JP2008088968A - Explosive power utilization method and utilization body by rotation body - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make effective use of power discarded without being utilized in a conventional linear method. <P>SOLUTION: Ejection ports for taking out explosive power in six upper-lower, right-left and front-rear directions are provided around an explosion chamber, and a pair of rotation bodies 3 are arranged at each ejection port. The pair of rotation bodies 3 are basically rotated in opposite directions to each other by blades provided at the rotation bodies 3. The mutual rotating states of the pair of rotation bodies 3 are controlled to offset mutual reaction within a system and to carry out angle conversion of explosive power in each direction, thereby taking out power in a proceeding direction from all the pairs of rotation bodies in the six directions. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method of using explosive force by a rotating body and a user body by the force of primary energy and secondary energy, expansion, combustion, and explosion (hereinafter referred to as “explosion”) due to angle conversion movement of the rotating body.

In order to move the prime mover, the prime mover such as oil is moved mainly by the explosive force, and the movement of the prime mover is obtained by relying on objects such as the ground and air.
2001-540047 Private car inside and outside publisher

  Although the explosion of the motive power is roughly spherical, in order to extract the force by the linear method of linear action and reaction, like an internal combustion engine etc., like a piston cylinder or a rotor of a motor driven by secondary energy, like a stator This is a way to extract the force in only one direction, and uses only one direction of the spherical explosion, that is, one-sixth of the spherical hexahedron, and half of the processed force without explosion like an electric motor. Since the force in the reverse direction cannot be used with the linear method, it is consumed as a reaction, resistance, or injection

In the conventional linear method, the movement of the object is based on the linear method of moving by pushing the center of gravity of the object, so that only one direction of force can be extracted and used.
In addition, I learned that the movement of an object is to move by kicking a target such as the ground or jet, and it has become like that.
This is not practical.
The balloons of the Hanshin Tigers are in an equilibrium state with a uniform internal pressure until they are blown.
By releasing the gripping mouth, air has been jetted and flies in response.
When this is seen from the inside of the balloon, the pressure at the site is released and lowered due to the opening. The air that escapes from the high-pressure interior cannot kick the inside of the high-pressure interior to give force.
Therefore, since the gas moves to the lower pressure side, it is reasonable to fly to the lower pressure side, but in reality it moves in the opposite direction.

This contradiction is valid if the explosion is roughly divided into six spherical force directions and the whole is always in equilibrium.
That is, the balance of the internal pressure vector with the opposite direction to the direction in which the pressure is reduced due to the opening is lost, so that the balloon moves in the direction opposite to the injection direction to maintain the equilibrium. .
The vectors in the opposite directions other than the six directions opposite to the two directions related to the movement are in balance with each other and do not have a relation with the movement.
From the above, it can be correctly understood that the movement by the injection of the rocket or the like does not move in the reverse direction due to the reaction of the injection or the like, but moves due to the unbalance of the vectors in the opposite directions.

In other words, the force caused by the explosion swells in a spherical shape to balance it, and the bulge of the force in one direction does not move due to the reaction of the force in the reverse direction. It is a force in the opposite direction, and is not a reaction of the force in the traveling direction.
The recoil of cannons, etc., is also the result of taking out the two-way force of a spherical explosion, and is considered as a recoil of bullets that have been fired in the past, but in reality the pressure of the movement of the bullets in the gun barrel due to the movement of the bullet It is understood that the balance of the internal pressure vector in the opposite direction is broken, that is, the balance of the explosive pressure direction is broken and the force opposite to the bullet moving direction is applied. Is reasonable.

If the force in each direction is understood to be a force in a separate and independent direction, the moving direction is not generated by the force in the reverse direction, but is moved by kicking something due to the generation of force such as injection It does not occur, but occurs due to the imbalance of vectors in opposite directions.
In addition, it is reasonable to understand that force that is processed and processed in one direction, such as electric power, steam, and human power, is always transmitted in an equilibrium state as described above.
By discovering this fact, the force spreading in a spherical shape by exploding can be viewed in detail, and the direction of the force is innumerable in a spherical shape, and what is actually used is each of the six faces of the spherical cube of the force due to the explosion. It is a collection of direction components.

