CN117662407B - Multi-environment applicable jet auxiliary type wind power generation device - Google Patents

Abstract

The invention relates to the technical field of wind power generation devices, and discloses a multi-environment-applicable jet auxiliary wind power generation device, which comprises a mounting base, wherein the mounting base can be mounted through an internal mounting hole; the generator is installed in a box, the rotating mechanism is installed at the connecting end of the generator, and the generator generates electricity through rotation of the rotating mechanism; the air injection auxiliary mechanism is arranged in the installation box and used for maintaining the rotation of the rotating mechanism when the wind force is small; according to the wind power generation device, the rotating mechanism is arranged, when the environment changes and influences the power generation efficiency, the first transmission gear can be driven to rotate through the operation of the servo motor, the second transmission gear can be driven to rotate through the rotation of the first transmission gear, and when the second transmission gear rotates, the connecting shaft can also rotate along with the rotation of the second transmission gear, so that the first installation blade can rotate, the angle of the first installation blade can be adjusted, and the power generation efficiency of the wind power generation device under different environments is guaranteed.

Description

Multi-environment applicable jet auxiliary type wind power generation device

Technical Field

The invention relates to the technical field of wind power generation devices, in particular to a multi-environment applicable jet auxiliary wind power generation device.

Background

The wind driven generator is equipment for converting wind energy into electric energy and mainly comprises blades, a hub, a main shaft, a generator, a cabin, a tower barrel and the like. The blades capture wind energy, generate torque to drive the main shaft to rotate, convert the wind energy into mechanical energy of the main shaft, the main shaft drives the generator rotor to rotate around the generator stator, magnetic force lines of the rotor and stator windings are cut, the mechanical energy of the main shaft is converted into electric energy, and the electric energy is output in a grid connection mode. The failure mechanism of the wind driven generator is very complex, influence factors are numerous, along with the progress of the times, the reasonable utilization of natural resources is widely focused, and the wind driven generator is gradually put into the market so as to reduce the consumption of fossil energy and environmental pollution. The vertical axis wind turbine can utilize wind energy blown from all directions because a direction adjusting mechanism is not needed, and compared with the horizontal axis wind turbine, the vertical axis wind turbine has unique dominant wind and is a new energy source with great potential. Therefore, wind power generation is paid attention to at home and abroad, and new energy is developed. Attempts to utilize wind power have been initiated as early as the twentieth century. In the thirty years, several small-sized wind power generation devices have been successfully developed by using rotor technology in the aviation industry. The small wind driven generator is widely used in islands with windy sea and remote villages, and the cost of the obtained electric power is much lower than that of a small internal combustion engine. However, the power generation amount at that time is low and is mostly 5 kw or less.

As disclosed in chinese patent application publication No. CN104912740B, a multi-stage impeller-group cylindrical wind driven generator is disclosed, which comprises a base, a generator set, an air duct, an impeller group, a return air duct, a brake device, and a yaw mechanism; the wind barrel is arranged at the top of the base through a yaw mechanism, a plurality of impeller groups are coaxially assembled in the wind barrel, and each impeller group drives one generator set; the outer end of the impeller group is provided with a brake device; the air return duct is arranged around the outer wall of the air duct, so that air flow flowing through the air duct can be circulated to the front part of each impeller set, and the impellers are assisted to rotate. The multi-unit operation is driven by arranging a plurality of groups of impellers in the single air duct, and air is returned by utilizing the air duct structure, so that the effective wind speed range is enlarged, and all-weather operation is realized.

However, in the actual use process, when the wind power generation device is installed at different positions under different environments, the blade angle cannot be adjusted, so that the power generation efficiency of the wind power generation device under different environments cannot be ensured.

Disclosure of Invention

The present invention is directed to a multi-environment-applicable jet auxiliary wind power generation device, so as to solve the problems set forth in the above-mentioned background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a multi-environment applicable jet assisted wind power plant comprising:

The mounting base is used for mounting the mounting box through the penetrating mounting holes;

The generator is arranged on the mounting base and externally wrapped through the mounting box and is used for generating electricity;

the installation box is arranged at the top of the installation base, and wind at two sides of the outside can flow into the wind tunnel in the installation box through the circulation groove communicated with the outside through the outer wall of the installation box;

the rotating mechanism is arranged at the connecting end of the generator and rotates to enable the generator to generate electricity;

the air injection auxiliary mechanism is arranged inside the mounting box and is used for maintaining the rotation of the rotating mechanism when the wind force is small;

