CN113915061A

CN113915061A - High-safety wind driven generator

Info

Publication number: CN113915061A
Application number: CN202111159487.4A
Authority: CN
Inventors: 王泽彬
Original assignee: Ningbo Chuangjin Environmental Protection Equipment Co ltd
Current assignee: Ningbo Chuangjin Environmental Protection Equipment Co ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2022-01-11

Abstract

The invention relates to a wind driven generator, in particular to a high-safety wind driven generator which comprises a box body, wherein a support column is fixedly arranged at the lower end of the box body, the support column is fixedly arranged on the ground, a rotating column is rotatably connected to one end of the box body, a rotating head is fixedly arranged at one end of the rotating column, which is far away from the box body, the outer circumferential surface of the rotating head is fixedly provided with three arc-shaped fan blades, a deicing cleaning component is arranged in the rotating head to perform deicing and cleaning maintenance on the arc-shaped fan blades, a power generation box is fixedly arranged in the middle of the interior of the box body, a fire extinguishing component is movably arranged at the upper end of the middle of the interior of the power generation box to perform fire suppression and timely fire extinguishing functions on components in the power generation box, and a heat dissipation and dehumidification component is arranged at one end of the interior of the box body, which is far away from the power generation box, to perform ventilation and heat dissipation and air intake and dehumidification functions on the power generation box. According to the invention, air in the generator is continuously pumped out, so that oxygen in the generator is reduced, and the wind driven generator is restrained from firing; the fire extinguishing device can quickly extinguish fire by exhausting air and spraying aerosol at a fire site.

Description

High-safety wind driven generator

Technical Field

The present invention relates generally to wind power generators, and more particularly to a high safety wind power generator.

Background

Renewable energy sources such as wind energy, solar energy, nuclear energy, ocean energy and the like are actively developed and utilized in China, and the method is a necessary choice for realizing the sustainable energy strategy of the economic society in China.

Wind turbine rotor blades are easily covered with ice. Ice buildup typically occurs at the leading edge of the airfoil and results in a reduction in lift capacity; in the use process of the wind driven generator in the prior art, the wind driven generator is easy to generate fire due to electrical faults, and is difficult to extinguish once a fire happens because the wind driven generator is generally at the high altitude of dozens of meters, so that the safety of the wind driven generator is reduced.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a high-safety wind driven generator.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a aerogenerator of high security, the power distribution box comprises a box body, the box lower extreme has set firmly the support column, the support column is fixed on the ground, box one end is rotated and is connected and be equipped with the rotation post, it has set firmly the rotor to rotate the post to keep away from box one end, three arc flabellum has set firmly on the outer periphery of rotor, the inside deicing cleaning element that is equipped with of rotor is to carrying out deicing and washing maintenance effect on the arc flabellum, the generator box has set firmly in the middle of the box is inside, the upper end removes and is equipped with the part of putting out a fire and restraines the effect of starting a fire and in time putting out a fire to the part in the generator box in the middle of the generator box is inside, the box is inside to keep away from generator box one end and is equipped with heat dissipation dehumidification part and take a breath the heat dissipation and the dehumidification effect of admitting air in to the generator box.

Preferably, a gear box is fixedly arranged at one end of an inward rotating column of the power generation box, a first rotating shaft is arranged in the gear box in a rotating connection mode and is rotatably connected with the rotating column, a plurality of gears are fixedly arranged on the periphery of the first rotating shaft, a second rotating shaft is fixedly arranged at one end, far away from the rotating column, of the first rotating shaft, a power generation rotor is fixedly arranged on the periphery of the middle of the second rotating shaft, a power generation stator is arranged on the periphery of the power generation rotor, and the power generation rotor is rotatably matched with the power generation stator to generate electricity.

