CN102251934A - Spring energy storage wind driven generator - Google Patents
Spring energy storage wind driven generator Download PDFInfo
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- CN102251934A CN102251934A CN2011101614609A CN201110161460A CN102251934A CN 102251934 A CN102251934 A CN 102251934A CN 2011101614609 A CN2011101614609 A CN 2011101614609A CN 201110161460 A CN201110161460 A CN 201110161460A CN 102251934 A CN102251934 A CN 102251934A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
Abstract
The invention discloses a spring energy storage wind driven generator, and relates to a wind driven generator technical device, wherein the wind driven generator comprises a fan blade, a fan shell, a tail vane, a generator and a rectification regulator; a shaft end bevel gear of a fan blade shaft is meshed with a shaft end bevel gear of a driving transmission shaft; a driving gear of the driving transmission shaft is meshed with a spring energy storage spiral spring gear of the spring energy storage transmission device; the spring energy storage mechanism is sequentially connected with a steady speed releasing mechanism and a speed increasing mechanism; a driven gear of the tail stage of the speed increasing mechanism is meshed with a motive power output gear; and a motive power output shaft of the motive power output gear is connected with a rotor shaft of the generator. According to the invention, wind energy is converted into mechanical energy, namely spring energy storage, and then the spring energy storage is released to do work and generate electricity, and is converted into power energy; especially when two groups of spring energy storage transmission devices are adopted, the alternative operation of the two groups of spring energy storage transmission devices can be realized through an exchanging device, thus the discontinuous wind driven spring energy storage power generation can be carried out; and according to the invention, the pollution of the requisite assembly battery storage of the existing wind driven generator on the environment is eliminated thoroughly, and the discontinuous clean energy source wind driven power generation and power supply are realized truly.
Description
Technical field:
The present invention relates to the emerging energy generation technology, relate generally to wind generating technology, particularly spring energy-storage no storage battery small-size wind power-generating equipment.
Background technique:
Before the present invention, small-sized wind power generator generally comprises all parts of fan blade, generator, tail vane, regulator and storage battery, is that the Ac of earlier wind-force being sent out stores it for charge in batteries after rectification, and then through straight---hand over inversion for electric consumer.So all be unable to do without storage battery, and a large amount of storage battery make, discharge and recharge using process, and storage battery scrap and all will produce harmful plumbic acid pollution, people's physical and mental health in serious threat.Wind-power electricity generation is a kind of reproducible clean energy resource, can be unclean because of using storage battery to become again, and this is the technical problem that wind generating technology need solve.
Summary of the invention:
Goal of the invention of the present invention, just be based on the new measure that prior art technical problem proposition extremely to be solved is dealt with problems, a kind of spring energy-storage wind-driven generator is provided, it is without the accumulators store electric energy, but earlier wind energy is passed through spring energy-storage, again that spring energy-storage is continual for generator for electricity generation and power supply.
The foregoing invention purpose can be achieved by following technical measures: a kind of spring energy-storage wind-driven generator, comprise fan blade, Fan casing, tail vane, generator and rectification adjuster, be characterised in that blade shaft axle head bevel gear 2 is meshed with main drive shaft 3 axle head bevel gears 12.Be loaded on the driving gear 6 and spring energy-storage transmission device mechanical connection of main drive shaft bottom, described spring energy-storage transmission device has one group at least, and it comprises: the spring energy-storage mechanism 9 of Lian Jieing, speed stabilizing releasing mechanism 10, speed increasing mechanism 11 successively.The wind spring gear 8 of spring energy-storage mechanism 9 is meshed with the driving gear 6 of main drive shaft bottom.The final stage driven gear 37 of speed increasing mechanism 11 is meshed with power output gear 13.The pto of power output gear 13 connects the rotor shaft of generator 15.
The further preferred version of the present invention is: described spring energy-storage transmission device is provided with two groups.Described driving gear 6 is a sliding gear, is loaded on the splined shaft 43 of main drive shaft bottom, realizes that by COMM communication 17 control shift forks 7 driving gear 6 is meshed with the spring energy-storage mechanism wind spring gear of two groups of spring energy-storage transmission devices respectively; Described power output gear 13 is a sliding gear, is loaded on the splined shaft 44, realizes that by COMM communication 17 control shift forks 14 power output gear 13 is meshed with the speed increasing mechanism final stage driven gear of two groups of spring energy-storage transmission devices respectively.
