CN111188734A

CN111188734A - Wind power generation device

Info

Publication number: CN111188734A
Application number: CN202010086127.5A
Authority: CN
Inventors: 不公告发明人
Original assignee: Yuyao Mind New Energy Technology Co ltd
Current assignee: Yuyao Mind New Energy Technology Co ltd
Priority date: 2020-02-11
Filing date: 2020-02-11
Publication date: 2020-05-22

Abstract

The invention discloses a wind power generation device, wherein a power mechanism is arranged at the front end of a machine body, a guide support mechanism is arranged at the lower end of the machine body, a planetary transmission mechanism is arranged in the machine body, a speed change mechanism is arranged at the rear end of the planetary transmission mechanism, a power generation mechanism is arranged at the rear end of the speed change mechanism, the power mechanism comprises a first power shaft which is positioned at the front end of the machine body and extends into the machine body, a working cavity is arranged in the machine body, power is distributed through the speed change mechanism, and finally electric power is output.

Description

Wind power generation device

Technical Field

The invention relates to the technical field of power generation, in particular to a wind power generation device.

Background

Wind power generation refers to converting kinetic energy of wind into electric energy. Wind energy is a clean and pollution-free renewable energy source, and is used by people for a long time, mainly by pumping water, grinding surfaces and the like through windmills, and people are interested in how to use wind to generate electricity. The wind power generation is very environment-friendly, the wind energy is huge, and the wind power generation device is increasingly valued by countries in the world, the traditional wind power generation device can be destroyed by thunder in too high rainy days, the loss of immeasurable cost is caused, and meanwhile, the energy is lost because the blades cannot be freely reversed due to the change of the wind direction, and higher utilization rate cannot be obtained.

Disclosure of Invention

Aiming at the technical defects, the invention provides a wind power generation device which can overcome the defects.

The invention relates to a wind power generation device, which comprises a machine body, wherein the front end of the machine body is provided with a power mechanism, the lower end of the machine body is provided with a guide support mechanism, a planetary transmission mechanism is arranged in the machine body, the rear end of the planetary transmission mechanism is provided with a speed change mechanism, the rear end of the speed change mechanism is provided with a power generation mechanism, the power mechanism comprises a first power shaft which is positioned at the front end of the machine body and extends into the machine body, a working cavity is arranged in the machine body, the first power shaft extends into the working cavity and is matched with a soft braking device, the front end of the first power shaft is fixed with a disc, the front end of the disc is provided with a conical block, three annularly distributed and inwardly extending fan blades are rotatably arranged on the disc, a circular cavity is arranged in the disc, the fan blades inwardly extend into the circular cavity and are both fixed with a first gear, and the right, and a rotating column is fixed on the outer side of the second gear, is rotatably arranged on a fixing column, and is fixedly arranged on the end wall of the circular cavity.

Preferably, the guiding and supporting mechanism comprises a first fixed block which is fixedly arranged on the outer side of the lower end of the machine body and is symmetrical in the front, back, left and right directions, a steering groove is arranged in the first fixed block, an opening communicated to the outside is arranged on the inner side of the steering groove, a first motor is fixed on the upper end wall of the steering groove, the lower end of the first motor is in power connection with a second power shaft which is rotatably arranged in the steering groove, a third gear is fixed on the second power shaft, the third gear is positioned at the opening and extends to the outside, a guide shaft is fixed on the lower end of the machine body, the lower end of the guide shaft is rotatably arranged in a support column, a supporting base is fixed on the lower end of the support column, a power transformer is embedded on the left end of the front side of the supporting base, a lightning flow diverter is embedded on the rear side of the supporting base, a lightning arrester is, the lightning rod is matched with the lightning conduction device, and circular teeth meshed with the third gear are annularly fixed at the upper end of the supporting column.

Preferably, planetary drive mechanism include with first power shaft rear end fixed connection's connecting axle, the connecting axle rear end is fixed with the circular shape turning block, be equipped with the circular shape in the turning block and rotate the chamber, it is dentate structure to rotate the intracavity wall, the connecting axle extends to rotate the intracavity and rotate the circular slab of installing front and back symmetry, be fixed with four fixed pins that have ring distribution between the circular slab, all rotate on the fixed pin and install the fifth gear, the fifth gear with rotate intracavity wall tooth engagement, the meshing has the sixth gear between the fifth gear, the sixth gear rear end is fixed with and extends the turning block and with the rear side the circular slab with the turning block normal running fit.

