JP2007075077A - Apparatus for weakening power of typhoon or tornado - Google Patents
Apparatus for weakening power of typhoon or tornado Download PDFInfo
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- JP2007075077A JP2007075077A JP2005296894A JP2005296894A JP2007075077A JP 2007075077 A JP2007075077 A JP 2007075077A JP 2005296894 A JP2005296894 A JP 2005296894A JP 2005296894 A JP2005296894 A JP 2005296894A JP 2007075077 A JP2007075077 A JP 2007075077A
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Abstract
Description
本発明は、本発明は台風や竜巻を人工的に発生させて、自然の持つエネルギーを上空に放出する装置に関する。 The present invention relates to an apparatus for artificially generating a typhoon or a tornado to release natural energy to the sky.
従来、台風や竜巻を抑制する装置はなかった。 Conventionally, there has been no device for suppressing typhoons and tornadoes.
本発明はあらかじめ台風や竜巻の元になるエネルギーを上空に放出することによりこれらの被害を少なくすることが課題である。
上記課題を解決するため解決すべき課題は、長大な円筒が風によって横に流されないよう真っ直ぐに保持すること、An object of the present invention is to reduce these damages by releasing energy that is the source of typhoons and tornadoes to the sky in advance.
The problem to be solved in order to solve the above problems is to keep the long cylinder straight so that it will not be swept by the wind.
長大な円筒が浮力を持つと円筒下部の浮力は大きなものになるので対策をたてること。
円筒内部の空気の温度を制御すること、長い円筒の先端からはじめに浮上させ、次々に順番に最下部まで熱風を送り込んで全体を浮上させる手段の開発、雷や突風の被害を受けないようにすること。
空気が円筒内を通るようになると円筒内は負圧になり、浮力を失うので対策をたてること、この時円筒の役目は終わっているので風の流れを邪魔しないように円筒を取り外すこと、等が課題である。If a long cylinder has buoyancy, the buoyancy at the bottom of the cylinder will become large, so take measures.
Control the temperature of the air inside the cylinder, develop a means to ascend from the end of a long cylinder, and then send hot air to the bottom one after another in order to prevent damage from lightning and gusts thing.
When air passes through the cylinder, it becomes negative pressure in the cylinder and loses buoyancy, so take countermeasures. At this time, the role of the cylinder is over, so remove the cylinder so as not to disturb the flow of wind, Etc. are issues.
本発明では上記の課題を解決するために、軽くて強いフィルムやカーボン繊維を用いて巨大な円筒を作り、これに熱風を蓄えて空に上げ、次々に円筒を継ぎ足して地上または海上から3000メートル近くまで上げた後、先端を開いて空気を放出する。 In the present invention, in order to solve the above-mentioned problems, a huge cylinder is made using a light and strong film or carbon fiber, hot air is stored in the cylinder, and the cylinder is successively added to the cylinder, and the cylinder is added one after another to 3000 meters from the ground or the sea. After raising up close, open the tip and release air.
放出が始まると地上または海上の暑い空気はこの円筒を通って温度の低い上空に放出される。
一度、空気が流れ始めるとその勢いが増し装置をはずしても小さい台風や竜巻を継続して発生することが出来る。When the discharge begins, hot air above the ground or at sea is released through this cylinder into the cooler sky.
Once the air begins to flow, the momentum increases and even if the device is removed, small typhoons and tornadoes can continue to be generated.
風によって円筒が流されて曲がることを防ぐためファンでこれに対抗したり、ヘリコプタで円筒を引いて真っ直ぐにしたりする。
円筒内部の温度が下がって上昇できなくなったり、逆に温度が上がりすぎて浮力が過大になったりするのを防ぐために、円筒の所々に硬い小円筒を作りここで火を焚いたり、空気を円筒の外へ放出したりする。
円筒の浮力が円筒の重量より少し大きくなる程度にし、浮力の合計による円筒下部の大きな力を少なくし、さらに円筒そのものの強度を充分強くする。In order to prevent the cylinder from being bent by the wind, it is countered with a fan, or it is pulled straight by a helicopter.
In order to prevent the temperature inside the cylinder from falling and not rising, or conversely, the temperature will rise too high and the buoyancy will be excessive, create hard small cylinders at some places in the cylinder and burn fire here or air into the cylinder. To the outside.
The buoyancy of the cylinder is made slightly larger than the weight of the cylinder, the large force at the bottom of the cylinder due to the total buoyancy is reduced, and the strength of the cylinder itself is sufficiently increased.
