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WO2016195467A1 - Moteur à force gravitationnelle - Google Patents

Moteur à force gravitationnelle Download PDF

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Publication number
WO2016195467A1
WO2016195467A1 PCT/MX2015/000085 MX2015000085W WO2016195467A1 WO 2016195467 A1 WO2016195467 A1 WO 2016195467A1 MX 2015000085 W MX2015000085 W MX 2015000085W WO 2016195467 A1 WO2016195467 A1 WO 2016195467A1
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WO
WIPO (PCT)
Prior art keywords
arrow
sliding
force
cam
useful
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/MX2015/000085
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English (en)
Spanish (es)
Inventor
José Guillermo CASTRO GONZALEZ
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
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Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to PCT/MX2015/000085 priority Critical patent/WO2016195467A1/fr
Publication of WO2016195467A1 publication Critical patent/WO2016195467A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03GSPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
    • F03G7/00Mechanical-power-producing mechanisms, not otherwise provided for or using energy sources not otherwise provided for
    • F03G7/10Alleged perpetua mobilia
    • F03G7/104Alleged perpetua mobilia continuously converting gravity into usable power
    • F03G7/107Alleged perpetua mobilia continuously converting gravity into usable power using an imbalance for increasing torque or saving energy

Definitions

  • the present invention relates to devices that, by their nature, manipulate force to rotate flywheels on their axis and thereby obtain some benefit.
  • This invention is characterized by having essentially mechanical elements, designed to perform internal work with flywheels divided into equal parts and manipulated with electromagnets to cause useful mechanical energy used in mobiles and industry. By its operation it is an invention of the electrical mechanical area,
  • the invented device takes full advantage of the physical properties possessed by flywheels, manipulated Insita with electromagnets, slides, cams, pivots and impact solids,
  • the invention begins by trying to understand the internal process that operates in the field, responsible for the presence of its mass and weight.
  • the methodology used to try to understand the mechanics of universal gravitation was to describe the nature of the cosmos with "A Rationalized Language for Propyesfas of Ens o and Error"; With this methodology, an essay begins to understand the science of basic physics with a numerical system composed solely of real dimensions; when developing it, there was a need to dismiss the concepts and definitions in force in conventional physics science, since these are supported in the decimal number system, and this is artificial, it is a useful tool to measure the behavior of the nature; but not to conceptualize it.
  • the flywheel with useful masses represents a particle of matter and its mass is divided into equal parts; each of them represents a quasi-participation and are manipulated with electromagnets, sliding arrows, cams, pivots and impact solids.
  • the fractions of useful mass are released emulating the disintegration of matter; The strong forces of the electromagnets put them back in their escape, imitating this time the reconstruction of matter.
  • the energy used in this exercise is that generated by destabilizing the quasi-particle of matter represented by each of the fractions of the divided inertia flywheel.
  • the useful mass in this invention is the mass of the flywheel that acquires the kinetic energy that will be used without being consumed.
  • Each division or mass section of the flywheel is subject to a desiizabie arrow, which is manipulated with electromagnets.
  • the retractable forces of these represent the strong forces that matter has inside to achieve stability.
  • the retractable force of an electromagnet assumes the centripetal force that holds the corresponding mass fraction in position; when the force of the electromagnet stops operating, the fraction of useful mass is detached; This amounts to a simple and manipulated disintegration of matter and is the cause of a release of mechanical energy that will be used.
  • the work carried out by the Gravitational fmrza Motor is to take advantage of the strong force of the electromagnets, to be applied as a force from the mechanical energy contained in the masses of the flywheel,
  • the invention uses the strong force of the electromagnets based on in the internal rotor foundation or monob ⁇ ock.
  • the engine takes advantage of the physical capabilities of the mass of flywheels that rotate free, which means that they do not encounter obstacles or brakes that decrease or sacrifice their tangential speed.
  • This invention does not consume or reduce the kinetic energy acquired by the flywheels, it is only used. This is one of the two operational qualities or virtues that the invention possesses; the other consists in the frequency with which electromagnets operate; this action is done through a frequency governor that is handled independently; In the two mechanical circumstances described, the principle of energy conservation is fulfilled.
  • the sliding arrows control the useful masses and are manipulated by electromagnets between cams with pivots and impact solids.
  • the manipulation of kinetic energies is achieved by allowing and causing very small radial landslides in the arrows with useful mass along their own axes, in very short times and in both directions; This is an additional internal manipulation to the basic rotation that already has a common Inertia flywheel.
  • the flywheel with useful mass is formed by one or more sets of sliding arrows and each set in turn is formed by two or more arrows with useful mass.
  • the useful mass of an arrow des liza bl is the total amount of mass controlled by that arrow, and is the mass that acquires the kinetic energy that will be harnessed.
  • the mass manipulated by a sliding arrow is the sum of the mass of the arrow itself, plus the additional useful mass placed on it; It also includes the one provided by the cam and to a lesser extent the masses of solids and bearings used for the union between these elements.
  • each set of sliding arrows with cams has consists of in which the arrows - set as a whole - must be placed in opposite places within the steering wheel; opposite so that the angles that form between them are equal and that the sum of the ios values themselves, drawn on the plane of rotation of the flywheel, sum 360 °; that is to say, two or more sliding arrows must be placed in such a way that when released at the same time and thanks to the principle of energy conservation, their kinetic energy deviates, in such a direction parallel to the planes of the flywheels of Inertia , direction parallel to the central rotation axis; This is achieved by the 90 ° direction change caused by the pivot cams.