The rotating mechanism comprises a mounting piece, a first transmission gear, a second transmission gear, a connecting rotating shaft, a connecting shaft, a first connecting ring, a second connecting ring, a first mounting blade and a second mounting blade, wherein the mounting piece is fixedly mounted at one end of the connecting rotating shaft, and the mounting piece is connected with the output end of the generator through the connecting rotating shaft;

The installation piece is internally provided with an installation cavity, the installation cavity is internally fixedly provided with a servo motor, a first transmission gear is fixedly installed at the output end of the servo motor, a second transmission gear is meshed with the output end of the first transmission gear and realizes transmission, a connecting shaft is meshed with the second transmission gear through the first transmission gear, the connecting shaft is in transmission connection with the output end of the servo motor, a first installation blade is fixedly installed at the outer side end of the installation piece, the first installation blade is rotationally connected with an annular area between a first connecting ring and the installation piece, and a second installation blade is installed in an annular area between the first connecting ring and a second connecting ring.

Optionally, the first connecting ring includes two sets of concentric and same diameter setting's gear ring, and two gear rings realize relative rotation slip in annular direction, are located and offer movable slot along annular direction between two gear rings, and the meshing transmission of edge annular direction that is located movable slot has multiunit first gear piece and second gear piece to realize that first gear piece is through the synchronous transmission that realizes the second gear piece of deflection of gear ring when the transmission, make first installation blade outside tip fixed mounting is on first gear piece, the inboard tip fixed mounting of second installation blade is on second gear piece, make first installation blade drives the deflection of gear ring and drive the second installation blade in step and deflect when deflecting.

Optionally, the first installation blade is provided with a plurality of, and a plurality of first installation blade evenly distributed is in inside the first go-between with the installed part lateral wall.

Optionally, the second installation blade is provided with a plurality of, and a plurality of second installation blade evenly distributed is in inside the second go-between with between the first go-between lateral wall, a plurality of first installation blade with a plurality of second installation blade staggered distribution.

Optionally, the recess that runs through has been seted up along annular direction to the second go-between, the inside fixed mounting of recess has a plurality of mounting, the inside through-hole that runs through the mounting that opens of mounting makes the mounting be the frame construction that the middle part runs through, a plurality of sliding tray has been seted up along the radial of second go-between to the inside through-hole, the inside thickness direction sliding connection who follows the second go-between of through-hole has the installation axle, the radial fixed mounting who follows the second go-between in the sliding tray has supporting spring, supporting spring is located installation axle lateral wall with between the sliding tray inner wall, the installation axle is provided with a plurality of, two relative fixed mounting has the piece of keeping out wind between the installation axle.

Optionally, the inside intercommunication groove of having seted up of mounting box, the intercommunication groove with the wind-tunnel with the circulation groove is linked together, the intercommunication groove is the ring channel, and a plurality of the mounting all is located inside the intercommunication groove.

Optionally, the jet auxiliary mechanism includes fan and compression pipeline, the notch has been seted up to the mounting box inside, the fresh air inlet has been seted up to the notch bottom, compression pipeline fixed mounting notch one end, compression pipeline with the notch is linked together, the fresh air outlet has been seted up to compression pipeline one end, the fresh air outlet with the intercommunication groove is linked together, the notch pass through compression pipeline and fresh air outlet with the intercommunication groove is linked together, fan fixed mounting is in inside the notch, compression pipeline is the taper pipe.

Optionally, the side wall of the installation box is fixedly provided with a first air guide piece and a second air guide piece, the first air guide piece and the second air guide piece are respectively located on one side of the circulation groove, an air guide groove is formed in the circulation groove, a third air guide piece is fixedly arranged in the circulation groove, and the third air guide piece is located on one side of the air guide groove.