Preferably, the part of putting out a fire is including the movable block of putting out a fire, the movable block of putting out a fire is located the inside up end of power generation box and removes, the movable block both sides of putting out a fire are rotated and are connected and be equipped with two and remove the post, two remove the post and remove on the power generation box, the movable block of putting out a fire is inside to be equipped with the chamber of breathing in to the rotation post direction, the chamber lower extreme of breathing in has set firmly a plurality of suction valves, the chamber of breathing in is kept away from the rotation post direction and is equipped with the chamber of exhausting, the chamber of exhausting is connected with the chamber of breathing in and is equipped with the passageway of ventilating, the chamber of exhausting is equipped with the passageway of ventilating with the chamber of breathing in, be equipped with the air pump in the passageway of ventilating, the chamber of breathing in is connected with the chamber of breathing in, smoke generator is equipped with the air pump in the passageway of ventilating, smoke generator one end has set firmly the smoke generator, the gangshaft is kept away from first motor one end and has set firmly the dwang, the dwang is inside to be equipped with the exhaust chamber of exhausting and is connected.

Preferably, an aerosol cavity is arranged in the exhaust cavity far away from the air suction cavity, a partition plate is fixedly arranged between the exhaust cavity and the aerosol cavity, a pressing plate is arranged in the aerosol cavity in a sealing and sliding mode, a sliding plate is arranged above the pressing plate and slides in a fire extinguishing moving block, a connecting rod is fixedly connected between the sliding plate and the pressing plate, a spring is arranged on the periphery of the connecting rod, a plurality of aerosol outlet valves are fixedly arranged at the lower end of the aerosol cavity, an aerosol storage cavity is arranged in the aerosol cavity far away from the exhaust cavity, and an aerosol inlet valve is fixedly connected between the aerosol storage cavity and the aerosol cavity.

Preferably, the heat dissipation dehumidification part rotates a section of thick bamboo including the heat dissipation dehumidification, and the heat dissipation dehumidification rotates a section of thick bamboo to fix and keeps away from to rotate a post one at the second axis of rotation and serves, and the inside active carbon chamber that is equipped with of heat dissipation dehumidification rotation section of thick bamboo, active carbon chamber and box internal connection are equipped with the admission valve, and the active carbon chamber is equipped with the gas outlet with box external connection.

Preferably, deicing cleaning component includes the second motor, the second motor is interactive inside rotating the head, second motor one side has set firmly the linkage post, round three circles on the linkage post and connect the rope, the other end connection of connecting the rope is equipped with deicing cleaning group, deicing cleaning group contains and is equipped with three deicing cleaning block, deicing cleaning block both ends are equipped with a plurality of deicing valves, it is equipped with a plurality of deicing cleaning blocks to slide in the deicing valve, deicing cleaning block inside is equipped with the water cavity, the water cavity is connected with deicing valve and is equipped with the telescopic needle, water cavity inside has set firmly the water pump, deicing cleaning block both sides are rotated and are connected and are equipped with two first pivots, two first pivots are kept away from deicing cleaning block direction and have set firmly cleaning group, cleaning group contains and is equipped with the connecting block, the connecting block has set firmly cleaning block to the arc flabellum direction, it is equipped with the second pivot to rotate to connect between the cleaning group.

Preferably, an ice melting cavity is formed in the rotating head in the direction that the second motor is far away from the linkage column, a plurality of water spray valves are connected with the outer portion of the rotating head on the outer circumferential surface of the ice melting cavity, a partition plate between the ice melting cavity and the second motor is provided with three rotating shafts in a rotating connection mode towards the deicing cleaning formula, three rotating plates are fixedly arranged on the peripheries of the three rotating shafts, and three water suction ports are formed in the three rotating plates towards the deicing cleaning formula.

Has the advantages that:

1. air in the generator is continuously pumped out, so that oxygen in the generator is reduced, and meanwhile, the temperature of the generator is reduced through heat dissipation to inhibit the wind driven generator from firing.

