JPH025767A - Flying body using space buoyancy - Google Patents

Abstract

PURPOSE:To have a flying body to fly up into the outer space using electric power, by generating a field having buoyancy to the whole outer space through the action of electrons and magnetic field. CONSTITUTION:A flying body 11 in the spherical form generates a magnetic field B surrounding it. Electrons (e) are supplied to inside this magnetic field. Inside of this magnetic field B an independent space is held through the interactions of electrons (e) and ions with this magnetic field B. This space is lighter than the external space of the magnetic field B, and it generates a buoyancy.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a space floating flying device capable of flying from the ground to outer space and navigating in outer space.

(b) Conventional technology Conventionally, rockets have been used to launch artificial satellites and experimental equipment into outer space. In addition, almost all movement in space was due to inertia.

(c) Problems to be Solved by the Invention However, since rockets are propelled by fuel injection, they have the following problems.

Launching requires a large amount of fuel, and the launch equipment is disposable in most cases, making it extremely uneconomical.Launching heavy objects requires a large amount of fuel, and the amount of fuel needed to launch a heavy object is extremely uneconomical. As a result, the weight of the fuel wood becomes enormous, and the weight of the equipment actually launched into space becomes extremely small. During launch, a powerful G-force is applied as a shock, requiring special training for the crew. Due to the impact during launch,
Launch equipment requires many considerations such as impact resistance, failures are likely to occur, advanced technology is required to control combustion, and launches often fail; launches cause significant air pollution. be. Movement in outer space has no choice but to rely on inertia, and the time it takes to reach the destination is
M group is moving in the direction of travel, making it difficult to change course.

The rockets currently in use have many serious cost and technical problems, such as these, and the current situation is that space development and space research are not progressing as expected.

(d) Means for solving the problems The present invention solves these problems all at once by generating a field with buoyancy in space through the action of electrons and magnetic fields, and using this to soar into space. It is a space floating flying device that has solved the problem.

Hereinafter, the basic structure of the present invention will be explained based on FIG.

(]) is the hull (spherical), and the magnetic field (B
), (11) is the upper magnetic pole, and (12) is the lower magnetic pole.

Electrons (e) are then supplied into the generated magnetic field.

(Electrons (e) supplied within the magnetic field surrounding the lead element are captured by the magnetic field due to drift motion and almost never leak out of the magnetic field. Furthermore, electrons supplied within the magnetic field have the same charge. Because it is held, it strongly repels and greatly expands the magnetic field.

The field created by this magnetic field and electrons (indicated by a network of dots) generates a large buoyant force against the gas containing oxygen and nitrogen that normally surrounds the ship's hull, due to the extremely small mass of the electrons. to float the ship. This buoyancy is effective even outside the atmosphere because the mass of electrons is much lighter than that of hydrogen atoms (approximately 1/1800).
By maintaining the strength of the magnetic field and the indigo of electrons at an optimal level, the buoyancy effect persists even at far higher altitudes, in interplanetary space where hydrogen atoms exist in a plasma state.

However, it is difficult for electrons to exist on their own in the atmosphere, so depending on the design of the equipment, it may be necessary to apply energy to the area around the ship's hull using high-frequency electromagnetic vibrations, lasers, etc. to maintain it in an ionized state. However, it can be seen from the ball lightning phenomenon in nature that it is possible for electrons themselves to form a field.

In this way, the present invention generates a buoyant field throughout space through the action of electrons and magnetic fields, making it possible to soar from a planet to space without causing air pollution or noise. be.

By increasing the buoyancy, the field with buoyancy can be increased and the buoyancy can be controlled to some extent.

(f) Example An embodiment of the present invention will be described based on FIG.

(1) is a ship that contains a magnetic field generator such as an electromagnet.

(2) is a room with space for cargo and crew, and is suspended by a luggage compartment support (52). (4)
is an electron supply device using an electron gun, which supplies electrons (e) from the outside into a magnetic field.

The operation of this embodiment is very similar to that of a balloon. ! & For the first time, space for cargo and crew will be fixed to the ground, and an electron supply device will supply electrons from the outside to the magnetic field generated by the magnetic field generator. Eventually, the magnetic field begins to expand and the buoyant field becomes larger. Once it has sufficient buoyancy, it can be unfastened and this embodiment will begin to float.

