RU2055236C1 - Method of generation of mechanical energy and mechanical energy generator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: generation of mechanical energy is effected due to creation of magnetic field in the generator with vector potential oriented at angle of 90 to 270 deg to cosmological electromagnetic vector potential and rotation in this field of bodies mechanically linked with mechanical energy consumers in area of reduced magnitudes of potential equal to sum of indicated vector potentials. Bodies are first subjected to pre-rotation about axes perpendicular to planes in which vectors of vector potential of mechanical energy generator magnetic field and electromagnetic cosmological vector potential are located till every body reaches condition when torque of external forces relative to center of inertia of body gets equal to zero, after which pre-rotation action is removed and mechanical energy consumers are connected to revolving bodies. Mechanical energy generator has magnetic field source made in form of cylindrical axisymmetrical magnetic system with bodies arranged in it. Bodies are made in form of rotatable disk rotors whose axles are parallel to axis of symmetry of magnetic system, they are brought beyond its boundaries and connected to mechanical energy consumers and are mechanically linked with rotor pre-rotation systems. EFFECT: enhanced reliability. 6 cl, 11 dwg

Description

 The invention relates to mechanical engineering and can be used in motor (traction) systems for moving objects in space and in devices for converting mechanical energy into other types of energy.

 A known method of generating mechanical energy, comprising discarding at some speed part of the mass of the generator of this energy [1] This method is implemented in all transport systems with jet engines.

 The disadvantages of this method and the corresponding devices are the high energy consumption due to the low efficiency of thermal propulsors, and the significant non-environmental friendliness of the process and devices associated with the need to discharge into the surrounding medium the products of combustion of the working substance of a jet propulsion generator of mechanical energy. The need for a fuel supply for the propulsion system negatively affects the mass characteristics of the generator and the consumer object of mechanical energy.

 There is also known a method of generating mechanical energy, including the creation of a magnetic field in the generator and the movement in this field of bodies mechanically connected with the object-consumer of mechanical energy. A device that implements this method contains a magnetic field source, material bodies mechanically connected with the consumer object of mechanical energy and means for moving these bodies in the magnetic field of the mechanical energy generator [2] This method and device are based on the principle of electromagnetic acceleration of the environment with a dipole microstructure without its ionization and can be used to generate mechanical energy (for example, to create traction) both on Earth and in space.

 The disadvantage of this method and the corresponding device is its limited scope (a suitable medium is necessary) and the relatively high energy consumption for generating the necessary exciting electromagnetic fields.

The closest in technical essence and attainable result to the present invention is a method for the generation of mechanical energy used to move the object consumer of mechanical energy in space, comprising creating in the generator magnetic field with vector potential oriented at an angle ^of 90-270 to the cosmological electromagnetic vector potential, and the movement in this field of bodies mechanically connected with the consumer object of mechanical energy in the region of reduced potential values equal to the sums said vector potentials [3]
A device for implementing this method (mechanical energy generator) contains a magnetic field source made in the form of a toroidal current coil, material bodies placed in the inner cavity of the winding, and means for moving these bodies made in the form of mechanisms for changing the position of the bodies relative to the surface of the winding. Mechanisms for changing the positions of bodies can be made in the form of rods evenly placed along the surface of the winding, rigidly connected to the body of the consumer object of mechanical energy and equipped with drives for their extension-cleaning along the radial directions of the circumference of the torus surface of the winding.

 In this case, an asymmetric arrangement of the substance is realized in the vicinity of the space region, characterized by a reduced total potential, which leads to the emergence of a force acting on the moving bodies mechanically connected with the consumer object of mechanical energy and moving the object in the process of generating mechanical energy space.

 The disadvantage of the prototype method is the relatively small amount of force arising from its use and acting on the object, and therefore, the small amount of generated mechanical energy.

 A device that implements the method is structurally quite complicated. For the selection of generated mechanical energy from it (for connecting other consumers and / or converters of mechanical energy to other types of energy (for example, electric) to the device, complex additional devices and their control systems are required.