2. The generator is quickly extinguished by exhausting air and spraying aerosol at the place where the generator is on fire through the movable fire extinguishing part, so that the large damage of the production on fire is avoided.

3. The deicing cleaning component is used for deicing the wind power generation fan, and a small amount of ice blocks are used for melting into water to remove a large amount of ice blocks and clean the surface of the wind power generation fan.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic isometric view of the present invention.

Fig. 2 is a schematic structural view in front view of the present invention.

Fig. 3 is a schematic sectional view at a-a in fig. 2.

Fig. 4 is a schematic cross-sectional view at B-B in fig. 2.

Fig. 5 is a schematic view of a portion a in fig. 2.

Fig. 6 is a schematic view of a portion B in fig. 3.

Fig. 7 is a schematic view of a portion C in fig. 4.

Fig. 8 is a schematic view of a portion D in fig. 4.

In the figure, a box body 10, a fire extinguishing part 11, a heat dissipation dehumidifying part 12, a deicing cleaning part 13, a rotating head 14, a rotating column 15, an arc-shaped fan blade 16, a support column 17, a power generation box 18, a first rotating shaft 19, a gear box 20, a gear 21, a second rotating shaft 22, a power generation rotor 23, a power generation stator 24, a fire extinguishing moving block 25, a moving column 26, an air suction cavity 27, an air discharge cavity 28, an air vent channel 29, an air pump 30, an air suction valve 31, a smoke generator 32, a first motor 33, a linkage shaft 34, a rotating rod 35, an air discharge channel 36, a partition plate 37, an aerosol cavity 38, a pressure plate 39, a sliding plate 40, a connecting rod 41, a spring 42, an aerosol storage cavity 43, an adhesive inlet valve 44, an adhesive outlet valve 45, a heat dissipation dehumidifying rotating cylinder 46, an activated carbon cavity 47, an air inlet valve 48, an air outlet 49, a second motor 50, a linkage column 51, a deicing cleaning group 52, a deicing cleaning block 53, a deicing valves 54, a telescopic needle 55, a power generation and a power generation device, The device comprises a water outlet 56, a water pump 57, a water cavity 58, a heat conducting rod 59, an ice melting cavity 60, a rotating shaft 61, a rotating plate 62, a water suction port 63, a water spraying valve 64, a first rotating shaft 65, a connecting block 66, a cleaning block 67, a second rotating shaft 68 and a cleaning group 69.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-8, a high-safety wind power generator includes a box 10, a support column 17 is fixedly arranged at the lower end of the box 10, the support column 17 is fixed on the ground, a rotating column 15 is rotatably connected to one end of the box 10, a rotating head 14 is fixedly arranged at the end of the rotating column 15 far away from the box 10, three arc-shaped blades 16 are fixedly arranged on the outer circumferential surface of the rotating head 14, a deicing cleaning component 13 is arranged inside the rotating head 14 to perform deicing and cleaning maintenance on the arc-shaped blades 16, a power generation box 18 is fixedly arranged in the middle of the inside of the box 10, a fire extinguishing component 11 is movably arranged at the upper end of the middle of the inside of the power generation box 18 to suppress fire and extinguish fire in time, and a heat dissipation and dehumidification component 12 is arranged at the end of the inside of the box 10 far away from the power generation box 18 to perform ventilation, heat dissipation, air intake and dehumidification functions on the inside of the power generation box 18.

Further, referring to fig. 1-8, a gear box 20 is fixedly disposed at one end of the power generation box 18 facing the rotation column 15, a first rotation shaft 19 is rotatably connected to the gear box 20, the first rotation shaft 19 is rotatably connected to the rotation column 15, a plurality of gears 21 are fixedly disposed on the periphery of the first rotation shaft 19, a second rotation shaft 22 is fixedly disposed at one end of the first rotation shaft 19 away from the rotation column 15, a power generation rotor 23 is fixedly disposed on the periphery of the middle of the second rotation shaft 22, a power generation stator 24 is disposed on the periphery of the power generation rotor 23, and the power generation rotor 23 is rotatably matched with the power generation stator 24 to generate power.

