CN212225438U

CN212225438U - Wind power generation device

Info

Publication number: CN212225438U
Application number: CN202020902017.7U
Authority: CN
Inventors: 满毅
Original assignee: Nanjing Institute of Industry Technology
Current assignee: Dragon Totem Technology Hefei Co ltd; Guangdong Zhongxing Power Transmission Co ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-12-25
Anticipated expiration: 2030-05-25

Abstract

The utility model discloses a wind power generation device, including anticreep mechanism, second motor and foundation, the inside bottom fixedly connected with singlechip of battery one side receiving box, the intermediate position department fixedly connected with anticreep mechanism of foundation outer wall, the inboard fixedly connected with second motor on foundation top, and the top fixedly connected with carousel of second motor, the top fixedly connected with installation piece of carousel, the equal activity in both sides of installation piece articulates there is the bracing piece, and the top activity of bracing piece articulates there is the backup pad, the top fixedly connected with casing of backup pad, and one side fixedly connected with wind wheel of casing. The utility model discloses a second motor makes the rotatable position of wind wheel, and rethread third motor makes the gear rotate, and the rack drives the bracing piece and upwards perhaps removes downwards, is convenient for make the gradient of one side of backup pad adjust the wind wheel from top to bottom, adjusts the direction of wind wheel according to the wind direction, makes the utilization ratio of wind higher.

Description

Wind power generation device

Technical Field

The utility model relates to a wind power generation technical field specifically is a wind power generation set.

Background

With the development of economy, the development trend of energy conservation and environmental protection and the utilization of renewable energy are continuously promoted, wind energy is the renewable energy which widely exists in the world and is the most mature technology mastered by people, wind power generation is realized by driving a windmill blade to rotate by utilizing wind power and then increasing the rotating speed of the blade through a speed increaser to promote a generator to generate electricity, the position of an impeller of the existing device is fixed, and the direction of wind is not fixed, so that the wind energy cannot be well utilized.

With the continuous installation and use of wind power generation devices, the following problems are found in the use process:

1. some existing wind power generation devices generate heat when a generator works in the daily use process, and the generator is not easy to damage due to overhigh heat dissipation.

2. And in the use process of the wind power generation device, the direction of the wind wheel can not be adjusted according to the wind direction, and the wind utilization rate is not high.

3. In addition, when the wind power generation device is used, the device has the possibility of electric leakage, so that an electric shock event occurs after a worker touches the device, and the safety performance is poor.

Therefore, a wind power generation apparatus is required to be designed in response to the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wind power generation device to provide a current wind power generation device does not have the heat dissipation in solving above-mentioned background art, adjusts the position of wind wheel and the problem of anticreep according to the wind direction.

In order to achieve the above object, the utility model provides a following technical scheme: a wind power generation device comprises an anti-creeping mechanism, a second motor and a bottom column, wherein a receiving box is fixedly connected below the outer wall of the bottom column through a fixing piece, and the bottom end of the receiving box is fixedly connected with a storage battery, the bottom end of the receiving box at one side of the storage battery is fixedly connected with a singlechip, the outer wall of one end of the receiving box is fixedly connected with a controller, the middle position of the outer wall of the bottom column is fixedly connected with an anti-creeping mechanism, the inner side of the top end of the bottom column is fixedly connected with a second motor, the top end of the second motor is fixedly connected with a turntable, the top end of the turntable is fixedly connected with an installation block, two sides of the installation block are movably hinged with support rods, the top end of the supporting rod is movably hinged with a supporting plate, the top end of the supporting plate is fixedly connected with a shell, and one side of the shell is fixedly connected with a wind wheel, and the other side of the shell is fixedly connected with an empennage.

Preferably, earth connection, sand bed, metal guide arm, metal casing, insulating section, first pivot, first motor, connecting rod and rotor have set gradually in anticreep mechanism's inside, metal casing fixed connection is in the intermediate position department of foundation outer wall, the inside first motor of top fixedly connected with of metal casing, the first pivot of bottom fixedly connected with of first motor, the outer wall fixedly connected with connecting rod of first pivot, the equal fixedly connected with insulating section in inboard of connecting rod both sides, the equal fixedly connected with rotor in both sides of connecting rod, and the equal fixedly connected with metal guide arm in bottom of rotor, the inside bottom of metal casing is provided with the sand bed, one side fixedly connected with earth connection of metal casing bottom.

Preferably, the bottom end inside the shell is fixedly connected with a generator, and one side of the generator is fixedly connected with one side of the wind wheel through a second rotating shaft.

Preferably, one side of the top end of the shell is fixedly connected with a support, one side of the top end of the support is fixedly connected with a wind sensor, and the other side of the top end of the support is fixedly connected with a wind sensor.