  • the axes of the sliding arrows are orthogonal to the central axis of rotation of the flywheel; All the camshafts are tightly connected to each other. they represent the anchor of a foundation and together with the rrtonoblock they are the internal firmament for the cams.
  • the Forces Gravitaclonal fiotor is constructed with one or more sets of flywheels with useful mass; each group works independently with its own internal work cycle; This work involves sliding of the arrows between the monobiock and the external rotor cylinder, and consists of releasing each set of arrows at the same time, so that the impacts occur simultaneously, always keeping the arrows within reach of the electromagnets so that they return to its original position; This cyclic manipulation of releasing, retracting, retaining and releasing the arrows of each set is called the internal work cycle.
  • the elements that make up the flywheel with useful mass are: the electromagnet, the arrow with its own mass, the useful mass added to the arrow, the cam, the impact solid placed on the cam and the connecting elements.
  • the electromagnet - preferably - was akin to the monobiock;
  • the arrow slides between it and the external rotor cylinder and joins with the cam, which holds the corresponding impact solid.
  • a variable speed electric motor or rotational actuator is the one that provides the rotational force or torque to turn the Fyerza Gravitad® nal motor, it has a flywheel with useful masses within its flywheel of inertia.
  • the flywheel of inertia also called the internal foundation or rotor housing of the Qravitaciortal Force motor, is a mechanism that by its functions can be named in three ways.
  • the elements that make it up are: the monob ⁇ ock, the hollow central rotor arrow or the monob ⁇ ock arrow, the external rotor cylinder, the container with pivot for cam, the rigid left membrane and -if it is the case » the patella to hold the electromagnet , plus ios bearings and fasteners.
  • the flywheel receiver has shape, capacity and space to suspend and its interior to the elements that make up the flywheel with useful masses.
  • the monob ⁇ ock has enough strength and space to suspend the sliding arrows and electromagnets inside it, and if necessary, the kneecaps; It also has the necessary shape and resistance to hold the hollow central rotor arrow, as well as to join and attach to the external rotor cylinder.
  • the rigid rigid membrane joins the central rotor hollow arrow with the monob ⁇ ock and the external rotor cylinder, giving monolithic consistency to the flywheel of receiving inertia. ?
  • the transmission cover is an independent element that is strongly confined or bounded between the external rotor cylinder, the hollow shaft of the monoblock and the axial bearing with which it makes contact.
  • the hollow shaft central rotor makes contact with the transmission cover by means of a bushing.
  • the hollow central rotor shaft holds the Gravitational Force Motor and is suspended on an axial bearing that is placed inside its container, which is attached to the stator outer structure.
  • the Gravitational Force Motor is formed by the two flywheels of inertia: the steering wheel that manipulates the useful mass and the receiver or foundation of the invention; the two rotate at the same ⁇ PM - revolutions per minute - and share the same central rotor arrow on which the motor is suspended, using the monoblock.
  • the electromagnet is attached to the monoblock, located near the central axis of rotation of the flywheels; its function is to release, retract and retain the arrow successively; This function is controlled by the frequency governor, which is responsible for opening and closing the electrical circuit that allows its operation.
  • the electromagnet controls the sliding arrow of the tip that is closest to the central axis of the monoblock; Your work Starts when you release the arrow, the period of time which the electromagnet has to release and retract the arrow »we will call it speed and it is different from the time required by a hell of a work cycle.
  • the internal work cycle is the period of time that passes each time the arrow is released; how quickly the electromagnet works is the period of time between releasing it.
  • the two periods of time will be defined by the manufacturer, since they depend on particular technical aspects, such as the number of sliding arrow assemblies owned by the Taclorial Gravitation Engine built, the response time of the impact solids, the small separation that could exist between them, as well as the "RP" developed by the flywheels.
  • This mechanism is made up of two parts that join together, leaving enough space inside to suspend the pivot cam, with the impact solid that it must hold;
  • This container is fixed to the external rotor cylinder by its curved outer faces in contact and, preferably, not subject to the transmission cover of the invention, but within its perimeter.
  • the pivot that has the container inside, is the most important element for the cam and its characteristics imply that its longitudinal axis is orthogonal to the radius of rotation of the latter and tangential to the perimeter that describes the own pivot center when rotating; also the longitudinal axis of the pivot must be parallel to the plane of rotation of the flywheels, drawn by. the axes of the sliding arrows when rotating.
  • the pivot container and the external rotor cylinder have matching openings, which allow the tip of the arrow with useful mass and its connections to join the cam; it also has an opening in the section facing the transmission cover, this is essential for the impact solid attached to the cam, to make direct contact with the solid attached to the transmission cover,
  • the cam is suspended from! pivot, joins the sliding arrow and holds an impact solid; the shape of the cam depends on the function it performs, it includes the point where it is suspended from the pivot, the point of attachment with the arrow, and the point that holds the impact solid; These three points form a square at right angles or approximately 90 ° at the vertex that is next to the pivot.
  • the distance that exists from the pivot to the arrow and the distance from the pivot to the impact solid can vary, these determine the stress values that the cam receives and transmits; These distances will be defined by the manufacturer according to the characteristics and capacity desired for the engine to be built.
  • the rest of the cam shape is used to conveniently distribute its dough content. 7, - Impact solid Your jet ⁇ to ⁇ Leva
  • the rotor shaft of the rotational actuator has a copy on its tip to transmit the torque force to the ftHotor d ⁇ fmmm Gravstaesonai.
