CN219220626U - Natural energy power generation device capable of providing power by extruding air - Google Patents

Abstract

The utility model provides a natural energy power generation device for providing power by extruding air, and belongs to the technical field of generators. The problems that the existing generator is large in power generation resistance and good power generation benefit cannot be obtained are solved. The power generation device comprises a frame, a generator, a gearbox, a power generation wheel disc and a wind power generation component, wherein the generator, the gearbox, the power generation wheel disc and the wind power generation component are arranged on the frame, the wind power generation component is used for providing rotary power for the power generation wheel disc, the lateral rotation of the power generation wheel disc is arranged on the frame, an input shaft is fixedly connected with the gearbox in a butt joint mode on the side face of the power generation wheel disc, the gearbox is used for converting power input by the input shaft at a speed and then outputting the converted power to the generator through an output shaft to complete a power generation function, and the wind power generation component comprises a plurality of inner wind bucket blades with air inlets. Compared with the prior art, the power generation device can form the simulated whipped top with water to enable the top to rotate to provide power for power generation, and the power generation benefit is very good because the top has high external resistance.

Description

Natural energy power generation device capable of providing power by extruding air

Technical Field

The utility model belongs to the technical field of generators, and relates to a natural energy power generation device for providing power by extruding air.

Background

The generator is an indispensable tool in the modern human society. At present, a small-scale household generator generally adopts wind energy or water energy to automatically finish the power generation function, and the resistance benefit is large after more components are provided, so the power generation benefit is not good in practice. Therefore, the development and development of the generator field have been continued for the purpose of minimizing energy loss.

Disclosure of Invention

The utility model aims to solve the problem that the existing generator is large in generation resistance and cannot obtain good generation benefit, and provides a natural energy generating device for providing power by extruding air.

The aim of the utility model can be achieved by the following technical scheme:

a natural energy power generation device powered by compressed air, characterized in that: including the frame and set up generator, gearbox, generating wheel dish and be used for providing the wind power generation part of rotation power to generating wheel dish in the frame, generating wheel dish side direction rotates and sets up in the frame, generating wheel dish's side be fixed with the input shaft of gearbox butt joint, the gearbox is with the power of input shaft input accomplish the generating function in the generator through output shaft output after the speed conversion, wind power generation part includes a plurality of interior wind bucket blades that have the air intake, the air intake of interior wind bucket blade is towards one side that wind energy blown through, interior wind bucket blade is circumference form and arranges at generating wheel dish periphery circle.

In the natural energy power generation device for providing power by extruding air, the natural energy power generation device further comprises a hydroelectric power generation component, wherein the hydroelectric power generation component comprises a bracket, an induced rotor, a driving shaft, a driving wheel, a transmission belt, a shaking wheel and a bottom of the hydraulic wheel, wherein the induced rotor, the driving shaft, the driving wheel, the transmission belt, the shaking wheel and the bottom of the hydraulic wheel are arranged in a water flow in a lateral rotating mode relative to the bracket, a first crank is fixedly arranged on the lateral side of the hydraulic wheel, a second crank is fixedly arranged on the lateral side of the shaking wheel, a connecting rod is arranged between the first crank and the second crank, the hydraulic wheel transmits rotation power formed by the water flow to the shaking wheel in a double-crank mechanism mode, the shaking wheel transmits power to the driving shaft through the transmission belt, the driving wheel and the induced rotor are coaxially connected through the driving shaft, and the induced rotor is in butt joint with the power generation wheel to transmit power to the power generation wheel.

In the natural energy power generation device for providing power by extruding air, the edge side surface of the wind guiding wheel is provided with a circle of wind guiding ring, the power generation wheel disc is positioned in the wind guiding ring, the outer ring circumference of the wind guiding ring is provided with a plurality of outer wind scooping blades for absorbing wind energy power, the outer wind scooping blades on the wind guiding ring are consistent with the inner wind scooping blades on the power generation wheel disc in orientation, the inner ring circumference of the wind guiding ring is provided with a plurality of shaking blades, the shaking blades generate air flow along with the rotation action of the wind guiding ring, and air kinetic energy generated by the air flow provides power for the inner wind scooping blades in the shaking blades so that the power generation wheel disc where the inner wind scooping blades are positioned rotates.

In the natural energy power generation device powered by compressed air, the outer wind scoop blade and the inner wind scoop blade are the same part.

In the natural energy power generation device for providing power by extruding air, each two of the shaking wheels and the hydraulic wheels form a group and are provided with a plurality of groups, and the output power of each group of shaking wheels and hydraulic wheels is transmitted to the driving shaft through a double-crank mechanism.

In the natural energy power generation device powered by compressed air, the plurality of groups of hydraulic wheels are positioned at different positions.

