KR20000014348A - Method for generating propulsive force using centrifugal force - Google Patents

Abstract

PURPOSE: A method for generating the propulsive force using the centrifugal force is provided to move a substance to a direction where a user wants by installing a device for generating the propulsive force. CONSTITUTION: The device for generating the propulsive force is composed of:a centrifugal force changing device(100) consisting of a perfect circular orbit(1) and an eccentric shaft fixing piece(10) installed to be eccentric; an angular velocity inducing device(200) fitted into the shaft on the eccentric shaft fixing piece of the centrifugal force changing device and made up of an eccentric shaft(20) installed to be eccentric to the perfect circular orbit and a first to a fourth weight body(2a-2d) installed to be moved to the axial direction of the eccentric shaft while installed to be moved along the perfect circular orbit; and a propulsive force changing device(300) installed by connecting itself to the centrifugal force changing device and making the propulsive force change its generated direction to a voluntary direction by having a driving piece.

Description

Method for generating propulsion force using centrifugal force and its device

The present invention relates to a method and a device for generating a propulsion force using centrifugal force, and more particularly, a propulsion force using centrifugal force to use the propulsion force generated by the eccentric circular motion of the rotating mass to be the propulsion energy of the object. It relates to a generating method and an apparatus thereof.

In general, in order to obtain a driving force for moving the object in the horizontal or vertical direction, it uses rotational friction force, reaction force, lift or buoyancy, or use potential energy.

And these methods all use propulsion, such as ground, air, water, on the ground, wheels for cars and airplanes, wings (propellers) for airplanes, and ships for ships. Only when a medium such as a screw is installed on the outside of the object, the object can be moved in the horizontal or vertical direction only by obtaining a propulsion force, and it can be seen that research has recently been conducted to obtain more efficient propulsion energy.

However, according to the theory (technique) that has been discovered so far as a method (principle) for moving an object with a certain weight, the efficiency is known to not exceed 20%, and moreover, all methods are a medium for obtaining propulsion out of the object. It is inevitably constrained to use because it is inevitably required to install (device).

Therefore, in the present invention, when the centrifugal force is applied, a method of generating a new propulsion force can be made by immediately moving an object without installing a medium on the ground (ground, water, air, etc.) and the outside of the object. By inventing a propulsion generating device, an object of the present invention is to provide a propulsion generating device using an eccentric centrifugal force inside an object without using a medium existing on the ground and at the same time without installing a device for obtaining propulsion outside the object. By installing it, the object can be moved in the desired direction.

1 is an exemplary view showing a horizontal propulsion method of a general object

2 is an exemplary view showing a vertical propulsion method of a general object.

Figure 3 is a basic device for explaining the propulsion force generation method (principle) of the object according to the present invention

Figure 4 is a comparative graph showing the centrifugal force acting on each central body of the angular velocity maintaining apparatus of the present invention according to angle (time)

(Explanation of symbols for the main parts of the drawing)

100: centrifugal force change device 200: angular velocity holding device

300: propulsion angle changer R: long radius of the centrifugal force changer

r: short radius of centrifugal force change device 1: circular orbit

10: eccentric shaft fixing means 20: eccentric shaft

2a-2d: 1st-4th weight

The propulsion force generation method using the centrifugal force and the device according to the present invention for achieving the above object provides the following features.

As a driving force generating method,

The angular velocity maintaining device 200 is installed in the centrifugal force change device 100 to generate the propulsion force in a predetermined direction so as to have an eccentric shaft 20 in correspondence with the trajectory 1 so that the centrifugal force changes.

A plurality of first to fourth weights 2a to 2d are installed in the angular velocity maintaining device 200 so as to be free to move in the axial direction so that the moving materials are installed in the trajectory 1 of the centrifugal force change device 100. So,

The long radius R of the angular velocity maintaining apparatus 200 while the first to fourth weights 2a to 2d rotate (idle) the trajectory 1 in proportion to the rotational speed (rpm) of the angular velocity maintaining apparatus 200. It characterized in that it comprises a method (principle) to generate a driving force in the direction,

In addition, it characterized in that it comprises a method (principle) for connecting the propulsion angle change device 300 having a separate drive means to the centrifugal force change device 100 to change the direction of generation of the propulsion force in an arbitrary direction,

As a propulsion generator,

A centrifugal force changing device (100) consisting of a garden trajectory (1) and an eccentric shaft fixing means (10) installed eccentrically;

The eccentric shaft 20 is installed in the eccentric shaft fixing means 10 of the centrifugal force changing device 100 and eccentrically installed on the garden track 1, and installed to move in the axial direction of the eccentric shaft 20. An angular velocity maintenance device (200) composed of first to fourth weights (2a to 2d) installed at the same time along the trajectory (1);

A propulsion angle change device 300 connected to the centrifugal force change device 100 and having a separate power means to vary a generation direction of the propulsion force in an arbitrary direction;

Characterized in that it comprises a.

