WO2014023084A1

WO2014023084A1 - Fan blade driving apparatus of energy saving generator

Info

Publication number: WO2014023084A1
Application number: PCT/CN2013/000936
Authority: WO
Inventors: 杨青山
Original assignee: Yang Qingshan
Priority date: 2012-08-09
Filing date: 2013-08-09
Publication date: 2014-02-13
Also published as: WO2014023102A1; CN102820737A

Abstract

Disclosed is a fan blade driving apparatus of an energy saving generator, comprising a magnetic suspension revolving-hub rotating apparatus (1), a rotating arc (2), a fan blade (3), an operating track (4), a rotating shaft (5), a magnetic suspension rotating auxiliary-driving apparatus (6), a steel plate platform (7), a first bearing support (8), a second bearing support (8-1), a first inertia gear (9), a second inertia gear (9-1), a first energy-storage generator (10), a second energy-storage generator (10-1), a digital control lightning protection apparatus (11), a speed acceleration gearbox (12), a main generator (13), a lithium battery (14), an integrated conducting wire transmitter (15), a conducting wire (16), a fan-shaped helical gear (17), an auxiliary motor (18), a digital control adjusting turntable (19), a supporting steel tube (20), a generator (21), a hollow driving shaft (22), an amorphous-silicon photovoltaic electroplate (23), a steel plate (24), a lubricating pump (25), and a bearing. The amorphous-silicon photovoltaic electroplate (23) is adopted to provide standby energy sources for the magnetic suspension revolving-hub rotating apparatus (1) and the auxiliary motor (18), which changes limitations of the fan blade driving apparatus.

Description

Wind blade driving device for energy-saving generator

The invention belongs to the technical field of energy-saving generators, and in particular relates to a blade driving device for an energy-saving generator. Background technique

At present, with the development of modern industry, the electricity consumption of various industries has increased substantially. The global energy crisis, such as thermal power generation, consumes a lot of mineral resources, which also leads to environmental pollution. Therefore, energy conservation, sustainable development, and full use. Renewable energy has become the theme given by the modern era. For example, the combination of wind energy renewable energy and photovoltaic power generation generators, wind turbines and solar energy generators are now commonly used to start with wind and solar energy, without wind. How long can't it turn, it stops, because the generator is often in a stopped state below the secondary wind, and because it is limited by natural conditions, it can't guarantee that it is windy within 24 hours. Wind turbines are basically in every It can generate electricity from 3 meters to 6 meters in a second. The damage to the generator is serious when the grounding stops, the power quality is poor, and the voltage is unstable. It is difficult to adjust the load of the national power grid, so it is not convenient to connect to the national grid. Summary of the invention

An object of the embodiments of the present invention is to provide a blade driving device for an energy-saving generator, which aims to solve the problem that the output rate of the generator is not high and the output power is unstable in the prior art. The embodiment of the present invention is implemented by the blade driving device of the energy-saving generator, and the blade driving device of the energy-saving generator comprises: a magnetic suspension hub rotating device, a rotating arc, a fan blade, a running track, a rotating shaft, and a magnetic levitation Rotary assist device, steel plate platform, first bearing support, second bearing support, first inertial gear, second inertial gear, first energy storage generator, second energy storage generator, numerical control lightning protection device, Speed increasing gear box, main generator, lithium battery, integrated wire conveyor, wire, sector helical gear, auxiliary motor, CNC adjusting turntable, supporting steel pipe, generator, hollow drive shaft, amorphous silicon photovoltaic panel, steel plate, Lubricate the pump and bearing;

The magnetic levitation hub rotating device is disposed at the leftmost end of the blade driving device, the arcing is disposed on the magnetic levitation hub rotating device, the blade is disposed on the rotating arc, the trajectory of the blade is matched with the running track, and the main generator is set in the wind At the right end of the blade drive device, the main generator is connected to the magnetic levitation hub rotating device, and the rotating shaft is disposed between the main generator and the magnetic levitation hub rotating device, and the magnetic levitation rotary assisting device, the first inertial gear, and the second are disposed on the rotating shaft The inertia gear, the steel plate platform is disposed below the rotating shaft, and the first bearing support and the second bearing support are disposed on the left and right sides of the steel plate platform, and the left side of the first bearing support is provided with a magnetic suspension rotary assisting device, first The inertia gear is disposed on the right side of the first bearing support;