Compared with the prior art, the power generation device converts water energy and wind energy into the intermediate object wind guiding wheel, then the wind guiding wheel rotates and transmits power generated by air circulation to the power generation wheel disc at the center of the wind guiding wheel, a simulated whipped gyroscope (the gyroscope is regarded as the power generation wheel disc in the text) is formed to enable the gyroscope to rotate to provide power generation, and the power generation benefit is very good because the gyroscope has high external resistance.

Drawings

FIG. 1 is a schematic diagram of the structural principle of the present power generation device;

FIG. 2 is a schematic view of the power generation device from another perspective;

in the figure, 1, a generator; 2. a gearbox; 3. a power generation wheel disc; 4. an inner wind scoop blade; 5. an air inlet; 6. an induced draft wheel; 7. a drive shaft; 8. a driving wheel; 9. a transmission belt; 10. a rocking wheel; 11. a hydraulic wheel; 12. a first crank; 13. a second crank; 14. a connecting rod; 15. an induced air ring; 16. an outer wind scoop blade; 17. and (5) shaking the wind blade.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 and 2, this natural energy power generation device through extrusion air power supply includes frame and generator 1, gearbox 2, generating wheel 3 and be used for providing the wind power generation part of rotation power to generating wheel 3 in the frame, generating wheel 3 side direction rotates and sets up in the frame, generating wheel 3's side is fixed with the input shaft with the gearbox butt joint, the gearbox is through the output shaft output to the generator 1 after the power of input shaft input accomplishes the electricity generation function after rate conversion, wind power generation part includes a plurality of interior wind scooper blades 4 that have air intake 5, the air intake 5 of interior wind scooper blade 4 is towards the one side that wind energy blown through, interior wind scooper blade 4 is circumference form and arranges at generating wheel 3 periphery circle.

The most basic scheme is that natural wind energy is blown into the wind scoop blades from the air inlet 5, then the wind scoop blades rotate with the power generation wheel disc 3 where the wind scoop blades are positioned after being stressed, and the power generation wheel disc 3 rotates to transmit power to the gearbox and then output the power to the generator 1 to complete the power generation function.

The power generation device further comprises a hydroelectric power generation component, the hydroelectric power generation component comprises a bracket, and an induced air wheel 6, a driving shaft 7, a driving wheel 8, a transmission belt 9, a shaking wheel 10 and the bottom of a hydroelectric wheel 11 which are arranged in a laterally rotating mode relative to the bracket, wherein the bottom of the hydroelectric wheel 11 is immersed in water flow, a first crank 12 is fixedly arranged in the laterally of the hydroelectric wheel 11, a second crank 13 is fixedly arranged in the laterally of the shaking wheel 10, a connecting rod 14 is arranged between the first crank 12 and the second crank 13, the hydroelectric wheel 11 transmits rotation power formed by water flow to the shaking wheel 10 in a double-crank mechanism mode, the shaking wheel 10 transmits the power to the driving shaft 7 through the transmission belt 9, the driving wheel 8 and the induced air wheel 6 are coaxially connected through the driving shaft 7, and the induced air wheel 6 is in butt joint with the power generation wheel disc 3 so as to transmit the power to the power generation wheel disc 3.

The hydroelectric power generation component converts the other part of power, then finally rotates the induced air wheel 6, and then the reasonable butt joint of the induced air wheel 6 and the power generation wheel disc 3 can transmit the part of power to the power generation wheel disc 3, so that the power generation benefit of the power generation wheel disc 3 is better.

However, the form of the docking of the wind turbine 6 and the power generation wheel 3 is not conventionally performed by parts, but the following non-contact transfer form is adopted.

The edge side of the induced rotor 6 is provided with a circle of induced air ring 15, the power generation wheel disc 3 is positioned in the induced air ring 15, the outer circle circumference of the induced air ring 15 is provided with a plurality of outer wind scoop blades 16 for absorbing wind energy power, the direction of the outer wind scoop blades 16 on the induced air ring 15 is consistent with the direction of the inner wind scoop blades 4 on the power generation wheel disc 3, the inner circle circumference of the induced air ring 15 is provided with a plurality of shaking blades 17, the shaking blades 17 generate air flow along with the rotation action of the induced air ring 15, and the air kinetic energy generated by the air flow provides power for the inner wind scoop blades 4 positioned in the shaking blades 17 so as to enable the power generation wheel disc 3 where the inner wind scoop blades 4 are positioned to rotate.

The main power of the wind guiding wheel 6 is provided by water power, and of course, because a plurality of outer wind scooping blades 16 are also arranged on the outer periphery of the wind guiding wheel 6, the outer wind scooping blades 16 can also provide a certain power to assist in providing the rotation of the wind guiding wheel 6.

