CN205559171U - Multipotency source system of irrigating by lifting water to a higher level with a water pump, etc based on irrigate by lifting water to a higher level with a water pump, etc. efficiency - Google Patents

Abstract

The utility model discloses a multi-energy irrigation system based on improving the efficiency of irrigation. The electric tricycle is provided with a storage battery, a solar panel and a control cabinet. The solar panel is connected to the storage battery. The electric tricycle is equipped with a wind generator. A DC water pump is provided, a connector is connected to the DC water pump, a water lift pipe is connected to the DC water pump, a sprayer is connected to the water lift pipe, a supercharger and a filter are connected to the DC water pump, a fertilizer tank is connected to the water lift pipe, and the fertilizer tank is connected to the lift pipe. A one-way valve is arranged between the water pipes, and an air pump is connected to the fertilizer tank. The system realizes mobile irrigation and moves according to the location of the water source or the location of the water demand, which greatly improves the convenience, and uses solar and wind power generation to realize electric energy supplementation, increase irrigation time, and ensure irrigation pressure, reduce household use costs and charging time , greatly improving the duration of field work, making irrigation more efficient.

Description

Multi-energy lifting and irrigation system based on improving the efficiency of lifting and irrigation

technical field

The utility model relates to a system, in particular to a multi-energy irrigation system based on improving the efficiency of irrigation.

Background technique

Lifting irrigation stations refer to water conservancy stations specially established for extracting irrigation water from reservoirs, rivers or other water sources in farmland water conservancy facilities. They exist widely in vast rural areas and play an important role in irrigation of farmland. Water-lifting irrigation is an irrigation method that uses human power, animal power, electromechanical power, hydraulic power, wind power, etc. to drag water-lifting equipment (such as water pumps, water trucks, etc.) to lift water to irrigate crops. Also known as pumping irrigation, pumping irrigation. In addition to the need to build pumping stations, there is generally no need to build large-scale water retaining or water diversion structures; it is less affected by conditions such as water sources, topography, and geology, with less one-time investment, short construction period, and quick benefits, and can meet local conditions in a timely manner. requirements. However, energy consumption and frequent maintenance and repairs are required during operation, and its management cost is higher than that of artesian irrigation.

Power generation is the production process of converting primary energy into electricity. Nowadays, fossil fuels are mostly used for power generation, but the resources of fossil fuels are not many and are gradually being exhausted. Human beings have gradually used more renewable energy sources (water energy, solar energy, wind energy, geothermal energy, ocean energy, etc.) to generate electricity. Electric energy is easier to regulate than other energy sources in production, transmission, and use, so it is currently the most ideal secondary energy source. Power generation plays a central role in the power industry, determines the scale of the power industry, and also affects the development of transmission, transformation, distribution and other links in the power system. By the end of 2013, China's installed power generation capacity is expected to reach about 1.23 billion kilowatts, and the installed capacity of power generation is expected to rank first in the world. The country's overall power supply and demand balance. The China Electricity Council released the "2013 National Power Supply and Demand Situation Analysis and Forecast Report" on the 28th. It is estimated that in 2013, the country's new installed capacity will be about 87 million kilowatts, of which thermal power will be about 40 million kilowatts. It is estimated that by the end of 2013, the national installed capacity of power generation will be about 1.23 billion kilowatts, and the installed capacity of power generation is expected to rank first in the world, including 280 million kilowatts of hydropower, 860 million kilowatts of thermal power, 14.78 million kilowatts of nuclear power, 75 million kilowatts of grid-connected wind power, and 6 million kilowatts of grid-connected solar energy about. According to the report, in 2013, China's economy will continue to stabilize and recover, driving the growth rate of electricity demand to pick up. It is estimated that by the end of the year, the national full-caliber power generation installed capacity will be about 1.23 billion kilowatts, and the annual utilization hours of power generation equipment will be 4,700-4,800 hours, of which thermal power will be 5,050-5,150 hours, an increase over the previous year. The national thermal coal supply is generally stable, and thermal coal transportation is tight in some areas. Among them, the surplus capacity of supply in Northeast China has increased; the supply capacity in Northwest China has a certain surplus; the balance between power supply and demand in southern China; the overall balance of power supply and demand in Central China; due to the constraints of cross-regional channel capacity, the shutdown of some units for denitrification transformation, and the tight supply of natural gas and other factors , Considering uncertainties such as high temperature and incoming water, some provinces in East China and North China may have a small power gap during some peak hours.