 The aim of the invention is to eliminate the noted drawbacks, to create a method for generating mechanical energy, ensuring a higher value of the generated energy, and to create a structurally simpler generator of mechanical energy, which provides more efficient use and conversion of this energy than in the prototype.

The objective is achieved due to the fact that for the generation of mechanical energy by creating a magnetic field generator with vector potential oriented at an angle ^of 90-270 to the cosmological electromagnetic vector potential and the moving in the field of material bodies mechanically connected to mechanical energy consumers, in lower values of the potential equal to the sum of the indicated vector potentials, material bodies are pre-untwisted around axes perpendicular to the planes in which tori vector potential and magnetic field of the object electromagnetic cosmological vector potential, to achieve each of the bodies equality mode zero moment of external forces relative to the center of mass of the body, whereupon the preliminary unwinds impact is removed and the material to rotating bodies connected consumer of mechanical energy.

 The axis of rotation of material bodies can be placed in the region of the minimum potential equal to the sum of the vector potential of the magnetic field of the mechanical energy generator and the electromagnetic cosmological vector potential.

 To carry out these operations in a mechanical energy generator containing a magnetic field source and material bodies placed in it, the magnetic field source is made in the form of a cylindrical axisymmetric magnetic system, and material bodies are made in the form of disk rotors mounted with the possibility of rotation, the axes of which are parallel to the axis of symmetry magnetic system, brought out of its limits, connected to consumers of mechanical energy and mechanically connected with systems of preliminary promotion of rotors.

 In the mechanical energy generator, the axis of the rotors can be placed in the region of the average diameter of the cylindrical magnetic system.

 The generator can be equipped with a rotor, the axis of which is placed on the axis of the magnetic system.

 The source of the magnetic field of the generator can be placed on the rotor and mechanically connected with it.

 As a result, the force arising from the creation of an uneven distribution of matter in the region of space, characterized by a reduced total potential, and acting on the rotated material bodies, after these bodies (due to their preliminary unwinding) reach the free inertial rotation mode (i.e., the zero-zero mode moment of external forces relative to the center of inertia of the body) leads to further unwinding of the bodies, as a result of which the mechanical energy generated in this case can be diverted to consumer to fines (for example, to electric generators or to rotating elements of vehicles), which is optimally ensured by the proposed design options of the device.

 In FIG. 1 is a schematic diagram of part of one of the possible designs of a mechanical energy generator with a magnetic field source made in the form of a toroidal current winding according to the proposed method; in FIG. 2, section AA in FIG. 1 indicating the relative position of the vector potential of the magnetic field of the generator, the cosmological electromagnetic vector potential, the axis of rotation of one of the rotating material bodies (rotors) and the force vector acting on the material body (rotor) and rotating it; in FIG. 3 is a schematic structural diagram of an embodiment of the proposed mechanical energy generator with a magnetic field source of a cylindrical axisymmetric magnetic system made in the form of a solenoidal current winding, inside which a rotor-rotating material body is placed; and FIG. 4 section BB in FIG. 3 indicating the relative position of the vector potential of the magnetic field of the generator, the cosmological electromagnetic vector potential, the axis of rotation of the rotor and the force acting on the rotor and rotating it; in FIG. 5 is a schematic structural diagram of an embodiment of the proposed generator with a magnetic field source of a cylindrical axisymmetric magnetic system made in the form of a solenoidal current coil or a permanent magnet with axial magnetization, on the outside of which rotor-rotating material bodies are placed; in FIG. 6, section BB in FIG. 5 indicating the relative position of the vector potential of the magnetic field of the generator, the cosmological electromagnetic vector potential, the axes of rotation of the four material body rotors and the force vectors acting on the rotors and rotating them; in FIG. 7 is a schematic structural diagram of an embodiment of the proposed generator with a magnetic field source of a cylindrical axisymmetric magnetic system made in the form of two solenoidal current windings located at some distance from each other, and with a rotor located in the gap between the parts of the magnetic system in the region of the average diameter of the magnetic system ; in FIG. 8 is a schematic structural diagram of an embodiment of the proposed generator with a magnetic field source of a cylindrical axisymmetric magnetic system made in the form of a solenoidal current winding, inside which a rotor is located, the axis of which is located on the axis of symmetry of the magnetic system; in FIG. 9 section GG in FIG. 8 indicating the relative position of the vector potential of the magnetic field of the generator, the cosmological electromagnetic vector potential, the axis of rotation of the rotor and the force vector acting on the rotor and rotating it; in FIG. 10 is a schematic structural diagram of an embodiment of the proposed generator with a magnetic field source of a cylindrical axisymmetric magnetic system made in the form of a permanent magnet with axial magnetization placed on the rotor and mechanically connected with it; in FIG. 11 section DD in FIG. 10 indicating the relative position of the vector potential of the magnetic field of the generator, the cosmological electromagnetic vector potential, the axis of rotation of the rotor and the force vector acting on the rotor and rotating it.

