for draining water back to the vertical shaft. The utility model discloses a photovoltaic water lift irrigation equipment utilizes solar energy water intaking to irrigate, and energy-conserving power saving makes the vegetation environment remain moisture all the time.

Description

Photovoltaic water lifting irrigation equipment
Technical Field
The utility model belongs to the technical field of the photovoltaic is used, specifically speaking relates to a photovoltaic irrigation equipment that carries water.
Background
In some poor mountainous areas, due to the limitation of geographical environments, the cost for building a power grid is high, and the difficulty is high. People are in a life state of lacking electricity for a long time, which is very inconvenient. The water extraction is also obtained by physical power, which is inconvenient for plant irrigation.
The problem of water lift by electricity is solved in fact, and the liberation labour can be needn't adopt to set up the huge electric wire netting of expense, utilizes the mode of solar energy to carry out the water lift and irrigate. NT-R5E3E solar cell module is used as a power supply and matched with a PS1200HR photovoltaic water pump for water lifting. However, the problem of how to utilize solar energy to lift water for irrigation is still a problem to be solved.
SUMMERY OF THE UTILITY MODEL
The utility model aims at the above-mentioned weak point provide a photovoltaic water lifting irrigation equipment, plan to solve how to utilize solar energy water intaking to irrigate, and guarantee to make the vegetation environment remain the problem of moisture all the time. In order to achieve the above object, the utility model provides a following technical scheme:
a photovoltaic water lifting irrigation device comprises a solar cell module 1, a photovoltaic water pump 2, a horizontal pipe 3, a water collecting vertical curtain 4 and a plurality of planting boxes 5; the solar cell module 1 is used for supplying power to the photovoltaic water pump 2; the photovoltaic water pump 2 is arranged in the vertical shaft 6 and used for pumping water in the vertical shaft 6 to the transverse pipe 3; the horizontal pipe 3 is arranged on the roof of the culture chamber 7, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the horizontal pipe 3; the spraying nozzle is used for spraying water to the water-receiving vertical curtain 4; the water-collecting vertical curtain 4 freely hangs down from the lower part of the transverse pipe 3 and is used for evaporating water in a large area; a tip part 41 is arranged below the water collecting vertical curtain 4, and the tip part 41 is used for collecting water flowing down from the water collecting vertical curtain 4; the tip part 41 points to the position between the two planting boxes 5; a water drainage groove 8 is arranged between the two planting boxes 5, and the water drainage groove 8 is used for draining water back to the vertical shaft 6. According to the structure, solar module 1 is used for supplying power for photovoltaic water pump 2, photovoltaic water pump 2 is taken out the water in the vertical shaft 6 to violently managing 3 through the pipeline, violently manage 3 spray nozzle and hang down the curtain 4 to the water receiving and go up the watering, the evaporation of water large tracts of land guarantees that the air is moist, unnecessary water flows down to point portion 41 along the water receiving hangs down curtain 4, the water drainage tank 8 between two planting casees 5 drips, water drainage tank 8 is used for returning the log raft to vertical shaft 6 in, it is uncontrollable to prevent that photovoltaic water pump 2 from drawing water volume, moisture is too rich and influence vegetation.
Further, a planting layer 51, a fine filtering layer 52, a coarse filtering layer 53, a partition plate 54 and a water retention layer 55 are sequentially arranged in the planting box 5 from top to bottom; the water retention layers 55 in all the planting boxes 5 are communicated with the drainage grooves 8; a return pipe 9 for returning water to the vertical shaft 6 is arranged on the water retention layer 55; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54; the partition plate 54 is provided with a plurality of air holes 57 communicating with an air layer 56. According to the structure, the planting layer 51 is a direct growth layer of plants, the fine filtering layer 52 and the coarse filtering layer 53 prevent the planting layer 51 from falling off, and the roots of the plants in the planting layer 51 are ensured to be in a ventilation state; the partition plate 54 is provided with a plurality of vent holes 57 communicated with the air layer 56, so that the lower part of the planting layer 51 can be communicated with the air; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54, water and air are always accumulated in the water retention layer 55, and when the photovoltaic water pump 2 does not work, part of water is reserved for standby; the water retention layer 55 is provided with a return pipe 9 for returning water to the vertical shaft 6, so that the water can flow back to the vertical shaft 6 when the water retention is excessive.
Further, a filter screen is arranged at the inlet of the return pipe 9 on the water-retaining layer 55. According to the structure, heavy residues can fall to the bottom of the water retention layer 55, and light residues can flow back to the vertical shaft 6 along the return pipe 9 along with water; in order to avoid light residue pollution, a filter screen is arranged for interception.
Further, a supporting step 61 is arranged in the vertical shaft 6; a filter disc net 62 is supported on the supporting step 61; the photovoltaic water pump 2 is arranged above the filter disc net 62; a return pipe 9 is arranged below the filter disc net 62 and leads to the outlet of the vertical shaft 6. By the structure, the backflow pipe 9 is communicated to the lower portion of the filter disc net 62, the photovoltaic water pump 2 is arranged above the filter disc net 62, and the photovoltaic water pump 2 is guaranteed to be clean in pumping water.