The spring energy-storage mechanism 9 of described spring energy-storage transmission device, by the wind spring vertical shaft 22 of wind spring gear 8, wind spring gear 8, its bottom pass the wind spring vertical shaft spring case 20, be located at that energy-storaging spring 21 one ends in the spring case and wind spring vertical shaft 22 top Joints, its other end are fixed within the spring case 20 on the wall and constitute with spring case gear 19 that spring case 20 bottoms fix; The speed stabilizing releasing mechanism 10 of described spring energy-storage transmission device, by the first tooth axle 23 that is meshed with spring case gear 19, be meshed with intermediate gear 25 with first driving gear 24 of the first tooth axle, 23 Joints, intermediate gear 25 is meshed with the second tooth axle 26, be meshed with the 3rd tooth axle 28 with second driving gear 27 of the second tooth axle, 26 Joints, be controlled by speed stabilizing pendulum fork 30, speed stabilizing pendulum fork 30 with the speed stabilizing gear 29 of the 3rd tooth axle 28 Joints is loaded among the spring damping escapement 31 and constitutes on the axle; The speed increasing mechanism 11 of described spring energy-storage transmission device is made of the multi-stage acceleration gear train, and its prime driven gear 33 is meshed with second driving gear 27, and its final stage driven gear 37 is meshed with power output gear 13.
The beneficial effect that the present invention produced is that the present invention changes wind energy into mechanical energy earlier---spring energy-storage discharges spring energy-storage the work done generating again and changes electric energy into.Particularly when adopting two groups of spring energy-storage transmission devices, when one group of device when carrying out the wind-force spring energy-storage, another group device then carries out spring and discharges the work done generating, another group device spring energy-storage has discharged and has then switched to first group of device and carry out spring and discharge work done and generate electricity, this another organize device and then switch to the wind-force spring energy-storage.Like this two groups alternately wheel change jobs, realize uninterrupted wind-force spring energy-storage generating.The present invention thoroughly gets rid of and has broken away from the used storage battery of wind-driven generator, has avoided the pollution of storage battery to environment, has really realized uninterrupted clean energy resource wind-power electricity generation and power supply.
Description of drawings:
Accompanying drawing 1 the present invention adopts two groups of spring energy-storage transmission device organigrams
Accompanying drawing 2 the present invention adopt single group spring energy-storage transmission device schematic diagram of structure
Accompanying drawing 3 spring energy-storage mechanisms of the present invention and speed stabilizing releasing mechanism stereogram
Accompanying drawing 4 spring damping speed stabilizing pendulum of the present invention are pitched mechanism's plan view
The spring case plan view of accompanying drawing 5 spring energy-storage of the present invention mechanism
Accompanying drawing 6 switching means configuration schematic diagrams of the present invention
Embodiment:
Accompanying drawing 2 is single group spring energy-storage transmission device schematic diagram of structure for the present invention adopts, and has provided a kind of embodiment of the present invention.This spring energy-storage wind-driven generator comprises fan blade 1, Fan casing 42, tail vane 4, generator 15 and rectification adjuster 16.The motor 15 of this wind-driven generator is not located in the Fan casing 42, and driving mechanism only is set in the Fan casing, and promptly blade shaft axle head bevel gear 2 is meshed with main drive shaft 3 axle heads commutation bevel gear 12.Can establish shaft joint 5 (if main drive shaft height) in the middle of the main drive shaft.Be loaded on driving gear 6 and one group of spring energy-storage transmission device mechanical connection of main drive shaft bottom, described spring energy-storage transmission device comprises: the spring energy-storage mechanism 9 of Lian Jieing, speed stabilizing releasing mechanism 10, speed increasing mechanism 11 successively.Described driving gear 6 and one group of spring energy-storage transmission device mechanical connection are meant that driving gear 6 is meshed with the wind spring gear 8 of spring energy-storage mechanism 9.The final stage driven gear 37 of speed increasing mechanism 11 is meshed with power output gear 13.The pto of power output gear 13 connects the rotor shaft of generator 15.
The spring energy-storage mechanism 9 of described spring energy-storage transmission device comprises: the spring case 20 of wind spring vertical shaft, the spring case gear 19 of being located at that the interior energy-storaging spring 21 one ends of spring case 20 and wind spring vertical shaft 22 top Joints, its other end are fixed within the spring case 20 on the wall and fixing with spring case 20 bottoms are passed in the wind spring vertical shaft 22 of wind spring gear 8, wind spring gear 8, its bottom.See accompanying drawing 2 and bow shown in Figure 3ly that central through bore is arranged at spring case 20 and spring case gear 19 bottoms of fixing under it, can hold wind spring vertical shaft 22 frictionlesss and pass.Wind spring gear 8 is meshed with driving gear 6, and wind spring gear 8 has anti-back ratchet 18.Because of spring case gear 19 is meshed with its backgear, and the control that is subjected to spring damping escapement 31 and speed stabilizing to put fork 30, so energy-storaging spring 21 will be by rolling-in when wind spring gear 8 rotates together with wind spring vertical shaft 22, and do not influence spring case gear 19 and gear meshing transmission thereafter during wind spring.