In FIG. 1-11 show the vector potential 1 (A) of the magnetic field of a mechanical energy generator; cosmological electromagnetic vector potential 2 (A _g ); total vector potential 3 (A _Σ ); area 4 of the space with a reduced total potential; part of the design of a mechanical energy generator with a magnetic field source made in the form of a toroidal current winding (toroid 5); winding 6 of toroid 5; material body rotor 7; the axis of rotation 8 of the rotor 7, perpendicular to the plane of the location of the vectors of the vector potential 1 (A) of the magnetic field of the generator of mechanical energy and cosmological electromagnetic vector potential 2 (A _g ); the direction of rotation 9 of the material body of the rotor 7; support bearing 10; the mechanism 11 of the preliminary promotion of the rotor 7; consumer 12 mechanical energy; controlled clutch 13 of the mechanism 11 for the preliminary promotion of the rotor 7; controlled clutch 14 of the consumer 12 mechanical energy; the total mechanical force 15 arising in the region 4 of a reduced value of the total potential 3 (A _Σ ) and rotating the material body-rotor 7; axisymmetric cylindrical magnetic system 16; solenoidal current winding 17 of the magnetic system 16; power lines 18 of a cylindrical axisymmetric magnetic system; axis 19 of symmetry of the magnetic system; axisymmetric cylindrical magnetic system 20, made in the form of a permanent magnet with axial magnetization; frame 21; supports 22 of the magnet 20; area 23 of space with constant total potential 3; bevel gears of gear 24; the outer diameter 25 of the cylindrical axisymmetric magnetic system 16; inner diameter 26 of the magnetic system; the average diameter of the 27 magnetic system; the place 28 of the placement of the axis 8 of the rotor 7; magnetic field source 29, made in the form of an annular permanent magnet with axial magnetization, placed on the rotor 7 and mechanically connected with it.

 In accordance with the proposed method, the generation of mechanical energy is as follows.

The generator creates mechanical energy (e.g., by passing a current through the toroidal current coil 6 toroid 5, FIGS. 1, 2) magnetic field the vector potential 1 (A) which is oriented at an angle ^of 90-270 to the cosmological electromagnetic vector potential 2 ( A _d ). The direction of the cosmological vector potential 2 is the same in the vicinity of the Sun and the nearest stars. As a result of this, a region 4 is created in a certain area of space with a reduced total potential 3 (A _Σ ) (shaded in Figs. 2, 4, 6, 9, and 11). In this area, a force arises that acts on material bodies 7 located inside area 4.

 This force is composed of a large number of forces distributed over the elements of the body 7 and having a different value depending on the specific location of a particular element of the body 7 in the region 4 of space.

 The result of all the forces acting on the body 7 in the region 4 of the reduced value of the total potential 3 is shown in the drawing as a vector 15.