Optionally, a cooling mechanism is arranged in the installation box, the cooling mechanism comprises a circulating water pump, a filter element, radiating fins and a circulating water pipe, a water storage tank is arranged in the installation box, a communication port is formed in the top of the installation box, the communication port is communicated with the water storage tank, an installation groove is formed in the installation box, the circulating water pump is fixedly arranged in the installation groove, a water inlet pipe is fixedly arranged at one input end of the circulating water pump, and the water inlet pipe is positioned in the installation box;

The utility model discloses a circulating water pump, including the water storage tank, the inlet tube, circulating water pipe, the inlet tube with the tank is linked together, the inside fixed mounting of inlet tube has the filter core, one of them output fixed mounting of circulating water pump has the outlet pipe, the outlet pipe is located inside the mounting box, the outlet pipe with the tank is linked together, radiating fin fixed mounting is in the generator lateral wall, radiating fin is provided with a plurality of, circulating water pipe fixed mounting is in a plurality of radiating fin is inside, circulating water pipe is the heliciform distributes inside the radiating fin, the circulating water pipe both ends respectively in another input of circulating water pump is connected with the output.

The invention has at least the following beneficial effects:

(1) According to the scheme, when the environment changes and influences the power generation efficiency, the first transmission gear can be driven to rotate through the operation of the servo motor, the second transmission gear can be driven to rotate through the rotation of the first transmission gear, and the connecting shaft can also rotate along with the rotation of the second transmission gear, so that the first installation blade can rotate, the angle of the first installation blade can be adjusted, and the first installation blade can be driven to rotate through the arrangement of the first gear piece, the second gear piece and the gear ring, so that the synchronous adjustment effect is realized, and the power generation efficiency of the wind power generation device under different environments is ensured;

(2) According to the scheme, the air injection auxiliary mechanism is arranged, air can be sucked through the air inlet hole through the operation of the fan, and then is blown into the communicating groove through the compression pipeline and the air outlet hole, so that the fixing piece can be blown, the effect of assisting the rotation of the rotating mechanism is achieved, the rotating speed of the rotating mechanism is ensured, and the power generation efficiency is maintained;

(3) According to the scheme, when wind blows to the side face of the installation box, the first wind guide piece and the second wind guide piece can be used for guiding the wind to enter the inside of the circulation groove, and when the wind enters the inside of the circulation groove, the wind can be guided by the wind guide groove and the third wind guide piece, so that the wind can blow to the inside of the communication groove at a certain wind speed, the fixing piece in the inside of the communication groove can be blown, the rotating mechanism is driven to rotate, and the side blowing can also generate electricity;

(4) This scheme is through setting up cooling body, circulating water pump can inhale the inlet tube with the inside water of tank through the inlet tube, can filter through the inside filter core of inlet tube when rivers advance the inlet tube, later say that the water after filtering is carried to circulating water pipe inside, make water cool off radiating fin when circulating water pipe inner wall flows, thereby can make the generator cooling, after that water can get back to circulating water pump inside once more, carry to the tank inside through the outlet pipe by circulating water pump again, so as to realize the circulation heat dissipation to the generator, thereby avoid the overheated condition of generator operation in-process to appear.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a rotary mechanism according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2B according to the present invention;

FIG. 5 is a schematic view of a fastener of the present invention;

FIG. 6 is a schematic cross-sectional view of a mounting member of the present invention;

FIG. 7 is a schematic view of the mounting base structure of the present invention;

FIG. 8 is a perspective view of the mounting case of the present invention;

FIG. 9 is a schematic view of the top structure of the mounting box of the present invention;

FIG. 10 is a schematic cross-sectional view of the mounting box of the present invention;

FIG. 11 is a schematic view of an air jet auxiliary mechanism according to the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. A mounting base; 101. a mounting hole; 102. a generator; 1021. a heat radiation fin; 1022. a circulating water pipe; 2. a mounting box; 201. a first air guide; 202. a second air guide; 203. a flow channel; 2031. a third air guide; 2032. an air guide groove; 204. a mounting groove; 205. a circulating water pump; 206. a water inlet pipe; 207. a filter element; 208. a water outlet pipe; 209. a communication groove; 210. wind tunnel; 3. a rotation mechanism; 301. a mounting member; 3011. a mounting cavity; 3012. a servo motor; 3013. a first transmission gear; 3014. the connecting rotating shaft; 302. a first mounting blade; 3021. a first gear member; 3022. a connecting shaft; 3023. a second transmission gear; 303. a first connection ring; 3031. a movable groove; 3032. a gear ring; 304. a second mounting blade; 3041. a second gear member; 305. a second connecting ring; 306. a groove; 307. a fixing member; 308. a through hole; 309. a sliding groove; 310. a support spring; 311. a mounting shaft; 312. a wind shielding member; 4. a water storage tank; 401. a communication port; 5. an air injection auxiliary mechanism; 501. an air inlet hole; 502. a fan; 503. compressing the pipeline; 504. and an air outlet hole.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, the present invention provides a multi-environment-applicable jet auxiliary wind power generation device, comprising:

The wind power generation device comprises a mounting base 1, wherein the mounting base 1 can be mounted through an internal mounting hole 101, and the wind power generation device can be mounted at various positions by arranging the mounting base 1;

a generator 102, the generator 102 is installed inside the installation base 1 and is used for generating electricity;

The installation box 2 is arranged at the top of the installation base 1, and wind at two sides can flow into the wind tunnel 210 in the installation box 2 through the circulation groove 203 in the installation box 2;

The rotating mechanism 3 is arranged at the connecting end of the generator 102, and the generator 102 generates electricity by rotating the rotating mechanism 3;

and an air-jet auxiliary mechanism 5, the air-jet auxiliary mechanism 5 being installed inside the installation box 2 for maintaining the rotation of the rotating mechanism 3 when the wind force is small.

In some embodiments, referring to fig. 1 and 2, the rotation mechanism 3 includes a mounting member 301, a first transmission gear 3013, a second transmission gear 3023, a connection rotating shaft 3014, a connection shaft 3012, a first connection ring 303, a second connection ring 305, a first mounting blade 302 and a second mounting blade 304, the connection rotating shaft 3014 is fixedly mounted on the generator 102, the mounting member 301 is fixedly mounted at one end of the connection rotating shaft 3014, the mounting member 301 is connected to an output end of the generator 102 through the connection rotating shaft 3014, a mounting cavity 3011 is formed inside the mounting member 301, a servo motor 3012 is fixedly mounted inside the mounting cavity 3011, the first transmission gear 3013 is fixedly mounted at an output end of the servo motor 3012, the first transmission gear 3013 is rotatably connected inside the mounting cavity 3011, the connection shaft 3022 is rotatably connected inside the mounting member 301, the second transmission gear 3023 is fixedly mounted at one end of the connection shaft 3022, the second transmission gear 3023 is located in the installation cavity 3011, the second transmission gear 3023 is meshed with the first transmission gear 3013, the connection shaft 3022 is in transmission connection with the output end of the servo motor 3012 through the first transmission gear 3013 and the second transmission gear 3023, the first installation blade 302 is fixedly installed at one end of the connection shaft 3022, the first installation blade 302 is rotatably connected between the first connection ring 303 and the installation member 301, the second installation blade 304 is installed between the first connection ring 303 and the second connection ring 305, the first transmission gear 3013 is driven to rotate through the operation of the servo motor 3012, the second transmission gear 3023 is driven to rotate through the rotation of the first transmission gear 3013, the connection shaft 3022 is also driven to rotate along with the rotation of the second transmission gear 3023, so that the first installation blade 302 can be rotated, and the angle of the first installation blade 302 can be adjusted, therefore, the power generation efficiency of the wind power generation device installed in different environments is ensured.

In some embodiments, referring to fig. 2 and 3, the first connection ring 303 includes two sets of concentric gear rings 3032 with the same diameter, the two gear rings 3032 realize relative rotation sliding in the annular direction, a movable groove 3031 is formed between the two gear rings 3032 along the annular direction, multiple sets of first gear members 3021 and second gear members 3041 are meshed in the movable groove 3031 along the annular direction, the first gear members 3021 realize transmission of the second gear members 3041 through deflection synchronization of the gear rings 3032 during transmission, the outer end parts of the first mounting blades 302 are fixedly mounted on the first gear members 3021, the inner end parts of the second mounting blades 304 are fixedly mounted on the second gear members 3041, the first mounting blades 302 drive the gear rings 3032 to deflect and synchronously drive the second mounting blades 304 to deflect during deflection, and the first mounting blades 302 can drive the second mounting blades 304 to rotate through the arrangement of the first gear members 3021, the second gear members 3041 and the gear rings 3032 during rotation, and the relative rotation of the gear members 3032 can realize synchronous sliding adjustment during the two sides of the gear members.

