CN210226194U - A irrigation equipment for hillside tea garden - Google Patents

Abstract

The utility model discloses an irrigation device for a hillside tea garden, which comprises a first reservoir, a second reservoir and a canal; a first water pump is arranged in the first reservoir, a support is arranged on the first reservoir, and a high-pressure spray head with an adjustable angle is arranged on the support; a baffle is arranged in the second reservoir and divides the second reservoir into an irrigation area and a fertilization area; the irrigation area is provided with a second water pump, the second water pump is connected with an irrigation pipeline, and the irrigation pipeline is communicated to the first reservoir along a water channel; the fertilization area is provided with a third water pump, the third water pump is connected with a fertilization pipeline, and the fertilization pipeline extends to the top of the hillside along the water channel; branch pipe orifices are arranged on the irrigation pipeline and the fertilization pipeline at intervals, and are connected with ground inserting nozzles; this irrigation equipment waters through the cooperation that high pressure nozzle and ground inserted the shower nozzle, and the application scope is big, and it is effectual to water, has the fertilization function concurrently.

Description

A irrigation equipment for hillside tea garden

Technical Field

The utility model relates to tealeaves irrigation technical field, concretely relates to an irrigation equipment for hillside tea garden.

Background

The water required by the growth of the tea trees is mainly supplied by natural rainfall. In wide areas in the middle and lower reaches of Yangtze river, rainwater is continuous in spring, and discontinuous high-temperature drought often occurs in summer and autumn, so that the growth of tea trees and the formation of high quality and high yield are directly influenced. Therefore, supplementary irrigation measures are taken in the dry tea garden in time, and the tea garden is beneficial to realizing stable tea yield and quality.

Because the tea garden is distributed in hilly and mountainous areas, the natural topography is complex, and therefore, when large-area ground furrow irrigation is carried out, a flow irrigation project needs to be planned and established according to local conditions; the method also comprises a plurality of production units, wherein temporary irrigation ditches are simply built for the reason, water conservancy channels are built at the sides of mountain legs or gardens, and the water boiling ditches are used for water diversion irrigation; though can irrigate hillside tea garden through the mode of ditching induced irrigation, irrigation still the flood irrigation more than 90%, and the water consumption is big, and the irrigation level is not obvious, irrigates inhomogeneously, and when needs fertilize, will set up fertilizer injection unit again and drainage fertilization water source again moreover, very inconvenient.

In addition, due to the special field structure of the hillside tea garden, the daily irrigation is very complicated, and the production efficiency is low.

Disclosure of Invention

The utility model aims at providing an irrigation equipment for hillside tea garden to the problem that prior art exists.

In order to achieve the above object, the utility model adopts the following technical scheme:

an irrigation device for a hillside tea garden comprises a first reservoir arranged at the top of a hillside and a second reservoir arranged at the bottom of the hillside, wherein two sides of the first reservoir and two sides of the second reservoir are respectively connected through a first water channel and a second water channel; a first water pump is arranged in the first reservoir, a support is arranged on the first reservoir, a plurality of high-pressure nozzles with adjustable angles are arranged on the support at equal intervals, and the high-pressure nozzles are connected with the first water pump; a baffle is arranged in the second reservoir and divides the second reservoir into an irrigation area and a fertilization area; the irrigation area is provided with a second water pump, the second water pump is connected with an irrigation pipeline, and the irrigation pipeline is communicated to the first reservoir along the first water channel; the fertilization area is provided with a third water pump, the third water pump is connected with a fertilization pipeline, and the fertilization pipeline extends to the top of the hillside along the second water channel; branch pipe orifices are arranged on the irrigation pipeline and the fertilization pipeline at intervals, and a branch valve is arranged on each branch pipe orifice; the branch pipe orifice is detachably connected with ground inserting nozzles through a hose, and the ground inserting nozzles are arranged in the tea garden at equal intervals.

The irrigation device supplies water to the high-pressure spray heads through the first reservoir arranged on the hillside, and the high-pressure spray heads spray water from a high position for irrigation, so that rainwater can be simulated to be used as tea garden rainfall, the action range is wide, and the irrigation effect is obvious;

the first reservoir and the second reservoir can collect rainwater, and the second reservoir can also collect water leaked and trickled down in the tea garden sprinkling irrigation process, so that water is saved; due to the relation of terrain, the water storage amount of the second reservoir is larger than that of the first reservoir, when the water amount in the first reservoir is small, water can be added into the first reservoir through the second water pump, and the water amount in the first reservoir is enough for the high-pressure spray head to spray; when the rainfall is large, the first water channel and the second water channel can collect the water on the hillside and send the water into the second reservoir, and when the water amount in the first reservoir is large, the water can be discharged into the second reservoir through the water channels, so that the water in the first reservoir is prevented from overflowing and being poured into a tea garden;