Preferably, the heat-conducting plate is fixedly welded on the inner side of the outer wall of the top end of the shell, radiating fins are uniformly fixedly welded on the top end of the heat-conducting plate, and the U-shaped heat-conducting pipe is fixedly connected on the inner side of the shell at the bottom end of the heat-conducting plate.

Preferably, the equal fixedly connected with gear in both sides between the inner wall of installation piece both ends, and the equal fixedly connected with third motor of outer wall of gear one end installation piece, the equal swing joint in inboard of gear one side installation piece has the rack, and the equal swing joint in one side of rack in the bottom of bracing piece.

Compared with the prior art, the beneficial effects of the utility model are that: the wind power generation device has reasonable structure and the following advantages:

(1) the second motor is used for rotating the wind wheel in the direction, the third motor is used for rotating the gear, the rack drives the supporting rod to move upwards or downwards, the inclination of the wind wheel can be conveniently adjusted on one side of the supporting plate up and down, the direction of the wind wheel can be adjusted according to the wind direction, and the wind utilization rate is higher;

(2) the U-shaped heat conduction pipe increases the contact area with air to absorb heat more quickly, then the heat is conducted to the heat conduction plate, the heat conduction plate is conducted to the radiating fins, and then the heat is quickly radiated by the air between the radiating fins;

(3) through installing sill pillar, first motor, connecting rod, earth connection, husky layer, rotor, metal guide rod and metal-back, when the device electric leakage, the shell of sill pillar is electrically conductive metal, to the conductance to the metal-back, drives the connecting rod through first motor and rotates, through the rotatory electricity that makes on the metal-back of rotor conduct the metal guide rod on, then conduct in the husky layer, receive the ground through the earth connection at last in, avoid staff's touching device and take place the electric shock incident.

Drawings

FIG. 1 is a schematic cross-sectional view of the device of the present invention;

FIG. 2 is a schematic front view of a part of the apparatus of the present invention;

FIG. 3 is a schematic view of the anti-creeping mechanism of the present invention;

fig. 4 is an enlarged schematic structural diagram of a point a in fig. 1 according to the present invention.

In the figure: 1. a fixing member; 2. an anti-creeping mechanism; 201. a ground line; 202. a sand layer; 203. a metal guide rod; 204. a metal shell; 205. an insulating section; 206. a first rotating shaft; 207. a first motor; 208. a connecting rod; 209. a rotor; 3. a second motor; 4. a turntable; 5. a support bar; 6. a housing; 7. a wind wheel; 8. a second rotating shaft; 9. a heat conducting plate; 10. a U-shaped heat conduction pipe; 11. a heat sink; 12. a rack; 13. a wind sensor; 14. a wind direction sensor; 15. a support; 16. a tail wing; 17. a generator; 18. a support plate; 19. mounting blocks; 20. a bottom pillar; 21. a receiving box; 22. a storage battery; 23. a single chip microcomputer; 24. a third motor; 25. a controller; 26. a gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a wind power generation device comprises an anti-creeping mechanism 2, a second motor 3 and a bottom pillar 20, wherein a receiving box 21 is fixedly connected below the outer wall of the bottom pillar 20 through a fixing piece 1, a storage battery 22 is fixedly connected AT the bottom end inside the receiving box 21, the type of the storage battery 22 can be UD-4-12, a single chip microcomputer 23 is fixedly connected AT the bottom end inside the receiving box 21 on one side of the storage battery 22, the type of the single chip microcomputer 23 can be AT89S51, a controller 25 is fixedly connected with the outer wall of one end of the receiving box 21, the type of the controller 25 can be ARGUS, and the anti-creeping mechanism 2 is fixedly connected AT the middle position of the outer wall of the bottom pillar 20;

the earth wire 201, the sand layer 202, the metal guide rod 203, the metal shell 204, the insulation section 205, the first rotating shaft 206, the first motor 207, the connecting rod 208 and the rotor 209 are sequentially arranged in the anti-creeping mechanism 2, the metal shell 204 is fixedly connected to the middle position of the outer wall of the bottom pillar 20, the top end inside the metal shell 204 is fixedly connected with the first motor 207, the model of the first motor 207 can be Y90S-2, the bottom end of the first motor 207 is fixedly connected with the first rotating shaft 206, the outer wall of the first rotating shaft 206 is fixedly connected with the connecting rod 208, the insulation sections 205 are fixedly connected to the inner sides of two sides of the connecting rod 208, the rotors 209 are fixedly connected to two sides of the connecting rod 208, the metal guide rod 203 is fixedly connected to the bottom end of the rotors 209, the sand layer 202 is arranged at the bottom end inside the metal shell 204, and the earth wire;

