CN114451193A - Notoginseng garden is with slight irrigation device - Google Patents

Abstract

The invention relates to the technical field of irrigation, in particular to a micro-irrigation device for a panax notoginseng plantation, which comprises a bottom plate, wherein the end part of the upper surface of the bottom plate is fixedly connected with a first water pump, a potassium permanganate storage tower, a reservoir, a second water pump and a plurality of planting greenhouses in sequence, the input port of the first water pump is fixedly connected with an extraction pipeline, the output port of the first water pump is fixedly connected with an inflow pipeline, one end of the inflow pipeline, which is far away from the first water pump, is fixedly penetrated through the side edge of the reservoir, the potassium permanganate storage tower is fixedly connected with a flow pipeline, and the lower end of the planting greenhouses is also provided with a plurality of planting areas. Further saving the operation cost of the panax notoginseng planting garden.

Description

Notoginseng garden is with slight irrigation device

Technical Field

The invention relates to the technical field of irrigation, in particular to a micro-irrigation device for a pseudo-ginseng plantation.

Background

The pseudo-ginseng is an important traditional Chinese medicinal material, and the pseudo-ginseng planting industry in the Chongqing basin area has the advantages of low cost, good quality and continuous cropping, so that the development of the pseudo-ginseng planting industry in the Chongqing basin area is very rapid. At present, the planting facilities of a plurality of panax notoginseng plantation in the Yuan area are of sunshade net shed frame structures, and the Yuan panax notoginseng producing area often faces extreme tests of high temperature and drought, so water needs to be supplemented to the panax notoginseng plantation in time when the drought is short of water or drought resistance preparation needs to be made in advance before the drought comes, and the irrigation technology for planting is an important guarantee in the growth process of panax notoginseng.

And the traditional water replenishing method comprises the following steps: (1) people take water into a shed area, and water is supplied to the pseudo-ginseng plantation in a splashing mode, so that the defects of low efficiency, nonuniform water supply, easy damage to ridge surfaces and furrows of the pseudo-ginseng plantation, easy pouring of the pseudo-ginseng or exposure of underground parts of the pseudo-ginseng and the like exist: (2) the method is characterized in that a reservoir is built at a high place for storing water, water is taken by utilizing siphon effect, and then water is supplemented to the pseudo-ginseng plantation, and the defects of low efficiency, uneven water supplement, easy damage to ridge surfaces and furrows of the pseudo-ginseng plantation, easy pouring of pseudo-ginseng or exposure of underground parts of pseudo-ginseng exist. In addition, the traditional water replenishing method cannot cope with the large-area water shortage condition when the drought weather comes, and the pseudo-ginseng is used as a crop which is fond of warm and shady and humid environment and is afraid of severe cold and summer heat, so that the yield is extremely easy to be reduced and even the crop is out of production. Therefore, the development of a set of sprinkling irrigation technology of the panax notoginseng plantation is imperative.

Disclosure of Invention

Technical problem to be solved

The invention provides a micro-irrigation device for a panax notoginseng plantation, aiming at the defects of low efficiency, nonuniform water supplement and easy damage to ridge surfaces and furrows of the panax notoginseng plantation in the prior art and the defect that the traditional water supplement method cannot cope with large-area water shortage conditions when dry weather comes.

(II) technical scheme

In order to achieve the purpose, the invention adopts the technical scheme that:

a micro-irrigation device for a pseudo-ginseng plantation comprises a bottom plate, wherein the end part of the upper surface of the bottom plate is fixedly connected with a first water pump, a potassium permanganate storage tower, a reservoir, a second water pump and a plurality of planting greenhouses in sequence, an input port of the first water pump is fixedly connected with an extraction pipeline, an output port of the first water pump is fixedly connected with an inflow pipeline, one end of the inflow pipeline, far away from the first water pump, is fixedly penetrated through the side edge of the reservoir, the potassium permanganate storage tower is fixedly connected with a flow pipeline, the flow pipeline is communicated with the inflow pipeline, an input port of the second water pump is connected to the side edge of the reservoir, an output port of the second water pump is fixedly connected with a first water conveying pipeline, the end part of the first water conveying pipeline is fixedly connected with a four-way pipeline, a plug is arranged in the warp direction of the four-way pipeline, and two weft channels of the four-way pipeline are fixedly connected with a second water conveying pipeline, each second water conveying pipeline is fixedly connected with a third water conveying pipeline, the end portion of each third water conveying pipeline is arranged inside the planting greenhouse, a plurality of spraying assemblies are arranged inside the planting greenhouse, and a plurality of planting areas are further arranged at the lower end of the planting greenhouse.

