阅读说明：本技术 一种利用风力摆动发电设备 (Utilize wind-force swing power generation facility ) 是由 雷坚耕 于 2020-05-26 设计创作，主要内容包括：本发明公开了一种利用风力摆动发电设备,包括机体,机体中设有摆动腔,摆动腔下侧设有转动腔,转动腔右侧设有发电腔,机体上侧面固设有固定块,固定块中转动连接有摆动球体,摆动球体中固设有摆动杆,摆动杆上侧固设有固定盘,固定盘上固设有横向板和纵向板,摆动装置包括固定安装在摆动腔下侧壁的气缸体,气缸体中固设有三个圆周分布的主动气缸,摆动腔中设有利用风力摆动的摆动装置,转动腔中设有转动发电的转动装置,发电腔中设有摆动发电的发电装置,此设备能够将风能转化成机械的摆动和转动,有效地利用风能,实现风能高效地转化为电能,增加能源生产。(The invention discloses a power generation device utilizing wind power swing, which comprises a machine body, wherein a swing cavity is arranged in the machine body, a rotating cavity is arranged at the lower side of the swing cavity, a power generation cavity is arranged at the right side of the rotating cavity, a fixed block is fixedly arranged on the upper side surface of the machine body, a swing ball body is rotatably connected in the fixed block, a swing rod is fixedly arranged in the swing ball body, a fixed disc is fixedly arranged on the upper side of the swing rod, a transverse plate and a longitudinal plate are fixedly arranged on the fixed disc, a swing device comprises a cylinder body fixedly arranged on the lower side wall of the swing cavity, three driving cylinders which are distributed in the circumference are fixedly arranged in the cylinder body, a swing device utilizing the wind power swing is arranged in the swing cavity, a rotating device utilizing the rotation power generation is arranged in the rotating cavity, and a power generation device utilizing the swing power generation is arranged in the power generation.)

1. A power generation device utilizing wind power swing comprises a machine body, and is characterized in that: the machine body is internally provided with a swinging cavity, a rotating cavity is arranged on the lower side of the swinging cavity, a power generation cavity is arranged on the right side of the rotating cavity, a fixed block is fixedly arranged on the upper side of the machine body, a swinging ball body is rotatably connected in the fixed block, a swinging rod is fixedly arranged in the swinging ball body, a fixed disc is fixedly arranged on the upper side of the swinging rod, a transverse plate and a longitudinal plate are fixedly arranged on the fixed disc, and a swinging device utilizing wind power to swing is arranged in the swinging cavity; the swing device comprises a cylinder body fixedly arranged on the lower side wall of the swing cavity, three driving cylinders distributed circumferentially are fixedly arranged in the cylinder body, a driving piston is connected in the driving cylinders in a sliding manner, a piston rod is fixedly arranged on the driving piston, a movable connecting rod is hinged to the piston rod, a fixed shaft is hinged to the lower side of the swing rod, a sliding shaft is connected in the fixed shaft in a spline manner, a movable shaft which is rotatably connected between the swing cavity and the rotation cavity is hinged to the lower side of the sliding shaft, a first gear is fixedly arranged on the lower side of the movable shaft, a gas storage body is fixedly arranged on the lower side of the machine body, a communicated gas storage pipe is fixedly arranged on the lower side of the gas storage body, a power generation cylinder is fixedly arranged on the lower side wall of the power generation cavity; the rotating cavity is internally provided with a rotating device for rotating to generate electricity, and the generating cavity is internally provided with a generating set for swinging to generate electricity.

2. A wind power generation apparatus according to claim 1, wherein: the air inlet pipe is communicated with the outside, the air outlet pipe is communicated with the air storage pipe, a balloon is abutted in the air outlet pipe, a balloon is abutted in the air inlet pipe, two spring plates are fixedly arranged in the driving air cylinder, an air outlet spring is connected between each spring plate and the balloon, and an air inlet spring is connected between each spring plate and the balloon.