a fertilizing area is separated from the second water reservoir, and an independent fertilizing pipeline is arranged to fertilize the tea garden; the method comprises the following steps that when fertilizer is to be applied, fertilizer is dissolved in water in a fertilizer application area, fertilizer water is conveyed upwards along a hillside through a third water pump, a ground insertion nozzle is connected with a branch pipe opening on the side of a fertilizer application pipeline through a hose, the ground insertion nozzle is inserted into the middle of a tea garden needing to be applied, a valve is opened, and the fertilizer water is sprayed out from the ground insertion nozzle to apply fertilizer to the tea garden; the whole process is simple and quick, and the tea garden can be fertilized according to local conditions without an external fertilizing device;

when regional or local watering is needed, a second water pump and an irrigation pipeline are used for watering the tea garden through the ground inserting nozzle;

the separately arranged irrigation area and fertilization area, and the irrigation pipeline and the fertilization pipeline are independently arranged, so that the cross use of the fertilizer water and the irrigation water is avoided, on one hand, the fertilizer water is not used during watering, and the waste of the fertilizer water is reduced; on the other hand, the fertilizer can not be additionally added with water to reduce the concentration of fertilizer and water during fertilization, and the fertilization effect is ensured.

The high pressure nozzle angle can be adjusted to adapt to different tea gardens according to topography and tea tree growth trend, make high pressure nozzle spun hydroenergy can cover the tea tree, play the effect of watering.

After watering and fertilizing are finished, the ground inserting nozzles in the tea garden can be collected and stored for next use, the ground inserting nozzles are prevented from being placed in the tea garden for a long time and being exposed to the wind and the sun, and the service life is shortened; moreover, the dust in the tea garden can be prevented from blocking the spray head, and the sprinkling effect is not influenced.

Furthermore, the bracket spans the first reservoir, a booster pump is arranged above a cross beam of the bracket, one end of the booster pump is connected to the first water pump through a water pipe, and the other end of the booster pump is respectively connected to the high-pressure spray heads through branch water pipes; the high-pressure sprayer is fixedly connected to the bottom of the cross beam of the support through an angle adjusting device. The booster pump further increases the pressure of the water flow in the water pipe so that the water sprayed from the high-pressure spray head has a greater pressure and velocity to cover the entire tea garden. The angle adjusting device is used for adjusting the spraying angle.

Specifically, the angle adjusting device comprises a horizontal plate, an inclined plate and a pneumatic telescopic rod, the horizontal plate is in threaded connection with the bracket, and one end of the horizontal plate is movably hinged with one end of the inclined plate; the pneumatic telescopic rod is arranged between the horizontal plate and the inclined plate, one end of the pneumatic telescopic rod is movably hinged with the horizontal plate, and the other end of the pneumatic telescopic rod is fixed with the inclined plate in a buckling manner; the hang plate is kept away from pneumatic telescopic rod's one side is equipped with the clamp, clamp detachable connects high pressure nozzle. Under the action of the pneumatic telescopic rod, the inclined plate can rotate around the horizontal plate so as to achieve the purpose of adjusting the angle of the high-pressure spray head fixed below the inclined plate.

Furthermore, the ground inserting spray head is provided with a pipe body, a triangular lance is arranged below the pipe body, and a rotatable multidirectional spray head is arranged above the pipe body; the pipe body is close to the one end of triangle lance still is equipped with threaded pipe connects, threaded pipe connects passes through the hose with the branch road mouth of pipe is connected. The triangular spear can be conveniently inserted into the land of a tea garden, and the multidirectional spraying heads can spray atomized water or fertilizer water to irrigate and fertilize tea trees; the threaded pipe joint is convenient to connect and disconnect with the joint of the hose. According to different terrains and the height of tea trees, the triangular spears with different lengths can be arranged to achieve the best irrigation effect.

Furthermore, the first water pump, the second water pump and the third water pump are all provided with a filter screen. Because the rainwater and the mountain water of collecting, impurity, earth are more, set up the filtration screen panel on each water pump, can reduce the jam probability of water pump and pipeline, reduce the work load of maintenance.

Furthermore, the area of the fertilizing area is smaller than that of the irrigating area, and a pool cover is arranged on the fertilizing area. The water requirement for watering is far more than the water consumption for fertilizing, the area of the fertilizing area is set to be smaller, the concentration of fertilizer and water is improved, and the fertilizing effect is improved.