  • the copy transmits the rotational force and has tolerance for a small separation between the two coupled arrows; at the same time it avoids internal efforts due to lack of coincidence between the axes of both arrows.
  • the link to join the cam This is the solid that allows angular tolerance in the line of force transmission between them.
  • the link has - preferably - letter form ⁇ "and at its ends it is recommended to place the pins with needle bearings; the link bolts are those that allow angular tolerance in the line of force transmission
  • the axes of the bolts are parallel to the plane of rotation of the flywheels and the center of the link or midpoint between the two bolts; it is recommended that the orthogonal line that draws the pivot of the cam be placed on the plane of rotation of the axes of the sliding arrows, preferably
  • This suspension of the sliding arrow is characterized by circumventing internal torsion or tipping forces along the entire arrow: to achieve this condition, angular displacement tolerance is required between the sliding arrows with respect to the central axis of rotation.
  • the suspension has only one bolt at the junction of the arrow with the cam; union which, preferably, is resolved with said bolt inside a needle bearing.
  • the external rotor cylinder has the opening sufficient for the free passage of the phlectia; at the other end of the arrow a ball joint is used, it is suspended in the monoblock and has two knuckles to be suspended in the set of interconnecting solids attached to the monoblock.
  • the kneecap provides tolerance for angular displacement of the sliding arrow with the hollow central rotor arrow, such that between the arrow and the kneecap there are only linear stresses, not iorque or flambing; between them a bushing is preferably placed.
  • All bolts that connect the arrows with the cams have their longitudinal axes parallel to the rotating piano of the flywheels;
  • the axes of the knuckles of the patella are also characterized by being parked to the plane of rotation drawn by the axes of the sliding slides when rotating.
  • the Tor d® Fuena Gravitaciona It provides us with mechanical energy applicable in mobiles and industry.
  • the Motor Force Gr is working! it is the invented device and is composed of 13 (thirteen) or more newly created or conventional mechanisms and products, whose characteristics ie allow to manipulate the content of kinetic energy in flywheels with useful masses 1 , to develop an internal work cycle, which provides us with external mechanical energy, (1)
  • the useful masses are those that acquire usable energetic energy within a conventional flywheel.
  • the Gravitational Force Engine it has two flyers of inertia that rotate together;
  • the internally manipulated flywheel is the é® Inertia cn mass wheel, which is placed inside! flywheel receiver, rotor housing or internal foundation of the invention,
  • the two steering wheels share the same central rotor arrow and are driven for rotation - preferably » by an electric motor of variable speed.
  • the invention is suspended within an external stator structure, which has the external fastening elements for placement in any mobile or industrial mechanism.
  • the volant of inertia with useful masses is formed by a steering wheel with its mass divided in equal parts » and these are manipulated with sliding dates by electromagnets, cams, pivots and impact solids.
  • the manipulation of the kinetic energy contained in the flywheels of inertia consists in releasing the arrow with useful mass or sliding arrow between the monoblock and the external rotor cylinder, the mechanical energy that is released is directed parallel to the plane of rotation of the Made sliding, and thanks to the principle of conservation of energy, the cams modify it in a direction parallel to the central rotor arrow and transmit it between the impact solids.
  • Electromagnets work together and simultaneously to compensate for their forces within the monoblock; This is the internal foundation that receives the forces when each set of sliding arrows retract at the same time, and are released at the same time, so that the cams and impact solids simultaneously receive the mechanical energy released.
  • the cam holds an impact solid that transfers the mechanical energy to the impact solid placed in the transmission cover and again thanks to the principle of energy conservation, the mechanical energy rests with the external stator structure »to be used by the Force Motor Gravitational.
  • the arrow After transferring the mechanical energy, the arrow is within reach of the electromagnet or solenoid for the arrow slides; which with its retractable force pulls it and places it in the starting position of the new internal work cycle.
  • the internal work ceilings are controlled by the frequency governor, which is responsible for opening and closing the electrical circuit to operate the electromagnets; With this programmable control system, the time at which each internal work cycle begins is determined, which is each time a sliding arrow is released.
  • the work of the electromagnet is used when the arrow is released;
  • the period of time available for the electromagnet to release and retract it is the speed with which the electromagnet operates and is not necessarily the same period of time that the internal work cycle of the invented motor lasts.
  • the time period of an internal work cycle is the one that elapses each time the electromagnet releases the arrow; how quickly an electromagnet works has a shorter period of time than an internal work cycle lasts.
  • the two periods of time will be defined by the manufacturer, since they depend on several technical aspects, such as the number of sets of sliding arrows that the built gravitational force motor possesses, the response time of the impact solids, the small separation that could exist between them, as well as the "Pfiil" of the flyers of Inertia.
  • the mechanical capacity of the motor is measured with the acceleration that it causes to its mass, plus that which carries with itself.
  • the useful mechanical energy provided by ⁇ ! Motor l® Gravitational Force is achieved by taking advantage of the strong force of the electromagnets, since it manifests outside as a force from the masses with high kinetic energy content within the flywheels of inertia.
  • the retractable force of an electromagnet assumes the centripetal force that holds the mass portion of the flywheel in place; when the force of the electromagnet stops operating, the fraction of useful mass is detached; This amounts to a simple and manipulated disintegration of matter and is the cause of a release of internal mechanical energy which will be exploited.