Further, the roof of the culture chamber 7 is a greenhouse film roof. From the above structure, the greenhouse film roof promotes plant growth and water evaporation.
Further, the plurality of ventilation holes 57 are uniformly distributed.
The utility model has the advantages that:
1. the utility model discloses a photovoltaic water lifting irrigation device, wherein a solar battery component is used for supplying power to a photovoltaic water pump; the photovoltaic water pump is arranged in the vertical shaft and used for pumping water in the vertical shaft to the transverse pipe; the transverse pipe is arranged on the roof of the culture chamber, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the transverse pipe; the spraying nozzle is used for spraying water to the water-receiving vertical curtain; the water-collecting vertical curtain freely droops from the lower part of the transverse pipe and is used for evaporating water in a large area; a tip part is arranged below the water receiving vertical curtain and is used for collecting water flowing down from the water receiving vertical curtain; the tip points to the position between the two planting boxes; and a water drainage groove is arranged between the two planting boxes and is used for draining water back to the vertical shaft. The utility model discloses a photovoltaic water lift irrigation equipment utilizes solar energy water intaking to irrigate, and energy-conserving power saving makes the vegetation environment remain moisture all the time.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the structure of the planting box of the present invention;
in the drawings: 1-solar cell module, 2-photovoltaic water pump, 3-horizontal pipe, 4-water-receiving vertical curtain, 5-planting box, 6-vertical shaft, 7-culture chamber, 8-drainage tank, 9-return pipe, 41-tip, 51-planting layer, 52-fine filtering layer, 53-coarse filtering layer, 54-partition board, 55-water-retaining layer, 56-air layer, 57-vent hole, 61-supporting step and 62-filtering disk net.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited to the following embodiments.
The first embodiment is as follows:
see figures 1-2. A photovoltaic water lifting irrigation device comprises a solar cell module 1, a photovoltaic water pump 2, a horizontal pipe 3, a water collecting vertical curtain 4 and a plurality of planting boxes 5; the solar cell module 1 is used for supplying power to the photovoltaic water pump 2; the photovoltaic water pump 2 is arranged in the vertical shaft 6 and used for pumping water in the vertical shaft 6 to the transverse pipe 3; the horizontal pipe 3 is arranged on the roof of the culture chamber 7, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the horizontal pipe 3; the spraying nozzle is used for spraying water to the water-receiving vertical curtain 4; the water-collecting vertical curtain 4 freely hangs down from the lower part of the transverse pipe 3 and is used for evaporating water in a large area; a tip part 41 is arranged below the water collecting vertical curtain 4, and the tip part 41 is used for collecting water flowing down from the water collecting vertical curtain 4; the tip part 41 points to the position between the two planting boxes 5; a water drainage groove 8 is arranged between the two planting boxes 5, and the water drainage groove 8 is used for draining water back to the vertical shaft 6. According to the structure, solar module 1 is used for supplying power for photovoltaic water pump 2, photovoltaic water pump 2 is taken out the water in the vertical shaft 6 to violently managing 3 through the pipeline, violently manage 3 spray nozzle and hang down the curtain 4 to the water receiving and go up the watering, the evaporation of water large tracts of land guarantees that the air is moist, unnecessary water flows down to point portion 41 along the water receiving hangs down curtain 4, the water drainage tank 8 between two planting casees 5 drips, water drainage tank 8 is used for returning the log raft to vertical shaft 6 in, it is uncontrollable to prevent that photovoltaic water pump 2 from drawing water volume, moisture is too rich and influence vegetation.
Example two:
see figures 1-2. A photovoltaic water lifting irrigation device comprises a solar cell module 1, a photovoltaic water pump 2, a horizontal pipe 3, a water collecting vertical curtain 4 and a plurality of planting boxes 5; the solar cell module 1 is used for supplying power to the photovoltaic water pump 2; the photovoltaic water pump 2 is arranged in the vertical shaft 6 and used for pumping water in the vertical shaft 6 to the transverse pipe 3; the horizontal pipe 3 is arranged on the roof of the culture chamber 7, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the horizontal pipe 3; the spraying nozzle is used for spraying water to the water-receiving vertical curtain 4; the water-collecting vertical curtain 4 freely hangs down from the lower part of the transverse pipe 3 and is used for evaporating water in a large area; a tip part 41 is arranged below the water collecting vertical curtain 4, and the tip part 41 is used for collecting water flowing down from the water collecting vertical curtain 4; the tip part 41 points to the position between the two planting boxes 5; a water drainage groove 8 is arranged between the two planting boxes 5, and the water drainage groove 8 is used for draining water back to the vertical shaft 6. According to the structure, solar module 1 is used for supplying power for photovoltaic water pump 2, photovoltaic water pump 2 is taken out the water in the vertical shaft 6 to violently managing 3 through the pipeline, violently manage 3 spray nozzle and hang down the curtain 4 to the water receiving and go up the watering, the evaporation of water large tracts of land guarantees that the air is moist, unnecessary water flows down to point portion 41 along the water receiving hangs down curtain 4, the water drainage tank 8 between two planting casees 5 drips, water drainage tank 8 is used for returning the log raft to vertical shaft 6 in, it is uncontrollable to prevent that photovoltaic water pump 2 from drawing water volume, moisture is too rich and influence vegetation.
