CN212589377U

CN212589377U - Wind-light complementary type water pumping energy storage automatic irrigation system

Info

Publication number: CN212589377U
Application number: CN202020743654.4U
Authority: CN
Inventors: 白筱阳; 李来星
Original assignee: Lanzhou University of Technology
Current assignee: Lanzhou University of Technology
Priority date: 2020-05-08
Filing date: 2020-05-08
Publication date: 2021-02-26
Anticipated expiration: 2030-05-08

Abstract

The utility model provides a complementary formula of wind-light automatic irrigation system of energy storage that draws water, include: a water storage tank, a grillwork and a hot blast well; the water storage tank is arranged at the top of the grillwork, and the hot blast well is arranged in the middle of the interior of the grillwork; the wind power driver penetrates through the middle position inside the hot blast well; the wind power driver consists of a driving shaft, a universal windmill, an axial flow windmill and a bearing; the universal windmill and the axial flow windmill are arranged at the top end of the driving shaft, and the axial flow windmill is positioned above the universal windmill; the upper part and the lower part of the driving shaft are arranged on the grillwork through bearings; the speed changer and the water lifting pump are arranged on the grillwork; the utility model discloses a to the improvement of the automatic irrigation system of energy storage that draws water of a complementary formula of wind-light, have that structural design is reasonable, simple structure, solar energy, wind energy high-usage, automatic control, energy-concerving and environment-protective, economical and practical, adaptation environment are wide, maintain convenient advantage to effectual solution the utility model provides a problem and not enough.

Description

Wind-light complementary type water pumping energy storage automatic irrigation system

Technical Field

The utility model relates to an agricultural irrigation facility technical field, more specifically the theory that says so especially relates to an automatic irrigation system of energy storage that draws water of complementary formula of wind-light.

Background

In agricultural production activities, the irrigation guarantee of farmlands has important significance for the growth of crops, and an economical, practical and durable irrigation system is particularly important for improving the land output and reducing the agricultural production cost. At present, in the main agricultural production area with better water conservancy infrastructure, reservoirs, pond weirs, open channels, pipe networks, motor-pumped wells, machine irrigation, sprinkling irrigation, drip irrigation facilities and related technologies are popularized and popularized, and the production of agricultural products is guaranteed.

In many areas where self-flow irrigation cannot be achieved in irrigation pipe networks, the existing agricultural irrigation technology still depends heavily on fuel oil or electric power, so that the construction and purchase costs of related facilities such as electric power and machinery are increased, and the energy consumption cost of agricultural production is also increased. On the other hand, in many areas of China, particularly river branches, hills, mountainous areas, plateaus, Gobi and desert areas, a large amount of remote, small and unconnected lands which lack convenient water conservancy facilities exist, the lands in the areas are idle and wasted due to the fact that no water conservancy guarantee exists, and if traditional water conservancy facilities are built, the objective unfavorable conditions of long construction period, high construction difficulty, high maintenance cost and low utilization benefit exist.

In view of the above, research and improvement are made to solve the existing problems, and a wind-light complementary type water pumping and energy storage automatic irrigation system is provided, which aims to achieve the purposes of solving the problems and improving the practical value through the technology.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a complementary automatic irrigation system of energy storage that draws water of wind-light to solve the area that proposes in above-mentioned background art can't realize the irrigation of flowing automatically in a lot of irrigation pipe networks, present agricultural irrigation technique still relies on fuel or electric power seriously, this aspect has increased relevant facility like the construction and the acquisition cost of electric power and machinery, has also increased agricultural production's energy consumption cost. On the other hand, in many areas of China, particularly river branches, hills, mountainous areas, plateaus, Gobi and desert areas, a large amount of remote, small and unconnected lands which lack convenient water conservancy facilities exist, the lands in the areas are idle and wasted due to the fact that no water conservancy guarantee exists, and if traditional water conservancy facilities are built, the problems and the disadvantages of objective unfavorable conditions of long construction period, high construction difficulty, high maintenance cost and low utilization benefit exist.