Therefore, according to the present invention, the object can be moved in a horizontal or vertical arbitrary direction only by the propulsion generating device installed inside the object without using a medium such as air existing on the ground or a propulsion medium installed outside the object. It will greatly contribute to the development of practical science.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Figure 3 shows a basic device diagram for explaining the propulsion force generation method (principle) of the object according to the present invention, Figure 4 is a comparative graph showing the centrifugal force acting on each central body of the centrifugal force change device constituting the present invention separately. .

As shown, the propulsion force generating device of the present invention through the angular velocity maintaining device 200 to change the centrifugal force acting on the plurality of rotating first to fourth weight (2a to 2d) to act the eccentric centrifugal force Change of the propulsion angle to generate a strong propulsion force, to cause the propulsion force generated through the centrifugal force change device 100 having a garden trajectory (1) in a certain direction, and to change the direction of the propulsion force acting in a certain direction It is possible to freely change the direction of the propulsion force generated through the device 300.

The angular velocity maintaining device 200 is composed of an eccentric shaft 20 and a plurality of first to fourth weights 2a to 2d installed to move a predetermined distance in the axial direction of the eccentric shaft 20.

The centrifugal force changing device 100 has an eccentric shaft for fixing the eccentric orbit 1 and the eccentric shaft 20 of the angular velocity maintaining apparatus 200, in which the first to fourth weights 2a to 2d are assembled. It consists of a fixing means (10),

The propulsion angle change device 300 is provided with a power means for changing the direction of the propulsion force generated by changing the centrifugal force change device 100 in a predetermined direction in an arbitrary direction.

Referring to the operation of the present invention having such a configuration, by operating the power means provided separately as shown in Figure 3 fixed the centrifugal force change device 100 in a predetermined direction (for example, the driving force to act in the vertical upward direction) When the rotational power (rotational force having a constant rotational speed) is applied to the angular velocity maintenance device 200 in the state, the rotational power is applied to the eccentric shaft 20 arranged in the eccentric shaft fixing means 10 constituting the centrifugal force change device 100. The angular velocity maintaining apparatus 200 rotates around the eccentric shaft 20. At this time, as the angular velocity maintaining apparatus 200 rotates freely in the axial direction, the first weight body 2a, the second weight body 2b, and the third weight body are installed at a plurality of proportional angles (for example, 90 °). (2c) and the fourth weight (2d) is also turned along, where the second weight (2b) acting in the horizontal direction (left and right) of the centrifugal force generated in each of the first to fourth weight (2a to 2d) ) And the fourth centrifugal force 2d is equal in magnitude and opposite in direction, so they are canceled out and only the centrifugal force acting in the vertical and vertical directions remains. This is doubled as compared to the centrifugal force acting in the vertical direction, so that only a certain amount of centrifugal force is directed toward the vertical direction. Here, when a plurality of first to fourth weights 2a to 2d are installed in the angular velocity maintaining apparatus 200, the angular velocity maintaining apparatus 200 can rotate more stably.

Therefore, the specific centrifugal force of the first weight body 2a acting in the vertically upward direction and the third weight member 2c acting in the vertically downward direction will be made more concrete. That is, since the first weight body 2a is fitted into the trajectory track 1 forming the centrifugal force change device 100, the length from the eccentric shaft 20 to the point where the first weight body 2a is located is the long radius. R will be the length, while the length from the eccentric shaft 20 to the point where the third weight 2c is located will be the r length of the short radius, these first weights 2a and the third weight Centrifugal force of sieve 2c (RCF = 0.00001114 mΝ ² r If you compare)

○ Centrifugal force (RCF1) acting on the first weight (2a) located in the long radius (R)

The centrifugal force constant is 0.00001114, the mass of the first weight (2) is m = 500 g, and the rotational speed is Ν ² = 4000rpm, long radius R = 30cm,

Centrifugal force (RCF1) will be 0.00001114 × 500 × 16,000,000 × 30 = 2.6736ton,

○ Centrifugal force (RCF3) acting on the third weight (2c) located in the short radius (r)

The centrifugal force constant is 0.00001114, the mass of the third weight body (2c) is m = 500 g, and the rotational speed is Ν ² = 4000 rpm and short radius r = 15 cm,

The centrifugal force (RCF1) will be 0.00001114 x 500 x 16,000,000 x 15 = 1.3368 tons.

Therefore, the centrifugal force (RCF1) acting on the first weight body (2a) located in the long radius (R) is 1.3368tons larger than the centrifugal force (RCF3) of the third weight body (2c) located in the short radius (r), so that 1.3368ton When the driving force acts in the long radius (R) direction (eg, vertical direction) of the angular velocity maintaining apparatus 200, the weight of the object is lighter than the driving force that is generated, and the object is immediately floated in the air. Here, if the position of the eccentric shaft fixing means 10 installed in the centrifugal force change device 100 can be varied, a larger propulsion force can be obtained, and in the present invention, the propulsion angle change device is applied to the centrifugal force change device 100. If you change the direction of the driving force generated by connecting the 300 will be able to arbitrarily adjust the direction of movement of the object without regard to the up, down, left and right directions.