The first energy storage generator, the second energy storage generator and the auxiliary motor are disposed under the first inertia gear and the second inertia gear, and the second inertia gear is disposed on the left side of the second bearing support, and the second energy storage power generation The machine and the auxiliary motor are disposed under the second inertia gear, the sector helical gear is connected to the auxiliary motor, and the first energy storage generator and the second energy storage generator are respectively connected to the first inertia gear and the second inertia gear, the first inertia gear and The second inertia gear is connected with the sector helical gear, the numerical control lightning protection device is arranged at the upper end of the steel plate platform, the speed increasing gear transfer box is arranged at the middle position of the steel plate platform, and the integrated wire transmission device is installed on the right side of the steel plate platform to connect the lithium battery;

A steel plate is arranged below the steel plate platform, a numerical control adjustment turntable is arranged between the steel plate platform and the steel plate, a support steel pipe is arranged below the steel plate, a hollow shaft is arranged below the steel plate, and is connected with the speed increasing gear transfer box, and the generator is connected to the hollow shaft, in the hollow On one side of the shaft, a lubricating pump is arranged on the supporting steel pipe, and the amorphous silicon photovoltaic electric plate is arranged on the supporting steel pipe.

Further, the main generator is connected to the magnetic levitation hub rotating device through a rotating shaft.

Further, the integrated wire transmitter connects the lithium battery through a wire.

Further, a plurality of support steel pipes arranged in a matrix are provided below the steel sheet.

Further, the generator is connected to the speed increasing gear transfer box through the hollow shaft.

Further, the amorphous silicon photovoltaic panel is placed on the support steel pipe by bundling. Further, the fan drive device of the energy-saving generator further comprises: a resistance clutch, an inverter, a frequency converter, a voltage regulator, and a rectifier;

The first energy storage generator, the second energy storage generator and the main generator are connected to the voltage regulator, the voltage regulator is connected to the rectifier, the inverter and the frequency converter, the rectifier is connected to the lithium battery, and the resistance clutch is set in the lithium battery and the inverter Between the lithium battery is connected to the inverter and the inverter is connected to the auxiliary motor.

Further, the main generator is connected to the regulator through a wire.

Further, the lithium battery is connected to the inverter through a resistance clutch.

The blade driving device of the energy-saving generator provided by the invention uses the photovoltaic energy and the wind air kinetic energy, the mechanical energy as the power source, mutually assists, complements each other, and combines the new energy to generate electricity. The generator of the present invention is clean and environmentally friendly, breaking the limitation of utilizing a single wind power and solar power generation. The present invention resides in the operation of power generation by driving the blades with photovoltaic storage and electric energy in the absence of wind and the sun. In the energy-saving generator of the present invention, the quality of the emitted electricity is not constantly regulated by the large power grid. In addition, the continuous electric power of the present invention is stable in quality, simple in manufacture, and wide in use, and is suitable for installation in various places, and can produce large and small products. DRAWINGS

1 is a schematic structural diagram of a blade driving device for an energy-saving generator according to an embodiment of the present invention; FIG. 2 is a schematic diagram of control of an integrated wire circuit according to an embodiment of the present invention;

In the figure: 1. Magnetic suspension hub rotating device; 2. Arcing; 3. Wind blade; 4. Running track; 5. Rotating shaft; 6. Magnetic suspension rotary assisting device; 7. Steel plate platform; 8. First bearing branch 8-1, second bearing support; 9, first inertia gear; 9-1, second inertial gear; 10, first energy storage generator; 10-1, second energy storage generator; 1 1 , CNC lightning protection device; 12, speed increasing gear transfer box; 13, the main generator; 14, lithium battery; 15, integrated wire transmitter; 16, wire; 1 7, sector helical gear; 18, auxiliary motor; 19, CNC 20, support steel pipe; 21, generator; 22, hollow drive shaft; 23, amorphous silicon photovoltaic panel; 24, steel plate; 25, lubrication pump; 26, resistance clutch; 27, inverter; Inverter; 29, voltage regulator; 30, rectifier. detailed description

In order to make the objects, technical solutions and advantages of the present invention more comprehensible, the present invention will be further described in detail below with reference to the embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 shows the structure of a blade drive device of an energy-saving generator provided by the present invention. For the convenience of description, only the parts related to the present invention are shown. A blade driving device for an energy-saving generator according to an embodiment of the present invention, the blade driving device of the energy-saving generator includes: a magnetic suspension hub rotating device, a rotating arc, a blade, a running track, a rotating shaft, a magnetic suspension rotating assist device, and a steel plate Platform, first bearing support, second bearing support, first inertial gear, second inertial gear, first energy storage generator, second energy storage generator, numerical control lightning protection device, speed increasing gear transfer box, main power generation Machine, lithium battery, integrated wire conveyor, wire, sector helical gear, auxiliary motor, CNC adjustment turntable, supporting steel pipe, generator, hollow drive shaft, amorphous silicon photovoltaic panel, steel plate, lubrication pump, bearing;