However, unlike balloons, they can float to outer space outside the atmosphere. First, the magnetic field is strengthened, and later an embodiment of the pond of the weak water invention will be explained based on FIG.

(1) has a spherical hull and is made of an insulating light material. (2) is space for cargo and crew.

(10) is a magnetic field generator, and (6) is a coil. (
4) is an electron supply device that supplies electrons from the side of the ship.

(3) is a high voltage generator, which generates and provides the high voltage necessary for the electron supply device (4). (11) is the upper magnetic pole. (21) is the terminal installed on the upper magnetic pole. Normally, the voltage of the glass opposite to the electron supply device (4) is applied. (31) is the wiring.'f
4. The child feeding device (4) can be attached to the side, bottom, or top of the hull, either one or several.

Next, the operation of this embodiment will be explained. Magnetic field generator f!
(10) and coil (6) generate a magnetic field surrounding the hull. The coil (6) has the function of expelling the magnetic field from inside the ship and reducing its influence on the cargo and crew. The electron supply device (4) of the electron gun supplies electricity into the magnetic field thus generated.

The high voltage generator (3) applies voltage to the electron supply device (4), generates an electric field at the terminal (21) attached to the upper magnetic pole (11), and sucks electrons from the external ionized gas. do.

Increasing the amount of electrons supplied by the electron supply device (4) expands the magnetic field and increases buoyancy. By leaking the electrons inside the field from the electron supply device (4) to the terminal (21), the number of electrons decreases. The buoyant field contracts and the buoyant force decreases.

Also, by strengthening the magnetic field, the buoyant field contracts and the buoyancy decreases, and by weakening the magnetic field, the buoyant field expands and the buoyancy increases. By changing the amount of electrons and the strength of the magnetic field in this way, it is possible to control buoyancy.

In addition, by generating a positive electric field at the upper magnetic pole and a negative electric field at the lower magnetic pole, electrons are generated at the upper part of the hull.

As cations gather at the bottom, the center of gravity of the buoyant force is lowered, allowing the hull to maintain its position perpendicular to gravity.

Next, another embodiment will be described based on the fourth factor.

Most of the structure is the same as the embodiment shown in Figure 3, but condensers (5-1)-(5,
3). These capacitors usually have a negative charge applied to them, but the applied voltage can be varied independently. (51) is the support column to which the condenser is attached. The lower magnetic pole (17) has
A particle injection device ■ is installed.

Next, the operation of this embodiment will be explained. Magnetic field generator (]0
), coil (6), and electron supply device (4) are based on FIG. 3 and are the same as in the embodiment. Capacitor (rJ,]
) to (5-3), if the electric field of one of the capacitors is changed, the spread of the buoyant field surrounding the hull becomes non-uniform. This causes the center of buoyancy to move and the ship to lean, and this effect can be used to control the attitude of the ship. This attitude control is performed by capacitors (S-1) to (
It is also possible by moving 5-3).

Also, if we change the electric fields of all capacitors together,
It is also possible to control the buoyancy force acting on the hull. Regarding the shape of this capacitor, there is almost no difference in its shape whether it is flat or spherical.

If a flat plate capacitor is used, it can be attached to the hull, eliminating any protrusions and allowing it to be installed anywhere on the hull.

The particle injection device (attached to the lower magnetic pole)
By injecting ions and electrons from I), the ship's hull can obtain propulsion. This particle injection device (7)
The electrons ejected from are silent! It may also be electrons absorbed from the terminal (2I) by the generator (3).

Due to the action of the particle injection device ■ and the condenser (5, υ ~ (5-3)), this embodiment is not only able to move perpendicular to gravity due to buoyancy, but can also move diagonally. , it is now possible to make more subtle movements.

Next, an embodiment of the pond will be described based on FIG.

Most of the structure is the same as the embodiment shown in FIG. 4, but a flange (8) is newly installed. This flange is made of the same material as the hull and covers the lower half of the hull in a cylindrical shape. A ring-shaped capacitor (5
) is installed.