 The magnitude of the driving force 15 acting on the material bodies 7 depends on the magnitude of the current in the winding of the magnetic field source (on the magnitude of the vector potential 1), on the location of the body 7 in region 4 of the reduced total potential 3 and on the angular velocity of rotation of the body 7 (on the speed mass displacement in area 4 of the space with a reduced total potential 3).

The maximum value of force 15 is achieved when the material bodies 7 are located on axes perpendicular to the planes in which the vectors of the vector potential 1 (A) of the magnetic field of the generator of mechanical energy and electromagnetic cosmological vector potential 2 (A _g ) are located, in particular, when placing the axes in that zone of region 4, where there is a minimum of potential 3 (A _Σ ) equal to the sum of the vector potential of the magnetic field of the mechanical energy generator and the electromagnetic cosmological vector potential 2 (A _d ).

 The action of forces 15 causes the rotation of the material bodies 7 around the axes 8 in the direction 9, as a result of which mechanical energy is generated.

 In order for this mechanical energy to be useful to use, it is first necessary to bring the rotating bodies 7 into the free inertial rotation mode, i.e. in the mode of equality to zero of the moment of external forces relative to the center of inertia of the body, for which the body 7 is pre-untwisted using mechanisms 11 connected to the shafts 8 via controlled couplings 13. Since the force 15 increases with increasing angular velocity of rotation of the body 7, then after the moment is equal to zero external forces relative to the center of inertia of the body (i.e., when the untwisting moment is equal to the moment of friction forces and other forces) there is a further increase in the angular velocity of the body 7, due to which the preliminary untwisting action The action from the mechanism 11 is removed (the controlled clutch 13 is disconnected), and consumers 12 of the generated mechanical energy (for example, electric generators) are connected to the shaft 8 using a similar clutch 14.

 Due to the continuous movement (rotation) of material bodies 7, the force acting on them increases (compared with the prototype), therefore, the effectiveness of the impact on its part of the moving object and, accordingly, the generated mechanical energy also increase.

 The mechanical energy generator operates as follows.

By energizing the current winding 17 of a cylindrical axisymmetric magnetic system 16, a magnetic field 18 is created in the generator, the vector potential 1 (A) of which near the winding coincides with the direction of the turns of winding 17. Moreover, if the vector of the cosmological electromagnetic vector potential 2 (A _g ) lies in the plane of transverse symmetry of the cylindrical current winding 17, as shown in FIG. 4, 6, 9 and 11, then in the part of the internal and external with respect to the winding 17 of the space, a region 4 is created with a reduced total potential 3 (A _Σ ) and a region 23 of the space where the total potential has not changed.

 To generate mechanical energy, material bodies made in the form of disk rotors 7 installed with the possibility of rotation, whose axes 8 are parallel to the symmetry axis 19 of the magnetic system 16, are moved outside of it and connected via controlled couplings 14 to consumers 12 of mechanical energy (electric generators), previously untwist in the direction of 9 using the mechanisms 11 of the preliminary promotion of the rotors 7, mechanically connected with the axles 8 of the clutch 13.

 When the angular velocity of the rotors 7 increases to a value that provides an increase in force 15 to a value sufficient for each body to reach zero external forces relative to the center of inertia of the body, the couplings 13 are turned off, the untwisting effect is removed, and using couplings 14 they are connected to the rotors 7 consumers of 12 mechanical energy.

The rotors 7 can be located both in the internal cavity of the source of the magnetic field (Fig. 3, 4, 8 and 9), and outside it (Fig. 5 and 6). In the latter case, it is advisable to perform the magnetic field source in the form of a permanent magnet 20 with axial magnetization mounted on bearings 22 on one of the frames 21, in which shafts 8 of rotors 7 are rotatably mounted with bearings 10. Only those of rotors 7, which are wholly or partially located in region 4 of the reduced total potential 3 (in Fig. 6 these are rotors 7 ', 7 "and 7"'). Rotors located in region 23 with a constant total potential (rotor 7 "" on Fig. 6) no such effect Pipeline, the rotational force 15 here is equal to zero, the mechanical energy are not generated. However, when turning the generator in space (e.g., due to rotation of the earth), due to change the orientation of the magnetic system 20 with respect to the cosmological electromagnetic vector potential 2 (A _r), these rotors also may come into work.