The first energy storage generator, the second energy storage generator and the auxiliary motor are disposed under the first inertia gear and the second inertia gear, and the second inertia gear is disposed on the left side of the second bearing support, and the second energy storage power generation The machine and the auxiliary motor are disposed under the second inertia gear, the sector helical gear is connected to the auxiliary motor, and the first energy storage generator and the second energy storage generator are respectively connected to the first inertia gear and the second inertia gear, the first inertia gear and The second inertial gear is connected with the sector helical gear, and the numerical control lightning protection device is arranged at the upper end of the steel plate platform. The speed increasing gear transfer box is arranged in the middle position of the steel plate platform, and the integrated wire transfer device is installed on the right side of the steel plate platform to connect the lithium battery;

As an optimization of the embodiment of the invention, the main generator is coupled to the magnetic levitation hub rotating device via a rotating shaft.

As an optimization scheme of the embodiment of the present invention, the integrated wire transmitter connects the lithium battery through a wire. As an optimization scheme of the embodiment of the present invention, a plurality of matrix-arranged supporting steel tubes are disposed under the steel plate.

As an optimization of the embodiment of the invention, the generator is connected to the speed increasing gear transfer box through the hollow shaft. As an optimization of the embodiment of the present invention, the amorphous silicon photovoltaic panel is placed on the supporting steel pipe by bundling.

As an optimization scheme of the embodiment of the present invention, the fan drive device of the energy-saving generator further includes: a resistor clutch, an inverter, a frequency converter, a voltage regulator, and a rectifier;

As an optimization of the embodiment of the invention, the main generator is connected to the voltage regulator via a wire.

As an optimization scheme of the embodiment of the invention, the lithium battery is connected to the inverter through a resistance clutch. The application principle of the present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

As shown in FIG. 1, the blade driving device of the energy-saving generator of the present invention mainly comprises: a magnetic suspension hub rotating device 1, a rotating arc 2, a wind blade 3, a running rail 4, a rotating shaft 5, a magnetic suspension rotating assisting device 6, a steel plate The platform 7, the first bearing support 8, the second bearing support 8-1, the first inertia gear 9, the second inertial gear 9-1, the first energy storage generator 10, and the second energy storage generator 10-1 , CNC lightning protection device 1 1 , speed increasing gear The transfer box 12, the main generator 13, the lithium battery 14, the integrated wire conveyor 15, the wire 16, the sector helical gear 17, the auxiliary motor 18, the numerical control adjusting turntable 19, the supporting steel pipe 20, the generator 2, the hollow drive shaft 22, The amorphous silicon photovoltaic panel 23, the steel plate 24, the lubrication pump, the 25 bearing, the resistance clutch 26 are composed; the magnetic suspension hub rotating device 1 is disposed at the leftmost end of the blade driving device, and the turning element 2 is disposed on the magnetic levitation hub rotating device 1 The wind blade 3 is disposed on the arc 2, and the movement track of the blade 3 cooperates with the running track 4 to ensure the safety of the blade 3 during operation. The main generator 13 is disposed at the right end of the blade driving device, and the main power generation The machine 13 is connected to the magnetic levitation hub rotating device 1 via a rotating shaft 5, and the rotating shaft 5 is disposed between the main generator 13 and the magnetic levitation hub rotating device 1. The rotating shaft 5 is provided with a magnetic levitation rotary assisting device 6, and a first inertial gear 9. a second inertia gear 9-1, the steel plate platform 7 is disposed below the rotating shaft 5, and the first bearing support 8 and the second bearing support 8-1 are disposed on the left and right sides of the steel plate platform 7, the first bearing support Magnetic on the left side of 8 The floating rotary assisting device 6 is disposed on the right side of the first bearing support 8, and the first energy storage generator 10, the second energy storage generator 10-1 and the auxiliary motor 18 are disposed at the first inertia Below the gear 9 and the second inertia gear 9-1, the second inertia gear 9-1 is disposed on the left side of the second bearing holder 8-1, and the second energy storage generator 10-1 and the auxiliary motor 18 are disposed at the Below the two inertia gears 9-1, the sector-shaped helical gears 17 are connected to the auxiliary motor 18, and the first energy storage generator 10 and the second energy storage generator 10-1 are connected to the first inertia gear 9 and the second inertia gear 9-1, respectively. The first inertia gear 9 and the second inertia gear 9-1 are connected to the sector helical gear, the numerical control lightning protection device 1 1 is disposed at the upper end of the steel plate platform 7, and the speed increasing gear transfer box 12 is disposed at the middle position of the steel plate platform 7, the integrated wire The transmitter 15 is mounted on the right side of the steel plate platform 7, and is connected to the lithium battery 14 through the wire 16;

