JP2023102758A - Buster wind power generator capable of generating large amount of power for multiple machines with one machine - Google Patents

Buster wind power generator capable of generating large amount of power for multiple machines with one machine Download PDF

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JP2023102758A
JP2023102758A JP2022184472A JP2022184472A JP2023102758A JP 2023102758 A JP2023102758 A JP 2023102758A JP 2022184472 A JP2022184472 A JP 2022184472A JP 2022184472 A JP2022184472 A JP 2022184472A JP 2023102758 A JP2023102758 A JP 2023102758A
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shaft
wind power
power
wind
blades
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晴雄 重井
Haruo Shigei
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/72Wind turbines with rotation axis in wind direction

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Abstract

To provide a wind power generator capable of generating a larger amount of power at all times.SOLUTION: Wind power generators conventionally generate power by receiving wind and rotating blades, rotating a shaft, and increasing a rotational frequency with a speed increaser. In order to generate a large amount of power with the same air volume, a rotational shaft is made into a multi-shaft, blades are incorporated at the tip of each shaft, or a speed increaser is incorporated into each shaft, in order that each shaft can rotate smoothly in the same direction, two-stage inter-shaft bearings are incorporated in the front and back of the shaft between a central main shaft and a second shaft, and between the second shaft and a third shaft, so that each shaft can rotate in the same direction to generate power, and therefore, wind power generators can be provided as wind power generators that can generate power for multiple machines with one machine.SELECTED DRAWING: Figure 1

Description

この発明は、今までの風力発電機では自然に吹く風により、主軸前方の羽根が回転し軸を回転させ、軸に組み込まれた増速機を使い回転数を増し発電機で電気に変換発電をしていましたが、この新しいブ-スタ-風力発電機は、1機で複数機分の発電が出来るように、今までの主軸の周りを覆うように第2軸を増設多軸化し、その軸事に動力源の羽根を前方向に増設し、更に第3軸へと同じように軸を覆い多軸化し増設された各軸事に、増速機や発電機を組み込むと、1機の風力発電機で複数機分の発電機能を備えることが出来、大量発電が可能となるシステムを組み込んだブ-スタ-風力発電機である。In the conventional wind power generator, the blades in front of the main shaft rotate by the wind that blows naturally, and the shaft is rotated, and the rotation speed is increased using the speed increaser built into the shaft, and the power is converted into electricity by the generator. However, in this new booster wind power generator, the 2nd shaft is added so that it covers the circumference of the conventional main shaft so that it can generate power for multiple machines with 1 machine. This is a booster wind power generator that incorporates a system that enables a large amount of power generation by incorporating gearboxes and generators into each of the shafts that have been added by covering the shafts like this.

現在、風力発電機は自然に吹く風により、羽根を回し発電されていたが、無風状況では発電出来ない為、稼動時に多くの発電が求められていた。これを改善するには1機の風力発電機のブ-スタ-化により大量発電や充送電が可能な風力発電機が望まれていた。At present, wind power generators generate electricity by turning the blades of the wind that blows naturally, but since they cannot generate electricity in calm conditions, they are required to generate a large amount of electricity during operation. In order to improve this, a wind power generator capable of large-scale power generation, charging and transmission by boosting one wind power generator has been desired.

これまでは次のような欠点があった、これまでは地上や洋上などに設置されていたので、自然の風だのみで羽根を回し発電されていたが、風がやむ無風状態や弱い風になると羽根が回転できず発電することが出来なかったので、風が吹いているとき大容量の発電が出来るよう、風力発電機の主軸の羽根を多くし回転運動を強力にし発電するのでは無く、もっともっと発電が出来るように多軸化し、増設された各軸事に羽根を取り付けその軸事に増速機、発電機と組み込み、各軸事に発電作業をする事で従来の1機の風力発電機が、複数機の風力発電機として多くの発電が出来この課題を解決出来るよう考えられたものである。Until now, there have been the following drawbacks: Since it was installed on the ground or on the sea, it was possible to generate electricity by rotating the blades only with the natural wind, but when the wind stopped or the wind was weak, the blades could not rotate and generate electricity.In order to generate a large amount of power when the wind is blowing, instead of increasing the number of blades on the main shaft of the wind power generator and making the rotational motion stronger to generate power, the wind power generator has multiple shafts and attached to each additional shaft to generate more power. It was conceived to solve this problem by incorporating a speed increaser and a generator in each shaft and performing power generation work on each shaft so that a conventional single wind power generator can generate a large amount of power as multiple wind power generators.