New energy technology is one of the five most decisive technological fields in the world's economic development in the 21st century, and solar energy and wind energy are the cleanest and inexhaustible energy sources among all energy sources. At present, the governments of various countries regard the resource utilization of solar energy and wind energy as an important content of the national sustainable development strategy.

In the existing lifting irrigation process, it is installed in a fixed position for drip irrigation. Due to the change of water level or the location of water demand, effective irrigation cannot be performed. The efficiency of irrigation is low, and its structure is complicated, and the cost of use is high, which is not conducive to family use.

Utility model content

The purpose of this utility model is to overcome the above-mentioned existing lifting irrigation process, which is installed in a fixed position for drip irrigation. Due to the change of water level or the different location of water demand, effective irrigation cannot be carried out, the efficiency of irrigation is low, and its structure is complicated, and the use cost High, unfavorable for household use, a multi-energy lifting irrigation system based on improving the efficiency of lifting irrigation is designed. The system has a simple structure and realizes mobile irrigation. It can be moved according to the location of the water source or the location of the water demand, which greatly improves the convenience. Utilize solar and wind power generation to realize electric energy supplement, improve irrigation time, and can ensure irrigation pressure, reduce household use cost and charging time, greatly increase the duration of field work, make irrigation more efficient, and solve the problems in the existing lifting irrigation process. Installed at a fixed location for drip irrigation, due to changes in water levels or different locations where water is required, effective irrigation cannot be performed. The efficiency of irrigation is low, and its structure is complicated, and the cost of use is high, which is not conducive to family use.

The purpose of the utility model is achieved through the following technical solutions: based on the multi-energy irrigation system that improves the efficiency of irrigation, it includes an electric tricycle, a storage battery, a solar panel and a control cabinet are arranged in the electric tricycle, and the solar panel is installed on the electric tricycle. On the top surface of the electric tricycle, the battery and the solar panel are connected to the control cabinet, the solar panel is connected to the battery, and a wind generator is installed on the electric tricycle, and the wind generator is installed on the top surface of the electric tricycle, and the wind generator is simultaneously It is connected with the battery and the control cabinet. The electric tricycle is equipped with a DC water pump, and the DC water pump is connected with a connector. The connector is connected with the DC water pump and the control cabinet at the same time. One end is connected to a sprayer, the DC water pump is connected to a supercharger and a filter, and the supercharger is connected to the battery, the fertilizer tank is connected to the lifting pipe, and a one-way valve is arranged between the fertilizer tank and the lifting pipe. The valve is connected with the fertilizer tank and the water pipe at the same time, and the one-way valve can completely cut off the connection between the fertilizer tank and the water pipe. The fertilizer tank is connected with an air pump, and the air pump is connected with the control cabinet and the battery at the same time.