The generating wheel disc 3 is located in the induced air ring 15 of the induced air wheel 6, is not in direct contact, but is provided with a circle of shaking blades 17 through the inner side of the induced air ring 15, after the induced air ring 15 rotates, the shaking blades 17 stir air, so that the air circulates, a large amount of air flow is generated, and even the inner wind bucket blades 4 are just at the edges of the stirred air flow, although the inner wind bucket blades 4 are not in contact, the part of air flow can beat the inner wind bucket blades 4, and the generating wheel disc 3 where the inner wind bucket blades 4 are located rotates. This is just as a top, but the top is required to be continuously rotated by a person to whip the top, but the design does not use a whip, but uses an air flow generated by stirring the air ring 15 around the power generation wheel disc 3 to whip the power generation wheel disc 3, so that the power generation wheel disc 3 is continuously rotated.

Because of the characteristics of the top, the top can continuously rotate for a long time after being subjected to a whipping external force, in other words, the resistance of the top is very small, and the top is very good in benefit when being used for generating electricity, so that the energy loss is further reduced.

Therefore, the power generation device actually provides main power by hydraulic power, then provides auxiliary power by wind power, and aims to enable the induced air wheel 6 to turn, then forms air convection, enables the power generation wheel disc 3 to turn by the principle of air extrusion, and finally outputs power to enable the power generator to generate electric energy.

The outer wind scooper blade 16 and the inner wind scooper blade 4 are the same part, so that two dies are not needed to be adopted to process the outer wind scooper blade 16 and the inner wind scooper blade 4 respectively in the production process.

The shaking wheel 10 and the hydraulic wheel 11 form a group and are provided with a plurality of groups, the output power of each group of shaking wheel 10 and hydraulic wheel 11 is transmitted to the driving shaft 7 through a double crank mechanism, and a plurality of groups of hydraulic wheels 11 are positioned at different terrains.

It should be understood that in the claims, the specification of the present utility model, all "including … …" should be interpreted as open-ended meaning that it is equivalent to "at least … …", and not as closed-ended meaning that it should not be interpreted to "include … …" only.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (6)

1. A natural energy power generation device powered by compressed air, characterized in that: including the frame and set up generator, gearbox, generating wheel dish and be used for providing the wind power generation part of rotation power to generating wheel dish in the frame, generating wheel dish side direction rotates and sets up in the frame, generating wheel dish's side be fixed with the input shaft of gearbox butt joint, the gearbox is with the power of input shaft input accomplish the generating function in the generator through output shaft output after the speed conversion, wind power generation part includes a plurality of interior wind bucket blades that have the air intake, the air intake of interior wind bucket blade is towards one side that wind energy blown through, interior wind bucket blade is circumference form and arranges at generating wheel dish periphery circle.

2. A natural energy power generation device powered by squeeze air as claimed in claim 1, wherein: the hydraulic power generation device further comprises a hydraulic power generation component, the hydraulic power generation component comprises a support, and an induced rotor, a driving shaft, a driving wheel, a transmission belt, a shaking wheel and a hydraulic wheel, wherein the induced rotor, the driving shaft, the driving wheel, the shaking wheel and the bottom of the hydraulic wheel are arranged in the water flow in a lateral rotation mode relative to the support, a first crank is fixedly arranged on the lateral direction of the hydraulic wheel, a second crank is fixedly arranged on the lateral direction of the shaking wheel, a connecting rod is arranged between the first crank and the second crank, the hydraulic wheel transmits rotation power formed by the water flow to the shaking wheel in a double-crank mechanism mode, the shaking wheel transmits power to the driving shaft through the transmission belt, and the driving wheel and the induced rotor are coaxially connected through the driving shaft, so that the induced rotor is in butt joint with a power generation wheel to transmit the power to the power generation wheel.

3. A natural energy power generation device powered by squeeze air as claimed in claim 2, wherein: the edge side of induced rotor be equipped with the round induced air ring, the electricity generation rim plate is located the induced air ring, the outer lane circumference of induced air ring is equipped with a plurality of outer wind scoop blades that are used for absorbing wind energy power, and the outer wind scoop blade orientation on the induced air ring is unanimous with the interior wind scoop blade orientation on the electricity generation rim plate, the inner circle circumference of induced air ring is equipped with a plurality of wind blades that shake, shake the blade along with the rotation effect of induced air ring and produce the air current, the air kinetic energy that the air current produced provides power for the interior wind scoop blade that is in shaking the wind blade to make the electricity generation rim plate that interior wind scoop blade is located rotate.

4. A natural energy power generation device powered by squeeze air according to claim 3, wherein: the outer wind scoop blade and the inner wind scoop blade are the same part.

5. A natural energy power generation device powered by compressed air according to any one of claims 2 to 4, wherein: the shaking wheels and the hydraulic wheels are formed into a group and are provided with a plurality of groups, and the output power of each group of shaking wheels and hydraulic wheels is transmitted to the driving shaft through a double-crank mechanism.

6. A natural energy power generation device powered by compressed air according to claim 5, wherein: the multiple groups of hydraulic wheels are positioned at different topography.

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