  • the invention combines and exploits the mechanical properties of matter, with the properties of electromagnets; This combination somehow operates within the matter so that it possesses mass and weight.
  • the construction of the Gravitational Force Motor combines for the first time the strong forces of electromagnets in flywheels to cause useful mechanical energy in mobiles and industry.
  • the invention has two relevant technical characteristics in its operation; the first is provided by the useful mass flywheel flywheel, since this is a flywheel with free rotation; This feature allows you to develop your internal mechanical work without transferring or decreasing the kinetic energy that would help your masses one?
  • the power supply that the Gravitaetortaf Force Motor requires to operate is the one that the variable speed electric motor demands when it rotates the flywheels; This engine does not provide useful external mechanical work, but it overcomes friction and resistance so that the steering wheels rotate free, so its loss of mechanical energy is minimal. Electromagnets also demand energy, but as the path of the sliding arrow is minimal; it is measured in myras, it makes its mechanical work very efficient; likewise, the governor of frequencies requires energy but since it is an electronic component, it is very little.
  • the novelty in the transfer of internal kinetic energy to useful mechanical energy is that it is transmitted by the inferior of the flywheel molecules with useful masses.
  • the sliding arrow When the electromagnet applies its retractable force and assumes the centripetal force of the flywheel, the sliding arrow has its molecules subjected to tensile strength, they are stretched and tense; when the sliding arrow sounds, the internal molecular state of it is modified, its molecules are free of tension and the cam together with the impact solid is subjected to torsion and compression; For this change in the internal state of the molecules, large displacements of the internal mechanisms are not required.
  • the force actuated in the impact does not make direct contact with the pivot, the transmission cover first makes contact with the axial bearing, which is responsible for transmitting the force impulse to the outer stator structure;
  • This mechanical action corresponds to breaking in a moment the free vector proper to the flywheels, which is equivalent to that at that moment the pair of forces that are mutually nullified does not appear, resulting in the primary manifestation of the force impulse towards the exterior, which corresponds to driving the useful mechanical energy of the invented motor.
  • the internal work cycle can be carried out with great frequency, there is no limit to it, since it is manipulated by the frequency governor and its work is independent, linked only by a factor to the "PM W of flying coughs, which only they are mechanically limited by the resistance of the materials used in the manufacture of the engine Ef Moto de Fu na Gr & vifac onaf should be observed as a particle of matter isolated from its surroundings and for this reason it is not appropriate to apply the concept of generalized entropy; its internal mechanics is developed with a minimum of friction losses, with respect to the contribution of useful mechanical energy Within this isolated mechanism, the concept of entropy implies a balance in an internal system without taking into account its environment.
  • Figure 1 Sectioned perspective view of the uz motor
  • the invented device is a set of 12 (twelve) or more mechanisms and products that operate together to cause a utilitarian external force, which does not decay with the displacement of the motor that generates it, where the flywheel with useful masses ( S) - which can be seen in figures nine and ten - is inside the receiver flywheel or rotor housing ⁇ 2 ⁇ , which can be seen in figures seven and eight.
  • the two flywheels are driven by the rotational actuator (40) responsible for applying the torque force that rotates together.
  • the invention is suspended within the outer stator structure (40), which has the outer fasteners for place it conventionally on any mobile or industry mechanism !.
  • the flywheel with useful masses (8) formed by one or more sets of deizable arrows (9) with their additional useful mass (10), which are manipulated between the strong force of the electromagnet ( 12), which is inside its container (13) and the Impact solid attached to the cam (26); the manipulation consists in releasing the sliding arrow ( ⁇ between the monoblock (3) and the external rotor cylinder (5); the mechanical energy that is released is directed parallel to the plane of rotation developed by the detachable arrows (9); the cams (23) and pivots ⁇ $ 0) modify the direction of mechanical energy initially detached.
  • the electromagnet (12) is attached within the monoblock (3), it functions as the internal foundation of the Invention; It is part of the receiver inertia flywheel (2), which moves along with the flywheel with useful masses (8), so that the internal work is always carried out in the place where the invented device is located (1) ; which means that the mechanical energy provided to the outside does not decay with the relative displacement acquired by the invention.
  • the cam (23) is in the bottom of the container with pivot for the cam (22) and suspended from the pivot (5 ⁇ ); The cam (23) is attached to the sliding arrow (9) with the link (18) and attached to the impact solid (26).
  • the shape of the cam (23) depends on the function it performs, including the point where it is suspended from the pivot (S9); the link junction point (18) with the sliding arrow (9) and at the other end find, the point that holds the impact solid (2 @); These three points form a square at right angles or as close to 90 ° at the apex of! cam pivot (59); the rest of the cam shape ⁇ 23) is to conveniently distribute the mass content thereof.
  • the pivot container for the cam (22) - preferably - is firmly attached to the external rotor cylinder (5) by its curved sides, in contact, but not secured with the transmission cover (8) of! Gravitaesorsa Force Engine! (one).
  • FIG. 1 Front view of the middle of the Gravitational Force Motor (1); in the other half sectioned we see some mechanisms and elements that compose it, the function played by the elements that appear in this figure is described in Figure No. 1,
  • Figure 4 Conventional perspective view of the monoblock (3)
  • Figure ⁇ Conventional perspective view of the external rotor cylinder (S).
  • FIG. 7 Perspective view of the Receiver Inertia Steering Wheel, Housing
  • Fig r 8 Perspective view of parts and products separated from the
  • the interconnecting solid (16) is distinguished here, which is attached to the external rotor cylinder (S); inside it contains the bushing (SD), whose function is to suspend the sliding arrow (9).