In some embodiments, referring to fig. 2 and 3, the first mounting blades 302 are provided with a plurality of first mounting blades 302, the plurality of first mounting blades 302 are uniformly distributed between the inside of the first connecting ring 303 and the side wall of the mounting member 301, the second mounting blades 304 are provided with a plurality of second mounting blades 304, the plurality of second mounting blades 304 are uniformly distributed between the inside of the second connecting ring 305 and the side wall of the first connecting ring 303, the plurality of first mounting blades 302 and the plurality of second mounting blades 304 are staggered, and the contact area between the rotating mechanism 3 and wind can be more uniform by staggering the first mounting blades 302 and the second mounting blades 304, so that the rotating mechanism 3 can be easier to rotate, and thus the power generation efficiency can be provided.

In some embodiments, referring to fig. 2, 4 and 5, a groove 306 is formed in the second connecting ring 305, a fixing part 307 is fixedly installed in the groove 306, a plurality of fixing parts 307 are arranged in the fixing part 307, the fixing parts 307 are uniformly distributed in the groove 306, through holes 308 penetrating the fixing parts 307 are formed in the fixing parts 307, sliding grooves 309 are formed in the through holes 308, a plurality of sliding grooves 309 are formed in the sliding grooves 309, mounting shafts 311 are connected in a sliding manner, supporting springs 310 are fixedly installed in the sliding grooves 309, the supporting springs 310 are located between the side walls of the mounting shafts 311 and the inner walls of the sliding grooves 309, a plurality of mounting shafts 311 are arranged, a wind shielding part 312 is fixedly installed between two opposite mounting shafts 311, a communication groove 209 is formed in the mounting box 2, the communication groove 209 is communicated with the wind tunnel 210 and the communication groove 203, the plurality of fixing parts 307 are all located in the communication groove 209, the wind shielding part 312 is made of wind shielding cloth, when wind flows in the communication groove 209, the wind shielding part 312 is enabled to bend and deform in a sliding manner through the sliding manner, the mounting shafts 311 are enabled to rotate, and the wind shielding part 311 can be easily rotated through the sliding shafts 311, and the supporting springs can be rotated in the sliding shafts 311 to be converted into the sliding shafts 311, so that the wind power can be easily rotated, and can be fixed in the mounting shafts 3.

Further, please refer to fig. 11 again, the air injection auxiliary mechanism 5 includes a fan 502 and a compression pipe 503, a slot opening is formed in the installation box 2, an air inlet 501 is formed in the bottom of the slot opening, the compression pipe 503 is fixedly installed at one end of the slot opening, the compression pipe 503 is communicated with the slot opening, an air outlet 504 is formed in one end of the compression pipe 503, the air outlet 504 is communicated with the communication slot 209, the slot opening is communicated with the communication slot 209 through the compression pipe 503 and the air outlet 504, the fan 502 is fixedly installed in the slot opening, the compression pipe 503 is a conical pipe, the fan 502 adopts a fan 502 with a brushless motor, so that the rotation speed of the fan 502 can be ensured, air can be sucked in through the air inlet 501, and then blown into the communication slot 209 through the compression pipe 503 and the air outlet 504, so that the fixing part 307 can be blown, the effect of the rotation of the auxiliary rotating mechanism 3 is realized, the rotation speed of the rotating mechanism 3 is ensured, and the power generation efficiency is maintained.

In some embodiments, referring to fig. 1 and 2, the side wall of the installation box 2 is fixedly provided with the first air guiding piece 201 and the second air guiding piece 202, the first air guiding piece 201 and the second air guiding piece 202 are respectively located at one side of the communication groove 203, the air guiding groove 2032 is formed inside the communication groove 203, the third air guiding piece 2031 is fixedly installed inside the communication groove 203, the third air guiding piece 2031 is located at one side of the air guiding groove 2032, when wind blows to the side surface of the installation box 2, the first air guiding piece 201 and the second air guiding piece 202 can be used for guiding the wind to enter the inside of the communication groove 203, when the wind enters the inside of the communication groove 203, the wind can be guided by the air guiding groove 2032 and the third air guiding piece 2031, so that the wind can blow to the inside of the communication groove 209 at a certain wind speed, and thus the fixing piece 307 inside the communication groove 209 can be blown to drive the rotation mechanism 3 to rotate, so that the side blowing can also perform power generation.