specifically, as shown in fig. 3, when the device leaks electricity, the housing of the bottom pillar 20 is made of conductive metal, the electricity is conducted to the metal shell 204, the first motor 207 drives the first rotating shaft 206 to rotate, the first rotating shaft 206 drives the connecting rod 208 to rotate, the rotor 209 rotates to enable the electricity on the metal shell 204 to be conducted to the metal guide rod 203, then the electricity is conducted into the sand layer 202, and finally the electricity is connected to the ground through the grounding wire 201, so that an electric shock event caused by the fact that a worker touches the device is avoided;

the inner side of the top end of the bottom column 20 is fixedly connected with a second motor 3, the type of the second motor 3 can be Y315M-2, the top end of the second motor 3 is fixedly connected with a turntable 4, the top end of the turntable 4 is fixedly connected with an installation block 19, two sides of the installation block 19 are movably hinged with support rods 5, and the top ends of the support rods 5 are movably hinged with support plates 18;

both sides between the inner walls of the two ends of the mounting block 19 are fixedly connected with gears 26, the outer wall of the mounting block 19 at one end of each gear 26 is fixedly connected with a third motor 24, the type of each third motor 24 can be Y160M1-2, the inner side of the mounting block 19 at one side of each gear 26 is movably connected with a rack 12, and one side of each rack 12 is movably hinged to the bottom end of the support rod 5;

specifically, as shown in fig. 1, 2 and 4, when the structure is used, the gear 26 is rotated by the third motor 24, and the rack 12 drives the support rod 5 to move upwards or downwards because the gear 26 is engaged with the tooth blocks of the rack 12, so that the inclination of one side of the support plate 18 can be adjusted upwards or downwards;

the top end of the supporting plate 18 is fixedly connected with a shell 6, one side of the shell 6 is fixedly connected with a wind wheel 7, and the other side of the shell 6 is fixedly connected with an empennage 16;

the bottom end inside the shell 6 is fixedly connected with a generator 17, the model of the generator 17 can be OB1800JK2KW, and one side of the generator 17 is fixedly connected with one side of the wind wheel 7 through a second rotating shaft 8;

specifically, as shown in fig. 1, when the structure is used, the wind wheel 7 is rotated by wind energy, and then the second rotating shaft 8 is driven to rotate, so that the generator 17 generates electricity, and the wind energy power generation effect is realized;

a bracket 15 is fixedly connected to one side of the top end of the shell 6, an air sensor 13 is fixedly connected to one side of the top end of the bracket 15, the type of the air sensor 13 can be GFW15, and an air direction sensor 14 is fixedly connected to the other side of the top end of the bracket 15, and the type of the air direction sensor 14 can be RY-FX 01;

specifically, as shown in fig. 1, when the structure is used, the wind sensor 13 detects the wind power, the wind direction sensor 14 detects the wind direction position, information is transmitted to the controller 25, and the controller 25 adjusts the direction of the wind wheel 7, so that the wind utilization rate is higher;

a heat conducting plate 9 is fixedly welded on the inner side of the outer wall of the top end of the shell 6, radiating fins 11 are uniformly and fixedly welded on the top end of the heat conducting plate 9, and a U-shaped heat conducting pipe 10 is fixedly connected on the inner side of the shell 6 at the bottom end of the heat conducting plate 9;

specifically, as shown in fig. 1, when the structure is used, heat is generated in the housing 6 during power generation, the heat in the housing 6 is absorbed through the U-shaped heat conduction pipe 10, the contact area between the heat conduction pipe 10 and air is increased, so that heat absorption is faster, then the heat is conducted to the heat conduction plate 9, the heat conduction plate 9 is conducted to the radiating fins 11, and then the heat is rapidly radiated through wind between the radiating fins 11, so that the service life of the generator 17 is prolonged;

the single chip 23 is electrically connected with the first motor 207, the second motor 3, the generator 17 and the third motor 24 through wires, and is electrically connected with the wind sensor 13 and the wind sensor 14.