課題を解決する為の手段Means to solve problems

これまでのような、従来の風力発電機の軸を多軸化し、増設された各軸に羽根そしてその増設軸に、増速機、発電機を組み込むことで、固定型風力発電機では、風が吹き羽根が回転運動しているときは大量発電をし充送電が出来、移動型風力発電機では、小型化されているのに複数機分の大量発電が出来充送電が出来るようにと考えられた構造の風力発電機。By making the shafts of conventional wind power generators multi-shaft, and incorporating blades on each additional shaft and gearboxes and generators on the additional shafts, fixed wind power generators can generate a large amount of power and charge and transmit power when the wind is blowing and the blades are rotating.

発明の効果Effect of the invention

固定型風力発電機や、移動型風力発電機等の軸を多軸化することで、増設された各軸の羽根や増速機、発電機を各軸事に組み込むと、従来の風力発電機の発電容量が、1機の風力発電機で複数機の発電が可能となり、発電エネルギ-量が小型風力発電機の大きさで大型風力発電機の発電能力になり、中型風力発電機でメガ風力発電機の発電能力を備え、大型風力発電機でギガ風力発電機の大量発電能力を備える事で、二酸化炭素削減に寄与する事となり製造コストが削減出来ます、この効果により地球温暖化防止や、カ-ボンニュ-トラルの取り組みに役立つ風力発電機として提供することが出来る。By making the shafts of fixed wind power generators and mobile wind power generators multi-axes, the power generation capacity of conventional wind power generators can be reduced to the power generation capacity of a large wind power generator. By being prepared, it will contribute to the reduction of carbon dioxide, and the manufacturing cost can be reduced. By this effect, it can be provided as a wind power generator that is useful for global warming prevention and carbon neutral efforts.

風力発電機の断面図cross section of wind power generator 主軸羽根、第2軸羽根、第3軸羽根正面図Main shaft blade, 2nd shaft blade, 3rd shaft blade front view 主軸羽根、第3軸、第2軸断面図Main shaft blade, 3rd shaft, 2nd shaft sectional view 第2軸、主軸断面詳細図2nd shaft, main shaft detailed sectional view 軸間2段ベアリング正面断面図Front sectional view of two-stage bearing between shafts 主軸、第2軸、第3軸、ケ-ス上下断面図Main shaft, 2nd shaft, 3rd shaft, case upper and lower sectional view

発明を実施する為の形態MODE FOR CARRYING OUT THE INVENTION

以上、本願発明の実施の形態について説明する、
多軸化風力発電機を使用したとき、風力発電機の羽根が風を受けることで各軸の羽根が重なる状態が無い様に、羽根重複止めストッパを設け回転出来る様にし、まず主軸前方の羽根が風により回転することで主軸が回転し、主軸に組み込まれた増速機の歯車に回転運動力を伝え、変換されたエネルギ-を、歯車の動力伝達軸で発電機に回転エネルギ-として伝えることで発電し、その電気エネルギーをケ-ブルにより送配電し電力使用する。多軸による構造形態は、初めに3軸羽根と3軸をケ-スに組み込まれた、羽根側前方軸受けステ-上部に、ベアリングを組み込まれた上下一体軸受け内側に取り付け、その後方側の増速機ステ-上部に増速機を組み込み、増速機から回転運動を発電機に伝え発電をしケ-ブルにより送配電する。2軸羽根と2軸に関しては、羽根と2軸を3軸内側と2軸の間に、ストッパ-付き軸間2段ベアリングを2カ所以上組み込み上下軸に固定し、3軸後方より後方に出た2軸前方を、増速機ステ-に取り付けられた増速機を2軸に組み込み、後方の軸受けステ-上部に、ベアリングの組み込まれた上下一体軸受け内側に取り付け固定し、増速機からの回転運動を発電機に伝え発電をしケ-ブルにより送配電する。主軸羽根と主軸に関しては、羽根と主軸を2軸内側と主軸の間に、ストッパ-付き軸間2段ベアリングを2カ所以上組み込み上下軸に固定し、2軸より後方に出た主軸前方を、増速機ステ-に取り付けられた増速機を、主軸に組み込み、後方の軸受けステ-上部に、ベアリングの組み込まれた上下一体軸受け内側に取り付け固定し、増速機からの回転運動を発電機に伝え発電をしケ-ブルにより送配電する。この構造形態は羽根と軸を多軸化する事で、各軸個々に発電作業が出来発電し送配電出来る為、1機の風力発電機で複数機分の風力発電機として多くの発電が出来使用する事が出来る。
As described above, the embodiments of the present invention are described,
When a multi-axis wind power generator is used, the blades of the wind power generator receive the wind and the blades of each shaft do not overlap, so that the blades of each shaft do not overlap, the blades in front of the main shaft are rotated by the wind, and the main shaft is rotated. do. In the multi-shaft structure, the 3-shaft blades and 3-shafts are first installed in the upper part of the blade-side front bearing stay, which is built into the case, and the upper and lower integral bearings with the bearings are installed inside. Regarding the 2-shaft blade and 2-shaft, the blade and 2-shaft are installed between the inner side of the 3-shaft and the 2-shaft, and the 2-stage bearing between the shafts with a stopper is installed in two or more places and fixed to the vertical shaft. Regarding the main shaft blades and the main shaft, the blades and the main shaft are installed between the inner side of the two shafts and the main shaft, and two or more inter-shaft two-stage bearings with stoppers are installed and fixed to the vertical shaft. In this structural form, by making the blades and shafts multi-axis, each shaft can generate power and transmit and distribute power, so one wind power generator can be used as multiple wind power generators.

