RO129913A2 - Motor with magnets using dissymetric magnetic repulsion - Google Patents

Abstract

The invention relates to a motor with magnets using the dissymmetric magnetic repulsion between rotor and stator magnets. According to the invention, the motor comprises some bar-type stator magnets () with round or square cross-section, polarized at their ends, equidistantly arranged at an angle of 10...45° in relation to the radial direction, on a non-magnetic stator support () fixed within a ferromagnetic sheet metal housing () and shielded on one face () with a shield () and a star-shaped rotor () made of two intersected triangles, the triangular shape of the rotor () having three parallelepipedal recesses () in which some parallelepipedal rotor magnets () are arranged, polarized on their faces, of parallelogram-type cross-section with an acute angle of 60°, repulsively arranged in relation to the stator magnets () and with the outer end shielded with a magnetic shield () consisting of diamagnetic shield () and a lamellar ferromagnetic shield () fixed with some screws () to the rotor (); the stator can have two rows of n stator magnets (), the rows being shifted by an angle of 360°/2n.

Description

Magnetic motor using magnetic repulsion

The invention relates to a magnetic motor using asymmetric magnetic repulsion between rotor and stator magnets.

Known linear or rotary magnetic motors that use exclusively the potential energy of magnetic interaction for mechanical work generation by moving a magnet assembly or a magnetic rotor, respectively, as shown in patent documents: US4151431, WO9414237 and, and c. a.

Various variants of such magnetic motors are also presented in the electronic book: "Practice guide to free energy devices" by Patrick Kelly, p.3.27, (http://www.free-enerqyinfo.co.uk/index.html).

A type known to be functional at powers and over 1 kW of magnet engine is the Perendev engine (W02006 / 045333), which uses three modules with stator and magnetic rotor, each module having a number of static rod-type magnets, polarized on the ends. , arranged circularly in a non-magnetic support, with an inclination of up to 30 ° to the radial direction, shielded on the lateral surface with pyrolytic, diamagnetic graphite and inserted in the ferrite-stainless steel pipe, for "tightening" the field lines, the rotor having a corresponding number of rotor magnets arranged similarly in a non-magnetic rotor support, angled to the radial direction and similarly shielded, the stator magnets of the three modules being arranged planarly parallel and the rotor magnets of the three modules being arranged offset at a predetermined angle. This configuration is necessary because at the entrance of rotor magnets of a module in the repulsive interaction zone with the corresponding stator magnets, a braking, anti-rotation, magnetic interaction force appears, which is exceeded by the accelerating repulsive interaction force between the magnets. rotorics and statorics of the other two modules, with rotor magnets offset from the first.

From a quantum point of view, the international explanation given for the operation of such devices refers to the possibility of recovering the magnetic field quantum energy of the magnetic moments of the atomic charges, lost by performing mechanical work in the magnetic interactions, through the negentropy of the quantum environment and sub-quantum, without which the electrical charges could not maintain the constant value of the electric charge and the magnetic moment, which is why these devices are called: "free energy device", the surplus of energy generated by such devices and some with electrical excitation , as in patent US6362718, being explained in the aforementioned way, by Sachs theory of electrodynamics, (PKAtanasovski, TEBearden, C.Ciubotariu et al. - "Explanation of the motionless electromagnetic generator with electrodynamics", Foundation of Physics Letters, Vol. 14, No1, (2001)

The technical problem solved by the invention consists in the exclusive use of magnetic interaction energy for generating a rotational force of a rotor with magnets, using quality magnets (with high remaining induction), such as those of sintered magnetic powders, (NdFeB, etc.), by magnetic rejection made asymmetrically by shielding with pyrolytic graphite and ferromagnetic screen, as with the Perendev engine, but with reducing the total number of rotor and stator magnets, compared to this and with economical pyrolytic graphite-material which is still expensive.

