| US20160333864A1 | 2016-11-17 | |||
| US5832788A | 1998-11-10 | |||
| US20180041097A1 | 2018-02-08 |
| 7 The claims 1- Method to produce rotational kinetic energy by investing the phenomenon of centrifugation by using the planetary mass's energy machine, which work to convert the centrifugal force into kinetic energy. 2- Method to produce rotational mechanical energy, and that by rotating a solid arm (rotation arm) connected with a bloc around a free rotation center on another arm's end (torque arm), the other end of which is interlocked with a gearbox or the load. 3- Method to produce mechanical energy according to the claim (2), where the theoretical amount of energy that produced, depends on the value of the rotating mass and its angular velocity. 4- Method to produce rotational mechanical energy by using the planetary mass's energy machine, which is manufactured as follows: A- installing a bloc on the end of a solid beam (bloc arm) as its other end interlocked with a hard shaft (rotating shaft) that will be the rotation center of the bloc arm, where it is possible to rotate this bloc by rotating the shaft. B- installing a bearing inside an end of a solid beam (torque arm), where its other end interlocked with a rotational hard shaft (torque shaft), and this shaft will be the rotation center of this arm (torque arm). C- installing a one- way bearing (clutch bearing) from its outer circumference with a solid fixed base. D- installing a one- way bearing (clutch bearing) from its outer circumference in a cylindrical solid piece end, while its other end is ready to interlock with a gearbox inlet shaft or the mechanical load directly, in case that we want to put it direct. E- Hold a rotating motor to rotate the bloc arm shaft, the motor will be carried and hold on independent base or on the torque arm. The rotating shaft will be placed and carried inside the bearing that installed in the torque arm, and that bearing will serve as the rotation center of the bloc arm. And the torque shaft will be interlocked with each of: 1- the inner circumference of the one- way bearing (clutch bearing) that installed on the solid base. 2- the inner circumference of the one- way bearing (clutch bearing) that installed in the cylindrical solid piece. And then the rotating motor shaft will be interlocked with the bloc arm rotating shaft directly or through a chain series or belt conveyor. The cylindrical piece will be positioned between the gear box and the solid base. 8 The solid base will be placed between the cylindrical piece and the torque arm. 5- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claim (4), when run the rotating motor, the rotating shaft will rotate the bloc arm, and the centrifugal force will start to grow in the bloc and its effect will transfers to its center of rotation at the end of the torque arm where the bearing is installed, and this force will start to rotate the torque arm in the direction that the clutch bearing that on the solid base allows to rotate, then the torque shaft begins to rotate the cylindrical piece with the gearbox or the mechanical load that want to be triggered directly. 6- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the free rotation direction of the oneway bearing that installed on the solid base is opposite of the free rotation direction of the one-way bearing that installed in the cylindrical piece. 7- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the torque arm, the bloc, the bloc arm, the solid base, the motor base and the cylindrical piece might be manufactured by using any kind or type of metal and material that can be solid enough to perform the function of each one of them. 8- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where both of the one-way bearing used in the machine could be needle bearing, ball bearing, tapered bearing, cylinder bearing, journal bearing or from any type of the one-way bearings, that suite the required size of the machine and capable to do its function. 9- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the installed bearing in one of the torque arm ends, could be from any bearing type, like needle bearing, ball bearing, tapered bearing, cylinder bearing, journal bearing or any type of bearings that allow the free rotation. 10- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the interlock between the torque arm and the torque shaft, between the block arm and the rotating shaft or between the gear box inlet and the end of the cylindrical piece could be by key shaft, welding or geared together. 11- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the bloc could be installed on the bloc arm or in the bloc arm and by any means of installation methods (welding, bolts or Revit). 12- Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), in which the bloc arm could be rotated by using any of the following ways: 9 a- A rotating motor installed at any point on the torque arm, and it rotates with the torque arm, where it is interlocked with the rotating shaft of the bloc arm directly or through rotary transmission (chain series, belt conveyor or any other way). b- - A rotating motor is installed on a solid base whose dimension do not intersects with the rotation path of the torque arm or the bloc arm, and the motor fixed on the base so that the axis of the torque shaft is identical to the axis of the rotating motor shaft. - Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where we can use any kind of rotating motor, for example, electrical motor, internal combustion engine, gas turbine or a hydraulic motor. - Method to produce rotational mechanical energy according to claims (4) and (5), where it is possible to manufacture the planetary mass's energy machine to have the rotation axis of the torque shaft and the rotating shaft in a horizontal level or vertical level or inclined at any angle. - Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), where the machine may contain more than one bloc arm, and all have installed on the torque arm. - Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims (4) and (5), which it is possible to own more than one torque arm, and all torque arms will be shared with one central torque shaft. - Method to produce rotational mechanical energy by rotating a bloc arm, that transfers the centrifugal force to a torque arm that transfers the rotational velocity and torque resulting from the centrifugal force generated by the rotating mass as a result of the centrifugal phenomenon to the gearbox or directly to the intended/needed load. |
| AMENDED CLAIMS received by the International Bureau on 02 May 2022 (02.05.2022) Method to produce a rotational kinetic energy by investing the phenomenon of centrifugation by using the planetary mass's energy machine, which works to convert the developing centrifugal force in the rotated bloc into kinetic energy in the rotating torque arm that transfers it to shaft of load, this machine is characterized by it consisting the following main parts, (Fig-1-1) as follow: 1- Bloc, L 2- Bloc arm, G 3- Rotating shaft, F 4- Torque arm, A 5- Torque shaft, E 6- Sprockets, KI & K2 7- Sprocket chain, I 8- Rotating motor, H 9- Solid base, C 10- Solid cylindrical piece, B 11- Two of One-way bearings, one of them is inserted and engaged from its outer circumference in the solid cylindrical piece B and its inner circumference engaged with the torque shaft E, and the another one inserted inside the solid base C and engaged with it from its outer circumference while its inner circumference is engaged with the torque shaft E. 12- Load shaft, DI Method to produce rotational mechanical energy by using the planetary mass's energy machine, according to claim-1, which is characterized by manufactured and assembled as follows: A- installing the bloc L in the one end of the bloc arm G which its other end interlocked with the rotating shaft F that engaged with the sprocket K2 and will be the rotation center of the bloc arm G, where it is possible to rotate bloc L by rotating the sprocket. B- installing a bearing inside a one end of the torque arm A and holding the rotating shaft F inside the bearing, where the other end of the torque arm A interlocked with a torque shaft E, and this shaft will be the rotation center of the torque arm A. C- installing a one- way bearing from its outer circumference inside the solid fixed base C. D- installing a one- way bearing from its outer circumference inside the cylindrical solid piece B which its another end will be interlocked with the load shaft DI. E- engage the rotating motor shaft with sprocket KI, the motor will be carried and hold on independent base or on the torque arm A. F- connecting the sprockets KI and K2 by the sprocket chain I. AMENDED SHEET (ARTICLE 19) The rotating shaft F will be placed and carried inside the bearing that installed in the torque arm A, and that bearing will serve as the rotation center of the bloc arm G. And the torque shaft E that is interlocked with the torque arm A will be interlocked from its another side with each of: 1- the inner circumference of the one- way bearing that installed inside the solid base C. 2- the inner circumference of the one- way bearing that installed in the cylindrical solid piece B. The cylindrical piece B will be positioned between the Load shaft DI and the solid base C. The solid base C will be placed between the cylindrical piece B and the torque arm A. The one one-way bearing that fixed in the solid base C will allow to the torque arm A to rotate in one direction only, and the one-way bearing that installed in the cylindrical piece B will allow to the torque shaft to rotate the load shaft DI and it will forbid the effect of the inverse torque from reaching to the load shaft DI when the torque arm being under deceleration effect due to changing in the direction of bloc L force. The free rotation direction of the one-way bearing in the solid base C will be always inverse of the free rotation direction of the one-way bearing in the cylindrical piece B. Method to produce rotational mechanical energy by using the planetary mass's energy machine, which characterized by its operating method, where it will operates when running the rotating motor, which will rotate the rotating shaft F by the sprocket chains KI & K2, and the bloc arm G will starting its rotation, and the centrifugal force will start to grow in the bloc L and its effect will transfer by the bloc arm G to the center of rotation at the end of the torque arm A where the bearing is installed, and this force will affect the torque arm A by oscillating torque, but the rotation direction of torque arm A will be determined by the one-way bearing that installed on the solid base C, and that bearing will forbid the oscillation by restricting the move to be rotation in one direction clockwise or anti-clockwise, then the torque shaft E begins to rotate the cylindrical piece B by rotating the one-way bearing that interlocked inside it, and the load shaft DI will start rotate with the cylindrical piece B. The one-way bearing that interlocked inside the cylindrical piece B will allow only passing the positive torque to the load shaft. Then, we can connect the load shaft DI with the required load direct or by the gear box. Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims 1 and 3, which characterized by functionality of its consisting parts, where the parts from 1 to 8 together are representing the unit of artificial gravity field, where the artificial gravity will create by starting the rotating motor that will accelerate and rotate the bloc arm causing to appear the phenomenon of centrifugation in the bloc, and that will start the centrifugal force of the bloc and will cause to produce kinetic energy in the torque arm, and the parts from 9 to 12 together are representing the control and produce unit, where the AMENDED SHEET (ARTICLE 19) kinetic energy in the torque arm will transfer to this unit by the torque shaft, and this unit will control the rotation direction of the torque arm to be in one direction only withier clockwise or anti-clockwise by the one-way bearing which installed in the solid base, and the control and produce unit will allow the load shaft to rotate continuously in one direction regardless the changing of the torque direction in the torque arm by the one-way bearing that fixed inside the solid cylindrical piece. Method to produce rotational mechanical energy by using the planetary mass’s energy machine according to claims- 1, where the free rotation direction of the one-way bearing that installed on the solid base must be opposite of the free rotation direction of the one-way bearing that installed inside the cylindrical piece. Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims-1, where the torque arm, the bloc, the bloc arm, the solid base, the motor base and the cylindrical piece might be manufactured by using any kind or type of metal and material that can be solid enough to perform the function of each one of them. Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claim-1, where the bloc could be installed on the bloc arm or in the bloc arm and by any means of installation methods (welding, bolts or Revit). Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claim-1, in which the bloc arm could be rotated by using any of the following ways: a- A rotating motor installed at any point on the torque arm, and it rotates with the torque arm, where it is interlocked with the rotating shaft of the bloc arm directly or through rotary transmission (chain, belt conveyor or any other way). b- - A rotating motor is installed on a solid base whose dimension do not intersects with the rotation path of the torque arm or the bloc arm, and the motor fixed on the base so that the axis of the torque shaft is identical to the axis of the rotating motor shaft. 9. Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims-1, where we can use any kind of rotating motors, for example, electrical motor, internal combustion engine, gas turbine or a hydraulic motor. 10. Method to produce rotational mechanical energy according to claims-1, where it is possible to manufacture the planetary mass's energy machine in such a way that the rotation axis of the torque shaft and the rotating shaft in a horizontal level or vertical level or inclined at any angle. 11. Method to produce rotational mechanical energy by using the planetary mass's energy machine according to claims-1, where the machine may contain more than one bloc arm, and all have installed on the torque arm. 12. A method for producing rotational mechanical energy using Planetary Mass's Energy Machine according to claims-1, as the machine may contain more than one torque arm rotating on each of which one bloc arm or more, so that all torque arms share with one central torque shaft. AMENDED SHEET (ARTICLE 19) |
Full Description
Introduction:
As energy in all its forms is the mainstay of human civilization, this invention is concerned with creating mechanical energy from a new source, which is the mechanical energy resulting from the use of the phenomenon of centrifugation, where I invented a new method to take advantage of this phenomenon by means of the (Planetary Mass's Energy Machine) subject of this invention.
Technical Field
The method of this invention depends on the phenomenon of centrifugation, which produces a centrifugal force in the rotating mass whose effect is perpendicular to the axis of rotation in a direction away from the center of rotation, and according to the energy conservation law, this centrifugal force does not change the energy balance of the rotating mass itself, even if it moved on the rotating arm, where in case it moved on the arm while it is rotating about the rotating center, another force ( Coriolis Force ) will appear to change the angular velocity accordingly to conserve the bloc energy that rotates and moves on the arm, and also it is possible to use this generated centrifugal force in the mass if we allow the center of rotation to move with the direction of this force, while the bloc fixed on the rotation arm to avoid appearing the Coriolis Force.