A planting layer 51, a fine filtering layer 52, a coarse filtering layer 53, a partition plate 54 and a water retention layer 55 are sequentially arranged in the planting box 5 from top to bottom; the water retention layers 55 in all the planting boxes 5 are communicated with the drainage grooves 8; a return pipe 9 for returning water to the vertical shaft 6 is arranged on the water retention layer 55; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54; the partition plate 54 is provided with a plurality of air holes 57 communicating with an air layer 56. According to the structure, the planting layer 51 is a direct growth layer of plants, the fine filtering layer 52 and the coarse filtering layer 53 prevent the planting layer 51 from falling off, and the roots of the plants in the planting layer 51 are ensured to be in a ventilation state; the partition plate 54 is provided with a plurality of vent holes 57 communicated with the air layer 56, so that the lower part of the planting layer 51 can be communicated with the air; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54, water and air are always accumulated in the water retention layer 55, and when the photovoltaic water pump 2 does not work, part of water is reserved for standby; the water retention layer 55 is provided with a return pipe 9 for returning water to the vertical shaft 6, so that the water can flow back to the vertical shaft 6 when the water retention is excessive.
Example three:
see figures 1-2. A photovoltaic water lifting irrigation device comprises a solar cell module 1, a photovoltaic water pump 2, a horizontal pipe 3, a water collecting vertical curtain 4 and a plurality of planting boxes 5; the solar cell module 1 is used for supplying power to the photovoltaic water pump 2; the photovoltaic water pump 2 is arranged in the vertical shaft 6 and used for pumping water in the vertical shaft 6 to the transverse pipe 3; the horizontal pipe 3 is arranged on the roof of the culture chamber 7, and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the horizontal pipe 3; the spraying nozzle is used for spraying water to the water-receiving vertical curtain 4; the water-collecting vertical curtain 4 freely hangs down from the lower part of the transverse pipe 3 and is used for evaporating water in a large area; a tip part 41 is arranged below the water collecting vertical curtain 4, and the tip part 41 is used for collecting water flowing down from the water collecting vertical curtain 4; the tip part 41 points to the position between the two planting boxes 5; a water drainage groove 8 is arranged between the two planting boxes 5, and the water drainage groove 8 is used for draining water back to the vertical shaft 6. According to the structure, solar module 1 is used for supplying power for photovoltaic water pump 2, photovoltaic water pump 2 is taken out the water in the vertical shaft 6 to violently managing 3 through the pipeline, violently manage 3 spray nozzle and hang down the curtain 4 to the water receiving and go up the watering, the evaporation of water large tracts of land guarantees that the air is moist, unnecessary water flows down to point portion 41 along the water receiving hangs down curtain 4, the water drainage tank 8 between two planting casees 5 drips, water drainage tank 8 is used for returning the log raft to vertical shaft 6 in, it is uncontrollable to prevent that photovoltaic water pump 2 from drawing water volume, moisture is too rich and influence vegetation.
A planting layer 51, a fine filtering layer 52, a coarse filtering layer 53, a partition plate 54 and a water retention layer 55 are sequentially arranged in the planting box 5 from top to bottom; the water retention layers 55 in all the planting boxes 5 are communicated with the drainage grooves 8; a return pipe 9 for returning water to the vertical shaft 6 is arranged on the water retention layer 55; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54; the partition plate 54 is provided with a plurality of air holes 57 communicating with an air layer 56. According to the structure, the planting layer 51 is a direct growth layer of plants, the fine filtering layer 52 and the coarse filtering layer 53 prevent the planting layer 51 from falling off, and the roots of the plants in the planting layer 51 are ensured to be in a ventilation state; the partition plate 54 is provided with a plurality of vent holes 57 communicated with the air layer 56, so that the lower part of the planting layer 51 can be communicated with the air; the return pipe 9 keeps a certain distance from the bottom of the water retention layer 55 and the bottom surface of the partition plate 54, so that an air layer 56 is reserved between the water retention layer 55 and the partition plate 54, water and air are always accumulated in the water retention layer 55, and when the photovoltaic water pump 2 does not work, part of water is reserved for standby; the water retention layer 55 is provided with a return pipe 9 for returning water to the vertical shaft 6, so that the water can flow back to the vertical shaft 6 when the water retention is excessive.
The return pipe 9 is provided with a filter screen at the inlet of the water-retaining layer 55. According to the structure, heavy residues can fall to the bottom of the water retention layer 55, and light residues can flow back to the vertical shaft 6 along the return pipe 9 along with water; in order to avoid light residue pollution, a filter screen is arranged for interception.
A supporting step 61 is arranged in the vertical shaft 6; a filter disc net 62 is supported on the supporting step 61; the photovoltaic water pump 2 is arranged above the filter disc net 62; a return pipe 9 is arranged below the filter disc net 62 and leads to the outlet of the vertical shaft 6. By the structure, the backflow pipe 9 is communicated to the lower portion of the filter disc net 62, the photovoltaic water pump 2 is arranged above the filter disc net 62, and the photovoltaic water pump 2 is guaranteed to be clean in pumping water.
The roof of the culture chamber 7 is a greenhouse film roof. From the above structure, the greenhouse film roof promotes plant growth and water evaporation.
The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (6)