  • SD bushing
  • the electromagnet (12) with its container (13) and the solid (14), whose function is to resist the retractable force of the electromagnet (12).
  • Each set of sliding arrows (9) is manipulated in its own time and is formed by two or more sliding arrows ( ⁇ ).
  • the manipulation consists of releasing the sliding arrow (9) between the monoblock (3) and the external broken cylinder ( 5)
  • the mechanical energy that is initially released is directed parallel to the plane drawn by the sliding arrows (9);
  • the pivots of the cam (23) behave like the internal foundation, are a kind of anchors subject to a foundation that moves within the flywheel of inertia (2) and, thanks to the principle of conservation of energy, the pivots (SS) receive mechanical energy in a direction parallel to the planar plane by the rotation of the sliding arrows (9) and they change it in a direction parallel to the hollow central rotor arrow (4), the impact between the solids (26) and (27), the solid (26) ) transmits the mechanical energy to the solid (27) and this to the transmission cover (6).
  • FIgyra 10 Perspective view with parts and products separated from the
  • Frequencies (80) with the system provide electricity for the electromagnets. These mechanisms already exist in the current state of the art;
  • the frequency governor (60) is a programmable product, it is responsible for opening and closing electrical circuits to supply power to the interior of the invention, to activate or deactivate the electromagnets (12).
  • the system for the supply of electric energy to the electromagnets is composed of the following elements: (2 (30), (31), (60), (61 i), (62), (63) and (64); also there are other minor fasteners such as oppressors (80), Alien type thyme (88) and (80), nut (73) and thyme with nuts and washers
  • Rotor rings and contact conductors (61), can have several tracks as appropriate to the type of electromagnets installed (12).
  • Rotor rings - preferably - are encapsulated with fiberglass and epoxy resin.
  • the brush holder pliers (02) are preferably made of brass; the pole with electrical insulator ⁇ 63) holds the brass brush holder clip ( ⁇ 2), which also holds the carbon brush ( ⁇ 4).
  • the brush holder pliers (62) are attached to the post ⁇ 63 ⁇ and it is attached to a set of three sliding slides (31), which slides and is held on the solid (29),
  • the power sources ( 102), (103) (104), the required wiring and the necessary electrical control systems are resolved according to the current state of the art and remain open to the knowledge, experience and convenience of the manufacturer.
  • Figure 12 Perspective view with the elements separated from the
  • Useful Force Transmission (39), the hollow central rotor arrow or monobiock arrow (4), has the function of suspending the invention within the outer structure r (40) and allowing the transmission of the useful mechanical energy of the invention (1) abroad; for this, it has the solid bearing axial bearing (32) and (33), the axial bearing (43) is inside the container (33) and both suspend the invention (1); The axial bearing (42) is inside the container (32) and both are responsible for transmitting the external force.
  • the hollow arrow (4) is attached with the monobiock (3), both are rotors and the monobiock (3) is in direct contact with the axial bearing (43); with this and with the monobiock (3) the invention (1) is suspended.
  • the transmission cover (6) is the one that makes direct contact with the axial bearing (42) to transmit the useful mechanical energy to the outside; at this point and through the bushing (51), the cover of Transmission (6) together with the axial bearing ⁇ 42 ⁇ are responsible for transmitting the external mechanical energy.
  • FIG 14 Perspective view with the separate elements that make up the Internal Suspension of the invention Transmission of Useful Fyerz (30) * The function played by the elements that appear in this figure is described in Figure No. 13.
  • Figure 15 Conventional perspective view of the elements that make up the container with pivot for cam (22), In this figure the two side covers (24) are attached and (25% are fas that hold and suspend the Interior content that includes the pivot
  • Figure 16 Perspective view with separate pieces of the elements that involve e! container with pivot for cam (22), The function played by the elements that appear in this figure is described in Figure No. 15.
  • Figure 17 Three views of the patella for fleerta des ⁇ iz b ⁇ e (11): Front view, side view! and late cut view !.
  • Figure 18 Conventional perspective view «the elements that contain the intermediate suspension of the desizable arrow (37), This suspension is made between the monob ⁇ ock (3) and e! external rotor cylinder (5); inside the monob ⁇ ock ⁇ 3 ⁇ the bushing (48) is confined with i to the round (17); In the external rotor cylinder, an interconnection element (16) is required between it, the arrow desizables (9); within the element (16 ⁇ , the hub (50), confined with the round washer (53); the arrow desizables (S) only line linear slides in both directions along its axis and require tolerance for angular displacement to make contact with the! Eva (23); this technical aspect is solved using the link (18), which is suspended with two bolts (54% between them there is, preferably, a radial bearing (56); the bolt (54) and bearing)
  • FIG 19 Conventional perspective view with the elements that have a suspension at the ends of the detachable arrow (38).
  • This suspension is made between the ball joint (11) suspended on the monob ⁇ ock (3) by means of the set of interconnecting solids (15); in the external rotor cylinder ⁇ there is no contact with the desizable arrow (S), which has displacement in both directions along its axis; with the ball joint () and bolt (55) angular tolerance is achieved to all along the desizabie arrow (i); Within it there are no internal torque or fuming efforts, only axial stresses are presented.
  • the bushing (49) is inside the kneecap (11) confined by the solid (14), also useful for resisting the force of the electromagnet (12). At the other end of the arrow (9), it joins the copy (21), by means of the precision pin (77).
