JP2007075077A - Apparatus for weakening power of typhoon or tornado - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To lessen and consume air energy by artificially causing a weak typhoon or tornado at a place where a typhoon or a tornado occurs and passes. <P>SOLUTION: A material like a hot-air balloon having about 3,000 meter length of cylindrical form is made, the top of the material is straightly extended up in the sky, a hole is bored on the top, hot air on surface of the earth or on the sea is released up in the cold sky. A fan or a helicopter is used so as to prevent the cylinder from being bent or rotated in the middle of cylinder. A burner is fired in the cylinder or air is slightly released until the cylinder rises up in the sky so as not to apply forcible force to the cylinder. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an apparatus for artificially generating a typhoon or a tornado to release natural energy to the sky.

  Conventionally, there has been no device for suppressing typhoons and tornadoes.

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.

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.

  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.

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.

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.

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.

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.

  According to the present invention, since the energy of air is gradually released to the sky, damage from typhoons and tornadoes can be reduced.

BEST MODE FOR CARRYING OUT THE INVENTION

  Embodiments of the present invention will be described below with reference to FIGS.

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 cylinder 2 is added to the bottom of the small cylinder 5, and then the small cylinder 6, the fan 10, the cylinder 3, the small cylinder 7, and the cylinder 4 are added in this order, and the hot air is continuously sent from the bottom. It gets longer.

The direction of the fan 13 can be moved 360 degrees up, down, left and right, and the number of rotations thereof can be changed, so that the entire cylinder can be straightened.
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.

  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.

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.

  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.

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.

  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.

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.

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.

Shows an example in which a fan is used to control a cylinder in the apparatus of the present invention. Shows an example of using a helicopter to control a cylinder in the apparatus of the present invention.

Explanation of symbols

1, 2, 3, 4 Cylinder 5, 6, 7 Small cylinder 8, 9, 10 Cover 11 Air flow 12 Surface or sea 13 Juan 14 Helicopter

Claims (4)

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.   A function that controls the angle and the number of rotations of the fan so that the vertical position is maintained so that the cylinder does not turn horizontally so that it does not bend horizontally can be attached to a part of the cylinder. A device for generating a typhoon or a tornado characterized by having a controller.   A device for generating typhoons and tornadoes, characterized in that a line is attached to a part of a cylinder, and multiple ends of the line are connected to a helicopter.   An apparatus for generating a typhoon or a tornado characterized by having a function of vertically disassembling a cylinder.

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