Preferably, speed change mechanism including be located the turning block rear end and with end wall fixed connection's second fixed block about the working chamber, be equipped with the variable speed chamber in the second fixed block, the transmission shaft extends to in the variable speed chamber and with second fixed block normal running fit, the transmission shaft is in variable speed intracavity fixed mounting has the seventh gear, the seventh gear lower extreme is equipped with to rotate and installs the driven shaft in the variable speed chamber, the driven shaft lower extreme is equipped with to rotate and installs in the variable speed chamber and extend the output shaft of second fixed block, seventh gear lower extreme meshing has to be fixed eighth gear on the driven shaft, eighth gear front end is equipped with to fix ninth gear on the driven shaft, ninth gear lower extreme meshing has to fix tenth gear on the output shaft.

Preferably, the power generation mechanism comprises a first power generation box which is located at the rear end of the second fixed block and is fixedly mounted on the lower end wall of the working cavity, a first power generation cavity is arranged in the first power generation box, the output shaft extends into the working cavity backwards, a third power shaft which extends into the first power generation box and is matched with the machine body in a rotating manner is fixedly mounted in the working cavity, a first belt pulley which is fixed on the output shaft and located at the rear end of the second fixed block is arranged at the front end of the third power shaft, a first magnet is fixed to the part of the third power shaft in the first power generation cavity, a second circular magnet fixed on the end wall of the first power generation cavity is matched with the outer part of the first magnet, the third power shaft extends to the rear end of the first power generation box and is located in a groove in the machine body, and a steel wire mesh is fixed to the front and rear of the groove, the terminal fan that is fixed with of third power shaft, first power generation case upper end is fixed with the second power generation case, be equipped with the second electricity generation chamber in the second power generation case, the fourth power shaft that extends forward is installed in the rotation of second electricity generation intracavity, the fourth power shaft extends forward to work intracavity and fixed mounting have the second belt pulley, the second belt pulley with first belt pulley passes through belt power and connects, the fourth power shaft is in second electricity generation intracavity is fixed with third magnet, third magnet external coordination is fixed circular shape fourth magnet on the second electricity generation chamber terminal wall.

Preferably, be fixed with the inductor on the working chamber rear end wall, be equipped with the battery in the inductor, the battery with power generation mechanism passes through first connection of electric lines, the inductor upper end is rotated and is installed and extend the sensing axle of organism, the sensing axle with organism normal running fit, sensing axle rear end is fixed with the wind vane, the wind vane lower extreme is equipped with the annular and fixes four dwangs at sensing axle middle part, the dwang outside all is fixed with the wind direction spoon, first motor with power generation mechanism passes through second connection of electric lines.

The beneficial effects are that: the wind power generation device is simple in structure, when the wind power generation device works, the fan blades are pushed to rotate through wind power to generate power, the planetary gear set obtains a large transmission ratio, the power is distributed through the speed change mechanism, and finally the power is output.

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 view of a wind power plant according to the present invention;

FIG. 2 is a schematic structural view taken at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 2 according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure of the support post 16 of FIG. 2;

fig. 6 is an enlarged schematic view of the structure of the circular cavity 41 in fig. 1 according to the embodiment of the present invention.

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 of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, 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 wind power generation device, which comprises a machine body 10, wherein the front end of the machine body 10 is provided with a power mechanism, the lower end of the machine body 10 is provided with a guide support mechanism, a planetary transmission mechanism is arranged in the machine body 10, the rear end of the planetary transmission mechanism is provided with a speed change mechanism, the rear end of the speed change mechanism is provided with a power generation mechanism, the power mechanism comprises a first power shaft 21 which is positioned at the front end of the machine body 10 and extends into the machine body 10, a working cavity 28 is arranged in the machine body 10, the first power shaft 21 extends into the working cavity 28 and is matched with a soft braking device 24, the front end of the first power shaft 21 is fixed with a disc 22, the front end of the disc 22 is provided with a conical block 23, three annularly distributed and inwardly extending fan blades 11 are rotatably mounted on the disc 22, a circular cavity 41 is arranged in the disc 22, the fan blades 11 inwardly extend into the circular cavity 41 and are all fixed with, the right end of the first gear 72 is engaged with the second gear 52, a rotating column 73 is fixed on the outer side of the second gear 52, the rotating column 73 is rotatably mounted on a fixed column 40, and the fixed column 40 is fixedly mounted on the end wall of the circular cavity 41.