Preferably, the lower end inner wall fixedly connected with inner shell of cistern, the lower extreme inner wall fixedly connected with motor of inner shell, the lateral wall of inner shell is fixedly connected with baffle still.

Preferably, an output shaft of the motor is rotatably inserted through the partition plate, and the agitating blade is fixedly connected to the output shaft of the motor.

As preferred, plant the equal fixedly connected with a plurality of pipeline stand of the lower extreme inner wall of big-arch shelter, every the pipeline stand all sets up in the four corners department of planting the big-arch shelter, every the upper end fixedly connected with longitude and latitude wire netting of pipeline stand.

Preferably, a third water distribution pipeline is fixedly connected between the two pipeline columns on the same side, one of the third water distribution pipelines is fixedly connected with a first water distribution pipeline, each first water distribution pipeline is fixedly connected with a second water distribution pipeline, each second water distribution pipeline is fixedly connected with a pipeline, and the pipelines are communicated with a third water distribution pipeline.

Preferably, the two opposite third water distribution pipes are fixedly connected with a plurality of S-shaped water distribution pipes, and the distance between each S-shaped water distribution pipe and the longitude and latitude wire netting is 25 cm.

Preferably, the spray assembly includes a retaining buckle. The connecting piece, every fixed knot is all fixed at S type water diversion pipeline, every the lower extreme of fixed knot is provided with the connecting piece.

Preferably, movable grooves are formed in two sides of the lower end of each connecting piece, each movable groove is connected with a connecting rod in a rotating mode, the lower end of each connecting rod is connected to a circular ring in a rotating mode, the circular rings are fixedly connected to a U-shaped frame, and a supporting plate is fixedly connected to the inner side wall of the U-shaped frame.

Preferably, the support plate is provided with a screw hole, and the screw hole is matched and fixed with the G-shaped spray head.

Preferably, the S-shaped water distribution pipeline, the connecting piece and the fixing buckle are all provided with flow holes, capillary tubes are fixedly connected to the flow holes, and the capillary tubes are fixedly connected to the upper end of the G-shaped spray head.

Compared with the prior art, the invention has the following beneficial effects:

(1) when the Yu-san is subjected to spring drought, summer drought, autumn tiger and other drought weather in Yu-san producing areas, loss of the Yu-san caused by extreme high temperature or drought water shortage is basically avoided through timely water supplement.

(2) Compared with the traditional watering method, the invention adopts a micro-spraying mode, has high atomization degree, and can not impact the surface of the ridge, thereby avoiding the lodging of the pseudo-ginseng and the exposure of the underground part caused by watering and reducing the loss of the pseudo-ginseng.

(3) Compared with the traditional watering method, the invention saves a large amount of manpower and time, improves the water spraying effect to a great extent, ensures that the water replenishing is more uniform, has high atomization degree, and can ensure that the water is more effectively absorbed by the soil, thereby having better water replenishing effect and longer drought resisting effect. In summary, the following steps: after the method is adopted, the problem of high temperature or water shortage caused by spring drought, summer drought, autumn tigers and the like in the pseudo-ginseng production area in the Chongqing areas is solved to a certain extent, the normal growth of the pseudo-ginseng is ensured, the effect of promoting the yield increase of the pseudo-ginseng is achieved, and meanwhile, the sprinkling irrigation technology has the advantages of water saving, labor saving, no damage to the soil structure, adjustment of ground climate, no limitation of terrain and the like, so that the operation cost of the pseudo-ginseng planting garden is further saved.