Further, with reference to fig. 1-8, the fire extinguishing component 11 includes a fire extinguishing moving block 25, the fire extinguishing moving block 25 is located inside the power generation box 18 and moves on the upper end face, two moving columns 26 are rotatably connected to two sides of the fire extinguishing moving block 25, the two moving columns 26 move on the power generation box 18, an air suction cavity 27 is arranged inside the fire extinguishing moving block 25 and moves towards the rotating column 15, a plurality of air suction valves 31 are fixedly arranged at the lower end of the air suction cavity 27, an air discharge cavity 28 is arranged in the air suction cavity 27 and moves away from the rotating column 15, an air passage 29 is arranged between the air discharge cavity 28 and the air suction cavity 27, an air pump 30 is arranged in the air passage 29, a smoke generator 32 is fixedly arranged at the upper end of the air suction cavity 27, the smoke generator 32 absorbs smoke concentration and increases the power, a first motor 33 is fixedly arranged at one side of the air discharge cavity 28, the smoke generator 32 is connected with a power supply, a linkage shaft 34 is fixedly arranged at one end of the first motor 33 away from the smoke generator 32, a rotating rod 35 is fixedly arranged at one end of the linkage shaft 34 far away from the first motor 33, and an exhaust channel 36 is arranged inside the rotating rod 35 and connected with the exhaust cavity 28 for air exhaust.

Further, referring to fig. 1-8, an aerosol chamber 38 is disposed in the exhaust chamber 28 away from the air suction chamber 27, a partition plate 37 is fixedly disposed between the exhaust chamber 28 and the aerosol chamber 38, a pressing plate 39 is sealingly and slidably disposed in the aerosol chamber 38, a sliding plate 40 is disposed above the pressing plate 39, the sliding plate 40 slides in the fire extinguishing moving block 25, a connecting rod 41 is fixedly connected between the sliding plate 40 and the pressing plate 39, a spring 42 is disposed on the periphery of the connecting rod 41, a plurality of aerosol discharge valves 45 are fixedly disposed at the lower end of the aerosol chamber 38, an aerosol storage chamber 43 is disposed in the aerosol chamber 38 away from the exhaust chamber 28, and an aerosol inlet valve 44 is fixedly connected between the aerosol storage chamber 43 and the aerosol chamber 38.

Further, referring to fig. 1 to 8, the heat dissipation and dehumidification part 12 includes a heat dissipation and dehumidification rotating cylinder 46, the heat dissipation and dehumidification rotating cylinder 46 is fixed on one end of the second rotating shaft 22 far away from the rotating column 15, an activated carbon cavity 47 is arranged inside the heat dissipation and dehumidification rotating cylinder 46, an air inlet valve 48 is arranged inside the activated carbon cavity 47 and the box 10, and an air outlet 49 is arranged outside the activated carbon cavity 47 and the box 10.

Further, referring to fig. 1-8, the deicing cleaning component 13 includes a second motor 50, the second motor 50 interacts with the inside of the rotating head 14, a linkage column 51 is fixedly disposed on one side of the second motor 50, three rings of connecting ropes are wound on the linkage column 51, the other end of the connecting rope is connected with a deicing cleaning set 52, the deicing cleaning set 52 includes three deicing cleaning blocks 53, a plurality of deicing valves 54 are disposed at two ends of the deicing cleaning blocks 53, a plurality of deicing cleaning blocks 53 are slidably disposed in the deicing valves 54, a water cavity 58 is disposed in the deicing cleaning blocks 53, a telescopic needle 55 is connected between the water cavity 58 and the deicing valves 54, a water pump 57 is fixedly disposed in the water cavity 58, two first rotating shafts 65 are rotatably connected to two sides of the deicing cleaning blocks 53, a cleaning set 69 is fixedly disposed in a direction of the two first rotating shafts 65 away from the deicing cleaning blocks 53, the cleaning set 69 includes a connecting block 66, a cleaning block 67 is fixedly disposed in a direction of the arc-shaped fan blade 16 by the connecting block 66, the second rotating shaft 68 is rotatably connected between the cleaning groups 69.