A steel plate 24 is disposed below the steel plate platform, and a numerical control adjusting turntable 19 is disposed between the steel plate platform 7 and the steel plate 24. A plurality of matrix-arranged supporting steel pipes 20 are disposed below the steel plate 24, and the hollow shaft 22 is disposed below the steel plate 24, and is increased. The speed gear box 12 is connected, the generator 21 is connected to the hollow shaft 22, and on one side of the hollow shaft 22, a lubricating pump 25 is disposed on the supporting steel pipe 20, and the amorphous silicon photovoltaic panel 23 is disposed on the supporting steel pipe 20 by bundling;

As shown in FIG. 2, in the control of the integrated lead circuit of the present invention, the main generator 13 is connected to the voltage regulator 29 through the wires, the first energy storage generator 10 and the second energy storage generator 10-1 are normally generated and the main generator 13 After normal power generation, the lithium battery 14 is automatically disconnected through the resistance clutch 26; then the first energy storage generator 10, the second energy storage generator 10-1, and the main generator 21 supply power to the lithium battery 14, through the regulator ²⁹ rectifier 30 directly supplies power to the lithium battery 14. When the lithium battery 14 is fully loaded, the resistance clutch 26 is automatically disconnected, and the first energy storage generator 10 and the second energy storage generator 10-1 or the main power generation 13 pass through the voltage regulator 29 The auxiliary motor 18 is directly supplied with power through the inverter 28; the working voltage of the lithium battery 14 is: 50 Hz, 380 V, and the lithium battery 14 can select any one of the parts. Here, the thickness of the steel plate 24 is 0.5 mm - 150 mm, and the area is 4 m ^{2 .} -50m ² ; Supported steel pipe 20 diameter: 0.5mm-500mm height is lm, 100m; wind blade 3 length is 0.3m-50m width 0.2m-2m; rotating shaft 5 diameter is 20mm-600mm weight is 5kg-5000kg, rotating The inertia gear on the shaft 5, its weight is: 10kg-20000kg, the auxiliary motor 18 working voltage is 50HZ-380V, the power is 2-110KW. The magnetic suspension rotating device 1 is working at 220V-720V, the energy storage generator The working voltage is 50Hz-380V and the power is 3KW-150KW;

The working principle of the invention:

The blade drive device of the energy-saving generator of the present invention converts the absorbed photovoltaic energy into electric energy by using the amorphous silicon photovoltaic plate 23, and uses the magnetic suspension hub rotating device 1 and the auxiliary motor 18 as the auxiliary power source, and The rotating shaft 5 is mounted with a plurality of inertia gears, at least two energy storage generators, and the gearbox of the sector helical gear 17 is connected to the inertia gear, wherein an inertia gear has an auxiliary motor 18; the energy storage generator is installed, The voltage regulation, rectification, inverter and frequency conversion components are used to directly supply the auxiliary motor 18 and supply power to the magnetic suspension hub rotating device 1. Below the steel plate platform 7, a rotary turntable 19 is provided, and the rotary turntable 19 is installed in one Below the steel plate platform 7, the numerically controlled lightning protection device 11 mounted on the steel plate platform 7 is remotely controlled to rotate the numerically controlled rotary rotating disk 19 to move all the devices presented by the steel plate platform 7, so that the wind direction of the wind blade 3 is adjusted, so that the wind blade 3 is always kept in the direction of the wind flow rate. Vertical, at this time the arm is large and the starting torque is minimum.

The speed-increasing gear box 12 mounted on the steel plate 7 is connected to the generator 21 through the hollow drive shaft 22, and the amorphous silicon photovoltaic plate 23 is fixedly attached to the plurality of supporting steel pipes 20 by bundling, which is convenient to install. The overall area of the photovoltaic panel is L, close to the lithium battery 14, directly transmitted to the regulator 29 through the wire 16 and then into the rectifier 30, charging the lithium battery 14, when there is no wind, the initial start, by the lithium battery The pool group 14 is connected to the inverter 27 through the automatic resistance clutch 26, and then enters the inverter 28 to directly supply power to the auxiliary motor 18, when the first energy storage generator 10, the second energy storage generator 10-1 and the main After the generator 13 is working normally, the lithium battery 14 is automatically disconnected through the resistance clutch 29, and the first energy storage generator 10 and the second energy storage generator 10-1 also include the main generator 13 connected through the wire 16 with a transmission button. The inverter 29 then directly supplies power to the magnetic levitation hub rotating device 1 on the magnetic levitation hub rotating device 1 and the steel plate platform 7, and the magnetic levitation rotary assisting device on the rotating shaft 5, while supplying power to the auxiliary motor 18.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope.