Drawings

Fig. 1 is a schematic structural view of a micro-irrigation device for a panax notoginseng plantation of the present invention;

fig. 2 is a schematic structural view of a water reservoir of the micro-irrigation device for a panax notoginseng plantation of the present invention;

fig. 3 is a schematic structural view of an inner shell of a micro-irrigation device for a panax notoginseng plantation of the present invention;

fig. 4 is a schematic structural view of a planting greenhouse of the micro-irrigation device for a panax notoginseng plantation of the present invention;

fig. 5 is a schematic structural view of a first water diversion pipeline of the micro-irrigation device for a panax notoginseng plantation of the present invention;

fig. 6 is a schematic structural view of a warp and weft wire netting of the micro irrigation device for a panax notoginseng plantation of the present invention;

fig. 7 is an enlarged schematic structural view of the micro-irrigation device for a panax notoginseng garden of the present invention at the position B in fig. 6;

fig. 8 is an enlarged schematic structural view of the micro-irrigation device for a panax notoginseng garden of the present invention at the position C in fig. 7;

fig. 9 is an enlarged schematic structural view of the micro-irrigation device for a panax notoginseng garden of the present invention at the position C in fig. 1.

In the figure: 1. a base plate; 2. a first water pump; 3. extracting a pipeline; 4. an inflow conduit; 5. a potassium permanganate storage tower; 6. a flow conduit; 7. a reservoir; 701. an inner shell; 702. stirring the blades; 703. a partition plate; 704. a motor; 8. a second water pump; 9. a first water delivery pipeline; 10. a second water delivery pipeline; 11. planting in a greenhouse; 12. a third water delivery pipeline; 13. a first water diversion pipeline; 14. a second water diversion pipeline; 15. a planting area; 16. a pipe column; 17. an S-shaped water distribution pipeline; 18. a third water diversion pipeline; 19. a spray assembly; 1901. a fixing buckle; 1902. a connecting member; 1903. a connecting rod; 1904. a U-shaped frame; 1905. a circular ring; 1906. a screw hole; 1907. a support plate; 1908. a capillary; 1909. a G-type spray head; 1910. a movable groove; 20. a four-way pipeline; 21. a plug; 22. planting in a greenhouse; 23. a graticule wire mesh; 24. a pipeline.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1 to 9, a micro irrigation device for a panax notoginseng plantation comprises a bottom plate 1, wherein the end of the upper surface of the bottom plate 1 is fixedly connected with a first water pump 2, a potassium permanganate storage tower 5, a reservoir 7, a second water pump 8 and a plurality of planting greenhouses 22 in sequence, the input port of the first water pump 2 is fixedly connected with an extraction pipeline 3, the output port of the first water pump 2 is fixedly connected with an inflow pipeline 4, one end of the inflow pipeline 4 far away from the first water pump 2 is fixedly penetrated through the side edge of the reservoir 7, the potassium permanganate storage tower 5 is fixedly connected with a flow pipeline 6, the flow pipeline 6 is communicated with the inflow pipeline 4, the input port of the second water pump 8 is connected with the side edge of the reservoir 7, the output port of the second water pump 8 is fixedly connected with a first water pipeline 9, the end of the first water pipeline 9 is fixedly connected with a four-way pipeline 20, the warp direction of the four-way pipeline 20 is provided with a plug 21, two weft passageways fixedly connected with second water pipeline 10 of four-way pipeline 20, the equal fixedly connected with third water pipeline 12 of every second water pipeline 10, the tip setting of third water pipeline 12 is in the inside of planting big-arch shelter 22, and the inside of planting big-arch shelter 22 is provided with a plurality of and sprays subassembly 19, and the lower extreme of planting big-arch shelter 22 still is provided with a plurality of planting district 15.

In this embodiment, an inner shell 701 is fixedly connected to the inner wall of the lower end of the water reservoir 7, a motor 704 is fixedly connected to the inner wall of the lower end of the inner shell 701, and a partition 703 is further fixedly connected to the side wall of the inner shell 701.

In this embodiment, an output shaft of the motor 704 is rotatably inserted through the partition 703, and the agitating blade 702 is fixedly connected to the output shaft of the motor 704.

In this embodiment, the four corners in the planting greenhouse 22 are provided with pipeline columns (16), and the upper end of each pipeline column 16 is fixedly connected with a graticule 23.

In the present embodiment, the third water dividing pipes 18 are fixedly connected between the two pipe columns 16 on the same side, one of the third water dividing pipes 18 is fixedly connected with the first water dividing pipe 13, each of the first water dividing pipes 13 is fixedly connected with the second water dividing pipe 14, each of the second water dividing pipes 14 is fixedly connected with the pipe 24, and the pipe 24 is communicated with the third water conveying pipe 12.