3. A wind power generation apparatus according to claim 1, wherein: the power generation device comprises a main power generator fixedly mounted on the left side wall of the power generation cavity, a main rotor is arranged in the main power generator, the left side wall of the power generation cavity is connected with a first rotating shaft in a rotating mode through the main rotor, the right side wall of the power generation cavity is connected with a connecting shaft in a rotating mode, the first rotating shaft is provided with a crankshaft rod fixedly arranged on the connecting shaft, a rotating crankshaft is fixedly arranged on the crankshaft rod, a rotating sleeve is rotatably connected onto the rotating crankshaft, a rotating rod is fixedly arranged on the rotating sleeve, a power generation piston is slidably connected into a power generation cylinder, and a power generation rod hinged to the rotating rod is fixedly arranged on the power generation piston.

4. A wind power generation apparatus according to claim 1, wherein: rotating device includes fixed mounting and is in the spring board of rotation chamber lateral wall, the removal axle downside rotates and is connected with two fixed axle sleeves, every the fixed axle is sheathe in and has been set firmly the axle sleeve connecting rod, the axle sleeve connecting rod has set firmly movable axle sleeve, rotate in the movable axle sleeve and be connected with the gliding gear shaft of side wall on the rotation chamber, set firmly in the gear shaft with first gear engagement's second gear, the gear shaft downside articulates there is the movable rod, spline connection has the slide bar in the movable rod, be connected with the slip spring in the movable rod, the slide bar downside articulates there is the second pivot, it has set firmly vice generator to rotate chamber downside wall, be equipped with in the vice generator with second pivot fixed connection's auxiliary rotor.

Technical Field

The invention relates to the field related to wind energy, in particular to a power generation device utilizing wind power swing.

Background

At present, with the development of society, new energy development is more and more important, wherein wind energy is an important usable energy, wind energy is a renewable clean energy, the reserve is large, the distribution is wide, but the energy density is low, and unstable, the wind energy utilization is a comprehensive engineering technology, the kinetic energy of wind is converted into mechanical energy, electric energy and heat energy through a wind turbine, and how to efficiently utilize the wind energy is the direction of continuous research and development of people.

Disclosure of Invention

In view of the technical defects, the invention provides a power generation device utilizing wind power swing, which can overcome the defects.

The invention relates to a power generation device utilizing wind power swing, which comprises a machine body, wherein a swing cavity is arranged in the machine body, a rotating cavity is arranged at the lower side of the swing cavity, a power generation cavity is arranged at the right side of the rotating cavity, a fixed block is fixedly arranged on the upper side of the machine body, a swing ball body is rotatably connected in the fixed block, a swing rod is fixedly arranged in the swing ball body, a fixed disc is fixedly arranged on the upper side of the swing rod, a transverse plate and a longitudinal plate are fixedly arranged on the fixed disc, and a swing device utilizing wind power swing is arranged in the swing cavity; the swing device comprises a cylinder body fixedly arranged on the lower side wall of the swing cavity, three driving cylinders distributed circumferentially are fixedly arranged in the cylinder body, a driving piston is connected in the driving cylinders in a sliding manner, a piston rod is fixedly arranged on the driving piston, a movable connecting rod is hinged to the piston rod, a fixed shaft is hinged to the lower side of the swing rod, a sliding shaft is connected in the fixed shaft in a spline manner, a movable shaft which is rotatably connected between the swing cavity and the rotation cavity is hinged to the lower side of the sliding shaft, a first gear is fixedly arranged on the lower side of the movable shaft, a gas storage body is fixedly arranged on the lower side of the machine body, a communicated gas storage pipe is fixedly arranged on the lower side of the gas storage body, a power generation cylinder is fixedly arranged on the lower side wall of the power generation cavity; a rotating device for rotating to generate electricity is arranged in the rotating cavity, and a generating set for swinging to generate electricity is arranged in the generating cavity.