The wind generator includes an outer cylinder with a hollow interior and openings at both ends. The outer cylinder is composed of cylinder one and cylinder two. The outer wall of cylinder one is fixed to the top surface of the electric tricycle. Both cylinder one and cylinder two are Trumpet-shaped structure, and the size of the end with a smaller opening in the first cylinder is the same as that of the end with a smaller opening in the second cylinder, and the two ends are connected to each other to form an integral structure, and a bracket is arranged in the inner cavity of the first cylinder , the bracket is fixed to the inner wall of cylinder one, a stator is set in the bracket, a rotor is set in the stator, and an air guide tube with a hollow interior and an open end is installed on the bracket. The shape of the air guide tube is in the shape of a cone, and its open end It is the smaller end of the cone and faces the second cylinder. The stator and the rotor are arranged in the inner cavity of the air guide cylinder. The air guide cylinder, the rotor and the stator are all arranged inside the cylinder one. Wind cap, the air guide cap is arranged on the end face of the air guide tube away from the opening end, and the air guide cap is bent into an arc shape, the air guide cap completely covers the end face of the air guide tube away from the opening end, the rotor is provided with a rotating shaft, and the rotating shaft passes through the rotor and the air guide tube, And the rotating shaft passes through the opening end of the air guide tube, the center line of the rotating shaft is parallel to the center line of the air guide tube, bearing one and bearing two are sleeved on the outer wall of the rotating shaft, the bearing one is fixed to the inner wall of the air guide tube, and the bearing two It is fixed with the inner wall of the cylinder body 2, the rotor is set between the bearing 1 and the bearing 2, the outer wall of the rotating shaft is fitted with turbine blades, the turbine blades are set between the bearing 2 and the rotor, the turbine blades are set inside the cylinder body 2, and the cylinder The inner wall of the body 1 is provided with a number of diversion groove plates, and the end of the diversion groove plate facing the center line of the cylinder body 1 is parallel to the inner wall surface of the cylinder body 1. At the center of the region; the outer wall of the cylinder body two is equipped with guide wings, and the guide wings completely cover the outer wall of the cylinder body two in the radial direction and then connect with the outer wall of the cylinder body one.

The filter is a sandstone filter, and the sandstone filter completely covers the water inlet of the DC water pump.

To sum up, the beneficial effects of the utility model are: the system is simple in structure, realizes mobile irrigation, moves according to the location of the water source or the location of the water demand, greatly improves the convenience, and uses solar and wind energy to generate electricity to realize electric energy supplementation, improving Irrigation time, and can ensure the irrigation pressure, reduce the cost of household use and charging time, greatly increase the duration of field work, so that the efficiency of irrigation is high, and solve the problem that in the existing process of lifting irrigation, it is installed in a fixed position for drip irrigation. Due to the change of water level , or different locations where water is needed and effective irrigation cannot be performed, the efficiency of irrigation is low, and its structure is complicated, and the cost of use is high, which is not conducive to family use.

Description of drawings

Fig. 1 is a frame diagram of the utility model.

Fig. 2 is a structural schematic diagram of a wind power generator.

The marks in the attached drawings and the names of the corresponding parts: 1-guzzle plate, 2-wind cap, 3-bearing one, 4-bracket, 5-guide wing, 6-rotating shaft, 7-turbine blade, 8-stator, 9-rotor, 10-cylinder one, 11-bearing two, 12-cylinder two, 13-air guide tube.

detailed description

The utility model will be further described in detail below in conjunction with the embodiments and accompanying drawings, but the implementation of the utility model is not limited thereto.

Example:

As shown in Figure 1 and Figure 2, the multi-energy irrigation system based on improving irrigation efficiency includes an electric tricycle, and the electric tricycle is provided with a battery, a solar panel and a control cabinet, and the solar panel is installed on the top surface of the electric tricycle Above, the battery and solar panels are connected to the control cabinet, the solar panels are connected to the battery, a wind generator is installed on the electric tricycle, and the wind generator is installed on the top surface of the electric tricycle, and the wind generator is simultaneously connected to the battery and The DC water pump is connected to the control cabinet. The DC water pump is connected to the DC water pump. The connector is connected to the DC water pump and the control cabinet at the same time. The DC water pump is connected to the water pipe. The sprayer and DC water pump are connected with a supercharger and a filter, and the supercharger is connected with the storage battery. The fertilizer tank is connected with the water pipe, and a one-way valve is arranged between the fertilizer tank and the water pipe. The one-way valve is simultaneously connected with the The fertilizer tank is connected to the water pipe, and the one-way valve can completely cut off the connection between the fertilizer tank and the water pipe. The fertilizer tank is connected to an air pump, and the air pump is connected to the control cabinet and the battery at the same time; the filter is a sand filter. And the gravel filter completely covers the water inlet of the DC water pump. Whether to install the sprayer is decided according to the conditions of watering the field. Generally, the sprayer is not used when watering the bottom of the field with large water demand, and the sprayer is used when the amount of water is small or the top of the plant is watered, so as to increase the watering area per unit time. Sometimes it is necessary to mix fertilizers or pesticides in the water for irrigation. For this reason, a fertilizer tank is designed, and water-soluble fertilizers or pesticides are filled in according to the needs of use. In addition, for isolation, there is also a set between the fertilizer tank and the water pipe. The one-way valve prevents the irrigation water from entering the fertilizer tank directly, so that the fertilizer or pesticide can only flow into the water pipe from the fertilizer tank, and there will be no backflow of the water pipe into the fertilizer tank, and in order to improve the fertilizer or pesticide injection during irrigation The efficiency of the system is to connect the fertilizer tank with an air pump, and use the pressure generated by the air pump to make the pesticide or fertilizer in the fertilizer tank be pressed into the water pipe, so as to prevent it from being squeezed by the water in the water pipe to stagnate or fail to enter. The working power of the air pump is provided by the battery, which is consistent with the power of the system and ensures the safety of use. Through the above connection, the irrigation efficiency can be improved during use. In the existing lifting irrigation process, it is installed in a fixed position for drip irrigation , due to changes in water levels or different locations where water is required, effective irrigation cannot be carried out, and its structure is complex, and the cost of use is high. Moreover, when the fields are not concentrated together, it is not conducive to family use. This scheme uses household electric tricycles for The transportation tool is equipped with solar photovoltaic modules and wind generators to generate electricity, and the battery of the electric tricycle is used as energy storage complementation to drive the DC submersible pump for pumping and irrigation. Both the electric tricycle and the control cabinet have existing structures, and the electric tricycle increases the convenience of movement, and by installing solar panels and wind generators on it, the solar energy and wind energy are used as supplementary power for the battery, reducing the need for charging at home. Time and cost reduction, solar power generation is a relatively mature technology, and its structure is also existing. It is used in this system to supplement energy for the battery and prolong its working time without the need to go home frequently to charge. It can be used in the field for a longer time. The DC water pump is preferably a submersible DC pump, which can be more conveniently submerged into the water intake device when taking water. Photovoltaic power generation can be used during operation and parking operations or idle time to meet farmland flood irrigation, micro sprinkler irrigation, Micro-spray irrigation in the greenhouse, after the operation is completed, it is transported home. When not in use, the stored electric energy can be used to power household lighting and electrical appliances, saving household electricity costs, increasing light energy income, and can also be used as a field emergency power supply. This system is very suitable for the current natural farmland irrigation, as long as there are organic farming roads, it can be used anywhere. It is especially suitable for the water-saving micro-spray irrigation of agricultural greenhouses that are widely used at present. Moreover, there is no need to build a special reservoir, and only the nearby ditches can be used for water irrigation. After the operation is completed, the irrigation equipment can be moved home. The irrigation equipment does not need to be fixedly installed in the outdoor greenhouse, which improves the anti-theft safety of the irrigation equipment and prolongs the service life of the irrigation equipment. One end of the connector is connected to the load end of the charger on the control cabinet through a cable, and the other end is quickly connected to the DC submersible pump through a quick connection plug. Place the pumping pipe at the desired location and connect it to the outlet of the DC submersible pump. The water intake device is placed at an appropriate position in a low-level pool or a placed river, and then the submersible DC pump is placed in the water intake device, and the switch on the control cabinet is activated to pump water. In order to prevent the sand or debris in the water source from blocking the water inlet, a filter is designed to filter. During the irrigation process, due to the electricity or water source concentration, the water flow rate in the system is not enough, so a booster is designed to ensure the pressure. The efficiency of irrigation is guaranteed. The system is simple in structure and realizes mobile irrigation. It moves according to the location of the water source or the location of the water demand, which greatly improves the convenience. Moreover, the use of solar and wind power generation can realize electric energy supplementation, increase the irrigation time, and ensure Irrigation pressure, reducing the cost of household use and charging time, greatly increasing the duration of field work, making irrigation more efficient, and solving the problem that in the existing lifting irrigation process, it is installed in a fixed position for drip irrigation. Due to changes in water levels or different locations where water is required However, effective irrigation cannot be carried out, the efficiency of irrigation is low, and its structure is complicated, and the use cost is high, which is unfavorable for family use.