Beneficially, the guiding and supporting mechanism comprises a first fixing block 12 which is fixedly installed on the outer side of the lower end of the machine body 10 and is symmetrical front, back, left and right, a steering groove 74 is formed in the first fixing block 12, an opening communicated with the outside is formed in the inner side of the steering groove 74, a first motor 13 is fixed on the upper end wall of the steering groove 74, a second power shaft 15 which is rotatably installed in the steering groove 74 is in power connection with the lower end of the first motor 13, a third gear 14 is fixed on the second power shaft 15, the third gear 14 is located at the opening and extends to the outside, a guiding shaft 20 is fixed on the lower end of the machine body 10, the lower end of the guiding shaft 20 is rotatably installed in a supporting column 16, a supporting base 17 is fixed on the lower end of the supporting column 16, a power transformer 18 is embedded in the left part of the front side of the supporting base 17, and, a lightning arrester 25 is fixed in the middle of the upper end of the machine body 10, a lightning rod 26 is fixed at the upper end of the lightning arrester 25, the lightning rod 26 is matched with the lightning current diverter 27, and circular teeth 58 meshed with the third gear 14 are annularly fixed at the upper end of the supporting column 16.

Beneficially, the planetary transmission mechanism includes a connecting shaft 60 fixedly connected with the rear end of the first power shaft 21, a circular rotating block 42 is fixed at the rear end of the connecting shaft 60, a circular rotating cavity 65 is arranged in the rotating block 42, the inner wall of the rotating cavity 65 is of a toothed structure, the connecting shaft 60 extends to the rotating cavity 65, a front circular plate 59 and a rear circular plate 59 are rotatably mounted in the rotating cavity 65, four fixing pins 44 distributed in a circular shape are fixed between the circular plates 59, a fifth gear 43 is rotatably mounted on the fixing pins 44, the fifth gear 43 is in tooth engagement with the inner wall of the rotating cavity 65, a sixth gear 45 is meshed between the fifth gears 43, and the rear end of the sixth gear 45 is fixed with a rotating block 59 and a rotating fit with the rotating block 42.

Advantageously, the gearshift mechanism comprises a second fixed block 46 located at the rear end of the rotary block 42 and fixedly connected to the left and right end walls of the working chamber 28, a speed changing cavity 61 is arranged in the second fixing block 46, the transmission shaft 71 extends into the speed changing cavity 61 and is in rotating fit with the second fixing block 46, the transmission shaft 71 is fixedly provided with a seventh gear 62 in the speed changing cavity 61, the lower end of the seventh gear 62 is provided with a driven shaft 70 which is rotatably arranged in the speed changing cavity 61, the lower end of the driven shaft 70 is provided with an output shaft 69 which is rotatably arranged in the speed changing cavity 61 and extends out of the second fixed block 46, an eighth gear 66 fixed on the driven shaft 70 is engaged with the lower end of the seventh gear 62, a ninth gear 68 fixed to the driven shaft 70 is provided at a front end of the eighth gear 66, a tenth gear 67 fixed to the output shaft 69 is engaged with a lower end of the ninth gear 68.

Advantageously, the power generating mechanism comprises a first power generating box 33 located at the rear end of the second fixed block 46 and fixedly mounted on the lower end wall of the working chamber 28, a first power generating chamber 37 is provided in the first power generating box 33, the output shaft 69 extends backwards into the working chamber 28 and is fixedly mounted with a third power shaft 35 extending into the first power generating box 33 and rotatably engaged with the machine body 10, the front end of the third power shaft 35 is provided with a first belt pulley 57 fixed on the output shaft 69 and located at the rear end of the second fixed block 46, the portion of the third power shaft 35 in the first power generating chamber 37 is fixed with a first magnet 36, the first magnet 36 is externally engaged with a second magnet 34 fixed on the end wall of the first power generating chamber 37, the third power shaft 35 extends to a groove located at the rear end of the first power generating box 33 and on the machine body 10, the recess front and back intercommunication just all is fixed with wire net 54, third power shaft 35 end is fixed with fan 55, first power box 33 upper end is fixed with second power box 30, be equipped with second power generation chamber 39 in the second power box 30, the fourth power shaft 38 that extends forward is installed to second power generation chamber 39 internal rotation, fourth power shaft 38 extends forward to fixed mounting has second belt pulley 64 in the working chamber 28, second belt pulley 64 with first belt pulley 57 passes through belt 63 power connection, fourth power shaft 38 is in second power generation chamber 39 internal fixation has third magnet 32, third magnet 32 external fit has the circular shape fourth magnet 31 of fixing on the second power generation chamber 39 end wall.