Preferably, a moving shaft sleeve is rotatably connected to the moving shaft, three moving blocks hinged to the moving connecting rod are fixedly arranged on the moving shaft sleeve, an air outlet pipe and an air inlet pipe are fixedly arranged on each driving cylinder, the air inlet pipe is communicated with the outside, the air outlet pipe is communicated with the air storage pipe, a balloon is abutted to the air outlet pipe, a balloon is abutted to the air inlet pipe, two spring plates are fixedly arranged in the driving cylinders, an air outlet spring is connected between each spring plate and the balloon, and an air inlet spring is connected between each spring plate and the balloon.

Preferably, power generation facility includes fixed mounting and is in the main generator of electricity generation chamber left side wall, be equipped with main rotor in the main generator, electricity generation chamber left side wall with main rotor rotates and is connected with first pivot, electricity generation chamber right side wall rotates and is connected with the connecting axle, first pivot with the bent axle pole has set firmly on the connecting axle, set firmly the rotation bent axle on the bent axle, it is connected with the rotation cover to rotate on the rotation bent axle, the dwang has set firmly on the rotation cover, sliding connection has the electricity generation piston in the electricity generation cylinder, electricity generation piston on set firmly with dwang articulated electricity generation pole.

Preferably, rotating device includes fixed mounting and is in the spring board of rotating the chamber lateral wall, the removal axle downside rotates and is connected with two fixed axle sleeves, every the fixed axle sheathe in and has set firmly the axle sleeve connecting rod, the axle sleeve connecting rod has set firmly movable axle sleeve, rotate in the movable axle sleeve and be connected with the gliding gear shaft of side wall on the rotation chamber, set firmly in the gear shaft with first gear engagement's second gear, gear shaft downside articulates there is the movable rod, spline connection has the slide bar in the movable rod, be connected with sliding spring in the movable rod, the slide bar downside articulates there is the second pivot, the side wall has set firmly vice generator under the rotation chamber, be equipped with in the vice generator with second pivot fixed connection's auxiliary rotor.

The beneficial effects are that: a power generation device utilizing wind power swing is characterized in that a swing device can convert wind into mechanical motion, wind energy is used as power, a rotating device can utilize the wind energy to realize mechanical rotation and convert the mechanical energy into electric energy, a power generation device can convert the mechanical energy of the mechanical motion into the electric energy to realize wind power generation, the device can convert the wind energy into mechanical swing and rotation, the wind energy is effectively utilized, the wind energy is efficiently converted into the electric energy, and the energy production is increased.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall sectional view of a wind power generation apparatus using wind power oscillation according to the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

fig. 4 is a partial enlarged view of the invention at C in fig. 2.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a power generation device utilizing wind power swing, which comprises a machine body 10, wherein a swing cavity 65 is arranged in the machine body 10, a rotating cavity 66 is arranged at the lower side of the swing cavity 65, a power generation cavity 67 is arranged at the right side of the rotating cavity 66, a fixed block 15 is fixedly arranged on the upper side surface of the machine body 10, a swing ball 16 is rotatably connected in the fixed block 15, a swing rod 14 is fixedly arranged in the swing ball 16, a fixed disc 13 is fixedly arranged on the upper side of the swing rod 14, a transverse plate 11 and a longitudinal plate 12 are fixedly arranged on the fixed disc 13, a swing device 68 utilizing wind power swing is arranged in the swing cavity 65, the swing device 68 comprises a cylinder block 23 fixedly arranged on the lower side wall of the swing cavity 65, three driving cylinders 42 distributed circumferentially are fixedly arranged in the cylinder block 23, a driving piston 41 is slidably connected in the driving cylinders 42, and a piston rod 40 is fixedly, articulated on the piston rod 40 have removal connecting rod 39, the 14 downside of swinging arms articulates there is fixed axle 18, the spline connection has sliding shaft 19 in the fixed axle 18, 19 downside of sliding shaft articulates there is swing chamber 65 with rotate the removal axle 21 of connecting between the chamber 66, removal axle 21 downside has set firmly first gear 26, organism 10 downside has set firmly the gas storage body 55, the gas storage body 55 downside has set firmly the gas receiver 54 of intercommunication, the lateral wall has set firmly electricity generation cylinder 44 under the electricity generation chamber 67, electricity generation cylinder 44 with gas pipe 56 has set firmly between the gas storage body 55, be equipped with the rotating device 69 of rotation electricity generation in the rotation chamber 66, be equipped with the power generation facility 70 of swing electricity generation in the electricity generation chamber 67.