The system adopts DC low voltage, which has high safety. The system is erected and transported by electric tricycle, which is convenient for transportation. There is no limit to the working place, and water can be lifted in water cellars, deep wells, rivers, lakes, ponds, reservoirs, etc., with strong adaptability. The whole set of mobile multi-energy lifting irrigation system can be used as a transportation tool when it is not in use. The structure Reasonable, the system uses solar power as energy supply, realizes multi-energy complementation and energy storage through the control box, utilizes the clean energy available on site, has no pollution, is safe and reliable, has no noise, no pollution, low failure rate, and is easy to use and maintain And other advantages, especially in places such as mountainous areas with diverse terrains and rural agricultural production far away from residential areas, it has a very unique role. The system can effectively use solar energy to realize power generation and irrigation of agriculture, forestry and pastures, especially in arid and water-deficient areas, which can alleviate the adverse effects of dry season and drought on people's production and life.

The wind generator includes an outer cylinder with a hollow interior and openings at both ends, the outer cylinder is composed of a cylinder one 10 and a cylinder two 12, the outer wall of the cylinder one 10 is fixed to the top surface of the electric tricycle, the cylinder one 10 and the cylinder two Body two 12 are all trumpet-shaped structures, and the size of the smaller end of the opening in the cylinder one 10 is the same as the size of the smaller end of the cylinder two 12, and the two ends are connected to each other to form an integral structure. The inner cavity of 10 is provided with a bracket 4, the bracket 4 is fixed to the inner wall of the cylinder-10, the stator 8 is arranged in the bracket 4, the rotor 9 is arranged in the stator 8, and the air guide with a hollow inside and an open end is installed on the bracket 4. Tube 13, the profile of air guide tube 13 is conical shape, and its open end is the smaller end of cone end face and toward cylinder body two 12, stator 8 and rotor 9 are all arranged in the inner cavity of air guide tube 13, The air guide tube 13, the rotor 9 and the stator 8 are all arranged inside the cylindrical body 10, the air guide tube 13 is provided with an air guide cap 2, the air guide cap 2 is arranged on the end face of the air guide tube 13 away from the open end, and the air guide cap 2 is curved It is arc-shaped, and the air guide cap 2 completely covers the end surface of the air guide tube 13 away from the open end. The rotor 9 is provided with a rotating shaft 6, and the rotating shaft 6 passes through the rotor 9 and the air guide tube 13, and the rotating shaft 6 passes through the open end of the air guide tube 13. Through, the center line of rotating shaft 6 is parallel to the center line of air guiding tube 13, bearing one 3 and bearing two 11 are sleeved on the outer wall of rotating shaft 6, bearing one 3 is fixed with the inner wall of air guiding tube 13, bearing two 11 is connected with cylinder The inner wall of the body two 12 is fixed, the rotor 9 is arranged between the bearing one 3 and the bearing two 11, the outer wall of the rotating shaft 6 is fitted with a turbine blade 7, the turbine blade 7 is arranged between the bearing two 11 and the rotor 9, the turbine blade 7 It is arranged inside the cylinder body 12, and the inner wall of the cylinder body 10 is provided with a plurality of diversion groove plates 1, and the end of the diversion groove plate 1 facing the center line of the cylinder body 10 is parallel to the inner wall surface of the cylinder body 10, and the guide The air duct 13, the rotor 9 and the stator 8 are all