Furthermore, water gates are respectively arranged at the joints of the first water channel and the first reservoir and the joints of the second water channel and the first reservoir. The sluice is closed usually, and when the water amount at the upper part is too large, the sluice can be opened to drain water, so that the water amount in the first reservoir is moderate; when the fertilization district water yield is not enough, can also open the sluice of second ditch one side alone, independently for the fertilization district water supply volume.

This irrigation equipment in hillside tea garden has at least following three kinds of watering modes: the high-pressure spray head and the ground inserting spray head are used simultaneously, so that the irrigation area and the irrigation quantity are the largest; the high-pressure spray head is used independently, so that large-area rapid irrigation can be realized; the ground inserting nozzle is used independently, and can apply water and fertilizer to the tea garden according to local conditions.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the irrigation device sprays water from a high position through the high-pressure spray head for irrigation, can simulate rainwater to reduce the water in a tea garden, and has a large action range and an obvious irrigation effect; 2. the ground-inserting nozzle can apply water and fertilizer to the tea garden according to local conditions, so that the irrigation effect is further improved; 3. the separately arranged irrigation area and fertilization area as well as the irrigation pipeline and fertilization pipeline avoid the cross use of rich water and irrigation water, reduce the waste of the rich water and ensure the fertilization effect; 4. the angle of the high-pressure spray head can be adjusted to adapt to different tea gardens, and the effectiveness of irrigation is ensured according to the landform and the growth trend of tea trees.

Drawings

Fig. 1 is a schematic view of the overall structure of an irrigation device for a hillside tea garden of the present invention;

fig. 2 is a schematic view of a hillside of an irrigation device for a hillside tea garden of the present invention;

fig. 3 is a schematic structural diagram of a first reservoir and a bracket of the irrigation device for the hillside tea garden of the present invention;

fig. 4 is an enlarged schematic view of the structure at the position a of the irrigation device for the hillside tea garden of the present invention;

fig. 5 is a schematic diagram of a second reservoir structure of the irrigation device for the hillside tea garden of the present invention;

fig. 6 is a schematic structural view of an angle adjusting device of an irrigation device for a hillside tea garden of the present invention;

fig. 7 is a schematic structural view of a ground-inserting nozzle of the irrigation device for the hillside tea garden of the present invention;

in the figure: 1. a hillside; 2. a first reservoir; 3. a second reservoir; 301. an irrigation area; 302. a fertilization area; 4. a first raceway; 5. a second raceway; 6. a first water pump; 7. a support; 8. a high pressure spray head; 9. a baffle plate; 10. a second water pump; 11. an irrigation pipe; 12. a third water pump; 13. a fertilization pipeline; 14. a branch pipe orifice; 1401. a bypass valve; 15. the ground is inserted into the spray head; 1501. a tube body; 1502. a spray head; 1503. a triangular lance; 1504. a threaded pipe joint; 16. a booster pump; 17. a main road water pipe; 18. a branch water pipe; 19. an angle adjusting device; 1901. a horizontal plate; 1902. an inclined plate; 1903. a pneumatic telescopic rod; 1904. clamping a hoop; 20. a filtering net cover; 21. a sluice; 22. and (5) covering the pond.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 7, an irrigation device for a tea garden on a hillside comprises a first reservoir 2 arranged at the top of the hillside 1 and a second reservoir 3 arranged at the bottom of the hillside 1, wherein two sides of the first reservoir 2 and the second reservoir 3 are respectively connected through a first water channel 4 and a second water channel 5; a first water pump 6 is arranged in the first reservoir 2, a support 7 is arranged on the first reservoir 2, a plurality of high-pressure nozzles 8 with adjustable angles are equidistantly arranged on the support 7, and the high-pressure nozzles 8 are connected with the first water pump 6; a baffle 9 is arranged in the second reservoir 3, and the second reservoir 3 is divided into an irrigation area 301 and a fertilization area 302 by the baffle 9; the irrigation area 301 is provided with a second water pump 10, the second water pump 10 is connected with an irrigation pipeline 11, and the irrigation pipeline 11 is communicated to the first reservoir 2 along the first canal 4; a third water pump 12 is arranged in the fertilization area 302, the third water pump 12 is connected with a fertilization pipeline 13, and the fertilization pipeline 13 extends to the top of a hillside along the second ditch 5; branch pipe orifices 14 are arranged on the irrigation pipe 11 and the fertilization pipe 13 at intervals, and a branch valve 1401 (shown in fig. 4) is arranged on each branch pipe orifice 14; the branch pipe orifice 14 is detachably connected with a ground inserting nozzle 15 through a hose, and the ground inserting nozzles 15 are arranged in the tea garden at equal intervals.

