JP2024046727A - Rotator - Google Patents
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- JP2024046727A JP2024046727A JP2022161264A JP2022161264A JP2024046727A JP 2024046727 A JP2024046727 A JP 2024046727A JP 2022161264 A JP2022161264 A JP 2022161264A JP 2022161264 A JP2022161264 A JP 2022161264A JP 2024046727 A JP2024046727 A JP 2024046727A
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- air
- compressed air
- rotating plate
- generator
- compressor
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- 230000005611 electricity Effects 0.000 claims abstract description 6
- 230000005540 biological transmission Effects 0.000 claims abstract description 4
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 abstract description 9
- 239000003245 coal Substances 0.000 abstract description 3
- 239000007789 gas Substances 0.000 abstract description 3
- 239000003921 oil Substances 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 238000010248 power generation Methods 0.000 description 2
- 230000008676 import Effects 0.000 description 1
- 210000004932 little finger Anatomy 0.000 description 1
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Abstract
【課題】石炭、石油、ガス、水力、風力を使用しないで発電する。【解決手段】回転板3の片側にある重り1の圧縮空気受け箱10に圧縮空気送管9からの空気を受け回転板が回転し、この回転が伝動ベルト19を介して発電器6のプーリー5に伝達され、発電器を回転させる。発電器の電力がコンプレッサーに供給され、圧縮空気が圧縮空気受け箱に吹き付けられる。【選択図】図-2Problem: Generates electricity without using coal, oil, gas, water, or wind. Solution: Air is received from a compressed air pipe 9 in a compressed air receiving box 10 of a weight 1 on one side of a rotating plate 3, causing the rotating plate to rotate, and this rotation is transmitted to a pulley 5 of a generator 6 via a transmission belt 19, causing the generator to rotate. Electricity from the generator is supplied to a compressor, and compressed air is blown into the compressed air receiving box. [Selected Figure] Figure 2
Description
本発明は、発電(電気)する為に石炭、石油、ガス、水力、風力を使用しないで、本発明の回転器は回転重力と
圧縮空気(高圧空気)のみで回転する。状態によっては半永久的に回転する。The present invention does not use coal, oil, gas, water, or wind power to generate electricity, but rotates only with gravity and compressed air (high pressure air). Depending on the conditions, it can rotate semi-permanently.
この種の回転器としては、水車、フライホイル等の片側に水、
重り等の負荷を付随した装置があります。その他に火力発電、
水力発電等に使用されている、タービンで蒸気、水等を片側に負荷を駆け回転させています。私(図ー1、図ー2)の考えた、
回転器は片側に重り▲1▼(図ー2)の範囲(62°)で圧縮空気を、受ける事によって回転が生じます。This type of rotor is a water wheel, a flywheel, etc., with water on one side,
There are devices that are equipped with loads such as weights. Other examples include thermal power generation,
A turbine is used in hydroelectric power generation, etc., and rotates steam or water on one side of the turbine.
The rotor rotates by receiving compressed air within the range (62°) of weight ▲1▼ (Figure 2) on one side.
本発明は、発電(電気)する為に、石炭、石油、ガス、水力、風力を使用しないで、本発明の回転器は回転重力と圧縮空気(高圧空気)のみで回転する。状態によっては、半永久的に稼動(回転)します。The present invention does not use coal, oil, gas, water, or wind power to generate electricity, but the rotor of the present invention rotates only with gravity and compressed air (high pressure air). Depending on the condition, it can operate (rotate) semi-permanently.
この種の回転器としては、水車、フライホイル等の片側に水、重り等の負荷をを付随した装置があります。その他に火力発電、水力発電等に使用されている、タービンで蒸気、水等を片側に負荷を駆け、回転させています。システム図、図ー1、図ー2、図ー3{図ー2の拡大図}の考案により回転器は片側に重り▲1▼(図ー2)の範囲(62°)で圧縮空気を、受ける事によって回転が生じます。This type of rotor includes devices such as water wheels and flywheels that have a load of water, weight, etc. on one side. Other types include turbines used in thermal and hydroelectric power plants, which rotate by sending steam, water, etc. on one side. As shown in the system diagrams, Fig. 1, Fig. 2, and Fig. 3 (enlarged view of Fig. 2), the rotor rotates by receiving compressed air within the range (62°) of weight ▲1▼ (Fig. 2) on one side.