arranged at the center of the area formed by the diversion trough plate 1; guide wings 5 are installed on the outer wall of the cylinder body 2 12, and the guide wings 5 completely cover the cylinder body 2 in the radial direction. The outer wall of 12 is connected with the outer wall of cylinder one 10 again. Generally, wind power generation is a large-scale generator set, which is installed in a place with strong natural wind to generate power. When the vehicle is moving, especially the electric tricycle is moving to generate wind and natural wind. This energy is usually wasted. It is not utilized, but this scheme uses the wind force generated by the driving motion of the electric tricycle and the natural wind force as the power to promote the rotation of the turbine blades to drive the rotor to run and generate electricity. In this scheme, the outer cylinder structure formed by cylinder one 10 and cylinder two 12 is conical funnel-shaped, which is dispersed after extrusion to increase wind speed and wind pressure to achieve the purpose of increasing power. The two cylinders with the same end surface size are connected as an integral structure, which makes it easier to control and increase the wind speed and wind pressure in the inner cavity of the outer cylinder, which has a greater impact on the blades and higher blade rotation efficiency. The blades are in contact with the wind. Components, the turbine blade 7 is an existing structure, and the turbine blade 7 increases the wind receiving surface. Add diversion groove plate 1 as deflector on the inner wall of the cylinder to form a whirlwind, increase the rotational shear force, increase the speed and rotational power of the fan, and achieve the ability to increase power generation. The guide vane 5, rotor 9 and stator 8 are all existing It has a structure and can be directly purchased on the market. The power of the rotor 9 and the stator 8 is 300W to 600W. The guide vane 5 is also called a steering device. Wind direction, so as to maximize wind energy. Generally, almost all wind generators use the guide vane 5 to control the windward direction of the wind rotor. The material of the guide wing 5 is usually galvanized thin steel plate. The bracket 4 adopts a three-pronged bracket, and the air guide cap 2 is used to prevent the wind from entering the rotor 9 and the stator 8, so as to avoid the wind force generated during the high-speed movement of the vehicle or the wind force generated by nature, and the dust or liquid inside it enters into the rotor 9 and the stator 8. Between the rotor 9 and the stator 8, the equipment is damaged, and at the same time, the wind force is guided. The arc structure of the air guide cap 2 is used to make the impact of the wind force on the surface of the air guide cap 2 small, and the wind force is guided away along the arc surface. The air duct 13, the cone-shaped air guide duct 13 enables the wind force to transition smoothly from its surface, reduces the impact of the wind force on it, and ensures the wind direction and wind speed, so that the flow direction of the wind force received by the turbine blade 7 is more concentrated, and the impact more intense. The bearing is used to support the rotation of the rotating shaft 6, so that the rotating shaft 6 is more smooth during the rotation process, and it is more convenient to drive the rotating shaft 6 to rotate when the turbine blade 7 rotates under the action of wind, reducing friction between parts and reducing energy consumption.

The above is only a preferred embodiment of the utility model, and does not limit the utility model in any form. Any simple modification or equivalent change made to the above embodiments in essence according to the technology and method of the utility model, All fall within the protection scope of the present utility model.