Beneficially, be fixed with inductor 29 on the wall of working chamber 28 rear end, be equipped with battery 53 in the inductor 29, battery 53 with power generation mechanism connects through first electric wire 47, inductor 29 upper end is rotated and is installed and is extended the sensing axle 50 of organism 10, sensing axle 50 with organism 10 normal running fit, sensing axle 50 rear end is fixed with wind vane 51, wind vane 51 lower extreme is equipped with the annular and fixes four dwang 49 at sensing axle 50 middle part, the dwang 49 outside all is fixed with wind direction spoon 48, first motor 13 with power generation mechanism connects through second electric wire 56.

In the initial state, the soft braking device 24 is not operated;

when the electric power transformer works, wind drives the fan blades 11 to rotate, so that the first power shaft 21 drives the connecting shaft 60 to rotate, the rotating block 42 rotates, the fifth gear 43 rotates to drive the sixth gear 45 to transmit power, the transmission shaft 71 rotates to obtain large transmission ratio to transmit power, the seventh gear 62 rotates to drive the eighth gear 66 to rotate, the driven shaft 70 drives the ninth gear 68 to rotate, the tenth gear 67 is driven to drive the output shaft 69 to rotate for speed change, the output shaft 69 drives the third power shaft 35 to rotate, the first magnet 36 and the second magnet 34 cooperate to generate power, the power is transmitted into the electric power transformer 18, the second power generation cavity 39 rotates to drive the first belt pulley 57 to rotate, the second belt pulley 64 waits for the fourth power shaft 38 to rotate, the third magnet 32 and the fourth magnet 31 cooperate to generate power to provide power for the storage battery 53, and when the wind direction is not opposite, the storage battery 53 is used for providing electric power, the inductor 29 starts to work, the sensing shaft 50 is controlled to rotate to sense the wind direction, the mechanism in the first power generation box 33 is used for providing electric power for the first motor 13, the second power shaft 15 rotates to drive the third gear 14 to rotate around the circular teeth 58, the machine body 10 rotates, the fan blades 11 are enabled to work just opposite to the wind direction, the lightning is induced by the lightning inducer 25 in rainy days due to the fact that the position is too high, lightning is poured into the lightning conductor 26, and therefore the lightning conductor 27 is input to the ground to guarantee safety of the device, and when wind power is too high, the soft braking device 24 starts to work to lock the first power shaft 21, so that the disc 22 and the fan blades 11 do not rotate any more.

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.

Claims

1. A wind power generation device comprises a machine body, and is characterized in that: the front end of the machine body is provided with a power mechanism, the lower end of the machine body is provided with a guide supporting mechanism, the machine body is internally provided with a planetary transmission mechanism, the rear end of the planetary transmission mechanism is provided with a speed change mechanism, the rear end of the speed change mechanism is provided with a power generation mechanism, the power mechanism comprises a first power shaft which is positioned at the front end of the machine body and extends into the machine body, the machine body is internally provided with a working cavity, the first power shaft extends into the working cavity and is matched with a soft braking device, the front end of the first power shaft is fixedly provided with a disc, the front end of the disc is provided with a conical block, the disc is rotatably provided with three blades which are distributed in an annular shape and extend inwards, the disc is internally provided with a circular cavity, the blades extend inwards into the circular cavity and are all fixed with a first gear, the right end of the first gear is engaged with, the rotating column is rotatably mounted on a fixing column which is fixedly mounted on the end wall of the circular cavity.