図ー3(図ー2の拡大図)重り▲1▼が中芯位置に於いて、バランス位置を保った場合は、どんな重いものでも回転方向に小指一本の荷重(圧縮空気の吹き付け)により回転動作が行なう事ができます。この様に電気エネルギーが生まれた場合は将来エネルギー政策(石油、ガス等の輸入)に変化が伴うと思われる。絶対に。Figure 3 (enlarged view of Figure 2) When weight ▲1▼ is in the center position and the balance position is maintained, any heavy object can be rotated by applying the load of one little finger (blow of compressed air) in the direction of rotation. If electrical energy is generated in this way, it is likely to cause changes in future energy policies (imports of oil, gas, etc.). Absolutely.
本発明に係わる回転器は構造的に複雑さを排して、簡単な構造を目指している。The rotor according to the present invention aims to eliminate structural complexity and to have a simple structure.
本発明に係わる実施例を示めす、図ー1(システム図、上面図)図ー2は側面図で、図ー3は図ー2の拡大図、図ー4は図ー3のA矢視図である。FIG. 1 shows an embodiment of the present invention. FIG. 2 is a side view, FIG. 3 is an enlarged view of FIG. 2, and FIG. 4 is a view taken along the line A in FIG.
▲1▼重り
▲3▼円板
▲4▼回転器出力プーリー
▲5▼発電器入力プーリー
▲6▼発電器
▲7▼充電器(蓄電池)
▲8▼コンプレッサー(空気圧縮器)
▲9▼圧縮空気送管
▲10▼圧縮空気受け箱
▲11▼圧縮空気送空制御
▲13▼電力送電線(コンプレッサー、充電器への)
▲14▼回転器、基準位置制御装置への送電
▲15▼回転器基準位置制御装置
▲16▼回転器から発電器への伝導ベルト
▲18▼回転器の軸(シャフト)
▲20▼回転器の軸受(ピロー)▲1▼Weight▲3▼Disc▲4▼Rotator output pulley▲5▼Generator input pulley▲6▼Generator▲7▼Charger (storage battery)
▲8▼ Compressor (air compressor)
▲9▼Compressed air delivery pipe ▲10▼Compressed air receiving box ▲11▼Compressed air delivery control ▲13▼Power delivery line (to compressor, charger)
▲14▼Power transmission to the rotor and reference position control device ▲15▼Rotor reference position control device ▲16▼Transmission belt from the rotor to the generator ▲18▼Axis of the rotor
20. Rotor bearing (pillow)
Claims (1)
回転板▲3▼が回転し、プーリー▲4▼から伝導ベルト▲19▼を介して発電器のプーリー▲5▼に伝達し、発電器▲6▼を回転させる事によって
通電▲13▼したものが、充電器▲7▼とコンプッレサー▲8▼に供給され
コンプレッサー▲8▼からエアー管▲9▼にエアーが供給され
エアー受け▲10▼にエアーが吹き付けられ
エアーを吹き付ける位置は、図ー2の基準位置の状態で
回転側へ1°(度)位、傾いた位置でエアーを吹き付ける。
常時エアーは吹き付け無い、図ー2の位置で1秒位、吹き付ける。
図ー2の基準位置は、基準位置設定装置▲15▼にて制御する。
起動回転時、基準位置設定装置▲15▼はフリー制御とする。The rotating plate 2 shown in FIG. 1 is a top view and FIG. 2 is a side view. The rotating plate 2 is moved by the weight 1 with the rotating plate bearing 20 as a reference.
The rotating plate ▲3▼ rotates, and the electricity is transmitted from the pulley ▲4 via the transmission belt ▲19▼ to the generator pulley ▲5▼. By rotating the generator ▲6▼, electricity ▲13▼ is passed through, which is then supplied to the charger ▲7▼ and compressor ▲8▼. Air is then supplied from the compressor ▲8▼ to the air pipe ▲9▼ and the air is blown into the air receiver ▲10▼. The position where the air is blown is tilted about 1° towards the rotating side in the standard position of Figure 2.
Do not blow air at all times. Instead, blow air at the position shown in Figure 2 for about 1 second.
The reference position in FIG. 2 is controlled by a reference position setting device 15.
At the start-up rotation, the reference position setting device 15 is in free control.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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JP2022161264A JP2024046727A (en) | 2022-09-15 | 2022-09-15 | Rotator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2022161264A JP2024046727A (en) | 2022-09-15 | 2022-09-15 | Rotator |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2024046727A true JP2024046727A (en) | 2024-04-04 |
Family
ID=90526592
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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JP2022161264A Pending JP2024046727A (en) | 2022-09-15 | 2022-09-15 | Rotator |
Country Status (1)
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JP (1) | JP2024046727A (en) |
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2022
- 2022-09-15 JP JP2022161264A patent/JP2024046727A/en active Pending
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Legal Events
Date | Code | Title | Description |
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A521 | Request for written amendment filed |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20221226 |