In order to achieve the above object, the utility model provides a complementary formula of wind-light automatic irrigation system of energy storage that draws water, by following specific technological means:

a complementary wind-solar pumped energy storage automatic irrigation system, comprising: the device comprises a water storage tank, a grillwork, a hot blast well, a wind power driver, a transmission, a water lifting pump, a regulating valve, a jet pump, a pesticide and fertilizer injector, a water storage cellar, a drip irrigation net, a driving shaft, a universal windmill, an axial flow windmill, a bearing, a regulating valve seat, a regulating valve body, a valve clapboard, a valve ball, a reset spring, a spring hoop, a hanging cylinder, a water absorption body, a retaining ring, a magnetic ring, a pipe joint, a jet pump water inlet, a jet pump water pumping port and a jet pump water outlet; the water storage tank is arranged at the top of the grillwork, and the hot blast well is arranged in the middle of the interior of the grillwork; the wind power driver penetrates through the middle position inside the hot blast well; the wind power driver consists of a driving shaft, a universal windmill, an axial flow windmill and a bearing; the universal windmill and the axial flow windmill are arranged at the top end of the driving shaft, and the axial flow windmill is positioned above the universal windmill; the upper part and the lower part of the driving shaft are arranged on the grillwork through bearings; the speed changer and the water lifting pump are arranged on the framework, and the water lifting pump is positioned below the speed changer; the driving shaft is connected with the speed changer through a shaft joint, and the speed changer is connected with an input shaft of the water lifting pump through a shaft joint; the regulating valve consists of a regulating valve seat, a regulating valve body, a valve partition plate, a valve ball, a return spring, a spring hoop, a hanging cylinder, a water absorbing body, a protective ring, a magnetic ring and a pipe joint, and is arranged on the grid through bolts; the upper end of the regulating valve body is installed on the regulating valve seat in a threaded screwing mode, and the valve partition plate is embedded in the lower part of the inner side of the regulating valve body; the valve ball is embedded in the regulating valve body and is positioned below the valve partition plate; the reset spring is sleeved outside the regulating valve body, and the top end of the reset spring is embedded and installed on the lower edge of the regulating valve seat; the lifting cylinder is sleeved on the lower part of the regulating valve body, and the spring hoop is sleeved on the top end of the lifting cylinder; the lower end of the return spring is fixedly connected with the spring band; the water absorption body is embedded in the hanging cylinder; the protective ring is sleeved at the lower end of the hanging cylinder, and the magnetic ring is embedded in the protective ring; the upper end and the lower end of the regulating valve body are respectively connected with a pipe joint through threads; the water inlet of the jet pump is positioned at one end of the jet pump, and the water pumping port of the jet pump is positioned below the water inlet of the jet pump; the water outlet of the jet pump is positioned at the other end of the jet pump; the water inlet of the water lifting pump is connected with a water source in the water storage cellar through a water pipe, and the water outlet of the water lifting pump is connected with the water storage tank through a pressureless water pipe; the water inlet of the regulating valve is connected with the water outlet at the bottom of the water storage tank, and the water outlet of the regulating valve is connected with the water inlet of the jet pump; the water pumping port of the jet pump is connected with a water source in the water storage cellar, and the water outlet of the jet pump is respectively connected with the pesticide fertilizer injector and the drip irrigation net through a three-way pipe; and an overflow port of the water storage tank is connected with the water storage cellar through a water pipe.

As the further optimization of the technical scheme, the utility model relates to a complementary formula of geomantic omen automatic irrigation system of energy storage that draws water of grillage is the trapezoidal frame rack structure that adopts reinforced concrete, timber, engineering plastics or metal material to make to form.

As the further optimization of this technical scheme, the utility model relates to an automatic irrigation system of energy storage that draws water of complementary formula of wind-light the hot-blast well is the tubular structure that cavity and lower part internal diameter are big, the upper portion internal diameter is little, and the hot-blast well adopts engineering plastics, glass steel or sheet metal preparation to form, and the outer wall of hot-blast well lower part adopts the black application.

As a further optimization of this technical scheme, the utility model relates to a complementary formula of geomantic omen's automatic irrigation system of energy storage that draws water axial fan is located the inside of hot-blast well upper end, and universal windmill is located the outside of hot-blast well upper end.

As a further optimization of the technical scheme, the utility model relates to a complementary formula of wind-light automatic irrigation system of energy storage that draws water the ferromagnetic spheroid that the valve ball is outside parcel plastic.

As a further optimization of the technical proposal, the utility model relates to a complementary type water pumping and energy storing automatic irrigation system of wind and light the water absorbing body is granular.

As the further optimization of the technical scheme, the utility model relates to a complementary formula of wind-light automatic irrigation system of energy storage that draws water the intermediate position and the periphery of valve baffle are seted up a plurality of holes of permeating water that are circular array form and distribute.