  • the function of the copy (21) is to transmit the force between the arrow (9) and the cam ( 2. 3); using the bolt
  • stator to suspend the invention (40).
  • This is the structure that suspends its interior to the Invention (1) and has conventional external elements to be attached to any mobile or industrial mechanism; in it we can see the structural angle type solids in these the axial bearing container (32) is held, It is recommended that fos solid angle type be attached to the stator outer structure ⁇ 40 ⁇ with weld beads (101). We also observe the axial bearing container (33) and the plate-like solid ⁇ 41 ⁇ to support the rotational actuator ⁇ 46). It is advisable to build an external stator structure with aesthetic features so that it looks good,
  • the mechanisms and innovation products that require specialized design and manufacturing are listed; as well as the conventional ones that already exist in the current state of the art and we find them in the market; mentioning their origin and the characteristics they must fulfill, as well as the role they play and the way of interconnecting them with each other; in such a way that with specialized labor of electromechanical technicians, mechanics and lathe technicians who are trained to handle profiling machines, lathes, parallel lathes of Precision, hydraulic brushes, elbow brushes, flat surface grinders, milling machines, vertical and horizontal band saw cutters, digital measuring equipment, dynamic balancing equipment, welding machines, oxy-torch torches, cranes, forklifts, precision tool, rnicrometers, manual tool, and having at hand executive plans of the different mechanisms and the elements to be supplied and manufactured, the invented devices can be constructed.
  • the mechanisms that make up the Motor é en gravttaclos are: the flywheel of inertia receiver (2), flywheel with useful masses (S), electromagnet or solenoid for the removable arrow (12 ⁇ s cam (23), impact solids (26) and (27), frequency governor (i0), intermediate suspension of the sliding arrow (37) or suspension and the ends of the sliding arrow (38), outer stator structure (40), pivot container for cam (22) and internal suspension of the invention and transmission of useful force (39); the rotational actuator (46), in charge of applying the torque force to rotate the "Gravitational Force Motor" (1), must also be included,
  • the function that this device plays, is to generate a useful external force to apply it in mobiles or industry.
  • the flywheel of inertia because sludge is suspended inside it, the elements that form the flywheel with inertia ⁇ 8); It behaves like the outer casing of an engine because the elements that make it up create a wrap-around box, which in addition to containing inside the steering wheel ⁇ $ ⁇ , has the characteristic of being a rotor box that is formed by the monob ⁇ ock (3) which holds the hollow shaft central rotor (4) in its center and the outer rotor cylinder (5) is fixed on its perimeter; it includes the stiffening membrane ⁇ 7) that joins the hollow shaft central rotor (4) with the monob ⁇ ock (3) and the external rotor cylinder (5); this union gives a monolithic body to the invention; the transmission cover ⁇ 6 ⁇ is an independent element that is suspended on the external rotor cylinder (5) and in its center is connected by a bushing (51) to the hollow arrow0 (4), the transmission cover (6) is the one that
  • the functions it performs consist of receiving and transmitting the torque force provided by the rotary actuator (46) to rotate the flywheels (2) and (8).
  • the hollow central rotor shaft (4) is the central rotor axis of ! flywheel receiver (2), the monobiock ⁇ 3 ⁇ is held there and the transmission cover slides
  • the external rotor cylinder (5) on one side of its perimeter is attached to the monobiock (3) and on the other, it supports the transmission cover ( ⁇ sn and hold it; on its outside the container with pivot for the cam ( 22) and on the inner side the sliding arrow (9) is suspended by means of the interconnecting solid (16) At the point of intersection between the arrow desüzabie (9) and the external rotor cylinder (5), the latter has holes by which can pass the arrow (9),
  • the sliding arrows ⁇ ) are suspended between the external rotor cylinder (5) and the monoblock (3), using the interconnecting solid (16) to join the external rotor cylinder ⁇ the set of solids (15) when the kneecap (11) is used, There may be two or more ways to suspend the sliding arrows; one of them is the intermediate suspension of the sliding arrow (37) another is the suspension at the ends of the sliding arrow (38); in any suspension that is always used the sliding arrow (9) will have at one of its ends the electromagnet (12),
  • the intermediate suspension of the sliding arrow (37) requires a link (18) with two bolts (54) to join the arrow (9) with the cam ⁇ 23 ⁇ , mediating between them the bearing ⁇ 56 ⁇ , this one and the bolt ( ⁇ 4) with the covers
  • the function it performs is to provide useful mass on the detachable arrow (8). It is recommended to leave a stop on the outside of the detachable arrow to stop the useful mass that is fastened with a conventional oppressor (78). The stop is achieved by changing the diameter of the arrow ⁇ . It is recommended to place the useful mass (10) between the monobfock (3) and the external rotor cylinder (5).
  • the function that it performs is to allow tolerance of angular displacement at all or along the detachable Fact ( ⁇ ) with the Hollow Center Rotor Fact (4); the shape and resistance of the patella give it space and mechanical capacity so that the electromagnet (12) can be held in it; the kneecap (11) has the characteristic of viting undesirable internal efforts to the detachable arrow (0); with this joint only axial forces are presented on the arrow (9).