Further, referring to fig. 1-8, an ice melting chamber 60 is provided in the rotary head 14 in a direction in which the second motor 50 is away from the linkage column 51, a plurality of water spray valves 64 are provided on an outer circumferential surface of the ice melting chamber 60 and outside the rotary head 14, a partition plate between the ice melting chamber 60 and the second motor 50 is rotatably connected to the deicing cleaning group 52 and provided with three rotating shafts 61, three rotating plates 62 are fixedly provided on peripheries of the three rotating shafts 61, and three water suction ports 63 are provided on the three rotating plates 62 in a direction of the deicing cleaning group 52.

Principle of operation

The wind power drives the rotating head 14 to rotate through the arc-shaped fan blades 16, the rotating head 14 drives the first rotating shaft 19 to rotate through the rotating column 15, the first rotating shaft 19 drives the second rotating shaft 22 to rotate through the gear 21, and the second rotating shaft 22 drives the power generation rotor 23 to rotate in the power generation stator 24 to generate electric power.

The air pump 30 starts to suck the air in the power generation box 18 into the air suction cavity 27 through the air suction valve 31, then enters the air exhaust cavity 28 through the air ventilation channel 29, the air in the air exhaust cavity 28 enters the cavity inside the rotating rod 35 through the air exhaust channel 36 and is exhausted out of the power generation box 18 to the inside of the box body 10, and the air in the power generation box 18 is pumped out to enable the oxygen in the power generation box 18 to be short to inhibit the fire from happening in the power generation box 18.

When the smoke sucked into the air suction cavity 27 in the power generation box 18 is ignited and is sucked by the smoke generator 32 to electrify the first motor 33, the first motor 33 is started to drive the exhaust channel 36 to rotate through the linkage shaft 34, the air in the exhaust cavity 28 indirectly exhausts the gas through the exhaust channel 36, the moving column 26 rotates to drive the fire extinguishing moving block 25 to move above the ignition, when the gas pressure in the exhaust cavity 28 is overlarge, the pressing plate 39 is pressed downwards, the pressing plate 39 is sealed and pressed downwards in the aerosol cavity 38 to spray the aerosol onto the ignition part through the aerosol outlet valve 45 for air suction and aerosol fire extinguishing, the gas pressure in the exhaust cavity 28 is reduced, the spring 42 pushes the sliding plate 40 to slide upwards, the sliding plate 40 slides upwards to drive the pressing plate 39 to slide upwards through the connecting rod 41, and the aerosol in the aerosol storage cavity 43 is sucked into the aerosol cavity 38 through the aerosol inlet valve 44 for supplement.

The gas outside the power generation box 18 enters the activated carbon cavity 47 through the air inlet valve 48 and then is discharged through the air outlet 49, the gas outside the box body 10 enters the activated carbon cavity 47 through the air outlet 49 for dehumidification and then enters the box body 10 through the air inlet valve 48 for heat dissipation, and part of heat generated by the power generation box 18 is absorbed by the activated carbon cavity 47 to restore the activity.