In some embodiments, referring to fig. 7 and 8, a cooling mechanism is arranged inside the installation box 2, the cooling mechanism comprises a circulating water pump 205, a filter element 207, a radiating fin 1021 and a circulating water pipe 1022, a water storage tank 4 is arranged inside the installation box 2, a communication port 401 is arranged at the top of the installation box 2, the communication port 401 is communicated with the water storage tank 4, an installation groove 204 is arranged inside the installation box 2, the circulating water pump 205 is fixedly arranged inside the installation groove 204, a water inlet pipe 206 is fixedly arranged at one input end of the circulating water pump 205, the water inlet pipe 206 is communicated with the water storage tank 4, the filter element 207 is fixedly arranged inside the water inlet pipe 206, a water outlet pipe 208 is fixedly arranged at one output end of the circulating water pump 205, the water outlet pipe 208 is arranged inside the installation box 2, the water outlet pipe 208 is communicated with the water storage tank 4, and the radiating fin 1021 is fixedly arranged on the side wall of the generator 102.

The heat dissipation fins 1021 are provided with a plurality of, the circulating water pipes 1022 are fixedly arranged inside the plurality of heat dissipation fins 1021, the circulating water pipes 1022 are spirally distributed inside the heat dissipation fins 1021, two ends of each circulating water pipe 1022 are respectively connected with the other input end and the other output end of the circulating water pipe 205, heat generated by the operation of the generator 102 can be led out through arranging the plurality of heat dissipation fins 1021 on the side wall of the generator 102, rainwater in the natural environment can be collected through arranging the communication port 401 at the top of the installation box 2, cooling liquid can be directly injected into the water storage tank 4, the circulating water pipe 205 is arranged to suck water in the water storage tank 4 into the water inlet pipe 206 through the water inlet pipe 206, the filtered water can be filtered through the filter core 207 inside the water inlet pipe 206 when flowing into the water inlet pipe 206, and then the filtered water is conveyed into the inside the circulating water pipe 1022, so that the water cools the heat dissipation fins 1021 when flowing in the inner wall of the circulating water pipe 1022, the generator 102 can be cooled, the water can return into the inside the circulating water pump 205 again, and is conveyed into the water storage tank 4 through the water outlet pipe 208 again, so that the situation of overheat of the generator 102 is avoided in the circulating heat dissipation of the generator 102 in the operation process.

The working flow and principle of the invention are as follows: install through internally mounted hole 101, can install wind power generation device in various positions through setting up mounting base 1, when the wind blows through the inside wind tunnel 210 of mounting box 2, wind and rotary mechanism 3 looks department, drive rotary mechanism 3 and rotate, make generator 102 generate electricity through rotary mechanism 3 rotation, when the environment changes when having made the influence to generating efficiency, can drive first drive gear 3013 rotation through servo motor 3012 operation, can drive second drive gear 3023 rotation through first drive gear 3013 rotation.

When the second transmission gear 3023 rotates, the connection shaft 3022 also rotates along with the rotation, so that the first installation blade 302 rotates, and therefore, the angle of the first installation blade 302 can be adjusted, and by setting the first gear member 3021, the second gear member 3041 and the gear ring 3032, the first installation blade 302 can drive the second installation blade 304 to rotate when rotating, thereby realizing the function of synchronous adjustment, and further ensuring the power generation efficiency of the wind power generation device installed in different environments.

The contact area between the rotating mechanism 3 and wind can be more uniform through staggering the first installation blades 302 and the second installation blades 304, so that the rotating mechanism 3 can be rotated more easily, generating efficiency can be provided, the wind shielding piece 312 is bent and deformed through the arrangement of the first wind guiding piece 201 and the second wind guiding piece 202 when wind blows to the side face of the installation box 2, the wind can be guided to enter the inside of the circulation groove 203 through the first wind guiding piece 201 and the second wind guiding piece 202, when the wind enters the inside of the circulation groove 203, the wind can be guided through the wind guiding groove 2032 and the third wind guiding piece 2031, the wind can be blown into the inside of the communication groove 209 at a certain wind speed, the fixing piece 307 in the inside of the communication groove 209 is blown, the rotating mechanism 3 is driven to rotate, the side face can also generate electricity, the wind shielding piece 312 is blown to bend and deform through the wind shielding piece 312 when the inside of the communication groove 209 is blown, at the moment, the installation shaft 311 can slide in the inside of the sliding groove 309, the installation shaft 311 can be supported through the supporting spring 310, therefore, conversion of the wind can be ensured, the fixing piece 307 can be blown into the inside the communication groove 209 at a certain wind speed, the rotating efficiency can be maintained, the rotating mechanism can be driven by the rotating mechanism 3 through the fan 502, the rotating mechanism can be driven to rotate, the rotating efficiency can be kept through the rotating mechanism 3, the rotating mechanism can be rotated, the rotating through the air inlet 3 can be kept through the rotating mechanism, and the rotating mechanism can be rotated, and the rotating through the rotating mechanism 3 can be kept through the rotating through the rotation 3, and the rotation can be kept through the rotation 3.