For this reason, each force in the six directions is configured to advance in that direction, and is not dependent on a force in the other direction such as a reverse force. It will cause a loss of balance and move as a pair.
In the linear method, the force component in one direction out of the six directions is extracted and used. Forces in other directions, including the force in the reverse direction, cannot be used to push the center of gravity. there were.

In addition, the reverse force treated as injection has been indispensable for movement as a recoil in the linear method, but this can also be understood as simply breaking the balance of the force in the two directions. .
The force that could not be used in the linear method for the force in the direction to obtain different forces in each of the six directions of the direction of the angle conversion movement of the rotating body of the present application by the right angle method including the cancellation method. It is converted by the angle conversion of the rotating body and used as a moving force.
This means that in a conventional linear method that moves by action and reaction, such as an internal combustion engine, an electric motor, or a rocket injection engine, the force extracted from the explosion has a unidirectional force of a spherical explosion or an element in that direction. Since only force is applied, when a force is applied to an object that is not moving, an equilibrium state is reached with the applied force.

It can be understood that the forces applied to the object are transmitted to the object by causing the vectors to reverse due to the forces applied by the object.
From these, the reaction occurs between the target by transmitting the processed force in one direction by the linear method,
The explosion that is the generation of force and the movement of the object in the linear method that conveys the force are separate phenomena, and the linear method only shows how to use the unidirectional force generated by the explosion. .
Originally, the six directions of the spherical explosion and the forces processed in the above-mentioned engines and directed in one direction are the same in direction. Or confused.

In other words, the spherical force generated by the explosion is a collection of forces in countless directions that form a sphere and emits a force in each direction, but the explosion itself does not move as a whole.
In order to extract the force in the desired direction of the aggregate, the linear method always produces a movement by generating a pair of forces in the opposite direction to the force in the opposite direction, causing the balance of the vectors to be lost. It takes the form of action and reaction. The form of explosion and the form of linear method, which takes out force from it, are fundamentally separate phenomena.
To summarize: 1. Generation of force by explosion and movement of an object by the linear method of action and reaction are separate phenomena.
2 The direction of the force caused by the explosion is independent of each other.
3 The movement of the object by the straight line method occurs due to the collapse of the vectors in the symmetric direction among the six directions.
The main cause of the mistake is that the action and reaction in the linear method always make a pair, and if one happens, the other will not happen, and the vector will not collapse. The movement of the directional force is equal to the movement of the action and reaction force.

The movement method by the straight line method and the movement method by the right angle method are the same opportunity or continuous phenomenon with respect to the expression of force such as explosion, and in the phenomenon that appears, the movement by the straight line method such as human walking The right angle method appears at the limit of, or in the right angle method or in succession to the inertial movement.
Since the force due to the explosion is six directions, the explosion of the sun, internal combustion engine, etc. appears to be the same, and the explosion itself does not move. Therefore, the linear method is not established, which pushes the center of gravity of the reaction in this field. .

The straight line method is established by the force in one direction of the explosion, or by processing the explosion and extracting and using the force in one direction. In the straight line method, it is the reality that it is moving with courageous discharge by injection or the like.
In the ancient Newton et al. Straight line method, the speed of light does not exist faster than the speed of light, which is the fastest form of force to obtain movement by pushing an object, and the speed of light becomes the limit of the speed of the straight line method. Although it cannot be exceeded, the movement at the critical speed of the linear method is the starting point of the right angle method, and the speed limit of the speed of light has not yet been reached by the right angle method.
In addition, the linear method is effective in a field where gravity exists because of the movement due to the loss of balance, but the movement in a zero-gravity field is disadvantageous compared to the right-angle method including the cancellation method in the following points. .
That is, in the linear method, inertial movement and steady acceleration movement are equivalent, and in the linear method, when accelerating to an object that is moving by inertia, the speed of acceleration is as fast as the moment of inertia. It is a common sense of the straight line method.