As the further optimization of this technical scheme, the utility model relates to a complementary formula of wind-light automatic irrigation system of energy storage of drawing water hang a section of thick bamboo and install through the mode of emboliaing and set up to sliding lift device on the regulation and control valve body.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses the hot-blast well is cavity and the lower part internal diameter is big, the little tubular structure of upper portion internal diameter, and the hot-blast well adopts engineering plastics, glass steel or sheet metal preparation to form, and the setting of the outside that universal windmill is located the hot-blast well upper end, under the sufficient condition of wind-force, wind-force can drive universal windmill and rotate, and universal windmill passes through the operation of drive shaft drive water lift pump, makes the water storage tank water storage not influenced by the electric power condition, and wind energy utilization rate is high, and environmental suitability is good, and is energy-concerving and environment-.

2. The utility model discloses the outer wall of hot-blast well lower part adopts the black application, and the axial fan windmill is located the setting of the inside of hot-blast well upper end, and under sunshine sufficient condition, the black application of hot-blast well lower part absorbs the air that the sunlight heating got into from the bottom, and the air is heated and rises and drive the axial fan and rotate, and the axial fan passes through drive shaft drive water lift pump operation, makes the water storage tank water storage not influenced by the power condition, and solar energy high-usage, environmental suitability is good, and is energy-concerving and environment-protective.

3. The utility model discloses the body that absorbs water is graininess, and the body that absorbs water is made by the gelatin that absorbs water and ceramic mixture, hangs a section of thick bamboo and installs the setting that sets up to slip elevating gear on the regulation and control valve body through the embolia mode, absorbs water effectually, sensitivity is high, can drive through self weight and hang a section of thick bamboo slip lift to nimble opening and close of control regulation and control valve.

4. The utility model discloses a to the improvement of the automatic irrigation system of energy storage that draws water of a complementary formula of wind-light, have that structural design is reasonable, simple structure, solar energy, wind energy high-usage, automatic control, energy-concerving and environment-protective, economical and practical, adaptation environment are wide, maintain convenient advantage to effectual solution the utility model provides a problem and not enough.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic diagram of the system structure of the present invention;

FIG. 2 is a schematic structural view of the wind power driver of the present invention;

FIG. 3 is a schematic view of the structure of the regulating valve of the present invention;

fig. 4 is a schematic structural view of the jet pump of the present invention;

fig. 5 is a schematic diagram of the system of the present invention.

In the figure: the water storage tank comprises a water storage tank 1, a grid 2, a hot blast well 3, a wind power driver 4, a transmission 5, a water lifting pump 6, a regulating valve 7, a jet pump 8, a pesticide fertilizer injector 9, a water storage cellar 10, a drip irrigation net 11, a driving shaft 401, a universal windmill 402, an axial flow windmill 403, a bearing 404, a regulating valve seat 701, a regulating valve body 702, a valve partition 703, a valve ball 704, a return spring 705, a spring hoop 706, a hanging cylinder 707, a water absorption body 708, a protective ring 709, a magnetic ring 710, a pipe joint 711, a jet pump water inlet 801, a jet pump water suction port 802 and a jet pump water outlet 803.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides a wind-light complementary type water pumping and energy storing automatic irrigation system, which has the following technical implementation:

a complementary wind-solar pumped energy storage automatic irrigation system, comprising: the device comprises a water storage tank 1, a grillage 2, a hot blast well 3, a wind power driver 4, a transmission 5, a water lifting pump 6, a regulating valve 7, a jet pump 8, a pesticide fertilizer injector 9, a water storage cellar 10, a drip irrigation net 11, a driving shaft 401, a universal windmill 402, an axial flow windmill 403, a bearing 404, a regulating valve seat 701, a regulating valve body 702, a valve partition 703, a valve ball 704, a return spring 705, a spring hoop 706, a hanging cylinder 707, a water absorption body 708, a protective ring 709, a magnetic ring 710, a pipe joint 711, a jet pump water inlet 801, a jet pump water suction port 802 and a jet pump water outlet 803; the water storage tank 1 is arranged at the top of the framework 2, and the hot blast well 3 is arranged at the middle position in the framework 2; the wind power driver 4 penetrates through the middle position inside the hot blast well 3; the wind power driver 4 consists of a driving shaft 401, a universal windmill 402, an axial flow windmill 403 and a bearing 404; the universal windmill 402 and the axial flow windmill 403 are installed at the top end of the driving shaft 401, and the axial flow windmill 403 is positioned above the universal windmill 402; the upper and lower portions of the drive shaft 401 are mounted on the grid 2 via bearings 404; the speed changer 5 and the water lifting pump 6 are arranged on the framework 2, and the water lifting pump 6 is positioned below the speed changer 5; the driving shaft 401 is connected with the speed changer 5 through a shaft joint, and the speed changer 5 is connected with an input shaft of the water lifting pump 6 through a shaft joint; the regulating valve 7 consists of a regulating valve seat 701, a regulating valve body 702, a valve partition 703, a valve ball 704, a return spring 705, a spring hoop 706, a hanging cylinder 707, a water suction body 708, a protective ring 709, a magnetic ring 710 and a pipe joint 711, and the regulating valve 7 is installed on the framework 2 through bolts; the upper end of the regulating valve body 702 is mounted on the regulating valve seat 701 in a threaded screwing mode, and the valve partition plate 703 is embedded in the lower part of the inner side of the regulating valve body 702; the valve ball 704 is embedded in the regulating valve body 702, and the valve ball 704 is positioned below the valve partition 703; the reset spring 705 is sleeved outside the regulating valve body 702, and the top end of the reset spring 705 is embedded on the lower edge of the regulating valve seat 701; a hanging cylinder 707 is sleeved on the lower part of the regulating valve body 702, and a spring hoop 706 is sleeved on the top end of the hanging cylinder 707; the lower end of the return spring 705 is fixedly connected with a spring hoop 706; the water absorption body 708 is embedded in the hanging cylinder 707; the protective ring 709 is sleeved at the lower end of the hanging cylinder 707, and the magnetic ring 710 is embedded inside the protective ring 709; the upper end and the lower end of the regulating valve body 702 are respectively connected with a pipe joint 711 through threads; the water inlet 801 of the jet pump is positioned at one end of the jet pump 8, and the water pumping port 802 of the jet pump is positioned below the water inlet 801 of the jet pump; the jet pump water outlet 803 is positioned at the other end of the jet pump 8; a water inlet of the water lifting pump 6 is connected with a water source in the water storage cellar 10 through a water pipe, and a water outlet of the water lifting pump 6 is connected with the water storage tank 1 through a pressureless water pipe; the water inlet of the regulating valve 7 is connected with the water outlet at the bottom of the water storage tank 1, and the water outlet of the regulating valve 7 is connected with the water inlet 801 of the jet pump; the water pumping port 802 of the jet pump is connected with a water source in the water storage cellar 10, and the water outlet 803 of the jet pump is respectively connected with the pesticide fertilizer injector 9 and the drip irrigation net 11 through a three-way pipe; the overflow port of the water storage tank 1 is connected with the water storage cellar 10 through a water pipe.

Specifically, the framework 2 is a trapezoidal frame structure made of reinforced concrete, wood, engineering plastics or metal materials.

Specifically, the hot air shaft 3 is a hollow cylindrical structure with a large inner diameter at the lower part and a small inner diameter at the upper part, the hot air shaft 3 is made of engineering plastics, glass fiber reinforced plastics or metal plates, and the outer wall of the lower part of the hot air shaft 3 is coated in black.

Specifically, the axial flow windmill 403 is located inside the upper end of the hot air shaft 3, and the universal windmill 402 is located outside the upper end of the hot air shaft 3.

Specifically, the valve ball 704 is a ferromagnetic ball with plastic wrapped outside.

Specifically, the water-absorbing body 708 is granular, and the water-absorbing body 708 is made by mixing water-absorbing gelatin and ceramic.

Specifically, a plurality of water permeable holes distributed in a circular array are formed in the middle and the periphery of the valve partition 703.

Specifically, the hanging cylinder 707 is installed on the control valve body 702 in a sleeved manner to form a sliding lifting device.

Detailed description of the preferred embodiment

In application, under the weather condition with wind power, the driving shaft 401 is driven to rotate by the wind power through the universal windmill 402; under the condition of sunny weather, the black coating outside the hot blast well 3 absorbs the heat of the sunlight to heat the air entering from the bottom of the hot blast well, the air is heated to rise, an upward air flow is formed at the outlet of the upper part of the hot blast well 3 to push the axial flow windmill 403 to push the driving shaft 401 to rotate, the driving shaft 401 drives the water lifting pump 6 through the speed changer 5, and the rotating water lifting pump 6 lifts the water of a low water level water source such as the water in the water cellar 10 to the high water storage tank 1 for storage.