3000メートルに達したら先端のカバーを少しずつ外して円筒の空気を放出する。
円筒内部の空気が早く流れはじめたら先端のカバーを全部外し、地上や海上の暑い空気を上空の冷たい空気に放出する。
円筒の下部は自動車や船に固定され自由に移動できるようにしてもよい。When it reaches 3000 meters, the tip cover is removed little by little to release cylindrical air.
When the air inside the cylinder begins to flow quickly, remove all the covers at the tip, and release hot air on the ground and sea to cool air above.
The lower part of the cylinder may be fixed to an automobile or a ship so that it can move freely.
空気の放出を始めると円筒は浮力を失いさらに内部が負圧になる。
これを放置すると円筒は内部に向かってへこみ、円筒は折れ曲がって空気の流れを妨げるので竜巻や台風を作ることが出来ない。
そこで、円筒を縦横に分割して空気の流れを妨げないように取り外す。When air starts to be released, the cylinder loses buoyancy and the inside becomes negative pressure.
If left unattended, the cylinder will dent into the interior, and the cylinder will bend and block air flow, making it impossible to create a tornado or typhoon.
Therefore, the cylinder is divided vertically and horizontally so as not to disturb the air flow.
本発明によれば空気のエネルギーを徐々に上空に放出するので台風や竜巻の被害を少なくすることができる。 According to the present invention, since the energy of air is gradually released to the sky, damage from typhoons and tornadoes can be reduced.
以下本発明の実施の形態を図1〜図2に基づいて説明する。 Embodiments of the present invention will be described below with reference to FIGS.
図1において円筒1、とその下に取り付けられた小円筒5、及びカバー8,9,10に下から熱風を吹き込むと熱気球の原理で浮き上がる。
次に円筒2、を小円筒5、の下に継ぎ足し、さらに小円筒6、ファン10、円筒3、小円筒7、円筒4、の順番に継ぎ足して行き下から常に熱風を送り続ければ円筒は次第に長くなってゆく。In FIG. 1, when hot air is blown into the cylinder 1, the small cylinder 5 attached below, and the covers 8, 9, and 10 from the bottom, it floats on the principle of a hot air balloon.
Next, the
ファン13、はその方向が360度上下左右に動かすことが出来、その回転数も変えることが出来るので円筒全体を真っ直ぐにすることが出来る。
さらに同様にして円筒を継ぎ足せば3000メートルぐらいは伸ばすことが出来る。
この間下から熱風を送り続けるが、上空では円筒内の空気が冷えて重くなることが考えられる。
これを防ぐため、小円筒にバーナーを取り付けて温度を調整する。The direction of the
Furthermore, if the cylinder is added in the same way, it can be extended by about 3000 meters.
During this time, hot air continues to be sent from below, but in the sky, the air in the cylinder may be cooled and heavy.
To prevent this, the temperature is adjusted by attaching a burner to the small cylinder.
3000メートル程度になった時、カバー8、を取り外して空気を放出すると円筒全体の空気が動き出し、続いてカバー9、10、を取り外せば円筒内の空気は勢い良く上空に放出される。 When the cover 8 is removed and the air is released when the air reaches about 3000 meters, the air in the entire cylinder starts to move. If the covers 9 and 10 are subsequently removed, the air in the cylinder is expelled to the sky.
このままの状態で円筒を通して空気を上空に送りこんでも良いが、最終的には円筒を外して小さな竜巻や台風を発生させることが目的である。
このためには小円筒内に取り付けられた翼で空気に渦を作ってから円筒を外していくのが良い。In this state, air may be sent to the sky through the cylinder, but the purpose is to finally remove the cylinder and generate a small tornado or typhoon.
For this purpose, it is better to remove the cylinder after creating a vortex in the air with a wing attached in a small cylinder.
翼の角度と大きさを変化させれば渦は作れるが、円筒も回転を始めてしまうので、ファンを用いて回転させないようにする。地表または海12、の近くの円筒の下部では固定した台を用いて円筒が上空に行かないようにしてもよいが、自動車や船を用いて移動させても良い。 If the angle and size of the wing are changed, a vortex can be created, but the cylinder will also start rotating. In the lower part of the cylinder near the ground surface or the sea 12, a fixed base may be used so that the cylinder does not go upward, but it may be moved using an automobile or a ship.
燃料はタンクを持ち上げてもよいが細い管で送り込んでもよい。
各種装置を操作するためにはガソリンエンジンや光ファイバーケーブル無線等を用いて雷による被害を防止する。The fuel may be lifted up by the tank but may be sent through a thin tube.
In order to operate various devices, use a gasoline engine or fiber optic cable radio to prevent lightning damage.