In this embodiment, two opposite third water diversion pipes 18 are fixedly connected with a plurality of S-shaped water diversion pipes 17, and the distance between the S-shaped water diversion pipes 17 and the longitude and latitude wire netting 23 is 25 cm.

In this embodiment, the spray assembly 19 includes a retaining buckle 1901. The connecting piece 1902, every fixed knot 1901 all fix at S type distributive pipeline 17, and the lower extreme of every fixed knot 1901 is provided with connecting piece 1902.

In this embodiment, movable grooves 1910 are respectively opened on both sides of the lower end of each connecting piece 1902, each movable groove 1910 is rotatably connected with a connecting rod 1903, the lower end of each connecting rod 1903 is rotatably connected with a ring 1905, the ring 1905 is fixedly connected with a U-shaped frame 1904, and a supporting plate 1907 is fixedly connected with the inner side wall of the U-shaped frame 1904.

In this embodiment, the support plate 1907 has a screw hole 1906, and the screw hole 1906 and the G-shaped nozzle 1909 are fixed in cooperation.

In this embodiment, the S-shaped diversion pipeline 17, the connector 1902, and the fixing buckle 1901 are all provided with flow holes, and capillary 1908 is fixedly connected to the flow holes, and the capillary 1908 is fixedly connected to the upper end of the G-shaped sprayer 1909.

This irrigation equipment is irrigated with declining in pseudo-ginseng plantation's theory of operation: the device is a micro-spray irrigation mode that water with certain pressure is sprayed into the air by a water pump and a pipeline system and is scattered into small water drops or forms water mist to fall onto plants and the ground. In the aspect of water supply, the selected sites of the panax notoginseng planting garden in the Sichuan basin are all close to a river or a reservoir, so that the water can be river water or reservoir water, and the water pump is arranged at the river edge and used for delivering water to the panax notoginseng garden in a pipeline mode, so that the irrigation cost of panax notoginseng is reduced.

However, river water or reservoir water can carry worm eggs, grass seeds, germs and the like, the direct sprinkling irrigation on the pseudo-ginseng can affect the growth of the pseudo-ginseng, and when a certain amount of river water is stored in the reservoir, the potassium permanganate and the water are added into the reservoir according to the proportion of 1:10000 to be fully mixed, and the sprinkling irrigation can be carried out after one hour.

The invention has the following beneficial effects:

(4) when the Yu-san is subjected to spring drought, summer drought, autumn tiger and other drought weather in Yu-san producing areas, loss of the Yu-san caused by extreme high temperature or drought water shortage is basically avoided through timely water supplement.

(5) Compared with the traditional watering method, the invention adopts a micro-spraying mode, has high atomization degree, and can not impact the surface of the ridge, thereby avoiding the lodging of the pseudo-ginseng and the exposure of the underground part caused by watering and reducing the loss of the pseudo-ginseng.

(6) Compared with the traditional watering method, the invention saves a large amount of manpower and time, improves the water spraying effect to a great extent, ensures that the water replenishing is more uniform, has high atomization degree, and can ensure that the water is more effectively absorbed by the soil, thereby having better water replenishing effect and longer drought resisting effect. In summary, the following steps: after the method is adopted, the problem of high temperature or water shortage caused by spring drought, summer drought, autumn tigers and the like in the pseudo-ginseng production area in the Chongqing areas is solved to a certain extent, the normal growth of the pseudo-ginseng is ensured, the effect of promoting the yield increase of the pseudo-ginseng is achieved, and meanwhile, the sprinkling irrigation technology has the advantages of water saving, labor saving, no damage to the soil structure, adjustment of ground climate, no limitation of terrain and the like, so that the operation cost of the pseudo-ginseng planting garden is further saved.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations and modifications can be made on the basis of the above description, and all embodiments cannot be exhaustive, and obvious variations and modifications may be made within the scope of the present invention.

