JP2000220562A - Driving force generator using centrifugal force - Google Patents

Abstract

PROBLEM TO BE SOLVED: To generate driving force utilizing centrifugal force applied to an object by fixing a device or a member for changing a direction of force for exerting an object to which centrifugal force is received, a device or a member for transmitting force to a main body by receiving force for changing force, to a rotor. SOLUTION: When rotary disks 1, 10 are rotated by an electric motor 2, centrifugal force F' is received on balls 3, the balls 3 are moved outward along a pass plate 4 of a radial direction, and a pressure plate 6 of a hydraulic device 5 is pushed. A magnet 8 is pushed upward by a pressurizing plate 7 of the hydraulic device 5 with a Pascal's principle. As a result, a distance between magnets 8, 9 is shortened. In the magnet 9 in which opposing poles are set to the same pole, resiliency is received in the direction(upward) apart from the magnet 8. Since a rotary disk 10 to which the magnets 9 are attached is fixedly connected to the rotary disk 1 at a center shaft 11, the resiliency becomes driving force for a device. Movement in a space is carried out without using fuel.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for generating a propulsion force by using a centrifugal force.

[0002]

2. Description of the Related Art Moving means on land such as a car or a train uses a rotating force generated by an engine or an electric motor as a driving force. Propellers such as airplanes and helicopters use the reaction of air generated by the rotation of the propeller as propulsion. Linear motor cars used magnetic force as propulsion. Means of moving on and under water, such as ships and submarines, also used the reaction with water generated by the screw as propulsion. Transportation means in space, such as a space shuttle and a rocket, used the reaction generated by the explosion of the used chemical fuel as propulsion. These thrust generators did not generate thrust using centrifugal force.

[0003]

By utilizing centrifugal force to generate propulsion, air, soil, water,
Provided is a thrust generator that does not require the use of recoil with an electric field, a magnetic field, or the like, and recoil generated by exploding onboard fuel.

[0004]

A device or member for changing the direction of a force exerted by an object subjected to a centrifugal force, and a device or member for receiving the changed direction and transmitting the force to a main body are used as rotating bodies. , A centrifugal force acting on the object is used to generate a propulsion force.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION In the first embodiment, the rotating disk (1)
When the rotating disk (10) rotates by being given a rotational force from the electric motor (2), the ball (3) receives centrifugal force (F) by circular motion, so that the ball (3) jumps out of the path. It moves along the path plate (4) to be prevented and pushes the pressure plate (6) of the hydraulic device (5). Then, at the same time when pressure is applied to the pressure plate (6), the pressure plate (7) of the hydraulic device (5) is magnetized by a force (Fs) stronger than the force applied to the pressure plate (6) by the Pascal principle. 8) Push up
The distance between the magnet (8) and the magnet (9) is reduced. Magnet (8)
The magnet (9) facing the same magnetic pole (N pole) receives a repulsive force (Fm) of a magnetic force upward from the magnet (8).
The turntable (10) to which the magnet (9) is attached has a central axis (1).
Since it is fixedly connected to the turntable (1) in 1), the repulsive force (Fm) becomes the propulsive force (Fp) of the device. Turntable (1)
W is the angular velocity during rotation of the sphere, Q is the mass of the sphere (3), and sphere (3)
And the distance to the center of the turntable (1) is R, and the centrifugal force coefficient is ε.
The centrifugal force (F) acting on one sphere (3) is ε × Q × R × W × W, and Fp = k × Fs, F
Assuming that s = θ × F and α = ε × k × θ, Fp = k × θ ×
F, and the propulsion force (Ftp) generated in Example 1 in which four balls (3) are subjected to centrifugal force is 4 × α × Q × R ×
W × W.