The Prior Art
Where my invention is an innovative method for producing mechanical energy from a mechanical machine that uses the phenomenon of centrifugation to produce mechanical energy, the prior art of this invention is transformative methods of producing mechanical energy by converting other types of energy such as chemical energy in fossil materials or solar energy into mechanical energy. By using my new method of producing sustainable mechanical energy using the Planetary Mass's Energy Machine, we can get rid of environmental pollution resulting from most transformative methods of energy production.
Field of the invention
This method (Planetary Mass's Energy Machine) is distinguished by the ability to be used with all the application that need the mechanical energy to do its functions, where, by this new method, we can manufacture a planetary mass energy machine, in any required size, that will produce the needed mechanical energy to suit and to operate the target application, where, we can use it for electricity generating and to operate all kinds of the transportation means (vehicles, ships...).
Detailed Description:
The Scientific Background of the method of the Energy of Planetary Mass's Machine It is known scientifically that the phenomenon of centrifugation affects objects moving in a circular path, as this phenomenon affects objects in a circular path through the centrifugal force that expels these objects outside the center of the circular path.
And if we consider that there is a bloc (mass) placed on a solid arm have a rotating center, and we started to rotate this arm, then the phenomenon of centrifugation begins to affect this bloc, and if we allow this bloc to move linearly on the rotated arm in the direction of the centrifugal force while it's still rotating , another phenomenon will start to appear, which is the phenomenon of Coriolis that will affect the rotating bloc in the direction of reducing the angular velocity, to work on balancing the total bloc energy, where, the total kinetic energy of the bloc depends only on the angular velocity and bloc moment of inertia (if the phenomenon of centrifugation increased the bloc moment of inertia, then the phenomenon of Coriolis will reduce the bloc angular velocity), so that any increased in the moment of inertia of the bloc, that gained by its linearly moving on the rotating arm, will be accompanied by a decrease in the bloc angular velocity, and this what phenomenon of Coriolis works, to conserve the total energy of the bloc.
If we connect the bloc (during its rotation and linear movement on the rotating arm) with any means of transmission or energy consumption, such as a hydraulic piston for pumping hydraulic oil from the piston cylinder, then when the bloc moves on the arm, the piston attached to it will move, which in turn will pump the hydraulic oil outside the piston cylinder causing this action (i.e. providing the piston with the necessary energy to pump oil outside the cylinder) is the effect of the force of the centrifugation on the bloc, and not the effect of the conserved bloc energy which depends on its angular velocity and its moment of inertia. If we start to use the phenomenon of centrifugation to produce continuous mechanical energy by moving the bloc (that connected to one of the energy transferring means) on the rotating arm in the direction away from the center of rotation, then, the two following technical problems will arise:
1- To produce continuous energy, after every single active working stroke (the active stroke is happening when the object that connected with the bloc is doing positive work), we always need to return back the to the original value of the angular velocity, which mean that we need to do the same work amount that done by the object (the piston, in the example).
2- We need always to return back the bloc to its original position on the arm, to do another working stroke.
And to avoid these problems, I used the effect of the phenomenon of centrifugation that is transferred from the bloc to the rotating arm rotation center, where I will keep the bloc in fixed position on the solid arm (moment of inertia of the bloc is constant, without appearing the phenomenon of Coriolis that will reduce the angular velocity).
What I did in this invention, that, is taking the advantage of the effect of centrifugal force on the center of rotation, by installing the bloc on a solid rotating arm that allows the transfer of centrifugal forces to the center of the base of rotation, without allowing it to move linearly on the rotating arm, by that I used the effect of the centrifugal force that generated in the rotated bloc on the objects that connected by any means with the bloc (the rotating center), while maintaining the balance of the bloc energy.
Brief Description of the Drawings The figures from figure (1) to figure (10), illustrate the assembly and the parts of the Planetary Mass's Energy Machine.
The figure (11), illustrates effect of the centrifugal force that generated in the bloc on the rotation direction of the torque arm.
The figures (12) and (13), illustrates the ability to placing the rotating motor on any point of the torque arm.