After the regulating valve 7 is set, when the temperature and the humidity change, the water absorbing body 708 in the regulating valve 7 changes its weight along with the ambient temperature and humidity due to the combined effect caused by the evaporation of the water absorbed in the air and the water absorbed in the air, and the length of the return spring 705 changes, so that the vertical distance between the magnetic ring 710 and the valve ball 704 changes, and the contact state between the valve ball 704 of the regulating valve 7 and the conical funnel at the lower part of the valve ball 704 changes, thereby realizing the on-off control of the regulating valve 7.

When the environmental temperature rises or the humidity decreases, the water in the water absorption body 708 is evaporated more and the weight is reduced, so that the return spring 705 contracts to drive the magnetic ring 710 and attract the valve ball 704 to move upwards to leave the conical funnel at the lower part of the valve body, at the moment, the regulating valve 7 is in an open state, the water in the water storage tank 1 enters the water inlet 801 of the jet pump 7 through the regulating valve 7, and the negative pressure generated by the water flow diffusion in the jet pump and the water pumping port 802 of the jet pump water which is several times of the water inlet amount from the high-level water storage tank 1 is pumped up from the low-level water.

When the ambient temperature decreases or the humidity increases, the water absorbed by the water absorbing body 708 from the air is more, which results in an increase in weight, so that the return spring 705 extends to drive the magnetic ring 710 and attract the valve ball 704 to move down to contact with the conical funnel at the lower part of the valve body, at this time, the regulating valve 7 returns to the closed state, and the jet pump 8 is also automatically closed.

If the soluble fertilizer or pesticide is required to be added into the drip irrigation net, the addition can be completed through the pesticide fertilizer injector 9.

In practical use, the vertical distance between the magnetic ring 710 and the valve ball 704 can be adjusted by adjusting the depth of the thread for screwing the valve body 702 of the regulating valve 7 into the regulating valve seat 701, so that the action characteristic of the regulating valve 7 which is opened and closed along with the change of the environmental temperature and humidity is changed.

In summary, the following steps: according to the wind-light complementary type water pumping and energy storing automatic irrigation system, the hot air shaft is of a hollow cylindrical structure with a large lower inner diameter and a small upper inner diameter, and is made of engineering plastics, glass fiber reinforced plastics or metal plates, the universal windmill is arranged outside the upper end of the hot air shaft, under the condition of sufficient wind power, the wind power can drive the universal windmill to rotate, the universal windmill drives the water lifting pump to operate through the driving shaft, so that the water storage tank is not influenced by the power condition, the wind power utilization rate is high, the environmental adaptability is good, and the system is energy-saving and environment-friendly; the outer wall of the lower part of the hot air shaft is coated in black, the axial flow windmill is arranged in the upper end of the hot air shaft, under the condition of sufficient sunlight, the black coating of the lower part of the hot air shaft absorbs the sunlight to heat the air entering from the bottom, the air is heated to rise to drive the axial flow windmill to rotate, and the axial flow windmill drives the water lifting pump to operate through the driving shaft, so that the water stored in the water storage tank is not influenced by the power condition, the solar energy utilization rate is high, the environmental adaptability is good, and the energy is saved and; the water absorption body is granular and is made by mixing water absorption gelatin and ceramics, the hanging cylinder is arranged on the regulating valve body in a sleeved mode and is provided with the sliding lifting device, the water absorption effect is good, the sensitivity is high, and the hanging cylinder can be driven by the self weight to slide and lift, so that the opening and closing of the regulating valve can be flexibly controlled; through the improvement to the automatic irrigation system of the energy storage that draws water of a complementary formula of wind-light, have that structural design is reasonable, the simple structure, solar energy, wind energy utilization rate are high, automatic control, energy-concerving and environment-protective, economical and practical, adaptation environment are wide, maintain convenient advantage to effectual solution the utility model provides a problem and not enough.