Advantageously, a moving shaft sleeve 22 is rotatably connected to the moving shaft 21, three moving blocks 38 hinged to the moving connecting rod 39 are fixedly arranged on the moving shaft sleeve 22, an air outlet pipe 57 and an air inlet pipe 60 are fixedly arranged on each driving cylinder 42, the air inlet pipe 60 is communicated with the outside, the air outlet pipe 57 is communicated with the air storage pipe 54, an air outlet ball 58 is connected to the air outlet pipe 57, an air inlet ball 61 is connected to the air inlet pipe 60, two spring plates 63 are fixedly arranged in the driving cylinders 42, an air outlet spring 59 is connected between each spring plate 63 and the air outlet ball 58, an air inlet spring 62 is connected between each spring plate 63 and the air inlet ball 61, so that when wind blows the transverse plate 11 and the longitudinal plate 12, the transverse plate 11 and the longitudinal plate 12 swing and rotate to drive the fixed plate 13 to rotate to drive the swinging rod 14 to swing and rotate, the swing ball 16 rotates in the fixed block 15, the swing rod 14 drives the fixed shaft 18 and the sliding shaft 19 to swing and rotate, the sliding shaft 19 slides in the fixed shaft 18, the moving shaft 21 moves and rotates, the moving shaft 21 rotates in the moving shaft sleeve 22, the moving shaft sleeve 22 moves, the driving piston 41 is pushed by the piston rod 40 to slide in the driving cylinder 42, the moving connecting rod 39 rotates on the moving block 38 and the piston rod 40, when the driving piston 41 slides, the air pressure in the driving cylinder 42 is changed, the air outlet balloon 58 and the air inlet balloon 61 are respectively pushed, when the air outlet balloon 58 moves, the high pressure in the driving cylinder 42 is discharged into the air storage body 55 through the air outlet pipe 57 and the air storage pipe 54, when the air inlet balloon 61 moves, outside air is sucked into the active cylinders 42 through the intake pipes 60, and high-pressure air in the three active cylinders 42 enters the air reservoir 55.

Advantageously, the power generation device 70 includes a main generator 53 fixedly installed on the left side wall of the power generation cavity 67, a main rotor 52 is installed in the main generator 53, the left side wall of the power generation cavity 67 is rotatably connected with the main rotor 52 by a first rotating shaft 51, the right side wall of the power generation cavity 67 is rotatably connected with a connecting shaft 50, a crank shaft 49 is fixedly installed on the first rotating shaft 51 and the connecting shaft 50, a rotating crank shaft 48 is fixedly installed on the crank shaft 49, a rotating sleeve 47 is rotatably connected on the rotating crank shaft 48, a rotating rod 46 is fixedly installed on the rotating sleeve 47, a power generation piston 43 is slidably connected in the power generation cylinder 44, a power generation rod 45 hinged to the rotating rod 46 is fixedly installed on the power generation piston 43, so that high-pressure gas in the gas storage body 55 enters the power generation cylinder 44 through the gas pipe 56 to push the power generation piston 43 to move the rotating rod 46 relative to the power generation rod 45, the rotating sleeve 47 rotates on the rotating crankshaft 48, and pushes the rotating crankshaft 48 to rotate, so as to drive the first rotating shaft 51 and the main rotor 52 to rotate, and thus the main generator 53 generates power.

