CN203748354U

CN203748354U - Wind power drip irrigation water supply equipment

Info

Publication number: CN203748354U
Application number: CN201420069206.5U
Authority: CN
Inventors: 李爱华; 何占松; 卢宏宇; 姜燕飞; 王薇; 王宏章; 彭晓亮; 李海涛
Original assignee: Heilongjiang Institute of Pasturage Mechanisation
Current assignee: Heilongjiang Institute of Pasturage Mechanisation
Priority date: 2014-02-13
Filing date: 2014-02-13
Publication date: 2014-08-06
Anticipated expiration: 2024-02-13

Abstract

Wind power drip irrigation water supply equipment comprises a wind power water elevator, a water outlet pipe, a water conveying pipeline, a one-way valve, a water inlet pipe, a water tank tower, a water storage tank and a water flow control mechanism. The water flow control mechanism is mounted in the water storage tank. The water storage tank is disposed on the tower 5m in height. The water inlet pipe of the water storage tank is connected with the water conveying pipeline. The other end of the water conveying pipeline is connected with the water outlet pipe of the wind power water elevator. The one-way valve is mounted in the water conveying pipeline. During operation, the wind power water elevator elevates underground water to the water outlet pipe, which is connected with the water conveying pipeline, through a water pump, the underground water enters the water storage tank through the water conveying pipeline and the water inlet pipe under the action of water pressure, and when a certain water level is reached, the water flow control mechanism starts operating to complete water storage and water discharge.

Description

Wind-force drip irrigation water supply plant

Technical field

The utility model relates to a kind of high efficiency drip irrigation water supply plant, is specifically related to one taking wind energy as power, by wind-driven water pump water lift, and the controlled drip irrigation water supply plant of its current simultaneously.

Background technology

Wind energy is a kind of resourceful clean reproducible energy, in the situation that current fossil energy faces exhaustion, environment and goes from bad to worse, no matter from economy or ecotope aspect, wind energy be all one can be first-selected alternative energy source.Simultaneously, drip irrigation is a kind of water saving and the significant advanced irrigation technique of irrigation effect, due to the impact of environmental factor, the available freshwater resources of natural world decline year by year, in order effectively to utilize water resource, drip irrigation will be mainly depended in arid area agricultural production, and in non-arid area, the availability of water must be improved.At present, domestic drip irrigation operation is all to adopt fossil energy to supply water as power, energy resource consumption is large, and to environment, for solving the conventional energy resource difficult problem that supply falls short of demand, realize low-carbon (LC) farming and animal husbandry and produce, adopting wind energy is power water lift, installment, carries out drip irrigation to farmland and had already become the inexorable trend of the future of agriculture irrigation technique development.

Summary of the invention

Adopt fossil energy to supply water as power in order to overcome existing drip irrigation operation, energy resource consumption is large, and drawback to environment, and the utility model provides a kind of wind-force drip irrigation water supply plant, this equipment is using wind energy as power, adopt mechanical type wind-driven water pump, underground water is promoted in water storage casing by aqueduct, in water storage casing, be provided with water flow control mechanism, under the effect of this mechanism, water in water storage casing can be realized high-order storage, and batch (-type) discharges water, and carries out gravity drip-irrigation.

The utility model solves the technical scheme that its technical problem adopts: water flow control mechanism is arranged in water storage casing, water storage casing is placed on the pylon of 5 meters of height, its oral siphon is connected with aqueduct, the other end of aqueduct is connected with wind-driven water pump outlet pipe, and check valve is installed in aqueduct.

Another technical characteristics of the present utility model is: wind-driven water pump is made up of pylon, gear, wind wheel, empennage, wind direction governor motion, the pull bar that draws water, sleeve, pump rod, water pump; Wind wheel is arranged on gear, and empennage is arranged on gear casing by wind direction governor motion, and water pump is positioned under gear, pull bar one end connection speed variator structure, the other end is connected with pump rod by sleeve, and pump rod is connected with water pump, drives pump working.