Next, the operation of this embodiment will be explained. The overall operation is the 4th
This embodiment is the same as the embodiment described in the figures, but has the following features. Even if electrons are supplied into the magnetic field by the electron supply device 2 (4), if the spread of the buoyant field is small and the buoyancy is small, the field will be blocked by the flange and will not go around the top of the hull. The upper part of the body allows for safe boarding of crew members and loading of cargo.

By changing the electric fields of capacitors (5) and (5-1) to (5-3), it is possible to control the buoyancy and attitude even if a buoyant field exists below the flange.

(G) Effects of the Invention The space floating flying device of the present invention is capable of flying to outer space, which could only be reached by rockets in the past. However, the present invention has the following great effects compared to Roget.

It is easy to manufacture, has few parts that can break down, and can easily manufacture huge hulls. Since there is no sudden shock during launch, even cargo that is vulnerable to shock can be launched. Launch costs are significantly lower, and the launch does not generate air pollution or noise, making it possible for launches to be carried out safely and at low cost.

Further, the present invention having the attitude iiiIrIg device and the propulsion device also has the following effects. Long stays at very high altitudes can be easily achieved. It can be propelled far away, such as between planets. Because the hull is protected by magnetic and electric fields, there is no friction with the atmosphere, and in space, the fQ tree can be protected from space dust.

In addition, when the space floating flying device of the present invention moves in outer space, in addition to the buoyancy force perpendicular to gravity, the present invention has an electric charge and a magnetic field, so it can sail on the flow of current in space. , it is possible to move one line efficiently and quickly.

These effects will enable higher quality activities in the space development and research fields and contribute to the progress of humanity.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the basic structure of the present invention. FIG. 2 is a diagram showing one embodiment of the present invention. FIG. 3 is a diagram showing one embodiment of the present invention. FIG. 4 is a diagram showing one embodiment of the present invention. FIG. 5 is a diagram showing one embodiment of the present invention. (+3 is the hull. (2) is the space for cargo and crew. 3) is the high voltage generator. 4) is an electronic supply device. 5) is a capacitor 5. 1) to (5-3) are attitude control capacitors 6) is a coil. (7) is a particle injection device. (8) is a flange. (]0) is a magnetic field generator. (11) is the upper magnetic pole. (12) is the lower magnetic pole. (21) is a terminal. (31) is the wiring. (51) is a pillar for mounting the condenser. (52) is the luggage compartment support. (B) is a magnetic field.

Claims (1)

[Claims] 1. A space floating flying device that confines electrons in a magnetic field surrounding a ship's body and generates buoyancy. 2. The space floating flying device according to claim 1, wherein buoyancy is controlled by changing the strength of the magnetic field surrounding the hull. 3. A space floating flying device according to claims 1 and 2, wherein buoyancy is controlled by changing the amount of electrons in a magnetic field surrounding the hull. 4. A space floating flying device according to claims 1, 2, and 3, which has a condenser on the surface of the hull. 5. The space floating flying device according to claim 4, wherein buoyancy is controlled by changing the voltage applied to a capacitor on the surface of the ship. 6. The space floating flying device according to claims 4 and 5, wherein the attitude is controlled by moving a capacitor on the surface of the ship. 7. A space floating flying device according to claims 1, 2, 3, 4, 5, and 6, which has a particle injection device on the lower magnetic pole. 8. A space floating flying device according to claims 1, 2, 3, 4, 5, 6, and 7, wherein the upper magnetic pole has a terminal for sucking electrons. 9. The space floating flying device according to claim 8, which sucks electrons from the upper magnetic pole and releases them into the magnetic field from the electron supply device. 10. The space floating flying device according to claims 7, 8, and 9, which sucks electrons from the upper magnetic pole and releases them from the lower magnetic pole. 11. Claims 1, 2, 3, 4, 5, 6, and 7 that generate a positive electric field at the upper magnetic pole and a negative electric field at the lower magnetic pole.
, 8, 9, and 10. 12. Claims 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, which have a structure in which a cargo compartment is suspended at the bottom of the hull.
The space floating flying device according to item 11.