CN204498986U - A kind of field irrigation equipment based on wind-powered electricity generation - Google Patents

Abstract

The utility model discloses a kind of field irrigation equipment based on wind-powered electricity generation, comprise TRT, water tower and irrigation rig, described TRT comprises wind-force bar, generator and fan blade, apopore is left in the bottom of described water tower, the junction of described capillary and irrigation rig is provided with magnetic valve, the bottom periphery of described irrigation rig is provided with humidity sensor, and humidity sensor electrical connection magnetic valve, described magnetic valve, humidity sensor, water level sensor, water pump and control panel are all electrically connected accumulator by inverter, this irrigation installation adopts wind-power electricity generation to provide electric power, not only environmental protection, saving resource, also eliminate the trouble that builder installs power-on circuit, and the structure that the magnetic valve installed in the inner chamber of capillary and humidity sensor match, also irrigate according to different crops institute water requirement, to the growing environment that crops one are best, improve crop yield.

Description

A kind of field irrigation equipment based on wind-powered electricity generation

Technical field

The utility model relates to agricultural technology field, is specially a kind of field irrigation equipment based on wind-powered electricity generation.

Background technology

Agricultural irrigation mode generally can be divided into for traditional surface irrigation, common sprinkling irrigation and slight irrigation.Tradition surface irrigation comprises border irrigation, irrigates through furrow, basins irrigation and flood irrigation, but this kind of irrigation method often large, the water of water consumption utilize power lower, be the very irrational agricultural irrigation mode of a class.In addition, common sprinkler irrigation technique is irrigation method more general during Chinese agriculture is produced.But the utilization ratio of the water of common sprinkler irrigation technique is not high yet.The micro-irrigation technique of modern agriculture comprises microspray irrigation, drip irrigation, infiltrating irrigation etc.The general water-saving performance of these irrigation techniques is good, comparatively traditional irrigation pattern is high for the availability of water, certainly, also there are some drawbacks.Agricultural is as national economic lifeline and use water rich and influential family, for a long time, due to ideology, fund, the reason of the aspects such as technology, continue to use the broad irrigation that tradition falls behind always, but along with the contradiction between shortage of water resources and water requirement increase year by year is increasingly sharpened, broad irrigation just gradually replace by the modern water-saving irrigation pattern focusing on accurately pouring water, modern science irrigation technique, not only can effectively utilize limited water resource, alleviate mining of groundwater excessive, the severe situation that the earth's crust sinks, it is also important that, can by the combination with precision fertilizing, improve agriculture crops, the growth conditions of fruit tree etc., improve per unit area yield and fruit quality, there is good Social benefit and economic benefit, but because farmland is away from district of resident family, existing agricultural irrigation equipment must be powered from district of resident family, not only construction cost is high, and waste resource, and a kind of crops of more than plantation in some farmland, but existing irrigation technique can not take different injection flow rates according to different crops, so not only waste water resource, and can not to offer the best growing environment to crops, for this reason, we propose a kind of field irrigation equipment based on wind-powered electricity generation.

Utility model content

The purpose of this utility model is to provide a kind of field irrigation equipment based on wind-powered electricity generation, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme: a kind of field irrigation equipment based on wind-powered electricity generation, comprise TRT, water tower and irrigation rig, described TRT comprises wind-force bar, generator and fan blade, the top movable of described wind-force bar is provided with generator, described generator is connected with fan blade by axle, in the inner chamber of described wind-force bar, accumulator and inverter are installed, described generator electrical connection accumulator, the bottom outside face of described wind-force bar is provided with control panel, the inner chamber left side wall top of described water tower is provided with water level sensor, inlet opening is left on the inner chamber right side wall top of described water tower, described inlet opening is externally connected with water pump by water inlet pipe, apopore is left in the bottom of described water tower, and apopore is externally connected with outlet pipe, described outlet pipe is connected to the bottom of irrigation rig by capillary, the junction of described capillary and irrigation rig is provided with magnetic valve, the top movable of described irrigation rig is provided with rotary nozzle, the bottom periphery of described irrigation rig is provided with humidity sensor, and humidity sensor electrical connection magnetic valve, described magnetic valve, humidity sensor, water level sensor, water pump and control panel are all electrically connected accumulator by inverter.

Preferably, the quantity of described irrigation rig is no less than one.

Preferably, the surrounding of described apopore is provided with filter mantle.

Preferably, the sidewall of described water tower is provided with staircase.

Compared with prior art, the beneficial effects of the utility model are: this irrigation installation adopts wind-power electricity generation to provide electric power, not only environmental protection, saving resource, also eliminate the trouble that builder installs power-on circuit, and the structure that the magnetic valve installed in the inner chamber of capillary and humidity sensor match, also irrigate according to different crops institute water requirement, to the growing environment that crops one are best, improve crop yield.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is that element of the present utility model connects block diagram;

Fig. 3 is water tower end view of the present utility model.