The figure (14), shows how to use more than one bloc arm, and all of it are placed on the torque arm.
The figure (15), illustrates the capability of the planetary mass's energy machine to have more than one torque arm.
The figure (16), illustrates that the planetary mass's energy machine can be placed at horizontally, vertically or inclined at any level.
Detailed Description of the Drawings
When looking at the drawings we will see the simplified shape of the planetary mass's energy machine, and the details of the machine assembly, as follow:
- Figure (1), Illustrate the simplified shape of the planetary mass's energy machine.
- Figure (2), (A) represents a solid beam with two ends (Al, A2), where (Al) is fixed with the shaft (E), and (A2) where a bearing (free rotation bearing) is installed, and its represents the center of rotation of the shaft (F). And this beam will be named later by the torque arm.
- Figure (3), (B) is represents a solid cylindrical piece, where is installed inside one of its end (Bl) a one-way direction bearing (clutch bearing), where, its another end (B2) is ready to be interlock with the gearbox inlet shaft (DI).
- Figure (4), (C) is represent a solid base have a hole in the upper face contain a one-way direction bearing (clutch bearing) fixed by its outer circumference, which allows to the torque arm to rotate in one direction only. This base will be positioned between the torque arm and gear box.
- Figure (5), (D) is represents a gearbox with an inlet shaft (DI) that will be interlock with (B) from the (B2) end, and will be positioned under the base (C).
- Figure (6) (E) is represents a shaft (will be named later the torque shaft) fixed from one of its end (El) with the torque arm (A) in the center of the end (Al), and ready from the other end (E2) to interlock inside the clutch bearing that installed in the solid cylinder (B) in the end (Bl), and also will be interlock (at any point between the points (El) and (E2)) inside the clutch bearing that fixed or installed one the base (C).
- Figure (7), (F) is represents the shaft (F) (will be named later the rotating shaft) interlocked from its end (Fl) with a sprocket (K2), and it centralize and positioned in the bearing that is inserted in the end of the torque arm at (A2), and it's another end (F2) is interlocked with the beam (G) at the (Gl) point. - Figure (8), (G) represents a solid beam (will be named later the bloc rotating arm) which is interlocked from the end (Gl) with the shaft (F), and the end (G2) carry the bloc (L) that is installed on it. And (L) is represent a solid bloc that will be rotated around the center point of (Gl).
- Figure (9), (H) is represents a rotating motor, who's its specification depends on the planetary mass's energy machine size that to be produce, the sprocket (KI) interlocked with the shaft of this motor. And (J) is represents a solid and fixed base, that will carry the rotating motor, where, the axis of the motor shaft will be identical to axis of the shaft (E).
- Figure (10), (I) it represents a chain series that deliver the movement from the sprocket (KI) to the sprocket (K2).
- Figure (11), its showing the case when the torque arm starts to rotate without restricting its rotation direction, the torque arm (A) will start to move frequently (clockwise and counter clockwise), depending on the rotating arm (G) location around (Y-Y) line.
- Figure (12) and Figure (13), its showing some of the available ways to placing the rotating motor on the torque arm.
- Figure (14), its showing that the Planetary Mass's Energy Machine capable to contain more than one rotating bloc, where each of them have its own rotating arm (G) and rotating shaft (F), and all of them rotates on the torque arm.
- Figure (15), its showing that the Planetary Mass's Energy Machine capable to contain more than one torque arm and rotating bloc, where all torque arms share the same torque shaft (E), that its power from all of them.
- Figure (16), illustrates that the planetary mass's energy machine can be positioned horizontally, vertically or inclined at any level, and that will be without affecting its function.