1. The utility model provides a photovoltaic water lift irrigation equipment which characterized in that: the solar water heater comprises a solar cell module (1), a photovoltaic water pump (2), a transverse pipe (3), a water-receiving vertical curtain (4) and a plurality of planting boxes (5); the solar cell module (1) is used for supplying power to the photovoltaic water pump (2); the photovoltaic water pump (2) is arranged in the vertical shaft (6) and is used for pumping water in the vertical shaft (6) to the transverse pipe (3); the transverse pipe (3) is arranged on the roof of the culture chamber (7), and a plurality of spraying nozzles which are transversely distributed at intervals are arranged on the transverse pipe (3); the spraying nozzle is used for spraying water to the water-receiving vertical curtain (4); the water-collecting vertical curtain (4) freely droops from the lower part of the transverse pipe (3) and is used for evaporating water in a large area; a tip part (41) is arranged below the water collecting vertical curtain (4), and the tip part (41) is used for collecting water flowing down from the water collecting vertical curtain (4); the tip part (41) points to the position between the two planting boxes (5); be equipped with water drainage tank (8) between two planting casees (5), water drainage tank (8) are used for discharging water back to in vertical (6).
2. A photovoltaic lift irrigation apparatus as claimed in claim 1, further comprising: a planting layer (51), a fine filtering layer (52), a coarse filtering layer (53), a partition plate (54) and a water retention layer (55) are sequentially arranged in the planting box (5) from top to bottom; the water retention layers (55) in all the planting boxes (5) are communicated with the drainage groove (8); a return pipe (9) for returning water to the vertical shaft (6) is arranged on the water retention layer (55); the return pipe (9) keeps a certain distance from the bottom of the water retention layer (55) and the bottom surface of the partition plate (54), so that an air layer (56) is reserved between the water retention layer (55) and the partition plate (54); the partition plate (54) is provided with a plurality of vent holes (57) communicated with the air layer (56).
3. A photovoltaic lift irrigation apparatus as claimed in claim 2 wherein: and a filter screen is arranged at the inlet of the return pipe (9) on the water-retaining layer (55).
4. A photovoltaic lift irrigation apparatus as claimed in claim 3 wherein: a supporting step (61) is arranged in the vertical shaft (6); a filter disc net (62) is supported on the supporting step (61); the photovoltaic water pump (2) is arranged above the filtering disc net (62); a return pipe (9) is arranged below the filter disc net (62) and leads to an outlet of the vertical shaft (6).
5. A photovoltaic lift irrigation apparatus as claimed in any one of claims 1 to 4 wherein: the roof of the culture chamber (7) is a greenhouse film roof.
6. A photovoltaic lift irrigation apparatus as claimed in claim 2 wherein: the plurality of vent holes (57) are uniformly distributed.
CN202020343108.1U 2020-03-18 2020-03-18 Photovoltaic water lifting irrigation equipment Active CN211909841U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020343108.1U CN211909841U (en) 2020-03-18 2020-03-18 Photovoltaic water lifting irrigation equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020343108.1U CN211909841U (en) 2020-03-18 2020-03-18 Photovoltaic water lifting irrigation equipment

Publications (1)

Publication Number Publication Date
CN211909841U true CN211909841U (en) 2020-11-13

Family

ID=73354776

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020343108.1U Active CN211909841U (en) 2020-03-18 2020-03-18 Photovoltaic water lifting irrigation equipment

Country Status (1)

Country Link
CN (1) CN211909841U (en)

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