JPH08284800A - Rotational gravity field interference type plopulsion engine for flying element - Google Patents

Abstract

PURPOSE: To provide a propulsion engine which can generate propulsive force through a spatial pressure difference in gravity field without continuing supplying much energy by interfering rotational gravity fields by a ring-shaped rotating disc and a rotating disc in it with each other for a spatially asynametric gravity field. CONSTITUTION: This propulsion engine is provided with a mechanism which can move a relative position between a ring-shaped rotating disc 1 equipped with a mechanism for rotating fast and a rotating disc 2 equipped with a mechanism for rotating fast longitudinally, horizontally, vertically, diagonally or in a combined direction of them, by forming the rotating disc 2 inside the ring- shaped rotating disc 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a propulsion power engine for an object, in which the gravitational field is spatially asymmetrical and a propulsive force is obtained by gravity without utilizing the effect of reaction.

[0002]

BACKGROUND OF THE INVENTION Conventional propulsion power engines have utilized the effect of reaction. For example, the propulsion principle of a rocket is the same reaction effect as a recoil of a gun, and the propulsion principle of rotating wheels is the effect of pushing a road by rotating a car and propelling the car by the reaction. Was being used. The disadvantage of such a propulsion engine is that it requires energy to be propelled, and physically speaking, energy is conserved according to the laws of action and reaction. Since launching a rocket requires a lot of fuel, the cost is enormous, and there is a structural limit to the rocket performance in terms of cruising range. As another aspect of this reaction, when accelerating, the so-called acceleration G must be felt by the occupant of the vehicle using the propulsion engine, and the occupant and equipment are physically and structurally burdened.
Moreover, an object that flies due to a hydrodynamic effect such as an aircraft requires air to fly, and cannot fly at high altitude or in outer space.

[0003]

[Problems to be solved by the invention] The demand for space development seen in the launch of artificial satellites is increasing more and more, and an efficient propulsion agency is required for full-scale space development. . In order to travel in the vast outer space, a propulsion mechanism that requires almost no fuel is required, and it is necessary to dramatically improve the propulsion speed of the flying object.

[0004]

SUMMARY OF THE INVENTION The present invention solves such a problem by providing a propulsion engine by gravity by applying the interference effect of a rotating gravitational field. The present invention has been invented as what should be used as a propelling machine for a flying object, but the propulsion power can also be a device that continues to generate power without continuously supplying energy from the outside. Such a device is called the Iwayuro permanent engine, but such a device was never actually made. The present invention is also the invention of this permanent engine. The perpetual engine will not follow the generally believed laws of energy conservation, and the physics of this invention has not been published, so the principles of this invention will be explained in some detail. It has been conventionally empirically known that when a rotating disk is installed on a ship or the like, the ship can be prevented from shaking due to the influence of waves or the like. If this is done by other mechanical means, the energy required will be enormous, but if a rotating disk is used, no energy is needed at all. Of course, energy is required to rotate the rotating disk, but it is not necessary to supply energy externally in order to physically rotate the object at a constant angular velocity. In order to keep rotating the rotating disk, there is generally frictional resistance, but this frictional resistance can technically approach zero. Even in modern physics, such an effect of the rotating disk was a mystery. Therefore, a physicist cannot deny that the present invention will be a permanent institution. This is because the present invention applies the effect of a rotating disk, and the effect is a physical mystery. What can be said from the phenomenon of the effect of such a rotating disk is that by using the rotating disk, it is possible to perform passive work such as preventing the shaking of the ship, and to gain energy accordingly. . The effect of the rotating disk is not limited to passive work such as preventing shaking, but it is also possible to actively move an object. Inside the ring-shaped rotating disk (1) provided with a mechanism capable of rotating at high speed, the rotating disk (2) provided with a mechanism capable of rotating at high speed is provided, and each disk is rotated at high speed. By rotating the rotating disk (2) and changing the relative position to the ring-shaped rotating disk (1), the rotating gravity field by the ring-shaped rotating disk (1) and the rotating disk (2).
The rotating gravitational field due to is mutually interfered to create a spatially asymmetrical gravitational field, so that the entire apparatus can be propelled. According to the configuration of the present invention to which this principle is applied, a rotary disk (2) provided with a mechanism capable of fast rotation is provided inside a ring type rotary disk (1) provided with a mechanism capable of fast rotation. , A propulsion engine provided with a mechanism capable of moving the relative positions of the ring-shaped rotating disk (1) and the rotating disk (2) forward, backward, left-right, up-down, oblique, or a combination thereof.
No energy is required to obtain this propulsion, as it does not use the effects of reaction. Further, the so-called acceleration G does not work on the object accelerated by this propulsive force. This is because the object accelerates to fall in the direction of its propulsion if it is expressed as a feeling of acceleration due to gravity. The present invention applies the characteristics originally possessed by a rotating disk and uses this propulsive force to provide a propulsion engine and an energy generating engine for an object. In order to extract energy, you generally have to move something.
And if something is moving, you can extract energy by using that kinetic energy. Since energy is not required to obtain the driving force of the present invention, the present invention also serves as an energy generating engine.