Also, as described above, to extract the force of the spherical driving force, only the force in one direction is used for the linear method, and the force in the other six-sixth direction is bravely scattered and moved. The use of other powers was considered out of the question.
By adopting the right angle method including the offset method using a rotating body, the force is extracted from all six faces of the explosive sphere and converted to the desired direction for use. The processed two-way force is also used. To solve the problem.

  Move using only the force in the desired direction generated depending on the object such as the ground, increase the energy efficiency using the power that was not available, 5/6 of the straight line method, Contribute to the solution and postponement of the safety resource and environmental issues that are faced.

Best Mode for Carrying Out the Invention

In an injection engine such as a straight-line rocket, it explodes its explosive force and uses an explosive force equivalent to one-sixth of a spherical explosive force to fly.
The same applies to various engines such as an internal combustion engine.
The explosion is a sphere, and the rotation of the rotating body is obtained on a surface other than the traveling direction by the force of each of the six surfaces, and the rotating body is provided with a point of application so that each rotating body is in the same direction or in the opposite direction. The reaction that occurs by reversing the rotation is canceled and the process proceeds in the desired direction.

For example, the illustration shows that the rocket moving by the conventional linear method is a pair of the right angle method, and the cancellation method is used together to obtain the traveling force. The moving rocket 1 is assumed to travel with the reaction force of the injection 2 to obtain a traveling force.
Injection 2 is a force that travels in the opposite direction to the reaction direction of the spherical explosive force, so it is not useful for progressing due to the imbalance of each other's balance, but it is a force that moves in the opposite direction that is essential in the linear method .
The injection 2 is applied to the rotating bodies 3 and 3 'installed in pairs, and each of them is reversed to revolve around the force points 4 and 4' as temporary fulcrums. It is a utilization method and utilization body of the explosive force by the rotating body of the structure and the method in which the reverse injection force is transmitted and the traveling force is reversed.

In the example diagram, the force injected 2 in the direction of travel is discarded in the linear method, but in the cancellation method using the right angle method as a pair, it is used as the rotating force of the rotating body, and the direction of travel in the reverse direction depends on the applied point. 2 is obtained by reversing the rotating bodies of the right angle method to reverse each other to obtain a force in the traveling direction as a canceling method, and is represented by an arrow 8 by the jets of the jet outlets 5 and 5 'shown by dotted lines. By omitting the receiving parts of the rotating bodies that rotate in the reverse direction, the direct force points 4, 4 'are in direct contact with each other to form the right angle method.
Also, by restricting the injection on either side of the rear part, the balance on both sides is lost and the direction can be changed.
In the figure, 6 is a return tool for the rotating body, 7 is a support for the rotating body attached to the rocket, 8 is an arrow indicating the direction of rotation of the rotating body, and 9 is a central axis.

  That is, the rotation of the pair or the plurality of pairs of rotating bodies is obtained by the jetting force in the reverse direction of the traveling direction as a reaction of the action caused by the explosion, cancel each other's reaction, revolve in the traveling direction, and move.

Therefore, it does not explode in the explosion chamber, and it is synonymous even if the rotation of the motive force is directly ejected to the rotating body to obtain rotation, and FIGS. 3 and 4 are illustrations of the explosion having the ejection ports 5 in three directions of the hexahedron, The jet 2 exploding in the jet chamber 2 'is the upper pair of rotating bodies 3, 3' reversing each other and revolving at the applied point, proceeding in the direction of the arrow 10 in the direction of travel, and rotating on both sides of the lower part Similarly, the bodies 3 and 3 'also apply force in the central direction to become a resultant force and proceed upward.
In the figure, 11 is an exhaust pipe, 11 'is an exhaust port, 12 is an outer sheath, 13 is a rolling wheel, and 14 is a controller for supplying motive power.
In this example diagram, the whole is operated by a pair of rotating bodies, but both sides of the lower part can be configured as a single rotating body of the right angle method and a canceling method can be configured as a pair of rotating bodies on both sides. It becomes.
This example and description are based on the combination of the three methods of the straight line method and the right angle method including the offset method, and the opposite directions of the forces in the direction that could not be used in the conventional straight line method, or the three directions of the present example. It represents the deformation structure in two directions, and shows a part of the extraction of the original six-way force of the explosion, and obtains the movement by converting the angle by the right angle method including the cancellation method. Not only output but all output such as conventional output engine or output by angle conversion can be used.
Further, if the pair of rotating bodies 3, 3 'in the traveling direction is blocked, the movement in the linear method is the same as that of the rocket of FIG.
In other words, by transmitting the motive force of the motive force directly or by transmitting the motive force of the motive force to the rotating body, the force in the direction other than necessary including the reaction to the movement by the linear method in the required traveling direction is generated. A method and a utilization body of explosive force by a rotating body having a structure and a method for obtaining movement by converting to a necessary force in a desired traveling direction using an offset method.