The 3rd technical characteristics of the present utility model is: water flow control mechanism is taken over and formed by float chamber, float, lever coupling arrangement, water distribution chamber, water blocking device, drip irrigation; Float is arranged in float chamber, be connected with the upper connecting rod in lever coupling arrangement, can move up and down, exceeding storage tank body at float chamber divides and is welded with overflow pipe, can make excessive water overflow, water distribution chamber is welded on water storage bottom half, takes over and is connected by bolt with drip irrigation, in water distribution chamber, be welded with stop collar, play the guiding role.

The 4th technical characteristics of the present utility model is: water blocking device is arranged in water distribution chamber, is made up of the Y type rubber seal of closure plate, crect ear, two gag lever posts, two different sizes; When installation, two gag lever posts are set in stop collar, can limit the direction of motion of closure plate, and two Y type rubber seal are arranged on closure plate below, take over and coordinate with drip irrigation, play the effect of sealing.

The 5th technical characteristics of the present utility model is: lever coupling arrangement is made up of upper connecting rod, threaded adjusting sleeve, lower link, drag link, vertical pull bar; Upper lower link is connected by threaded adjusting sleeve, and can regulate length, to control float floating displacement, drag link respectively with lower link, vertical pull bar and storage tank sidewall on fixing ear be hinged, the crect ear on vertical pull bar and water blocking device is hinged.

The beneficial effects of the utility model are: adopt this equipment to supply water and carry out drip irrigation operation, not only effectively utilize wind energy resources, realizing low-carbon (LC) farming and animal husbandry produces, simultaneously by underground water installment, in gravity drip-irrigation mode, for crop provides a normal damp soil environment, realize the water-saving irrigation to field-crop.

Brief description of the drawings

Below in conjunction with accompanying drawing, embodiment of the present utility model is further described:

Accompanying drawing 1 shows master of the present utility model and looks schematic diagram.

Accompanying drawing 2 shows wind-driven water pump structural representation.

Accompanying drawing 3 shows water flow control mechanism structural representation.

Accompanying drawing 4 shows water blocking device structural representation.

Accompanying drawing 5 shows lever connecting device structure schematic diagram.

Accompanying drawing 6 shows check valve profile.

1. wind-driven water pumps in Fig. 1,2. outlet pipe, 3. aqueduct, 4. check valve, 5. tank tower, 6. water storage casing, 7. water flow control mechanism, 8. oral siphon.

9. water pumps in Fig. 2,10. pylon, 11. pump rods, 12. sleeve pipes, 13. pull bars that draw water, 14. wind direction governor motions, 15. empennages, 16. gears, 17. wind wheels.

In Fig. 3,18. drip irrigations are taken over, 19. water blocking devices, 20. stop collars, 21. water distribution chambers, 22. fixing ears, 23. lever coupling arrangements, 24. floats, 25. overflow pipes, 26. float chambers.

27.Y RunddichtringO I in Fig. 4,28.Y RunddichtringO II, 29. closure plates, 30. crect ears, 31. gag lever posts.

32. vertical pull bars in Fig. 5,33. drag links, 34. lower links, 35. threaded adjusting sleeves, 36. upper connecting rods.

Embodiment

In Fig. 1 and Fig. 2, first wind-driven water pump pylon (10) is installed fixing with tank tower (5) according to ground drawing, when wind-driven water pump (1) work, open empennage (15), under the effect of wind-force, wind direction governor motion (14) regulates the angle direction of empennage (15) and gear (16), ensure wind wheel (17) automatic wind facing rotation at any time, and drive gear (16) to work, in the time reaching certain wind speed, gear (16) changes the power of wind wheel (17) direction of rotation into upper lower pulling force, the drive pull bar (13) that draws water does reciprocating linear motion, the pull bar (13) that simultaneously draws water sends pulling force to pump rod (11) by sleeve pipe (12) again, water pump (9) is started working, underground water is released, and be transported in aqueduct (3) by outlet pipe (2), under the effect of hydraulic pressure, underground water is via aqueduct (3), check valve (4), oral siphon (8) enters in water storage casing (6), after the water yield reach a certain height, water flow control mechanism (7) is started working.