The heat generated by the operation of the generator 102 can be led out by arranging a plurality of heat radiating fins 1021 on the side wall of the generator 102, rainwater in natural environment can be collected by arranging a communication port 401 on the top of the installation box 2, cooling liquid can be directly injected into the water storage tank 4, the circulating water pump 205 is arranged to suck water in the water storage tank 4 into the water inlet pipe 206 through the water inlet pipe 206, the filtered water can be filtered through the filter core 207 in the water inlet pipe 206 when the water flows into the water inlet pipe 206, then the filtered water is conveyed into the circulating water pipe 1022, the heat radiating fins 1021 are cooled when the water flows in the inner wall of the circulating water pipe 1022, so that the generator 102 can be cooled, the water can return into the circulating water pump 205 again, and the water can be conveyed into the water storage tank 4 through the water outlet pipe 208 by the circulating water pump 205, so that the circulating heat dissipation of the generator 102 is realized, and the situation of overheating in the operation of the generator 102 is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A multi-environment applicable jet assisted wind power generation device, comprising:

The mounting base (1), the mounting base (1) is used for mounting the mounting box (2) through the through mounting holes (101);

The generator (102) is arranged on the mounting base (1) and is externally wrapped through the mounting box (2) for generating electricity;

the installation box (2) is arranged at the top of the installation base (1), and wind on two sides of the outside flows into a wind tunnel (210) in the installation box (2) through a circulation groove (203) communicated with the outside through the outer wall of the installation box (2);

the rotating mechanism (3) is arranged at the connecting end of the generator (102), and the generator (102) generates electricity through the rotation of the rotating mechanism (3);

an air injection auxiliary mechanism (5), wherein the air injection auxiliary mechanism (5) is arranged inside the mounting box (2) and is used for maintaining the rotation of the rotating mechanism (3) when the wind force is small;

The rotating mechanism (3) comprises a mounting piece (301), a first transmission gear (3013), a second transmission gear (3023), a connecting rotating shaft (3014), a connecting shaft (3022), a first connecting ring (303), a second connecting ring (305), a first mounting blade (302) and a second mounting blade (304), wherein the mounting piece (301) is fixedly mounted at one end of the connecting rotating shaft (3014), and the mounting piece (301) is connected with the output end of the generator (102) through the connecting rotating shaft (3014);

The mounting piece (301) is internally provided with a mounting cavity (3011), a servo motor (3012) is fixedly mounted in the mounting cavity (3011), the first transmission gear (3013) is fixedly mounted at the output end of the servo motor (3012), the second transmission gear (3023) is meshed with the output end of the first transmission gear (3013) and realizes transmission, the connecting shaft (3022) is meshed with the second transmission gear (3023) through the first transmission gear (3013) and realizes transmission connection with the output end of the servo motor (3012), the first mounting blade (302) is fixedly mounted at the outer side end of the connecting shaft (3022) and is rotatably connected with an annular area between the first connecting ring (303) and the mounting piece (301), and the second mounting blade (304) is mounted at the annular area between the first connecting ring (303) and the second connecting ring (305);

The second connecting ring (305) is provided with a through groove (306) along the annular direction, the inside of the groove (306) is fixedly provided with a plurality of fixing pieces (307), the inside of the fixing pieces (307) is provided with a through hole (308) penetrating through the fixing pieces (307) to enable the fixing pieces (307) to be of a frame structure penetrating through in the middle, the inside of the through hole (308) is provided with a plurality of sliding grooves (309) along the radial direction of the second connecting ring (305), the inside of the through hole (308) is slidably connected with a mounting shaft (311) along the thickness direction of the second connecting ring (305), the inside of the sliding groove (309) is fixedly provided with a supporting spring (310) along the radial direction of the second connecting ring (305), the supporting spring (310) is positioned between the side wall of the mounting shaft (311) and the inner wall of the sliding groove (309), the mounting shaft (311) is provided with a plurality of wind shielding pieces (312) fixedly arranged between the two opposite mounting shafts (311);