When ice blocks are formed on the arc-shaped fan blades 16, the rotation of the arc-shaped fan blades 16 is influenced, the three sliding doors on the rotating head 14 towards the direction of the arc-shaped fan blades 16 are opened, the second motor 50 is started to rotate anticlockwise to throw out the connecting ropes through the linkage columns 51, the three deicing cleaning groups 52 are pushed out of the rotating head 14 through the connecting ropes, the connecting ropes control the deicing cleaning groups 52 to slide on the arc-shaped fan blades 16, the first rotating shafts 65 on the two sides of the deicing cleaning block 53 rotate to drive the cleaning groups 69 to rotate, a part of ice is scraped through the rotation matching of the plurality of cleaning groups 69, the second motor 50 rotates clockwise to pull back the connecting ropes through the linkage columns 51, the connecting ropes are pulled back to the deicing cleaning groups 52, the ice brought back by the deicing cleaning groups 52 enters the rotating head 14 to be above the rotating plates 62, the rotating shafts 61 rotate to drive the rotating plates 62 to rotate the ice to be in the deicing cavities 60, and a part of heat generated by the power generation box 18 reaches the deicing cavities 60 through the heat conducting rods 59 to melt the ice, the deicing cleaning group 52 starts to suck water in the deicing cavity 60 into the water cavity 58 through the water suction port 63, the second motor 50 rotates anticlockwise to throw out the connecting rope through the linkage column 51, the three deicing cleaning groups 52 are pushed out of the rotating head 14 through the connecting rope, the deicing cleaning block 53 slides out to pop out a water outlet 56 in the ice removing valve 54 with ice blocks to be popped out in the ice to be sprayed into holes in the ice through the telescopic needles 55 to melt the ice, and then the cleaning group 69 is matched to scrub the surface of the arc fan blade 16 for periodic maintenance.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a aerogenerator of high security, includes box (10), its characterized in that, box (10) lower extreme has set firmly support column (17), support column (17) are fixed on the ground, box (10) one end is rotated and is connected and is equipped with and rotates post (15), it has set firmly to rotate head (14) to rotate post (15) and keep away from box (10) one end, three arc flabellum (16) have set firmly on rotating head (14) outer periphery, it carries out deicing and washs the maintenance effect to arc flabellum (16) on deicing washing part (13) to rotate head (14) inside, box (10) inside centre has set firmly generator box (18), the inside middle upper end removal of generator box (18) is equipped with fire extinguishing component (11) and suppresses the effect of starting a fire and in time put out a fire to the part in generator box (18), box (10) inside one end of keeping away from generator box (18) is equipped with heat dissipation dehumidification part (12) and advances in generator box (18) Ventilation, heat dissipation, air intake and dehumidification.

2. A high safety wind turbine according to claim 1, wherein: the utility model discloses a generator box, including power generation box (18), gear box (20) have been set firmly to rotation post (15) one end in power generation box (18), gear box (20) internal rotation is connected and is equipped with first axis of rotation (19), first axis of rotation (19) rotate with rotation post (15) and be connected, first axis of rotation (19) periphery has set firmly a plurality of gears (21), first axis of rotation (19) are kept away from rotation post (15) one end and have been set firmly second axis of rotation (22), the periphery has set firmly electricity generation rotor (23) in the middle of second axis of rotation (22), electricity generation rotor (23) periphery is equipped with electricity generation stator (24), electricity generation rotor (23) normal running fit electricity generation stator (24) produce electricity.

3. A high safety wind turbine according to claim 2, wherein: the fire extinguishing part (11) comprises a fire extinguishing moving block (25), the fire extinguishing moving block (25) is located on the upper end face inside the power generation box (18) and moves, two moving columns (26) are rotatably connected to two sides of the fire extinguishing moving block (25), the two moving columns (26) move on the power generation box (18), an air suction cavity (27) is formed in the fire extinguishing moving block (25) towards the rotating columns (15), a plurality of air suction valves (31) are fixedly arranged at the lower end of the air suction cavity (27), an air exhaust cavity (28) is formed in the air suction cavity (27) in the direction far away from the rotating columns (15), an air vent channel (29) is formed in the air exhaust cavity (28) and the air suction cavity (27) in a connecting mode, an air pump (30) is arranged in the air vent channel (29), a smoke generator (32) is fixedly arranged at the upper end of the air suction cavity (27), and the smoke generator (32) absorbs smoke, so that the power of the smoke concentration is increased, smoke generator (32) have set firmly first motor (33) to exhaust chamber (28) one side, smoke generator (32) are connected with first motor (33) and are improved the power, smoke generator (32) one end is kept away from in first motor (33) has set firmly universal driving shaft (34), universal driving shaft (34) are kept away from first motor (33) one end and have set firmly dwang (35), dwang (35) inside is connected with exhaust chamber (28) and is equipped with exhaust passage (36) and bleed.