[0005]

Function: The rotating disk (2) is provided inside the ring-shaped rotating disk (1), and each disk is rotated rapidly. First, the center of gravity of the ring-shaped rotating disk (1) and the center of gravity of the rotating disk (2) are aligned, and when the rotation directions of the disks are the same, the center of gravity of the ring-shaped rotating disk (1) Therefore, if the relative position of the rotating disk (2) is changed upward without tilting so as not to approach the ring-shaped rotating disk (1), the entire device receives downward thrust. If the relative position of the rotary disk (2) is changed to the left so as to approach the ring-shaped rotary disk (1), the entire device receives a propulsive force to the right. The above-mentioned propulsive force is affected by interference with an external gravity field such as the earth when the device equipped with the present invention is operated in an external gravity field such as the earth when operated in a weightless space. Propulsion does not always work in the direction of.

[0006]

[Example] A mechanism for reducing the frictional resistance due to the rotation of the ring-shaped rotating disk (1) and rotating the disk rapidly is provided. The rotary disk (2) is provided inside the ring-shaped rotary disk (1) to reduce the frictional resistance due to rotation and to provide a mechanism capable of quick rotation. A mechanism is provided that can move the rotary disc (2) relative to the ring-shaped rotary disc (1) in the front-back, left-right, up-down, diagonal, or a combination thereof. Ring type rotating disk (1)
Rotate fast. Rotate the rotating disc (2) quickly.
The relative positions of the ring-shaped rotating disk (1) and the rotating disk (2) are changed. With such a configuration, the entire apparatus provided with this propulsion mechanism receives propulsive force, and the entire apparatus is propelled. The propulsion directions of the present invention are opposite when the rotating directions of the ring-shaped rotating disk (1) and the rotating disk (2) are the same and when the rotating directions are opposite. In order to reduce the frictional resistance due to the rotation of the ring type rotating disc (1) and the rotating disc (2) and to avoid the influence of the reaction due to the frictional resistance of air, it is preferable to rotate these discs in a vacuum. Good. The ring-shaped rotating disk (1) is a ring-shaped and more stable rotation so that the inner rotating disk (2) can be moved in the front-back, left-right, up-down, diagonal, or a combination thereof. In order to obtain, the circular shape is preferable and the mass distribution is also preferably symmetrical with respect to the center of the circle. If there is an extreme bias in the mass distribution,
May not have propulsion. The shape of the rotating disk (2) is preferably circular in order to obtain more stable rotation, and the mass distribution is also preferably symmetrical with respect to the center of the circle. If the mass distribution is extremely biased, the propulsive force may not be in the right direction. The reason why the inner rotary disk (2) is movable in the front-rear direction, the left-right direction, the up-down direction, the oblique direction, or a combination thereof is for controlling the propulsive force and the attitude of the flying body equipped with the present invention. The propulsive force of the present invention is determined by the mass, size, and rotation speed of the ring-shaped rotary disk (1) and the rotary disk (2), and the relative position between the ring-shaped rotary disk (1) and the rotary disk (2). Dependent. Therefore,
If you want to obtain a larger propulsive force, increase the mass and diameter of the ring-shaped rotary disk (1) and the rotary disk (2), rotate each rotary disk faster, and use the ring-shaped rotary disk (1). The relative position with respect to the rotating disk (2) may be appropriately set and operated.

[0007]

When the present invention is used as a propulsion engine for a flying vehicle, it can fly in outer space at high speed with little energy consumption. In addition, this flying body can accelerate, decelerate, and change direction quickly, and does not give so-called acceleration G to the occupant or equipment,
Do not overload occupants and equipment. Since a flying vehicle equipped with the present invention is capable of vertical takeoff and landing, a large-scale runway is not necessary. Since it does not require air to fly, it can fly in the atmosphere or in outer space.

[Brief description of drawings]

FIG. 1 is a plan view of the present invention.

FIG. 2 is a side view of the present invention.

[Explanation of symbols]

 1 ring type rotating disk 2 rotating disk 3 movable direction 4 rotation axis

Claims (1)

[Claims] 1. A ring-shaped rotary disk (2) provided with a mechanism capable of rapid rotation, provided inside a ring-shaped rotary disk (1) provided with a mechanism capable of rapid rotation. A propulsion engine provided with a mechanism capable of moving the relative positions of (1) and the rotating disk (2) in the front-back, left-right, up-down, diagonal, or a combination thereof.