This example illustrates the concept of a form that utilizes all of the force generated by an explosion using a cancellation method derived from the right angle method.
The driving force that exploded in the injection chamber 2 'composed of the six-direction jet outlets 5, 55, 52, 53, 54, and 56 in FIG. As in FIG. 3 of the first embodiment, all pairs of rotating bodies 3, 3 ′ in six directions are rotated.
Now, when seeking to proceed in the direction of the arrow 10, the pair of rotating bodies 3, 3 'of the jet outlet 5 is raised in the direction of the arrow by the injection 52 with the receiving portion 15 as a temporary fulcrum, and the jet outlet is opposed to the jet outlet. The rotating body 55 is also raised by the same injection 552.
Similarly, the pair of rotating bodies 3 and 3 ′ of the jet outlet 52 and the jet outlet 53 opposed to each other are reversed by the injection 522 and the jet 532, and the rotary body 3 of the jet outlet 52 and the rotary body of the jet outlet 53. 3 also reverse to each other, and rise in the direction of the arrow 10 by using the receiving portions 15 as temporary fulcrums between the rotating bodies.
Similarly, one of the pair of rotating bodies opposed to the other jetting ports is reversed to each other, and all the rotating bodies are similarly raised in the direction of the arrow 10.
That is, all the forces in the six directions of the explosion of the motive force in the explosion chamber in FIG. 5 are the forces in the direction of the arrow 10 obtained by converting the angle by the rotating body.
In the figure, 16 is a motive power supply unit.
In FIG. 6, the rotating body 3 directly extracts the rotational force from the motive force. When a plurality of the rotating bodies 3 are assembled, the explosion chamber 2 ″ is formed, and the rotational force is directly extracted by the blade 3 ″ attached to the rotating body 3.
By installing the above-described other configurations and the configurations in multiple stages in the jet outlet and the exhaust pipe, the generated and diffused force can be combined with the accumulative acceleration of the angle conversion of the rotating body as efficiently as possible. Available.

That is, in the movement in this embodiment, by using the cancellation method alone, the straight line method and the right angle method do not require an object required for movement, and the self movement is performed regardless of the environment including gravity.
In this method, the force generated by the driving force required for movement can be used only in one direction in the linear method, and all the forces that have been discarded can be used.
In addition, when the rotating body uses six faces or four of the six faces with respect to the desired traveling direction, the rotating body of the pair of two faces always rotates at right angles and revolves. Regardless of gravity and weightlessness, the system of rotating bodies becomes a straight line and is stable.

In addition, since the reaction of each rotating body is canceled in the system, it can be reused as much as the derived potential energy without affecting the traveling direction at all.
The remaining five-sixth force, which was impossible to use in a linear method other than the direction of travel required by conventional rockets, internal combustion engines, etc., is taken out and used as the force in the direction of travel.
Regardless of the injection engine such as a rocket or internal combustion engine that released the action, the primary motive power such as gas or the force generated when releasing processed energy such as electric power and fluid is not unidirectional like the linear method The force can be obtained from all directions of the force possessed by the right angle method, the offset method, or in combination without being discarded.
The force that was thrown away in the conventional linear method is obtained by the above-described method, and it cannot be overemphasized that it can be used as an applied force without being limited to movement.