Meanwhile, in the present invention, the centrifugal force changing device 100 and the angular velocity maintaining device 200 in which a plurality of weight bodies are installed and the propulsive force generation direction are changed to change the centrifugal force according to the rotation angle so that the driving force is generated in a predetermined direction. When the propulsion angle change device 300 is further provided with a stabilization means 400 to obtain a stable propulsion force to be able to more stabilize the object (gas) equipped with a propulsion force generating device including the present propulsion force generating device, As an example of the stabilization means 400, the disk-shaped rotating body is installed at the center of gravity of the propulsion force generating device (the center of gravity of the object (gas) in which the driving force generating device is installed), or the angular velocity maintaining device 200 is rotated in opposite directions. By opposing installation, it is possible to provide a more stable propulsion generating device.

In addition, in the present invention, if a plurality of thrust force generating devices composed of the centrifugal force change device 100, the angular velocity maintaining device 200 and the propulsion angle change device 300 are installed, of course, a greater propulsion force can be obtained.

The field of application of the present invention can be applied to all movable moving objects, and especially when applied to working toys, automobiles, ships, flying devices, logistics aids, cranes, etc. is expected to have a great effect.

As described above, according to the present invention, the object can be moved in any direction horizontally or vertically only by the propulsion generating device installed inside the object without using a medium such as air existing on the ground or a propulsion medium installed outside the object. This will greatly contribute to the development of practical science.

What has been described above is just one embodiment for explaining the propulsion force generation method and apparatus using the centrifugal force according to the present invention, the present invention is not limited to the above-described embodiment of the present invention as claimed in the following claims Various changes can be made by those skilled in the art without departing from the gist of the present invention.

Claims (9)

The angular velocity maintaining device 200 is installed in the centrifugal force change device 100 to generate the propulsion force in a predetermined direction so as to have an eccentric shaft 20 in correspondence with the trajectory 1 so that the centrifugal force changes. The first to fourth weights 2a to 2d are installed on the angular velocity maintaining device 200 so as to be free to move in the axial direction, and are installed on the trajectory 1 of the centrifugal force change device 100 so as to be movable. The long radius R of the centrifugal force change device 100 while the first to fourth weights 2a to 2d rotate (idle) the trajectory 1 in proportion to the rotational speed (rpm) of the angular velocity maintaining device 200. Propulsion force generation method using a centrifugal force characterized in that the propulsion force is generated in the) direction. Propulsion force generation method using a centrifugal force characterized in that to connect the propulsion angle change device 300 having a separate drive means to the centrifugal force change device 100 to change the direction of generation of the propulsion force in an arbitrary direction. A centrifugal force changing device (100) consisting of a garden trajectory (1) and an eccentric shaft fixing means (10) installed eccentrically; The eccentric shaft 20 is installed in the eccentric shaft fixing means 10 of the centrifugal force changing device 100 and eccentrically installed on the garden track 1, and installed to move in the axial direction of the eccentric shaft 20. An angular velocity maintenance device (200) composed of first to fourth weights (2a to 2d) installed at the same time along the trajectory (1); A propulsion angle change device 300 connected to the centrifugal force change device 100 and having a separate power means to vary a generation direction of the propulsion force in an arbitrary direction; Propulsion using a centrifugal force characterized in that it comprises a. The propulsion force generating device using the centrifugal force according to claim 3, wherein the position of the eccentric shaft fixing means (10) installed in the centrifugal force changing apparatus (100) is variable. According to claim 3, The angular speed holding device 200 is provided with a plurality of first to fourth weights (2a to 2d) which are installed to move in the axial direction to ensure a stable rotation of the angular speed holding device 200. Propulsion using a centrifugal force characterized in that the device. Centrifugal force change device 100 for changing the centrifugal force according to the rotation angle to generate a propulsion force in a predetermined direction, an angular velocity maintaining device 200 having a plurality of weights and a propulsion angle change device for varying the direction of generating the propulsion force 300 Thrust force generating device using a centrifugal force characterized in that it further comprises a stabilization means (400). 6. The thrust force generating device using centrifugal force according to claim 5, wherein a disc-shaped rotating body is installed at the center of gravity of the thrust force generating device (the center of gravity of the object (gas) on which the thrust force generating device is installed) as the stabilization means (400). The propulsion force generating device using the centrifugal force according to claim 5, wherein the stabilizing means (400) is provided opposite to the angular velocity maintaining apparatus (200) rotating in opposite directions. [4] The centrifugal force according to claim 3, wherein a plurality of propulsion force generators comprising the centrifugal force change device 100, the angular velocity maintaining device 200, and the propulsion angle change device 300 are installed to generate a greater propulsion force. Thrust generating device used.