Advantageously, the rotating device 69 comprises a spring plate 63 fixedly mounted on the side wall of the rotating cavity 66, two fixed shaft sleeves 24 are rotatably connected to the lower side of the moving shaft 21, a shaft sleeve connecting rod 25 is fixedly mounted on each fixed shaft sleeve 24, a movable shaft sleeve 27 is fixedly mounted on each shaft sleeve connecting rod 25, a gear rotating shaft 28 sliding on the side wall of the rotating cavity 66 is rotatably connected in each movable shaft sleeve 27, a second gear 29 meshing with the first gear 26 is fixedly mounted on the gear rotating shaft 28, a movable rod 31 is hinged to the lower side of the gear rotating shaft 28, a sliding rod 33 is connected in the movable rod 31 in a spline manner, a sliding spring 32 is connected in the movable rod 31, a second rotating shaft 35 is hinged to the lower side of the sliding rod 33, a secondary generator 37 is fixedly mounted on the lower side wall of the rotating cavity 66, a secondary rotor 36 fixedly connected with the second rotating shaft 35 is arranged in the secondary generator 37, so that when the moving shaft 21 rotates, the first gear 26 is driven to rotate, the second gear 29 and the gear rotating shaft 28 are driven to rotate, the movable rod 31 and the sliding rod 33 are driven to rotate, the second rotating shaft 35 and the secondary rotor 36 are driven to rotate, the secondary generator 37 generates electricity, when the moving shaft 21 moves, the gear rotating shaft 28 and the second gear 29 are driven to move through the fixed shaft sleeve 24, the shaft sleeve connecting rod 25 and the movable shaft sleeve 27, and when the second gear 29 is meshed with the spring plate 63, the second gear 29 rotates and rotates around the moving shaft 21.

In the initial state, the oscillating lever 14 is perpendicular to the moving shaft 21, and the sub-generator 37 and the main generator 53 do not generate power.

When the work starts, when wind blows, the transverse plate 11 and the longitudinal plate 12 are blown, the transverse plate 11 and the longitudinal plate 12 swing and rotate, the fixed disc 13 is driven to rotate, the swinging rod 14 is driven to swing and rotate, the swinging ball 16 rotates in the fixed block 15, the swinging rod 14 drives the fixed shaft 18 and the sliding shaft 19 to swing and rotate, the sliding shaft 19 slides in the fixed shaft 18, the moving shaft 21 is driven to move and rotate, the moving shaft 21 rotates in the moving shaft sleeve 22, the moving shaft sleeve 22 is driven to move, the piston rod 40 drives the driving piston 41 to slide in the driving cylinder 42, the moving connecting rod 39 rotates on the moving block 38 and the piston rod 40, when the driving piston 41 slides, the air pressure in the driving cylinder 42 is caused to change, the air outlet ball 58 and the air inlet ball 61 are respectively pushed, when the air outlet ball 58 moves, the high pressure in the driving cylinder 42 is discharged into the air storage body 55 through the air outlet pipe 57 and the, when the air inlet ball 61 moves, the outside air is sucked into the driving cylinders 42 through the air inlet pipe 60, the high-pressure air in the three driving cylinders 42 enters the air storage body 55, the high-pressure air in the air storage body 55 enters the power generation cylinder 44 through the air delivery pipe 56, the power generation piston 43 is pushed to move, the rotating rod 46 rotates relative to the power generation rod 45, the rotating sleeve 47 rotates on the rotating crankshaft 48, the rotating crankshaft 48 is pushed to rotate, the first rotating shaft 51 and the main rotor 52 are driven to rotate, the main power generator 53 generates power, when the moving shaft 21 rotates, the first gear 26 is driven to rotate, the second gear 29 and the gear rotating shaft 28 are driven to rotate, the moving rod 31 and the sliding rod 33 are driven to rotate, the second rotating shaft 35 and the auxiliary rotor 36 are driven to rotate, the auxiliary power generator 37 generates power, when the moving shaft 21 moves, the gear rotating shaft 28 and the second gear 29 are driven to move through the fixed shaft sleeve 24, the shaft sleeve connecting rod, when the second gear 29 is engaged with the spring plate 63, the second gear 29 turns and rotates about the moving shaft 21.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.