  • the suspension of the patella ⁇ 11 ⁇ is on the monoblock (3) using for this purpose the interconnection element set ⁇ 15); Between the arrow (9) and inside the kneecap it is recommended to place the bushing ⁇ 49 ⁇ . confined within the kneecap (11) and the solid (14),
  • Electromagnet s solertoicfe of the detachable arrow Its function is to apply the retractable force on the rod that has the Sliding Fact (9), to retract it along with all the useful mass it controls.
  • the electromagnet (12) assumes the centripetal force that stops the detachable arrow (9) as close to the center rotor arrow! ( ⁇ f af reaching this location releases it; the mechanical action of retracting and releasing it successively obeys the internal work cycle that characterizes the invention (1).
  • the length of time that the supply of electrical current remains inside the electromagnet (12 ) is controlled by the frequency governor (6 ⁇ ) 5 which is responsible for closing and opening the electrical circuit that supplies the electric power to the electromagnet ⁇ 12).
  • the functions he performs are basically two; one of them consists in transmitting the force actuated by the sliding arrow (9) on the cam (23); the other is to provide angular tolerance ert the force transmission line between the axis of the arrow (9) and the point of union with the cam (23); this element is a conventional link that has to be built to special measure, it is suggested to go with two side covers (19) with a center that separates them and install two bolts (54) within two radial bearings (57), To tighten the two side covers (19) it is recommended to use Alien tip screws (90),
  • the cam (23) due to its shape and mainly because it is inside the container and suspended on the pivot ⁇ 59 ⁇ , receives the force pulse parallel to the plane of rotation of the flywheel with useful mass (8), traced by the axes of the deizable arrows (9) when they rotate, and unload it in orthogonal direction to how it receives it, that is, in a direction parallel to the hollow central rotor arrow
  • the shape of the cam depends on the function it performs and includes: the point where it is suspended from the pivot (58), the point of attachment with the arrow (9) and the point where the impact solid (2B) is held; these fres points preferably form "a square with a right angle or approximately 90 ° at the vertex next to the pivot ⁇ 59 ⁇ ; the rest of the cam shape is to conveniently distribute its mass content.
  • the cam can develop its function because the pivot (59) is It acts as an anchor attached to a foundation and this is formed by the flywheel of inertia (2) of which the pivot container for the cam (22) is part.
  • the mechanical function it performs is to transmit to the solid (27), the mechanical energy provided by the cam (23).
  • the impact solid (20) is attached to the cam 20 (23) and makes direct contact with the solid (27).
  • the role it plays is to transmit the impacts in a direction parallel to the hollow central rotor (4); the impacts are contributed by e! solid (26), the solid (27) receives them in the aforementioned direction and, being held 25 in the transmission cover (this transmits the impact to the axial bearing
  • This component contains the solid (27) inside and its function is to keep it connected - in direct contact and with the force convenient - to the transmission cover (S) «It is attached to the transmission cover (6) with Alien type screws (86)
  • This element is subject to the set of three fixed solids (30); Its function is to receive and suspend the governor of frequencies (60) and the Set of three detachable solid brush holders (31).
  • This element is suspended and can slide on the solid (29).
  • the function it performs is to hold the pole with electrical insulator (63), which holds the brush holder pliers (62).
  • the container (32) is held by means of thyme and nut (67) with the structural element type angle (65) and this one - preferably - is welded with the welding cords (101) to the stator outer structure (40),
  • the container (33) is suspended on the neoprene (34) and, both the container (33) and the neoprene (34) are confined and contained between the solids (35) and (36), both subject to external stator structure (40), (34) eopmn ⁇
  • the first is to suspend the container ⁇ 33) based on the solid (3 ⁇ s
  • the second is to dampen, dissipate and delay the internal force impulses that occur between the stator outer structure (40) and the monoblock (3 );
  • the third function is performed Together with the solid ⁇ 35 ⁇ and the nuts with thyme (? 2) 5 with these two elements the appropriate pressure can be exerted so that the transmission cover f ⁇ ) is correctly confined between the external rotor cylinder (S), the axial bearing
  • solids (35) and (38) work together as neoprene containers (34) and the element (33) containing the axial bearing (43).
  • the hollow central rotor arrow (4) is the element that directly suspends the invention within the stator outer structure ⁇ 40) and allows the transmission of
  • the axial bearing (43) is inside the container (33) and both suspend the invention (1);
  • the axial bearing (42) is inside the container (32) and both are responsible for transmitting the external force.
  • the hollow arrow (4) is attached with the monoblock (3); Both are rotors.
  • the monoblock (3) is in direct contact with the axial bearing (43) and with both this the invention (1) is suspended.
  • the transmission cover () At the most removed end of the rotary actuator (46) is the transmission cover (), in direct contact with the axial bearing ⁇ 42 ⁇ to transmit the useful mechanical energy to the outside; at this point and by means of the bushing ( ⁇ 1) the transmission cover (6) is slid with the hollow shaft central rotor (4); The transmission cover (6) Together with the axial bearing (42) are responsible for transmitting external mechanical energy.
  • This element is held in the outer stator structure
  • the transition pin is preferably held within the hollow arrow (4) and has the shape and mechanical resistance to receive the copy (45); which could be gears with external or similar elements that perform the same function.
  • the copy (4 ⁇ ) receives and transmits the torque force applied by the rotary actuator (46), transmits it to the transition pin (44) and the latter to the hollow central rotor shaft (4). (45), - Copy for transmission of force of force
  • the rotational actuator is preferably held on a plate-like solid (41).
  • the removable arrow uses at its end a copy (21) that has two screeds with holes to suspend the bolt (55).