Claims (3)

1. null1. irrigate by lifting water to a higher level with a water pump, etc. system based on the multiple-energy-source irrigating by lifting water to a higher level with a water pump, etc. efficiency，It is characterized in that: include electro-tricycle，Described electro-tricycle is provided with accumulator、Solar panel and switch board，And solar panel is arranged on the end face of electro-tricycle，Accumulator and solar panel are all connected with switch board，Solar panel is connected with accumulator，Electro-tricycle is provided with wind-driven generator，And wind-driven generator is arranged on the end face of electro-tricycle，Wind turbine power generation machine is connected with accumulator and switch board simultaneously，Electro-tricycle is provided with DC water pump，Connect on DC water pump and have adapter，Adapter is connected with DC water pump and switch board simultaneously，Connect on described DC water pump and have lifting pipe，Lifting pipe has aerosol apparatus away from one end connection of DC water pump，DC water pump connects supercharger and filter，And supercharger is connected with accumulator，Connect on described lifting pipe and have fertilizer tank，And between fertilizer tank and lifting pipe, it is provided with check valve，Check valve connects with fertilizer tank and lifting pipe simultaneously，And check valve can completely cut through the connection between fertilizer tank and lifting pipe，Fertilizer tank connects air pump，And air pump is connected with switch board and accumulator simultaneously.
2. nullThe most according to claim 1 irrigate by lifting water to a higher level with a water pump, etc. system based on the multiple-energy-source irrigating by lifting water to a higher level with a water pump, etc. efficiency，It is characterized in that: described wind-driven generator includes the urceolus of inner hollow and both ends open，Urceolus is made up of cylinder one (10) and cylinder two (12)，The outer wall of cylinder one (10) is fixed with the end face of electro-tricycle，Cylinder one (10) and cylinder two (12) are all in horn-like structure，And equivalently-sized and these two ends of the size of the less one end of cylinder one (10) split shed one end less with cylinder two (12) split shed are connected to each other as a whole structure，Support (4) it is provided with in the inner chamber of cylinder one (10)，The inwall of support (4) and cylinder one (10) is fixed，Support (4) is provided with stator (8)，Stator (8) is provided with rotor (9)，The ventilating duct (13) of inner hollow and one end open is installed on support (4)，The profile of ventilating duct (13) is cone shape，And its opening is one end that cone end face is less and towards cylinder two (12)，Stator (8) and rotor (9) are arranged in the inner chamber of ventilating duct (13)，Ventilating duct (13)、It is internal that rotor (9) and stator (8) are arranged at cylinder one (10)，Wind-guiding cap (2) it is provided with on ventilating duct (13)，Wind-guiding cap (2) is arranged on ventilating duct (13) away from the end face of opening，And wind-guiding cap (2) is bent into arc，Wind-guiding cap (2) is completely covered the ventilating duct (13) end face away from opening，Rotor (9) is provided with rotating shaft (6)，Rotating shaft (6) passes rotor (9) and ventilating duct (13)，And rotating shaft (6) passes from the opening of ventilating duct (13)，The centrage of rotating shaft (6) and the centerline parallel of ventilating duct (13)，Bearing one (3) and bearing two (11) it is sheathed with on the outer wall of rotating shaft (6)，The inwall of bearing one (3) and ventilating duct (13) is fixed，The inwall of bearing two (11) and cylinder two (12) is fixed，Rotor (9) is arranged between bearing one (3) and bearing two (11)，Turbo blade (7) it is sheathed with on the outer wall of rotating shaft (6)，Turbo blade (7) is arranged between bearing two (11) and rotor (9)，It is internal that turbo blade (7) is arranged on cylinder two (12)，Cylinder one (10) if inwall on be provided with dry tablet guiding gutter plate (1)，Water conservancy diversion frid (1) is parallel with the internal face of cylinder one (10) towards one end of cylinder one (10) centrage，Ventilating duct (13)、Rotor (9) and stator (8) are arranged at the regional center that water conservancy diversion frid (1) is formed；Guide vane (5) is installed on the outer wall of described cylinder two (12), and guide vane (5) outer wall of cylinder two (12) is completely covered diametrically after again outer wall with cylinder one (10) be connected.
3. The most according to claim 1 irrigate by lifting water to a higher level with a water pump, etc. system based on the multiple-energy-source irrigating by lifting water to a higher level with a water pump, etc. efficiency, it is characterised in that: described filter is gravel filter, and gravel filter is completely covered the water inlet of DC water pump.