2. The wind power plant of claim 1, wherein: the guiding and supporting mechanism comprises a first fixed block which is fixedly arranged on the outer side of the lower end of the machine body and is symmetrical front and back and left and right, a steering groove is arranged in the first fixed block, an opening communicated to the outside is arranged on the inner side of the steering groove, a first motor is fixed on the upper end wall of the steering groove, the lower end of the first motor is in power connection with a second power shaft which is rotatably arranged in the steering groove, a third gear is fixed on the second power shaft, the third gear is positioned at the opening and extends to the outside, a guide shaft is fixed on the lower end of the machine body, the lower end of the guide shaft is rotatably arranged in a support column, a supporting base is fixed on the lower end of the support column, a power transformer is embedded at the left part of the front side of the supporting base, a thunder and lightning drainage device is embedded at the right end of the rear side of the supporting base, the lightning rod is matched with the lightning conduction device, and circular teeth meshed with the third gear are annularly fixed at the upper end of the supporting column.

3. The wind power plant of claim 2, wherein: planetary drive mechanism include with first power shaft rear end fixed connection's connecting axle, the connecting axle rear end is fixed with the circular shape turning block, be equipped with the circular shape in the turning block and rotate the chamber, it is dentate structure to rotate the intracavity wall, the connecting axle extends to rotate the intracavity and rotate the circular slab of installing front and back symmetry, be fixed with four fixed pins that have ring distribution between the circular slab, all rotate on the fixed pin and install the fifth gear, the fifth gear with rotate intracavity wall tooth meshing, the meshing has the sixth gear between the fifth gear, the sixth gear rear end is fixed with to extend the turning block and with the rear side the circular slab with the turning block normal running fit.

4. A wind power plant according to claim 3, characterized in that: speed change mechanism including being located the turning block rear end and with end wall fixed connection's second fixed block about the working chamber, be equipped with the variable speed chamber in the second fixed block, the transmission shaft extends to in the variable speed chamber and with second fixed block normal running fit, the transmission shaft is in variable speed intracavity fixed mounting has the seventh gear, the seventh gear lower extreme is equipped with the rotation and installs the driven shaft in the variable speed chamber, the driven shaft lower extreme is equipped with to rotate and installs the variable speed intracavity and extend the output shaft of second fixed block, seventh gear lower extreme meshing has to be fixed eighth gear on the driven shaft, the eighth gear front end is equipped with to be fixed ninth gear on the driven shaft, ninth gear lower extreme meshing has to be fixed go up epaxial tenth gear of output.

5. The wind power plant of claim 4, wherein: the power generation mechanism comprises a first power generation box which is positioned at the rear end of the second fixed block and is fixedly installed on the lower end wall of the working cavity, a first power generation cavity is arranged in the first power generation box, the output shaft extends to the rear end of the working cavity and is fixedly installed with a third power shaft which extends to the first power generation box and is matched with the machine body in a rotating manner, a first belt pulley which is fixed on the output shaft and is positioned at the rear end of the second fixed block is arranged at the front end of the third power shaft, a first magnet is fixed on the part of the third power shaft in the first power generation cavity, a second circular magnet which is fixed on the end wall of the first power generation cavity is matched with the outer part of the first magnet, the third power shaft extends to the rear end of the first power generation box and is positioned in a groove on the machine body, a steel wire mesh is communicated with the front and the rear of the groove and is fixed on the machine body, and a fan is fixed at the, first electricity generation case upper end is fixed with the second electricity generation case, be equipped with the second electricity generation chamber in the second electricity generation case, the rotation installs the fourth power shaft that extends forward in the second electricity generation intracavity, the fourth power shaft extends forward work intracavity and fixed mounting have the second belt pulley, the second belt pulley with first belt pulley passes through belt power and connects, the fourth power shaft is in second electricity generation intracavity is fixed with third magnet, third magnet external fit has the fixing circular shape fourth magnet on the second electricity generation chamber terminal wall.

6. The wind power plant of claim 5, wherein: be fixed with the inductor on the working chamber rear end wall, be equipped with the battery in the inductor, the battery with power generation mechanism is through first connection of electric lines, the inductor upper end is rotated and is installed and is extended the sensing axle of organism, the sensing axle with organism normal running fit, sensing axle rear end is fixed with the wind vane, the wind vane lower extreme is equipped with the annular and fixes four dwangs at sensing axle middle part, the dwang outside all is fixed with the wind direction spoon, first motor with power generation mechanism passes through second connection of electric lines.