The irrigation device supplies water to the high-pressure spray heads 8 through the first water storage tank 2 arranged on the hillside 1, the high-pressure spray heads 8 spray water from a high position for irrigation, rainwater can be simulated to be used as tea garden rainfall, the action range is large, and the irrigation effect is obvious;

the first water storage tank 2 and the second water storage tank 3 can collect rainwater, and the second water storage tank 3 can also collect water leaked and trickled down in the tea garden sprinkling irrigation process, so that water is saved; due to the relation of the terrain, the water storage amount of the second water storage tank 3 is larger than that of the first water storage tank 2, when the water amount in the first water storage tank 2 is small, water can be added into the first water storage tank 2 through the second water pump 10, and the water amount in the first water storage tank 2 is ensured to be enough for the spray irrigation of the high-pressure spray head; when the rainfall is large, the first water channel 4 and the second water channel 5 can collect the water on the hillside and send the water into the second water storage tank 3, and when the water amount in the first water storage tank 2 is large, the water can be discharged into the second water storage tank 3 through the water channels, so that the water in the first water storage tank 2 is prevented from overflowing and is irrigated into a tea garden;

a fertilizing area 302 is separated from the second water reservoir 3, and an independent fertilizing pipeline 13 is arranged to fertilize the tea garden; when local watering is needed, a second water pump 10 and an irrigation pipeline 11 are used for watering the tea garden through the ground inserting nozzle 15;

the separately arranged irrigation area 301 and fertilization area 302, and the independently arranged irrigation pipeline 11 and fertilization pipeline 13 avoid the cross use of rich water and irrigation water, ensure that the rich water is not used during watering on one hand, and reduce the waste of the rich water; on the other hand, the fertilizer can not be additionally added with water to reduce the concentration of fertilizer and water during fertilization, and the fertilization effect is ensured.

After watering and fertilizing are finished, the ground inserting nozzles 15 in the tea garden can be retracted for centralized storage for next use, the ground inserting nozzles 15 are prevented from being placed in the tea garden for a long time and being exposed to the wind and the sun, and the service life is shortened; and can avoid the dust in the tea garden to block up the shower nozzle to avoid influencing the sprinkling irrigation effect.

Further, as shown in fig. 3, the support 7 spans across the first reservoir 2, a booster pump 16 is disposed above a cross beam of the support 7, one end of the booster pump 16 is connected to the first water pump 6 through a main path water pipe 17, and the other end is respectively connected to the high-pressure nozzles 8 through a branch water pipe 18 below the main path water pipe 17; the high-pressure spray head 8 is fixedly connected to the bottom of the cross beam of the bracket 7 through an angle adjusting device. The booster pump 16 further increases the pressure of the water flow in the water pipe so that the water sprayed from the high pressure spray head 8 has a large pressure and velocity to cover the whole tea garden. The angle adjusting device is used for adjusting the spraying angle.

Specifically, as shown in fig. 6, the angle adjusting device 19 includes a horizontal plate 1901, an inclined plate 1902 and a pneumatic telescopic rod 1903, the horizontal plate 1901 is screwed on the bracket 7, and one end of the horizontal plate 1901 is movably hinged to one end of the inclined plate 1902; the pneumatic telescopic rod 1903 is arranged between the horizontal plate 1901 and the inclined plate 1902, one end of the pneumatic telescopic rod 1903 is movably hinged with the horizontal plate 1901, and the other end is fixed with the inclined plate 1902 in a buckling manner; one side of the inclined plate 1902, which is far away from the pneumatic telescopic rod 1903, is provided with a clamp 1904, and the clamp 1904 is detachably connected with the high-pressure sprayer 8. Under the telescopic action of the pneumatic telescopic rod 1903, the end of the inclined plate 1902 can rotate around the horizontal plate 1901, so as to adjust the angle of the high-pressure nozzle 8 fixed below the inclined plate 1902.

Further, as shown in fig. 7, the ground inserting nozzle 15 has a pipe body 1501, a triangular lance 1503 is arranged below the pipe body 1501, and a rotatable multi-directional spray head 1502 is arranged above the pipe body 1501; the pipe body 1501 is also provided with a threaded pipe joint 1504 near one end of the triangular spear 1503, and the threaded pipe joint 1504 is connected with the branch pipe orifice 14 through a hose. The triangular spear 1503 can be conveniently inserted into the land of a tea garden, and the multidirectional spraying head 1502 can spray atomized water or fertilizer water to irrigate and fertilize tea trees; the threaded coupler 1504 facilitates coupling and uncoupling of the hose to the fitting. According to different terrains and the height of tea trees, the triangular spears with different lengths can be arranged to achieve the best irrigation effect.