The speed stabilizing releasing mechanism 10 of described spring energy-storage transmission device comprises: the first tooth axle 23 that is meshed with spring case gear 19, be meshed with intermediate gear 25 with first driving gear 24 of the first tooth axle, 23 Joints, intermediate gear 25 is meshed with the second tooth axle 26, be meshed with the 3rd tooth axle 28 with second driving gear 27 of the second tooth axle, 26 Joints, be controlled by speed stabilizing pendulum fork 30 with the speed stabilizing gear 29 of the 3rd tooth axle 28 Joints, speed stabilizing pendulum fork 30 is loaded among the spring damping escapement 31 on the axle, as shown in Figure 3.Energy-storaging spring 21 passes to energy the damping spring 32 of spring damping escapement 31 by driving gear and speed stabilizing pendulum fork 30, damping spring 32 rotates energy conversely by speed stabilizing pendulum fork 30 control speed stabilizing gears 29 constant speed, thereby second driving gear, 27 constant speed are rotated.
The speed increasing mechanism 11 of described spring energy-storage transmission device is made of the multi-stage acceleration gear train, and its prime driven gear 33 is meshed with second driving gear 27 of speed stabilizing releasing mechanism, and its final stage driven gear 37 is meshed with power output gear 13.The present invention establishes three grades of overdrive gear groups, comprising: prime driven gear 33 is meshed with second driving gear 27 of speed stabilizing releasing mechanism, be meshed with intergrade driven gear 35 with coaxial first driving gear 34 of prime driven gear 33, be meshed with final stage driven gear 37 with coaxial second driving gear 36 of intergrade driven gear 35.The elastic parameter of velocity ratio, energy-storaging spring 21 and damping spring 32 by appropriate design multi-stage acceleration, speed booster driving mechanism, and the number of teeth of speed stabilizing gear 29 etc. can satisfy the required rotating speed of rotor of magneto alternator 15 and the requirement of moment of torsion.
Accompanying drawing 1 has provided a kind of preferred implementation of the present invention for the organigram that the present invention adopts two groups of spring energy-storage transmission devices.Driving gear 6 is a sliding gear in this mode of execution, is loaded on the splined shaft 43 of main drive shaft bottom, is realized driving gear 6 is meshed with the spring energy-storage mechanism wind spring gear of two groups of spring energy-storage transmission devices respectively by COMM communication 17 control shift forks 7; Power output gear 13 is a sliding gear, is loaded on the splined shaft 44, is meshed with the speed increasing mechanism final stage driven gear of two groups of spring energy-storage transmission devices respectively by COMM communication 17 control shift forks 14 gear 13 of realizing outputing power.In two groups of spring energy-storage transmission devices, wherein one group comprises: the spring energy-storage mechanism 9 of Lian Jieing, speed stabilizing releasing mechanism 10, speed increasing mechanism 11 successively.The wind spring gear 8 of spring energy-storage mechanism 9 can be meshed with driving gear 6, and the final stage driven gear 37 of speed increasing mechanism 11 can be meshed with power output gear 13; Another group comprises: successively the spring energy-storage mechanism 9 of Lian Jieing ', speed stabilizing releasing mechanism 10 ', speed increasing mechanism 11 ', spring energy-storage mechanism 9 ' wind spring gear 8 ' can be meshed with driving gear 6, speed increasing mechanism 11 ' final stage driven gear 37 ' can be meshed with power output gear 13.