In the case of two directions such as processed electric power, the amount of the direction conventionally transmitted to the object such as the ground is received by the rotating body or used as a method of canceling the movement in the right-angle direction by the pair of rotating bodies.
In other words, the energy of explosions other than the direction of travel, which could not be used by the conventional linear method in a moving body or force device, is used for movement by making full use of the right angle method and the cancellation method. is there.

In this illustration and explanation, the force generated by the driving force of energy including primary and secondary is determined by gravity using the right angle method alone, the cancellation method alone, or the combination of the cancellation method and the linear method or the linear method. Use according to weightless environment to eliminate power loss.
In short, the force generated by the explosion of the driving force is directly transmitted to the rotating body, or the force generated by the driving motor of the driving force is applied in the direction of the six faces of the cube, or in any direction within the six faces or the spherical surface. The force in the direction obtained by the straight line method is used in the straight line method or the right angle method including the cancellation method, and cannot be used in the straight line method, so that the force or the processed two-way force is changed to the desired force. A structure and method of using explosive force by a rotating body of a structure and method used by converting a force in a direction including a reaction to a force in a direction to be used by a right angle method including a canceling method.

Conventionally, when applying force to things such as movement, it is possible to save resources that are confronted by using the force that was thrown away as necessary.
In addition, the movement method by the linear method and the movement method by the right angle method including the cancellation method are phenomena that become the right angle method at the same line or the same opportunity or the limit of movement by the straight line method for the expression of force such as explosion. The secondary energy such as processed electricity and the primary energy of the explosion can be fully utilized.
Since ancient times, the right angle method exists alongside modern science based on the movement of the straight line method starting from the first, but the right angle method appears because it is hidden in the straight line method or at the limit of the movement by the straight line method, It is an unseen state, and is a useful invention for discovering how to use power to solve and procrastinate safety and resource environment problems.

  The schematic diagram which used together the right angle method including the cancellation method to injection engines, such as a rocket.   The principal part fragmentary figure of the attachment to the rocket of the form where the applied point touches directly and changes angle.   The principal part fragmentary figure of the angle conversion moving body which has a jet nozzle in three directions.   FIG. 4 is a cross-sectional view of a main part of FIG. 3.   The conceptual diagram which utilizes all the force which has a jet nozzle in six directions, and angle-converts with the rotary body in the same direction.   The principal part conceptual diagram which changes the angle | corner and moves by combining the rotation body and making the explosion force into rotation of the rotation body directly.

Explanation of symbols

1 Rocket.
2 Injection.
2 'injection chamber.
3 Rotating body.
3 'rotating body.
3 ″ blade.
4 Force point.
4 'force point.
5 Spout.
55 An outlet that is symmetrical with the outlet 5.
52 An outlet that is symmetrical to the outlet 53.
53 A spout symmetrical to the spout 52.
54 An outlet that is symmetrical to the outlet 56.
56 An outlet that is symmetrical to the outlet 54.
6 Return tool.
7 Support tool.
8 Arrow indicating the rotation direction of the rotating body.
9 Central axis.
10 Arrow 11 indicating exhaust direction of the whole exhaust pipe.
11 'exhaust port.
12 Skin coating.
13 Rolling wheels.
14 Control unit for supplying motive power.
15 Receiving part.
16 Driving force section.
52 Injection of the jet nozzle 5.
552 Injection at the jet outlet 55.
522 Injection of the ejection port 52.
532 Injection at the jet outlet 53.
542 Injection at the jet outlet 54.
562 Injection of the ejection port 56.

Claims (1)

  The force generated by the explosion of the driving force is directly transmitted to the rotating body, or the force generated by the driving motor of the driving force is the force in the six faces of the cube, or the force in any direction within the six faces or the sphere, Alternatively, the force in the direction obtained by the straight line method is used in the straight line method, or in the right angle method including the cancellation method, in order to change the processed two-way force to the force in the desired direction, including reactions that cannot be used in the straight line method 2. A method and a utilization body for utilizing explosive force by a rotating body according to claim 1, wherein the structure and the method are used by converting the direction force into a direction force to be used by a right angle method including a cancellation method.

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