Further, the first water pump 6, the second water pump 10 and the third water pump 12 are all provided with a filter screen 20. Because the rainwater and the mountain water of collecting, impurity, earth are more, set up filter screen panel 20 on each water pump, can reduce the jam probability of water pump and pipeline, reduce the work load of maintenance.

Further, the area of the fertilizing area 302 is smaller than that of the irrigation area 301, and a pool cover 22 is arranged on the fertilizing area 302. The water requirement for watering is usually far more than that for fertilizing, the area of the fertilizing area 302 is set to be small, and a large water storage space is reserved for the irrigating area 301.

Furthermore, water gates 21 are respectively arranged at the joints of the first water channel 4, the second water channel 5 and the first reservoir 2. The sluice 21 is normally closed, and when the water amount at the upper part is too large, the sluice 21 can be opened to discharge water, so that the water amount in the first reservoir 2 is moderate; when the water quantity in the fertilization area 302 is insufficient, the sluice at one side of the second ditch 5 can be independently opened to independently supplement the water quantity for the fertilization area 302.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An irrigation device for a hillside tea garden comprises a first reservoir arranged at the top of a hillside and a second reservoir arranged at the bottom of the hillside, wherein two sides of the first reservoir and two sides of the second reservoir are respectively connected through a first water channel and a second water channel; the device is characterized in that a first water pump is arranged in the first reservoir, a support is arranged on the first reservoir, a plurality of high-pressure nozzles with adjustable angles are arranged on the support at equal intervals, and the high-pressure nozzles are connected with the first water pump; a baffle is arranged in the second reservoir and divides the second reservoir into an irrigation area and a fertilization area; the irrigation area is provided with a second water pump, the second water pump is connected with an irrigation pipeline, and the irrigation pipeline is communicated to the first reservoir along the first water channel; the fertilization area is provided with a third water pump, the third water pump is connected with a fertilization pipeline, and the fertilization pipeline extends to the top of the hillside along the second water channel; branch pipe orifices are arranged on the irrigation pipeline and the fertilization pipeline at intervals, and a branch valve is arranged on each branch pipe orifice; the branch pipe orifice is detachably connected with ground inserting nozzles through a hose, and the ground inserting nozzles are arranged in the tea garden at equal intervals.

2. The irrigation device for the hillside tea garden as claimed in claim 1, wherein the bracket spans the first reservoir, a booster pump is arranged above a cross beam of the bracket, one end of the booster pump is connected to the first water pump through a water pipe, and the other end of the booster pump is respectively connected to the high-pressure nozzles through branch water pipes; the high-pressure sprayer is fixedly connected to the bottom of the cross beam of the support through an angle adjusting device.

3. The irrigation device for the hillside tea garden as claimed in claim 2, wherein the angle adjustment device comprises a horizontal plate, an inclined plate and a pneumatic telescopic rod, the horizontal plate is screwed on the bracket, and one end of the horizontal plate is movably hinged with one end of the inclined plate; the pneumatic telescopic rod is arranged between the horizontal plate and the inclined plate, one end of the pneumatic telescopic rod is movably hinged with the horizontal plate, and the other end of the pneumatic telescopic rod is fixed with the inclined plate in a buckling manner; the hang plate is kept away from pneumatic telescopic rod's one side is equipped with the clamp, clamp detachable connects high pressure nozzle.

4. The irrigation device for the hillside tea garden as claimed in claim 1, wherein the ground inserting nozzle is provided with a pipe body, a triangular lance is arranged below the pipe body, and a rotatable multidirectional spraying nozzle is arranged above the pipe body; the pipe body is close to the one end of triangle lance still is equipped with threaded pipe connects, threaded pipe connects passes through the hose with the branch road mouth of pipe is connected.

5. The irrigation device for the hillside tea garden as recited in claim 1, wherein the first water pump, the second water pump and the third water pump are all provided with a filter screen.

6. The irrigation device for the hillside tea garden as claimed in claim 1, wherein the area of the fertilization area is smaller than that of the irrigation area, and a pool cover is arranged on the fertilization area.

7. The irrigation device for the hillside tea garden as claimed in claim 1, wherein a water gate is respectively arranged at the connection part of the first water channel and the first reservoir and the connection part of the second water channel and the first reservoir.

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