The working principle is as follows: when the device is used, firstly, the wind wheel 7 is rotated by wind energy, then the second rotating shaft 8 is driven to rotate, the generator 17 is enabled to generate electricity, then the electricity is stored in the storage battery 22 through a conducting wire, heat can be generated in the shell 6 in the electricity generation process, the heat in the shell 6 is absorbed through the U-shaped heat conduction pipe 10, the contact area with air is increased through the U-shaped heat conduction pipe 10, the heat absorption is faster, then the heat is conducted to the heat conduction plate 9, the heat conduction plate 9 is conducted to the radiating fins 11, and then the heat is rapidly radiated through the wind between the radiating fins 11, so that the service life of the generator 17 is prolonged;

then, the wind power is detected through the wind sensor 13, the wind direction position is detected through the wind direction sensor 14, then information is transmitted to the controller 25, the direction of the wind wheel 7 is adjusted through the controller 25, the wind wheel 7 can rotate through the second motor 3, the gear 26 rotates through the third motor 24, the rack 12 drives the supporting rod 5 to move upwards or downwards due to the fact that the gear 26 is meshed with the tooth blocks of the rack 12, the inclination of the wind wheel 7 can be adjusted upwards and downwards on one side of the supporting plate 18 conveniently, and the utilization rate of wind is high;

finally, when the device leaks electricity, the shell of the bottom pillar 20 is made of conductive metal, the electricity is conducted to the metal shell 204, the first motor 207 drives the first rotating shaft 206 to rotate, the first rotating shaft 206 drives the connecting rod 208 to rotate, the rotor 209 rotates to enable the electricity on the metal shell 204 to be conducted to the metal guide rod 203, then the electricity is conducted to the sand layer 202, and finally the electricity is connected to the ground through the grounding wire 201, so that the electric shock event caused by the fact that a worker touches the device is avoided.

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

Claims

1. A wind power generation device comprises an anti-creeping mechanism (2), a second motor (3) and a bottom column (20), and is characterized in that: the lower part of the outer wall of the bottom column (20) is fixedly connected with a receiving box (21) through a fixing part (1), the bottom inside the receiving box (21) is fixedly connected with a storage battery (22), the bottom inside the receiving box (21) at one side of the storage battery (22) is fixedly connected with a single chip microcomputer (23), the outer wall of one end of the receiving box (21) is fixedly connected with a controller (25), the middle position of the outer wall of the bottom column (20) is fixedly connected with an anti-creeping mechanism (2), the inner side of the top end of the bottom column (20) is fixedly connected with a second motor (3), the top end of the second motor (3) is fixedly connected with a turntable (4), the top end of the turntable (4) is fixedly connected with a mounting block (19), two sides of the mounting block (19) are movably hinged with a support rod (5), and the top end of the support rod (, the top fixedly connected with casing (6) of backup pad (18), and one side fixedly connected with wind wheel (7) of casing (6), opposite side fixedly connected with fin (16) of casing (6).

2. A wind power plant according to claim 1, characterized in that: the anti-creeping mechanism (2) is characterized in that a grounding wire (201), a sand layer (202), a metal guide rod (203), a metal shell (204), an insulating section (205), a first rotating shaft (206), a first motor (207), a connecting rod (208) and a rotor (209) are sequentially arranged inside the anti-creeping mechanism (2), the metal shell (204) is fixedly connected to the middle position of the outer wall of the bottom pillar (20), the top end inside the metal shell (204) is fixedly connected with the first motor (207), the bottom end of the first motor (207) is fixedly connected with the first rotating shaft (206), the outer wall of the first rotating shaft (206) is fixedly connected with the connecting rod (208), the inner sides of the two sides of the connecting rod (208) are fixedly connected with the insulating section (205), the two sides of the connecting rod (208) are fixedly connected with the rotor (209), the bottom end of the rotor (209) is fixedly connected with the metal guide rod (203), the sand layer (202), one side of the bottom end of the metal shell (204) is fixedly connected with a grounding wire (201).

3. A wind power plant according to claim 1, characterized in that: the bottom end of the interior of the shell (6) is fixedly connected with a generator (17), and one side of the generator (17) is fixedly connected to one side of the wind wheel (7) through a second rotating shaft (8).

4. A wind power plant according to claim 1, characterized in that: the wind power generation device is characterized in that a support (15) is fixedly connected to one side of the top end of the shell (6), a wind sensor (13) is fixedly connected to one side of the top end of the support (15), and a wind direction sensor (14) is fixedly connected to the other side of the top end of the support (15).

5. A wind power plant according to claim 1, characterized in that: the inboard fixed welding of casing (6) top outer wall has heat-conducting plate (9), and the even fixed welding in top of heat-conducting plate (9) has fin (11), the inboard fixedly connected with U type heat pipe (10) of heat-conducting plate (9) bottom casing (6).

6. A wind power plant according to claim 1, characterized in that: the utility model discloses a support bar, including installation piece (19), the equal fixedly connected with gear (26) in both sides between installation piece (19) both ends inner wall, and the equal fixedly connected with third motor (24) of outer wall of gear (26) one end installation piece (19), the equal swing joint in inboard of gear (26) one side installation piece (19) has rack (12), and the equal swing joint in one side of rack (12) in the bottom of bracing piece (5).