At Fig. 3, Fig. 4, in Fig. 5, float (24) is under the effect of water buoyancy, in float chamber (26), move upward, drive lever coupling arrangement (23) to start working simultaneously, its upper connecting rod (36), threaded adjusting sleeve (35) and lower link (34) move upward, now the right-hand member of drag link (33) is pulled up, left end rotates around fixing ear (22), and vertical pull bar (32) the also and then rising hinged with drag link (33), drive the crect ear hinged with it (30) to move upward, two gag lever posts (31) are under the guide effect of stop collar (20) simultaneously, drive closure plate (29) to move upward, water blocking device (19) is opened, current flow to drip irrigation by water distribution chamber (21) and take in (18), in the time that waterborne in water storage casing (6) is raised to design high-water, hydraulic pressure reaches maximum, the speed that now discharges water maximum, in the time that waterdrainage amount is greater than inflow, water level in water storage casing (6) starts to decline, float (24) also declines thereupon, in the time being down to design lowest stage under water, lever coupling arrangement (23) and water blocking device (19) return, closure plate (29) is together with y-type seal ring I (27), y-type seal ring II (28) together takes over (18) by drip irrigation and blocks, discharge water and stop, now wind-driven water pump (1) continues to supply water in water storage casing (6), water level in water storage casing (6) rises again gradually, water flow control mechanism is task again, wherein, float chamber water level is controlled by overflow pipe (25).

Claims

1. a wind-force drip irrigation water supply plant, formed by wind-driven water pump, outlet pipe, aqueduct, check valve, oral siphon, tank tower, water storage casing, water flow control mechanism, water flow control mechanism is arranged in water storage casing, water storage casing is placed on the pylon of 5 meters of height, its oral siphon is connected with aqueduct, the other end of aqueduct is connected with wind-driven water pump outlet pipe, and check valve is installed in aqueduct.

2. wind-force drip irrigation water supply plant according to claim 1, it is characterized in that: wind-driven water pump is made up of pylon, gear, wind wheel, empennage, wind direction governor motion, the pull bar that draws water, sleeve, pump rod, water pump, wind wheel is arranged on gear, empennage is arranged on gear casing by wind direction governor motion, water pump is positioned under gear, pull bar one end connection speed variator structure, and the other end is connected with pump rod by sleeve, pump rod is connected with water pump, drives pump working.

3. wind-force drip irrigation water supply plant according to claim 1, it is characterized in that: water flow control mechanism is taken over and formed by float chamber, float, lever coupling arrangement, water distribution chamber, water blocking device, drip irrigation, float is arranged in float chamber, be connected with the upper connecting rod in lever coupling arrangement, can move up and down, exceeding storage tank body at float chamber divides and is welded with overflow pipe, can make excessive water overflow, water distribution chamber is welded on water storage bottom half, take over and be connected by bolt with drip irrigation, in water distribution chamber, be welded with stop collar, play the guiding role.

4. wind-force drip irrigation water supply plant according to claim 3, it is characterized in that: water blocking device is arranged in water distribution chamber, Y type rubber seal by closure plate, crect ear, two gag lever posts, two different sizes forms, when installation, two gag lever posts are set in stop collar, can limit the direction of motion of closure plate, and two Y type rubber seal are arranged on closure plate below, take over and coordinate with drip irrigation, play the effect of sealing.

5. wind-force drip irrigation water supply plant according to claim 3, it is characterized in that: lever coupling arrangement is made up of upper connecting rod, threaded adjusting sleeve, lower link, drag link, vertical pull bar, upper lower link is connected by threaded adjusting sleeve, and can regulate length, to control float floating displacement, drag link respectively with lower link, vertical pull bar and storage tank sidewall on fixing ear be hinged, the crect ear on vertical pull bar and water blocking device is hinged.