How the Method works
Now, figure (1) showing the assembly of the Planetary Mass's Energy Machine, as one unit. And when run the rotating motor, the rotation of the sprocket (KI) will start, which in turn will rotate the chain (I), which in turn will start to rotate the sprocket (K2) which interlocked with the shaft (F), and then, the shaft (F) with the bloc rotating arm will start its rotation, and then, the rotation of the bloc (L) will start, where the centrifugal force begins to appear proportional to the bloc (L) amount and the amount of the angular velocity of the arm (G), this force will affects with its same amount on the torque arm (A) at the (A2) point by the shaft (F), and by that we have obtained the force that affect the free end of the torque arm (A) at the point (A2), where this force will start to rotate the torque arm (A) around its center in (Al) that is engaged with the shaft (E), thus, angular velocity and torque will be exist in the shaft (E), which in turn will act to rotate the cylinder(B) that is interlocked with the gearbox, and by this angular velocity and torque, the kinetic energy will be transmitted to the gearbox, that can be associated from its outlet shaft (D2) with an electrical generator or a moving cart wheel or both, where, we can also interlock the point (B2) of the cylindrical piece (B) direct with the load, if desired. When applying the previous steps of the mentioned method, as described above, we will have energy generated by effect of the phenomenon of centrifugation, and that is so clear, because the torque arm (A) it is taking the rotating energy around its end (A2) only by the centrifugal force that affected it by the shaft (F), and it's not connected with the motor shaft or the sprockets. The required power to run the machine (to rotate the bloc) will be only the required value to overcome the friction torque generated in the bearing that installed in the bloc rotation center at the point (A2), while the amount of the generated power on the gear box outlet shaft, will be related only to the amount of the centrifugal force that generated in the rotated bloc.
As in Figure (11) it shows that when the bloc is on the right side of (y-y), the rotation of the torque arm (A) around the rotation center at point (Al) will be clockwise, and when the bloc is on the left side of (y-y), the rotation of the torque arm (A) around the rotation center at point (Al) will be counterclockwise, but by using the one-way direction bearing that installed on the base (C), that will allow the torque arm (A) to rotate only in one direction (we will assume here that it is rotate in the direction of clockwise), then, we will have two stroke:-
A working stroke, when the bloc is on the right side of (y-y), and during this stroke the torque arm (A) is accelerated, which in turn will transfer the angular velocity to the gearbox through the shaft
(E) and the cylinder (B), and when the bloc rotates and placed on the left side of (y-y), the effect of the generated force at the center of (A2) will cause deceleration in the rotation of the torque arm (A), and that will be a non-working stroke, (with note that the one-way direction bearing that installed on the base (C), will not allow the counterclockwise rotation of the torque arm (A)).
The deceleration of the torque arm (A) will not transfer to the gearbox or stop the rotation of the gearbox (D) and that because of the existence of the one-way direction bearing that its installed in the cylinder (B) (allow to (B) to rotate in the rotation direction of the torque arm only), as the bloc continues to rotate around the center of the torque arm (A2) we will get an angular velocity and torque in the gearbox, and as foresaid above, that can be connected to an electrical generator or a moving cart wheel or both, thus, we have produced a continuous angular kinetic energy.
There is a lot of ways that we can use to rotate the bloc arm around the center of rotation (A2) which is like the following:
1-installing the rotating motor on a solid and fixed base, so that none of its dimension intersects with the rotation path of the torque arm or the rotation path of the bloc arm, as per the above described method.
2-installing the rotating motor on the torque arm (A), where, the motor shaft axis is identical to the bloc rotating shaft (F) in the point (A2), which in this case the motor rotates with the torque arm, and the rotating shaft of the motor will interlock directly with the shaft (F) of the rotating bloc arm
(F). Figure (12).
3- installing the rotating motor on any point of the torque arm (A) away from the point (A2) and in this case it will rotate with the torque arm, but we will need the chain series or the belt conveyor to rotate the rotating shaft (F), which will rotate the bloc arm. Figure (13). Note that the rotating motor that is used to rotate the bloc arm might be any kind of motors, for example, electrical motor, gas turbine or internal combustion engine, and we might also use a hydraulic motor or any other kind.
One of the advantages of this method is that it is possible to use more than one bloc arm that installed on the torque arm, to increase the force and the velocity of the torque arm, as shown in Figure (14), where the point (Al) will stay the center of the torque arm rotation, that carries more than one bloc arm.
And in this invented method, the planetary mass's energy machine is capable to have more than one torque arm, as they all can share in one central torque shaft, as shown Figure (15).
And we can position the planetary mass energy machine with any level, where it can be positioned with horizontal level or vertical level or any angle of inclination, and that position will not affect the work of the distinctive mechanism, as shown in Figure (16).