 The axis 8 of the rotors 7 can also be placed in the region of the middle 27 (Fig. 7) relative to the outer 25 and inner 26 diameters of the diameter of the cylindrical magnetic system 16, i.e. in zone 28, in the gap between the two parts of the magnetic system 16. The total rotational force is created due to the difference in the nature of the change in the vector potential 1 (A) of the magnetic system 16 in directions from the average diameter 27 (from zone 28) to the axis of magnetic symmetry 19 system 16 and into the outer space. The preliminary unwinding of the mechanisms 11 and the selection of mechanical energy in this case can be carried out using bevel gears 24.

 Further simplification of the design of the generator can be achieved by placing the rotor 7 on the axis of symmetry 19 of the magnetic system 16 (Fig. 8 and 9). In this case, there is an effect of force 15 only on that part (half) of the rotor 7, which is currently in the region 4 of the space with a reduced total potential 3. The second part of the rotor located in the region 23 of the space with a constant total potential does not experience such an effect as a result of which a mechanical moment is created that rotates the rotor 7, and mechanical energy is generated.

 The simplest design of the mechanical energy generator is the option when the magnetic field source is an annular permanent magnet 29 with axial magnetization located directly on the rotor 7 and mechanically connected with it (Fig. 10 and 11). Since the directions of the vector potential 1 (A) of the magnetic field of the magnet 29 (perpendicular to the radii of the magnet 29) coincide with the corresponding directions of the vector potential 1 of the magnetic system 16 (along the tangent to the turns of the current winding 17), the whole physics of the process is preserved and all conditions necessary for mechanical energy generation.

 All the considered design options for the mechanical energy generator provide a simpler than in the prototype, the transfer of energy from the generator to consumers, which simplifies the power plant that uses this generator and reduces losses, i.e. increases the efficiency of devices.

 Conducted preliminary studies have confirmed the feasibility of the physical principles embodied in the invention.

Claims (6)

1. A method for generating mechanical energy, including creating a magnetic field in a generator with a vector potential oriented at an angle of 90 - 270 ^o to the cosmological electromagnetic vector potential, and moving material bodies mechanically connected with consumers of mechanical energy in this field in the region of low potential values equal to the sum of these vector potentials, characterized in that the material bodies are pre-untwisted around the axes perpendicular to the planes in which the eyelids are located tori of the vector potential of the magnetic field of the generator of mechanical energy and the electromagnetic cosmological vector potential, until each of the bodies reaches the regime of equal to zero moment of external forces relative to the center of inertia of the body, after which the preliminary untwisting action is removed and consumers of mechanical energy are connected to the rotating material bodies.  2. The method according to claim 1, characterized in that the material bodies rotate around axes located in the region of the minimum potential equal to the sum of the vector potential of the magnetic field of the mechanical energy generator and electromagnetic cosmological vector potential.  3. A mechanical energy generator containing a magnetic field source and material bodies placed in it, characterized in that the magnetic field source is made in the form of a cylindrical axisymmetric magnetic system, and the material bodies are made in the form of rotary disc rotors mounted with the possibility of rotation, whose axes are parallel to the axis symmetries of the magnetic system are brought out of its limits, connected to consumers of mechanical energy and mechanically connected with systems of preliminary spinning of rotors.  4. The generator according to claim 3, characterized in that the rotor axis is located in the region of the average diameter of the cylindrical magnetic system.  5. The generator according to claim 3, characterized in that it is equipped with a rotor, the axis of which is placed on the axis of symmetry of the magnetic system.  6. The generator according to claims 3 to 5, characterized in that the magnetic field source is located on the rotor and is mechanically connected with it.

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