4. A high safety wind turbine according to claim 3, wherein: the fire extinguishing device is characterized in that an aerosol cavity (38) is arranged in the direction, away from an air suction cavity (27), of the air exhaust cavity (28), a partition plate (37) is fixedly arranged between the air exhaust cavity (28) and the aerosol cavity (38), a pressing plate (39) is arranged in the aerosol cavity (38) in a sealing and sliding mode, a sliding plate (40) is arranged above the pressing plate (39), the sliding plate (40) slides in a fire extinguishing moving block (25), a connecting rod (41) is fixedly connected between the sliding plate (40) and the pressing plate (39), a spring (42) is arranged on the periphery of the connecting rod (41), a plurality of aerosol outlet valves (45) are fixedly arranged at the lower end of the aerosol cavity (38), an aerosol storage cavity (43) is arranged in the direction, away from the air exhaust cavity (28), and an aerosol inlet valve (44) is arranged between the aerosol storage cavity (43) and the aerosol cavity (38).

5. A high safety wind turbine according to claim 4, wherein: heat dissipation dehumidification part (12) rotate a section of thick bamboo (46) including heat dissipation dehumidification, heat dissipation dehumidification rotates a section of thick bamboo (46) to be fixed and is kept away from rotation post (15) one at second axis of rotation (22) and serve, heat dissipation dehumidification rotates a section of thick bamboo (46) inside and is equipped with activated carbon chamber (47), activated carbon chamber (47) are equipped with admission valve (48) with box (10) internal connection, activated carbon chamber (47) are equipped with gas outlet (49) with box (10) external connection.

6. A high safety wind turbine according to claim 5, wherein: the deicing and cleaning component (13) comprises a second motor (50), the second motor (50) interacts with the inside of the rotating head (14), a linkage column (51) is fixedly arranged on one side of the second motor (50), a rope is connected around three circles on the linkage column (51), the other end of the connecting rope is connected with a deicing and cleaning group (52), the deicing and cleaning group (52) comprises three deicing and cleaning blocks (53), a plurality of deicing valves (54) are arranged at two ends of each deicing and cleaning block (53), a plurality of deicing and cleaning blocks (53) are arranged in the deicing valves (54) in a sliding manner, a water cavity (58) is arranged in each deicing and cleaning block (53), a telescopic needle (55) is arranged between each water cavity (58) and each deicing valve (54), a water pump (57) is fixedly arranged in each water cavity (58), two first rotating shafts (65) are arranged on two sides of each deicing and cleaning block (53) in a rotating manner, two first pivot (65) are kept away from deicing and are washd piece (53) direction and have set firmly washing group (69), washing group (69) contain and are equipped with connecting block (66), connecting block (66) have set firmly washing piece (67) to arc flabellum (16) direction, it is equipped with second pivot (68) to rotate the connection between washing group (69).

7. A high safety wind turbine according to claim 6, wherein: the direction that linkage post (51) was kept away from in second motor (50) is equipped with deicing chamber (60) in rotating head (14), deicing chamber (60) outer periphery is gone up and is equipped with a plurality of water spray valves (64) with rotating head (14) external connection, baffle between deicing chamber (60) and second motor (50) is rotated to deicing washing group (52) direction and is connected and is equipped with three pivot (61), three pivot (61) periphery sets firmly three rotor plate (62), three rotor plate (62) are equipped with three water sucking mouth (63) to deicing washing group (52) direction.