Claims

claims

1. A fan blade driving device of an energy-saving generator, characterized in that the fan blade driving device of the energy-saving generator includes: a magnetic levitation hub rotation device, a rotating arc, a fan blade, a running track, a rotating shaft, and a magnetic levitation rotation assist. Device, steel plate platform, first bearing support, second bearing support, first inertia gear, second inertia gear, first energy storage generator, second energy storage generator, CNC lightning protection device, speed increasing gear box , main generator, lithium battery, integrated wire transmitter, wire, sector helical gear, auxiliary motor, CNC adjustment turntable, support steel pipe, generator, hollow drive shaft, amorphous silicon photovoltaic panel, steel plate, lubrication pump, bearing· ,

The magnetic levitation hub rotating device is set at the leftmost end of the fan blade driving device. The rotating arc is set on the magnetic levitation hub rotating device. The fan blades are arranged on the rotating arc. The motion trajectory of the fan blades matches the running track. The main generator is set on the wind blade. At the far right end of the blade drive device, the main generator is connected to the magnetic levitation hub rotating device. The rotating shaft is arranged between the main generator and the magnetic levying hub rotating device. The rotating shaft is provided with a magnetic levitation rotating assist device, a first inertia gear, a second Inertia gear, the steel plate platform is arranged below the rotating shaft, the first bearing support and the second bearing support are arranged on the left and right sides of the steel plate platform, the left side of the first bearing support is equipped with a magnetic levitation rotation assist device, the first The inertia gear is arranged on the right side of the first bearing support;

The first energy storage generator, the second energy storage generator and the auxiliary motor are arranged below the first inertia gear and the second inertia gear. The second inertia gear is arranged on the left side of the second bearing support. The second energy storage generator The auxiliary motor and the auxiliary motor are arranged below the second inertia gear. The sector helical gear is connected to the auxiliary motor. The first energy storage generator and the second energy storage generator are respectively connected to the first inertia gear and the second inertia gear. The first inertia gear and The second inertial gear is connected to the sector helical gear. The CNC lightning protection device is set at the upper end of the steel plate platform. The speed-increasing gear box is set in the middle of the steel plate platform. The integrated wire transmitter is installed on the right side of the steel plate platform and connected to the lithium battery;

A steel plate is set below the steel plate platform, a CNC adjustment turntable is set between the steel plate platform and the steel plate, a supporting steel pipe is set below the steel plate, a hollow shaft is set below the steel plate, connected to the speed-increasing gear box, and the generator is connected to the hollow shaft. On one side of the shaft, a lubrication pump is installed on the supporting steel pipe, and an amorphous silicon photovoltaic panel is installed on the supporting steel pipe.

2. The fan blade driving device of the energy-saving generator according to claim 1, characterized in that the main generator is connected to the magnetic levitation hub rotating device through a rotating shaft.

3. The fan blade driving device of the energy-saving generator according to claim 1, characterized in that the integrated wire transmitter is connected to the lithium battery through wires.

4. The fan blade driving device of an energy-saving generator as claimed in claim 1, characterized in that a plurality of supporting steel pipes arranged in a matrix are provided below the steel plate.

5. The fan blade driving device of the energy-saving generator according to claim 1, characterized in that the generator is connected to the speed-increasing gear box through a hollow shaft.

6. The fan blade driving device of the energy-saving generator according to claim 1, characterized in that the amorphous silicon photovoltaic panels are arranged on the supporting steel pipes by bundling.

7. The fan blade driving device of the energy-saving generator according to claim 1, characterized in that the fan blade driving device of the energy-saving generator further includes: a resistance clutch, an inverter, a frequency converter, a voltage regulator, and a rectifier;

The first energy storage generator, the second energy storage generator and the main generator are connected to the voltage regulator, the voltage stabilizer is connected to the rectifier, inverter and frequency converter, the rectifier is connected to the lithium battery, and the resistance clutch is set between the lithium battery and the inverter. Between them, the lithium battery is connected to the inverter and the frequency converter is connected to the auxiliary motor.

8. The fan blade driving device of an energy-saving generator according to claim 7, characterized in that the main generator is connected to the voltage regulator through a wire.

9. The fan blade driving device of an energy-saving generator according to claim 7, characterized in that the lithium battery is connected to the inverter through a resistance clutch.