Described COMM communication 17 comprise be located at respectively spring case 20 and spring case 20 ' within piezoelectric transducer 38 on the wall and piezoelectric transducer 38 ' (spring case 20 ', piezoelectric transducer 38 ' the be parts of another spring energy-storage transmission device, do not show), warp or door 47 are electrically connected the trigger signal input end of flip and flop generators 39, the output terminal Q and the output terminal of flip and flop generator
The output terminal that is electrically connected input end, first relay 40 and second relay 41 of first relay 40 and second relay 41 respectively is electrically connected electromagnet 45 and electromagnet 46, electromagnet 45 and electromagnet 46 adhesives respectively or discharges corresponding clutch yoke 7 and clutch yoke 14.Working procedure, when a certain energy-storaging spring when discharging fully, will oppress piezoelectric transducer and produce a some signal, piezoelectric signal through or door make the flip and flop generator upset, flip and flop generator Q holds and uprises current potential by low potential,
End is by high petential step-down current potential, make 40 adhesives of first relay, second relay 41 discharges, electromagnet 45 is inhaled moving clutch yoke 7, driving gear 6 is meshed with wind spring gear 8, energy-storaging spring 21 beginning wind spring accumulation of energys, electromagnet 46 discharges simultaneously, clutch yoke 14 makes power output gear 13 and final stage driven gear 37 ' be meshed under the extension spring effect, energy-storaging spring 21 ' begin to discharge generating.So by turns.
Claims (5)
1. a spring energy-storage wind-driven generator comprises fan blade (1), Fan casing (42), tail vane (4), generator (15) and rectification adjuster (16), it is characterized in that, blade shaft axle head bevel gear (2) is meshed with main drive shaft (3) axle head bevel gear (12); Driving gear (6) that is loaded on the main drive shaft bottom and spring energy-storage transmission device mechanical connection, described spring energy-storage transmission device has one group at least, and it comprises: the spring energy-storage mechanism (9) of Lian Jieing, speed stabilizing releasing mechanism (10), speed increasing mechanism (11) successively; The wind spring gear (8) of spring energy-storage mechanism (9) is meshed with the driving gear (6) of main drive shaft bottom; The final stage driven gear (37) of speed increasing mechanism (11) is meshed with power output gear (13); The pto of power output gear (13) connects the rotor shaft of generator (15).
2. according to the described a kind of spring energy-storage wind-driven generator of claim 1, it is characterized in that described spring energy-storage transmission device is provided with two groups; Described driving gear (6) is a sliding gear, is loaded on the splined shaft (43) of main drive shaft bottom, realizes that by COMM communication (17) control shift fork (7) driving gear (6) is meshed with the spring energy-storage mechanism wind spring gear of two groups of spring energy-storage transmission devices respectively; Described power output gear (13) is a sliding gear, is loaded on the splined shaft (44), realizes that by COMM communication (17) control shift fork (14) power output gear (13) is meshed with the speed increasing mechanism final stage driven gear of two groups of spring energy-storage transmission devices respectively.
3. according to claim 1 or 2 described a kind of spring energy-storage wind-driven generators, it is characterized in that, the spring energy-storage mechanism (9) of described spring energy-storage transmission device, by the wind spring vertical shaft (22) of wind spring gear (8), wind spring gear (8), its bottom pass the wind spring vertical shaft spring case (20), be located at interior the energy-storaging spring of spring case (21) one end and wind spring vertical shaft (22) top Joint, its other end and be fixed within the spring case (20) on the wall and the spring case gear (19) that bottom spring case (20), fixes formation; The speed stabilizing releasing mechanism (10) of described spring energy-storage transmission device is by the first tooth axle (23) that is meshed with spring case gear (19), be meshed with intermediate gear (25) with first driving gear (24) of first tooth axle (23) Joint, intermediate gear (25) is meshed with the second tooth axle (26), be meshed with the 3rd tooth axle (28) with second driving gear (27) of second tooth axle (26) Joint, be controlled by speed stabilizing pendulum fork (30) with the speed stabilizing gear (29) of the 3rd tooth axle (28) Joint, speed stabilizing pendulum fork (30) is loaded among the spring damping escapement (31) and constitutes on the axle; The speed increasing mechanism of described spring energy-storage transmission device (11) is made of the multi-stage acceleration gear train, and its prime driven gear (33) is meshed with second driving gear (27), and its final stage driven gear (37) is meshed with power output gear (13).
4. according to the described a kind of spring energy-storage wind-driven generator of claim 3, it is characterized in that, the speed increasing mechanism of described spring energy-storage transmission device (11) is three grades of speedups, comprises that prime driven gear (33) is meshed with speed stabilizing releasing mechanism second driving gear (27), is meshed with intergrade driven gear (35) with coaxial first driving gear (34) of prime driven gear (33), is meshed with final stage driven gear (37) with coaxial second driving gear (36) of intergrade driven gear (35).