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

1. A complementary wind-solar pumped energy storage automatic irrigation system, comprising: the device comprises a water storage tank (1), a grid (2), a hot blast well (3), a wind power driver (4), a transmission (5), a water lifting pump (6), a regulating valve (7), a jet pump (8), a pesticide fertilizer injector (9), a water storage cellar (10), a drip irrigation net (11), a driving shaft (401), a universal windmill (402), an axial flow windmill (403), a bearing (404), a regulating valve seat (701), a regulating valve body (702), a valve partition plate (703), a valve ball (704), a reset spring (705), a spring hoop (706), a hanging cylinder (707), a water absorption body (708), a retaining ring (709), a magnetic ring (710), a pipe joint (711), a jet pump water inlet (801), a jet pump water suction port (802) and a jet pump water outlet (803); the method is characterized in that: the water storage tank (1) is arranged at the top of the framework (2), and the hot blast well (3) is arranged at the middle position inside the framework (2); the wind power driver (4) penetrates through the middle position inside the hot blast well (3); the wind power driver (4) consists of a driving shaft (401), a universal windmill (402), an axial flow windmill (403) and a bearing (404); the universal windmill (402) and the axial flow windmill (403) are installed at the top end of the driving shaft (401), and the axial flow windmill (403) is positioned above the universal windmill (402); the upper part and the lower part of the driving shaft (401) are arranged on the framework (2) through bearings (404); the speed changer (5) and the water lifting pump (6) are arranged on the framework (2), and the water lifting pump (6) is positioned below the speed changer (5); the driving shaft (401) is connected with the speed changer (5) through a shaft joint, and the speed changer (5) is connected with an input shaft of the water lifting pump (6) through a shaft joint; the regulating valve (7) consists of a regulating valve seat (701), a regulating valve body (702), a valve partition plate (703), a valve ball (704), a return spring (705), a spring hoop (706), a hanging cylinder (707), a water absorption body (708), a retaining ring (709), a magnetic ring (710) and a pipe joint (711), and the regulating valve (7) is installed on the grid (2) through bolts; the upper end of the regulating valve body (702) is installed on the regulating valve seat (701) in a threaded screwing mode, and the valve partition plate (703) is embedded in the lower part of the inner side of the regulating valve body (702); the valve ball (704) is embedded in the regulating valve body (702), and the valve ball (704) is positioned below the valve partition plate (703); the reset spring (705) is sleeved outside the regulating valve body (702), and the top end of the reset spring (705) is embedded and installed on the lower edge of the regulating valve seat (701); the lifting cylinder (707) is sleeved on the lower part of the regulating valve body (702), and the spring hoop (706) is sleeved on the top end of the lifting cylinder (707); the lower end of the return spring (705) is fixedly connected with a spring hoop (706); the water absorption body (708) is embedded in the hanging cylinder (707); the protective ring (709) is sleeved at the lower end of the hanging cylinder (707), and the magnetic ring (710) is embedded in the protective ring (709); the upper end and the lower end of the regulating valve body (702) are respectively connected with a pipe joint (711) through threads; the water inlet (801) of the jet pump is positioned at one end of the jet pump (8), and the water pumping port (802) of the jet pump is positioned below the water inlet (801) of the jet pump; the water outlet (803) of the jet pump is positioned at the other end of the jet pump (8); a water inlet of the water lifting pump (6) is connected with a water source in the water storage cellar (10) through a water pipe, and a water outlet of the water lifting pump (6) is connected with the water storage tank (1) through a pressureless water pipe; a water inlet of the regulating valve (7) is connected with a water outlet at the bottom of the water storage tank (1), and a water outlet of the regulating valve (7) is connected with a water inlet (801) of the jet pump; the water pumping port (802) of the jet pump is connected with a water source in the water storage cellar (10), and the water outlet (803) of the jet pump is respectively connected with the pesticide fertilizer injector (9) and the drip irrigation net (11) through a three-way pipe; an overflow port of the water storage tank (1) is connected with the water storage cellar (10) through a water pipe.

2. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the grillwork (2) is a trapezoidal frame structure made of reinforced concrete, wood, engineering plastics or metal materials.

3. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the hot air shaft (3) is of a hollow cylindrical structure with a large inner diameter at the lower part and a small inner diameter at the upper part, the hot air shaft (3) is made of engineering plastics, glass fiber reinforced plastics or metal plates, and the outer wall of the lower part of the hot air shaft (3) is coated in black.

4. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the axial flow windmill (403) is positioned inside the upper end of the hot air shaft (3), and the universal windmill (402) is positioned outside the upper end of the hot air shaft (3).

5. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the valve ball (704) is a ferromagnetic ball body wrapped with plastic.

6. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the water absorbing body (708) is granular.

7. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the middle position and the periphery of the valve partition plate (703) are provided with a plurality of water permeable holes which are distributed in a circular array shape.

8. The complementary type water pumping and energy storing automatic irrigation system of claim 1, wherein: the hanging cylinder (707) is arranged on the regulating valve body (702) in a sleeved mode to form a sliding lifting device.