  • Needle radial bearing No two Its function is to allow angular displacement between the two bolts (S4) that has the link (18), avoiding friction and wear between them; one is on the deizable arrow (9) and the other on cam (23);
  • the radial bearing (56) and the bolt (54) can be contained by means of the two covers (19) that make up the link (18). (58).
  • pivots (59) are firmly connected to each other. These are part of the container for the cam ⁇ 22 ⁇ that is attached to the external rotor cylinder (5) and both are part of the receiver flywheel (2).
  • the set of elements that make up this steering wheel (2) constitute the internal firmament of the invention (1).
  • the pivot ⁇ 59) -preferably- is inside a radial bearing ⁇ 58), useful to avoid friction in the angular displacements that the cam (23) suspends from the pivot (59).
  • the frequency governor proposed here (60) is a programmable product and is part of the current technique.
  • Other elements that complement the operation of the frequency governor (60) are the pole with electrical insulator ($ 3), since on it the brush holder pliers (62) are placed, which hold the carbon brushes (64), useful as shoes takes power from! electrical conductor cable
  • the suspension solids (29) and (30) are required,
  • This element is attached to the outer stator structure (40) by welding beads (101) and its function is to hold the bearing container (3 ⁇ 4 by means of bolts with nuts (67),
  • This element has the function of attaching the plate-like solid (41) to the stator outer structure ⁇ 0 ⁇ , using bolts with nut (68) »It is recommended to use welding cords (101) to join the angle ⁇ 66) to the structure outer stator,
  • Its smelter consists of holding the washer (53) that contains the bushing (Su) inside the interconnecting solid ⁇ 18).
  • This element is inside the copy (45), cradle with the solid arrow (47),
  • Its function is to hold the container of the electromagnet (13) and the solid (14) that is used for the electromagnet (12) to support its retractable force on the kneecap (11) and pull the sliding arrow (9) ⁇ (108), ⁇ Screw with nut and washer UQ, seven Its function is to hold the set of three fixed solids (30) on the support plate (41), which holds the rotary actuator (46).

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Abstract

Selon la présente invention, un moteur à force gravitationnelle comprend un axe ou une flèche creuse (4) déplacée par un actionneur rotatif (46) autour de laquelle est fixé un élément monobloc (3) auquel sont accouplés sur sa périphérie un cylindre de rotor externe (5) et un volant d'inertie récepteur (2) dans lequel se déplacent sur des pivots (59) des masses (23) sous l'action d'une flèche coulissante (9) disposée radialement et manipulée par un électroaimant (12), de manière que lesdites masses, par le biais d'éléments d'impact (26) placés sur celles-ci, frappent des éléments d'impact (27) placés sur un couvercle de transmission (6) qui recouvre l'élément monobloc (3) et le volant d'inertie récepteur, ledit couvercle étant fixé au moyen du cylindre de rotor externe (5) et étant relié au moyen d'un moyeu (51) à la flèche creuse (4) centrale.
PCT/MX2015/000085 2015-06-03 2015-06-03 Moteur à force gravitationnelle Ceased WO2016195467A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/MX2015/000085 WO2016195467A1 (fr) 2015-06-03 2015-06-03 Moteur à force gravitationnelle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/MX2015/000085 WO2016195467A1 (fr) 2015-06-03 2015-06-03 Moteur à force gravitationnelle

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WO2016195467A1 true WO2016195467A1 (fr) 2016-12-08

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2024196239A1 (fr) * 2023-03-17 2024-09-26 Castro Gonzalez Jose Guillermo Mécanisme pour maîtriser la vitesse angulaire des arbres rotatifs d'un corps mobile

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6109123A (en) * 1998-09-15 2000-08-29 Baskis; Paul T. Rotational inertial motor
US20040041401A1 (en) * 2000-09-26 2004-03-04 Konstantin Trenchev Installation for the generation of electricity
US20060248970A1 (en) * 2005-05-06 2006-11-09 Richard Kunnas Machine and method for converting a linear input to a rotational output
US20070120430A1 (en) * 2005-11-30 2007-05-31 Jiro KATO Flywheel electric generator
US20110248580A1 (en) * 2009-07-14 2011-10-13 Powers Christopher F X Systems, apparatuses and methods for the transmission and recovery of energy and power
WO2015076653A1 (fr) * 2013-11-22 2015-05-28 Castro González José Guillermo Générateur de force gravitationnelle dirigée in-situ amélioré

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6109123A (en) * 1998-09-15 2000-08-29 Baskis; Paul T. Rotational inertial motor
US20040041401A1 (en) * 2000-09-26 2004-03-04 Konstantin Trenchev Installation for the generation of electricity
US20060248970A1 (en) * 2005-05-06 2006-11-09 Richard Kunnas Machine and method for converting a linear input to a rotational output
US20070120430A1 (en) * 2005-11-30 2007-05-31 Jiro KATO Flywheel electric generator
US20110248580A1 (en) * 2009-07-14 2011-10-13 Powers Christopher F X Systems, apparatuses and methods for the transmission and recovery of energy and power
WO2015076653A1 (fr) * 2013-11-22 2015-05-28 Castro González José Guillermo Générateur de force gravitationnelle dirigée in-situ amélioré

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2024196239A1 (fr) * 2023-03-17 2024-09-26 Castro Gonzalez Jose Guillermo Mécanisme pour maîtriser la vitesse angulaire des arbres rotatifs d'un corps mobile

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