5. according to the described a kind of spring energy-storage wind-driven generator of claim 2, it is characterized in that, described COMM communication (17) comprises is located at the piezoelectric transducer (38) on the wall and the output electrical connection of piezoelectric transducer (38 '), piezoelectric transducer (38) and piezoelectric transducer (38 ') or the input end of door (47) within spring case (20) and the spring case (20 ') respectively, or gate output terminal is electrically connected the trigger signal input end of flip and flop generator (39), the output terminal Q and the output terminal of flip and flop generator
The output terminal that is electrically connected input end, first relay (40) and second relay (41) of first relay (40) and second relay (41) respectively is electrically connected electromagnet (45) and electromagnet (46), electromagnet (45) and electromagnet (46) adhesive respectively or discharges corresponding clutch yoke (7) and clutch yoke (14).
Priority Applications (1)
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CN2011101614609A CN102251934B (en) | 2011-05-26 | 2011-05-26 | Spring energy storage wind driven generator |
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CN2011101614609A CN102251934B (en) | 2011-05-26 | 2011-05-26 | Spring energy storage wind driven generator |
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CN102251934A true CN102251934A (en) | 2011-11-23 |
CN102251934B CN102251934B (en) | 2012-12-26 |
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CN2011101614609A Expired - Fee Related CN102251934B (en) | 2011-05-26 | 2011-05-26 | Spring energy storage wind driven generator |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103671793A (en) * | 2013-11-25 | 2014-03-26 | 陈国安 | Mechanical power generator |
CN104314767A (en) * | 2014-08-22 | 2015-01-28 | 深圳朴方环保发展有限公司 | Resultant-force wind power generation device with energy storage function |
CN105065301A (en) * | 2015-07-30 | 2015-11-18 | 苏州市博得立电源科技有限公司 | Fan combined with rotary machinery generator |
CN105281537A (en) * | 2014-07-17 | 2016-01-27 | 蔡源祯 | Power output system |
CN106763607A (en) * | 2016-12-21 | 2017-05-31 | 梁渤涛 | Store and discharge the mechanism of mechanical energy |
CN111373142A (en) * | 2017-09-26 | 2020-07-03 | 农业集团韩国市区农业有限公司 | Power generation system using wind power generated by weak wind |
CN112690554A (en) * | 2021-01-13 | 2021-04-23 | 长沙环康科技有限公司 | Outdoor multi-functional emergent kettle |
CN113639014A (en) * | 2021-08-23 | 2021-11-12 | 西南交通大学 | Electromechanical multi-source input adjustable-speed ventilation device |
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CN101622468A (en) * | 2006-11-27 | 2010-01-06 | 阿楚门尔研究与发展有限公司 | Elastodynamic energy accumulator holds-regulator |
CN101968038A (en) * | 2009-07-27 | 2011-02-09 | 陈黎平 | Wind power generation device using springs for energy storage |
CN202056004U (en) * | 2011-05-26 | 2011-11-30 | 白黎明 | Novel spring energy storage wind driven generator |
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2011
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Patent Citations (4)
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DE19835117A1 (en) * | 1998-08-04 | 2000-03-30 | Hermann Wenninger | Store for wind energy has incoming wind energy transmitted via cam star to lifting lever connected by freewheel to transport shaft turning spring store. |
CN101622468A (en) * | 2006-11-27 | 2010-01-06 | 阿楚门尔研究与发展有限公司 | Elastodynamic energy accumulator holds-regulator |
CN101968038A (en) * | 2009-07-27 | 2011-02-09 | 陈黎平 | Wind power generation device using springs for energy storage |
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103671793A (en) * | 2013-11-25 | 2014-03-26 | 陈国安 | Mechanical power generator |
CN105281537A (en) * | 2014-07-17 | 2016-01-27 | 蔡源祯 | Power output system |
CN104314767A (en) * | 2014-08-22 | 2015-01-28 | 深圳朴方环保发展有限公司 | Resultant-force wind power generation device with energy storage function |
CN105065301A (en) * | 2015-07-30 | 2015-11-18 | 苏州市博得立电源科技有限公司 | Fan combined with rotary machinery generator |
CN106763607A (en) * | 2016-12-21 | 2017-05-31 | 梁渤涛 | Store and discharge the mechanism of mechanical energy |
CN111373142A (en) * | 2017-09-26 | 2020-07-03 | 农业集团韩国市区农业有限公司 | Power generation system using wind power generated by weak wind |
CN112690554A (en) * | 2021-01-13 | 2021-04-23 | 长沙环康科技有限公司 | Outdoor multi-functional emergent kettle |
CN113639014A (en) * | 2021-08-23 | 2021-11-12 | 西南交通大学 | Electromechanical multi-source input adjustable-speed ventilation device |
CN113639014B (en) * | 2021-08-23 | 2022-05-06 | 西南交通大学 | Electromechanical multi-source input adjustable-speed ventilation device |
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