1.主軸羽根
2.第2軸羽根
3.第3軸羽根
4.主軸
5.第2軸
6.第3軸
7.主軸増速機
8.第2軸増速機
9.第3軸増速機
10.主軸用発電機
11.第2軸用発電機
12.第3軸用発電機
13.動力伝達軸
14.充配送電器
15.ケ-プル
16.上下一体軸受け
17.主軸羽根ヘッドカバ-
20.ベアリング
21.軸間2段ベアリング
22.上下一体ケ-ス
23.ケ-ス受けフレ-ム
24.軸受けステ-
25.ナット
26.羽根重複止めストッパ-
27.増速機受けステ-
28.発電機受けステ-
29.ベアリングフレ-ム
1. Main shaft blade 2 . 2nd shaft blade 3 . 3rd axial blade4. Main shaft5. second axis6. third axis;7. Spindle gearbox8. 2nd shaft gearbox9. 3rd shaft gearbox 10 . Main shaft generator 11 . Second shaft generator 12 . Third shaft generator 13 . power transmission shaft 14 . charging device 15 . Cable 16 . Upper and lower integrated bearing 17 . Main shaft blade head cover
20. bearing 21 . Two-stage bearing between shafts 22 . Upper and lower integral case 23 . Case receiving frame 24 . Bearing stay
25. nut 26 . Blade overlap stopper
27. gearbox receiving stay
28. Generator receiving stay
29. bearing frame

Claims (1)

一機の風力発電機が複数基の風力発電機として、大量発電が出来るような機能を備えた風力発電機で、主軸への羽根増設で無く、風を受ける各軸先に取り付けられた羽根が羽根どうしが重なり合う事無く回転するように、ストッパ-を組み込み回るようにし、各軸は主軸を覆う様に第2軸を、そして第2軸を覆うように第3軸をもうけ、各羽根が同方向にスム-ズに回転出来るよう上下軸間に軸間2段ベアリングを軸の前後等に組み込み、ベアリングフレ-ムに可動式ストッパ-で軸とベアリングを固定し、羽根と共に各軸が同方向に回転運動が出来、各軸に組み込まれた増速機で回転数を増し調整し発電機で発電が出来る為、1機の風力発電機で複数機の発電能力を備えた各軸事に発電が出来る構造のブ-スタ-風力発電機。A single wind power generator can be used as multiple wind power generators to generate a large amount of power. Instead of adding blades to the main shaft, the blades attached to the ends of the shafts that receive the wind are rotated without overlapping each other. A stopper is incorporated to rotate the blades. Each shaft is provided with a second shaft to cover the main shaft, and a third shaft to cover the second shaft. is installed in the front and rear of the shaft, etc., and the shaft and the bearing are fixed to the bearing frame with a movable stopper, and each shaft can rotate in the same direction together with the blades.
JP2022184472A 2022-01-12 2022-10-31 Buster wind power generator capable of generating large amount of power for multiple machines with one machine Pending JP2023102758A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2023144016A JP2024066448A (en) 2022-10-31 2023-08-19 Wind power generation system

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2022012381 2022-01-12
JP2022012381 2022-01-12

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0654917U (en) * 1993-01-11 1994-07-26 有限会社相模原書類管理システム Two-stage bearing
JP2003129935A (en) * 2001-10-26 2003-05-08 Mitsubishi Heavy Ind Ltd Wind power generator
JP2005528556A (en) * 2002-05-31 2005-09-22 ジャン シク ジョー Wind generator with multiple rotor blades
JP2008111341A (en) * 2006-10-27 2008-05-15 Tadashi Goino Wind powered generator and wind power generation system
JP2017089653A (en) * 2015-11-13 2017-05-25 國彰 ▲黄▼ Wind power generator

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0654917U (en) * 1993-01-11 1994-07-26 有限会社相模原書類管理システム Two-stage bearing
JP2003129935A (en) * 2001-10-26 2003-05-08 Mitsubishi Heavy Ind Ltd Wind power generator
JP2005528556A (en) * 2002-05-31 2005-09-22 ジャン シク ジョー Wind generator with multiple rotor blades
JP2008111341A (en) * 2006-10-27 2008-05-15 Tadashi Goino Wind powered generator and wind power generation system
JP2017089653A (en) * 2015-11-13 2017-05-25 國彰 ▲黄▼ Wind power generator

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