Jet auxiliary mechanism (5) are including fan (502) and compression pipeline (503), notch has been seted up to install bin (2) inside, inlet opening (501) has been seted up to the notch bottom, compression pipeline (503) fixed mounting is in notch one end, compression pipeline (503) with the notch is linked together, outlet opening (504) have been seted up to compression pipeline (503) one end, communication groove (209) have been seted up to install bin (2) inside, outlet opening (504) with communication groove (209) are linked together, the notch passes through compression pipeline (503) and outlet opening (504) with communication groove (209) are linked together, fan (502) fixed mounting is in inside the notch, compression pipeline (503) are the taper pipe.

2. A multi-environment adapted jet assisted wind power plant according to claim 1, wherein: the first connecting ring (303) comprises two groups of concentric gear rings (3032) which are arranged in the same diameter, the two gear rings (3032) are in relative rotation sliding in the annular direction, a movable groove (3031) is formed between the two gear rings (3032) along the annular direction, a plurality of groups of first gear members (3021) and second gear members (3041) are meshed in the movable groove (3031) along the annular direction, the first gear members (3021) realize transmission of the second gear members (3041) through the deflection synchronization of the gear rings (3032) during transmission, the outer side end parts of the first mounting blades (302) are fixedly mounted on the first gear members (3021), and the inner side end parts of the second mounting blades (304) are fixedly mounted on the second gear members (3041), so that the first mounting blades (302) drive the gear rings (3032) to deflect and synchronously drive the second mounting blades (304) to deflect during deflection.

3. A multi-environment adapted jet assisted wind power plant according to claim 1, wherein: the first installation blades (302) are arranged in a plurality, and the first installation blades (302) are uniformly distributed between the inside of the first connecting ring (303) and the side wall of the installation piece (301).

4. A multi-environment adapted jet assisted wind power plant according to claim 3, wherein: the second installation blades (304) are provided with a plurality of second installation blades (304), the second installation blades (304) are uniformly distributed between the inner part of the second connecting ring (305) and the side wall of the first connecting ring (303), and the first installation blades (302) and the second installation blades (304) are distributed in a staggered mode.

5. A multi-environment adapted jet assisted wind power plant according to claim 1, wherein: the communication groove (209) is communicated with the wind tunnel (210) and the circulation groove (203), the communication groove (209) is an annular groove, and a plurality of fixing pieces (307) are all positioned inside the communication groove (209).

6. A multi-environment adapted jet assisted wind power plant according to claim 1, wherein: the installation box (2) lateral wall fixed mounting has first wind-guiding piece (201) and second wind-guiding piece (202), first wind-guiding piece (201) with second wind-guiding piece (202) are located respectively circulation groove (203) one side, circulation groove (203) inside has seted up wind-guiding groove (2032), inside fixed mounting of circulation groove (203) has third wind-guiding piece (2031), third wind-guiding piece (2031) are located wind-guiding groove (2032) one side.

7. A multi-environment adapted jet assisted wind power plant according to claim 1, wherein: the cooling device comprises a water circulating pump (205), a filter core (207), radiating fins (1021) and a circulating water pipe (1022), wherein a water storage tank (4) is arranged in the water circulating pump (205), a communication port (401) is formed in the top of the water circulating pump (2), the communication port (401) is communicated with the water storage tank (4), a mounting groove (204) is formed in the water circulating pump (205), the water circulating pump (205) is fixedly installed in the mounting groove (204), a water inlet pipe (206) is fixedly installed at one input end of the water circulating pump (205), and the water inlet pipe (206) is located in the water circulating pump (2);

The utility model discloses a water pump, including water storage tank (4), inlet tube (206), circulating water pipe (1022) are in water inlet tube (206) inside fixed mounting has filter core (207), circulating water pump (205) one of them output fixed mounting has outlet pipe (208), outlet pipe (208) are located inside install bin (2), outlet pipe (208) with water storage tank (4) are linked together, radiating fin (1021) fixed mounting is in generator (102) lateral wall, radiating fin (1021) are provided with a plurality of, circulating water pipe (1022) fixed mounting is in a plurality of radiating fin (1021) is inside, circulating water pipe (1022) are the heliciform distributes radiating fin (1021) is inside, circulating water pipe (1022) both ends respectively in circulating water pump (205) another input and output are connected.