In figure: 1 TRT, 2 water towers, 3 irrigation rigs, 4 wind-force bars, 5 generators, 6 fan blades, 7 accumulatoies, 8 inverters, 9 control panels, 10 water level sensors, 11 inlet openings, 12 water pumps, 13 apopores, 14 outlet pipes, 15 capillaries, 16 magnetic valves, 17 rotary nozzles, 18 humidity sensors, 19 filter mantles, 20 staircases, 21 water inlet pipes.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1-3, the utility model provides a kind of technical scheme: a kind of field irrigation equipment based on wind-powered electricity generation, comprise TRT 1, water tower 2 and irrigation rig 3, the quantity of described irrigation rig 3 is no less than one, described TRT 1 comprises wind-force bar 4, generator 5 and fan blade 6, the top movable of described wind-force bar 4 is provided with generator 5, described generator 5 is connected with fan blade 6 by axle, accumulator 7 and inverter 8 are installed in the inner chamber of described wind-force bar 4, described generator 5 is electrically connected accumulator 7, the bottom outside face of described wind-force bar 4 is provided with control panel 9, the lateral wall of described water tower 2 is provided with staircase 20, be convenient for people to water tower 2 is checked, the inner chamber left side wall top of described water tower 2 is provided with water level sensor 10, inlet opening 11 is left on the inner chamber right side wall top of described water tower 2, described inlet opening 11 is externally connected with water pump 12 by water inlet pipe 21, apopore 13 is left in the bottom of described water tower 2, the surrounding of described apopore 13 is provided with filter mantle 19, and apopore 13 is externally connected with outlet pipe 14, described outlet pipe 14 is connected to the bottom of irrigation rig 3 by capillary 15, described capillary 15 is provided with magnetic valve 16 with the junction of irrigation rig 3, the top movable of described irrigation rig 3 is provided with rotary nozzle 17, the bottom periphery of described irrigation rig 3 is provided with humidity sensor 18, and humidity sensor 18 is electrically connected magnetic valve 16, described magnetic valve 16, humidity sensor 18, water level sensor 10, water pump 12 and control panel 9 are all electrically connected accumulator 7 by inverter 8.

Operation principle: wind drives fan blade 6 to rotate, the generating of fan blade 6 drive electrical generators 5 is stored in accumulator 7, accumulator 7 is powered to electrical equipment by inverter 8, and control panel 9 controls water pump 12 by water level sensor 10 and works, and makes water level remain at water level sensor 10 orientation, control panel 9 responds to soil moisture by humidity sensor 18, during antecedent soil moisture, humidity sensor 18 passes to control panel 9, and control panel 9 Controlling solenoid valve 16 starts, start to irrigate, stop irrigating when soil reaches specified humidity.

Although illustrate and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and spirit, scope of the present utility model is by claims and equivalents thereof.

Claims (4)

1. the field irrigation equipment based on wind-powered electricity generation, comprise TRT (1), water tower (2) and irrigation rig (3), it is characterized in that: described TRT (1) comprises wind-force bar (4), generator (5) and fan blade (6), the top movable of described wind-force bar (4) is provided with generator (5), described generator (5) is connected with fan blade (6) by axle, accumulator (7) and inverter (8) are installed in the inner chamber of described wind-force bar (4), described generator (5) electrical connection accumulator (7), the bottom outside face of described wind-force bar (4) is provided with control panel (9), the inner chamber left side wall top of described water tower (2) is provided with water level sensor (10), inlet opening (11) is left on the inner chamber right side wall top of described water tower (2), described inlet opening (11) is externally connected with water pump (12) by water inlet pipe (21), apopore (13) is left in the bottom of described water tower (2), and apopore (13) is externally connected with outlet pipe (14), described outlet pipe (14) is connected to the bottom of irrigation rig (3) by capillary (15), described capillary (15) is provided with magnetic valve (16) with the junction of irrigation rig (3), the top movable of described irrigation rig (3) is provided with rotary nozzle (17), the bottom periphery of described irrigation rig (3) is provided with humidity sensor (18), and humidity sensor (18) electrical connection magnetic valve (16), described magnetic valve (16), humidity sensor (18), water level sensor (10), water pump (12) and control panel (9) are all by inverter (8) electrical connection accumulator (7).

2. a kind of field irrigation equipment based on wind-powered electricity generation according to claim 1, is characterized in that: the quantity of described irrigation rig (3) is no less than one.

3. a kind of field irrigation equipment based on wind-powered electricity generation according to claim 1, is characterized in that: the surrounding of described apopore (13) is provided with filter mantle (19).

4. a kind of field irrigation equipment based on wind-powered electricity generation according to claim 1, is characterized in that: the lateral wall of described water tower (2) is provided with staircase (20).