図2はヘリコプタを用いて円筒が曲がったり回転したりするのを防ぐ場合を示すもので、ヘリコプタの後部から連絡線11、を小円筒5,6,7、に取り付け、円筒を変形しないようにするとともに燃料パイプや制御線をこれに付属させる。 FIG. 2 shows a case where a cylinder is prevented from being bent or rotated by using a helicopter. A connecting line 11 is attached to the small cylinders 5, 6 and 7 from the rear part of the helicopter so that the cylinder is not deformed. At the same time, a fuel pipe and a control line are attached.
以上は円筒を継ぎ足して長くする方法であるが、始めから長い継ぎ目のない円筒を作っておき、円筒の途中の節目にあたる小円筒の後ろ側を閉じて空気のながれを遮断しておき小円筒の前側に熱風を入れて浮上させる方法もある。
浮上させたら、熱風の入り口を閉じる。
以下同様に次の部分を浮上させてゆき、最後に全体を浮上させる。
その他の構造は図1、図2、の場合と同様である。The above is the method of extending the cylinder by adding it, but from the beginning, make a long seamless cylinder, close the back side of the small cylinder corresponding to the node in the middle of the cylinder and shut off the air flow, There is also a method of raising the front side with hot air.
After ascending, close the hot air entrance.
In the same way, the next part is lifted and finally the whole part is lifted.
Other structures are the same as those in FIGS.
空気が流れはじめ円筒が不要になった時、円筒を縦横に分解しヘリコプタで運んだり、地上に落下させたりする。
縦に分割してヘリコプタで右左に運ぶことも良い。When the air begins to flow and the cylinder is no longer needed, the cylinder is broken vertically and horizontally and transported by a helicopter or dropped onto the ground.
It is also possible to divide it vertically and carry it to the left or right with a helicopter.
1,2,3,4 円筒
5,6,7 小円筒
8,9,10 カバー
11 空気の流れ
12 地表または海
13 フアン
14 ヘリコプタ1, 2, 3, 4 Cylinder 5, 6, 7 Small cylinder 8, 9, 10 Cover 11 Air flow 12 Surface or
Claims (4)
円筒の上部に取り付けたカバーを上空で取り外す機構を有すること。
円筒に熱風を送り込む装置を有すること。
円筒を次々に結合して長くすることが出来る接合部を有すること。
以上の項目を同時に使用することを特徴とする台風や竜巻を発生させる装置。Attach a cover to the top of the cylinder, and join the joint between this cover and the cylinder so that air does not leak.
Have a mechanism to remove the cover attached to the top of the cylinder.
Have a device to send hot air into the cylinder.
Have joints that can be made longer by joining cylinders one after another.
A device for generating typhoons and tornadoes characterized by using the above items simultaneously.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2005296894A JP2007075077A (en) | 2005-09-10 | 2005-09-10 | Apparatus for weakening power of typhoon or tornado |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP2005296894A JP2007075077A (en) | 2005-09-10 | 2005-09-10 | Apparatus for weakening power of typhoon or tornado |
Publications (2)
Publication Number | Publication Date |
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JP2007075077A true JP2007075077A (en) | 2007-03-29 |
JP2007075077A5 JP2007075077A5 (en) | 2007-12-13 |
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Application Number | Title | Priority Date | Filing Date |
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JP2005296894A Revoked JP2007075077A (en) | 2005-09-10 | 2005-09-10 | Apparatus for weakening power of typhoon or tornado |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
ES2335068A1 (en) * | 2007-07-06 | 2010-03-18 | Fco. Javier Porras Vila | Anti-tornado aircraft (Machine-translation by Google Translate, not legally binding) |
CN104041360A (en) * | 2014-07-10 | 2014-09-17 | 吕国君 | Method and device for weakening tornado |
CN111727791A (en) * | 2020-07-20 | 2020-10-02 | 成都信息工程大学 | Weather modification catalytic operation device and control system and control method thereof |
-
2005
- 2005-09-10 JP JP2005296894A patent/JP2007075077A/en not_active Revoked
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
ES2335068A1 (en) * | 2007-07-06 | 2010-03-18 | Fco. Javier Porras Vila | Anti-tornado aircraft (Machine-translation by Google Translate, not legally binding) |
CN104041360A (en) * | 2014-07-10 | 2014-09-17 | 吕国君 | Method and device for weakening tornado |
WO2016004844A1 (en) * | 2014-07-10 | 2016-01-14 | 吕国君 | Tornado weakening method and equipment |
CN111727791A (en) * | 2020-07-20 | 2020-10-02 | 成都信息工程大学 | Weather modification catalytic operation device and control system and control method thereof |
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