Claims (10)

1. The utility model provides a pseudo-ginseng is irrigation equipment for plantation, includes bottom plate (1), its characterized in that: the greenhouse is characterized in that the end part of the upper surface of the bottom plate (1) is sequentially and fixedly connected with a first water pump (2), a potassium permanganate storage tower (5), a reservoir (7), a second water pump (8) and a plurality of planting greenhouses (22), an input port of the first water pump (2) is fixedly connected with an extraction pipeline (3), an output port of the first water pump (2) is fixedly connected with an inflow pipeline (4), one end of the inflow pipeline (4), far away from the first water pump (2), is fixedly penetrated through the side edge of the reservoir (7), the potassium permanganate storage tower (5) is fixedly connected with a flowing pipeline (6), the flowing pipeline (6) is communicated with the inflow pipeline (4), an input port of the second water pump (8) is connected to the side edge of the reservoir (7), an output port of the second water pump (8) is fixedly connected with a first water conveying pipeline (9), and an end part of the first water conveying pipeline (9) is fixedly connected with a four-way pipeline (20), the warp direction of four-way pipeline (20) is provided with end cap (21), two weft passageways fixedly connected with second water pipeline (10), every of four-way pipeline (20) the equal fixedly connected with third water pipeline (12) of second water pipeline (10), the tip setting of third water pipeline (12) is in the inside of planting big-arch shelter (22), the inside of planting big-arch shelter (22) is provided with a plurality of and sprays subassembly (19), the lower extreme of planting big-arch shelter (22) still is provided with a plurality of and plants district (15).

2. The micro-irrigation device for panax notoginseng plantation according to claim 1, wherein: the lower extreme inner wall fixedly connected with inner shell (701) of cistern (7), the lower extreme inner wall fixedly connected with motor (704) of inner shell (701), the lateral wall of inner shell (701) still fixedly connected with baffle (703).

3. The micro-irrigation device for panax notoginseng plantation according to claim 2, wherein: an output shaft of the motor (704) rotatably penetrates through the partition plate (703), and an agitating blade (702) is fixedly connected to the output shaft of the motor (704).

4. The micro-irrigation device for panax notoginseng plantation according to claim 1, wherein: four corners in the planting greenhouse (22) are provided with pipeline columns (16), and each pipeline column (16) is fixedly connected with a longitude and latitude wire netting (23).

5. The micro-irrigation device for panax notoginseng plantation according to claim 4, wherein: the pipeline comprises two pipeline upright columns (16) which are located on the same side, wherein a third water distribution pipeline (18) is fixedly connected between the two pipeline upright columns (16), one third water distribution pipeline (18) is fixedly connected with a first water distribution pipeline (13), each first water distribution pipeline (13) is fixedly connected with a second water distribution pipeline (14), each second water distribution pipeline (14) is fixedly connected with a pipeline (24), and the pipelines (24) are communicated with the third water distribution pipeline (12).

6. The micro-irrigation device for panax notoginseng plantation according to claim 5, wherein: two relatively third minute water pipe (18) fixedly connected with a plurality of S type branch water pipe (17), the interval between S type branch water pipe (17) and longitude and latitude wire netting (23) is 25 cm.

7. The micro-irrigation device for panax notoginseng plantation according to claim 6, wherein: the spray assembly (19) includes a retaining buckle (1901). The connecting piece (1902), every fixed knot (1901) is all fixed in S type distributive pipeline (17), every the lower extreme of fixed knot (1901) is provided with connecting piece (1902).

8. The micro-irrigation device for panax notoginseng plantation according to claim 7, wherein: each movable groove (1910) has all been seted up to the lower extreme both sides of connecting piece (1902), every movable groove (1910) all rotates and is connected with connecting rod (1903), every the lower extreme of connecting rod (1903) all rotates and connects at ring (1905), ring (1905) fixed connection is in U type frame (1904), the inside wall fixedly connected with extension board (1907) of U type frame (1904).

9. The micro-irrigation device for panax notoginseng plantation according to claim 8, wherein: screw holes (1906) are formed in the support plate (1907), and the screw holes (1906) are matched and fixed with the G-shaped sprayer (1909).

10. The micro-irrigation device for panax notoginseng plantation according to claim 9, wherein: the S-shaped water distribution pipeline (17), the connecting piece (1902) and the fixing buckle (1901) are all provided with flow holes, capillary tubes (1908) are fixedly connected to the flow holes, and the capillary tubes (1908) are fixedly connected to the upper end of the G-shaped sprayer (1909).

Images