[0006]

According to the present invention, the centrifugal force generated in a material that moves in a circular motion is the third law of Newtonian dynamics.
Since the propulsion is generated by utilizing the fact that the law of reaction does not hold, there is no need for an external substance that receives the reaction of the propulsion such as the atmosphere, water, soil, and rails. Further, the centrifugal force is proportional to the product of the mass of the circularly moving object, the radius of gyration, and the square of the angular velocity of the coordinate system. Therefore, as the value of these three elements increases, the propulsive force of the present invention increases. Propulsion can be increased in proportion to the square of the angular velocity. Further, in the space where gravity acts, if the surfaces of the rotating disk (1) and the rotating disk (10) of the first embodiment are not orthogonal to the direction of gravity, the centrifugal force is applied when the sphere (3) is located below. In addition to the above, the gravitational force acting on the ball (3) becomes a force for pressing the pressure plate (6), and thus the propulsion force (Fp) increases. Further, when the sphere (3) is located above, the gravitational force applied to the ball (3) becomes zero or small, so that the propulsion force (Fp) becomes small. As a result, the propulsion force (Fp) generated when the ball (3) is located below
d) is the propulsion force (F) when the ball (3) is located above
pu), the surfaces of the turntable (1) and the turntable (10) tend to stabilize in a state perpendicular to the direction of gravity. As described above, the present invention provides a posture stabilizing function for stabilizing the posture in a state where the propulsive force works in the opposite direction to the gravity, except in the case where the direction of the propulsive force is the same direction as the gravity in the space where the gravity works. have. Therefore, when the present invention is used in a space where gravity works, the existing technology is used to adjust the center of gravity of the moving body equipped with the present invention, or to adjust the center of gravity of the present invention itself to generate the moving body. The direction of propulsion can be changed.

[0007] In the zero-gravity space where the mass of the object becomes zero, the propulsion force (Fpd) and the propulsion force (Fpu)
Is always equal, the direction of the propulsion generated on the moving body can be changed by changing the orientation of the posture of the present invention. In addition, by using solar cells that utilize the light energy of outer space as a power source for the electric motor (2), the problem of finite motive power that can be obtained with a single fuel loading of rockets and space shuttles can be mitigated. Can be. Further, as shown in the second embodiment, instead of the hydraulic device (5) using the principle of Pascal, a device having a configuration in which water receives centrifugal force and pushes up the magnet (8) may be used. Also, a spring may be used in place of the magnet, and furthermore, without using a magnet or a spring that generates a repulsive force, the force that directly contacts the members to generate the centrifugal force is directly applied to the body. It may be extended.

[0008] By increasing the number of objects exerting a force due to the centrifugal force, arranging the present invention in series, or arranging in parallel, the total propulsive force generated in a moving body equipped with the present invention is increased. be able to. By using a pressurizing device such as a hydraulic device using the principle of Pascal, the pressure exerted by an object subjected to centrifugal force can be efficiently used for generating propulsion. In addition, the rotating disk (1) and the rotating disk (10) are formed into a propeller shape by removing a portion unrelated to the generation of the propulsion force, or the rotating disk (1) and the rotating disk (10) having the propeller shape are newly provided. By attaching the propeller to the rotating shaft, the centrifugal force can be used as the propulsion force and, at the same time, the reaction with the atmosphere or the water can be used as the propulsion force. Example 3
Shows a case where the rotary disk (1) and the rotary disk (10) are formed in a propeller shape.

[0009]

[Brief description of the drawings]

FIG. 1 is a side view of a first embodiment.

FIG. 2 is a top view of the first embodiment when the rotating disk (10) is removed.

FIG. 3 is a sectional view of Example 2 when no centrifugal force is applied.

FIG. 4 is a cross-sectional view of Example 2 when centrifugal force is acting.

FIG. 5 is a top view of the third embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Rotating disk 2 Electric motor 3 Ball 4 Path plate 5 Hydraulic device 6 Pressure plate 7 Pressure plate 8 Magnet 9 Magnet 10 Rotating disk 11 Center axis 12 Power supply 13 Base 14 Rotation connection shaft 15 Magnet 16 Pressure plate 17 Connecting rod

Claims (1)

[Claims] An apparatus or member for changing the direction of a force exerted by an object subjected to a centrifugal force and a device for receiving the changed direction and transmitting the force to a main body are fixed to a rotating body.
A device that generates propulsion using centrifugal force acting on an object.