The magnet motor according to the invention solves this technical problem by the fact that it is composed of a stator formed by a non-magnetic stator support fixed to a ferromagnetic housing of the plate, the stator support having some round or square section-type static magnets polarized on heads, arranged equidistantly at an angle of 10-45 ° from the radial direction and screen at least on the face corresponding to the sharp angle with a magnetic screen composed in a preferred embodiment, from a pyrolytic graphite-type diamagnetic screen about 1/3 of a thickness stator magnet and a ferromagnetic screen

C '· 2 Ο 1 3 - Ο Ο 2 9 2 -'

Ο -04- 2Β13 lamellar, 1-3 mm thick, for the "tightening" of the residual magnetic field lines, the stator support having at the bottom a bearing in which is fixed a shaft of a rotor consisting of a non-magnetic rotor support. The rotor support is star-shaped from two intersecting triangles, the triangular shape of the rotor support having three parallelepiped seats with a parallelogram section with a sharp angle of 60 ° having one corner coinciding with a corner of the triangular rotor support, in these places the length parallel to the side of the rotor support some polarized parallelepiped rotor magnets on faces, of parallelogram type section with a sharp angle of 60 °, with a thickness of 8-25 mm, disposed repulsively with the stator magnets and with the corresponding end of the rotor support with the eccentric tip magnetic formed by a pyrolytic graphite type diamagnetic screen of about 1/3 of the thickness of the rotor magnet and a lamellar ferromagnetic screen of 1-3 mm thickness - depending on the thickness of the rotor magnet, with a corresponding edge to the tip of the triangular rotor support and with the extended opposite edge for screw fixing by the rotor support, thus with the roller and the rotor magnet fastening.

In another embodiment, the rotor magnets have the extended interaction surface by extending the height parallel to the axis of rotation and the stator has two rows of n stator magnets on each row, offset at an angle equal to 36072η.

- In another embodiment, the stator is made as in the first variant and the rotor is made by the equidistant arrangement towards the peripheral circumference of the rotor, of rotary parallelepiped rotary magnets polarized on faces, of a parallelogram type section with a sharp angle of 60 °, with 8-25 mm thick, repulsively arranged against stator magnets and screened with a magnetic screen consisting of a pyrolytic graphite type diamagnetic screen about 1/3 of the thickness of the rotor magnet and a lamellar ferromagnetic screen of 1-3 mm thick, with an angle of inclination of 30 ° with respect to the radial direction of the face of repulsive magnetic interaction with the stator magnets and with the arrangement in the space between two rotor magnets of a rotor magnet of bar type, arranged inclined at an angle of 10 ° -45 ° with respect to the direction radial and screen asymmetrically on the approach face of stator magnets, like them, with a diamagnetic graphite type screen p of a thickness of about 1/3 of the thickness of the rotor magnet and a lamellar ferromagnetic screen of 1-3 mm thickness, function of the thickness of the rotor magnet.

- The invention has the advantage that it allows to reduce the total number of rotor and stator magnets and economics of pyrolytic graphite type diamagnetic material, compared to the Perendev type variant of magnetic motor.

The invention is further illustrated in connection with Figures 1-6 which represent:

FIG. 1, top view of the magnetic motor with triangular rotor;

-fig.2, view in section A-A of the magnetic motor with triangular rotor; -fig.3, top view of the magnetic motor with six-cornered star rotor;

-fig.4, a, b, c- view of the end of a stator magnet shielded on the side surface (a) or totally (b), (c);

-fig.5, top view of the magnetic motor with circular rotor with rotor magnets of two types;

-fig.6, view in section B-B of the magnetic motor with circular rotor with rotor magnets of two types;

The magnetic motor with asymmetrical magnetic repulsion, according to the invention, in a first embodiment consists of a stator formed by a non-magnetic stator support 2 fixed to a thin plate ferromagnetic housing 1, for shielding from the outside, the stator support 2 having a central cut-out. circular for rotor and seats I for stator magnets 3 bar type with round or square section, polarized NS on ends, arranged equidistantly at an angle of 10.45 ° to the radial direction and shield at least on the face

01 3 - Ο Ο 2 9 2 -1 θ -04- 20Î3 f corresponding to the sharp angle with a magnetic screen 4 composed in a preferred embodiment, from a diamagnetic screen of pyrolytic graphite type of thickness about 1/3 of the thickness of the stator magnet 3 and a ferromagnetic b lamellar screen, 1-3 mm thick, for "tightening" the residual magnetic field lines, insufficiently attenuated. The distance between the stator magnets 3 may correspond to approximately the width of a shielded or unshielded stator magnet 3, but it is preferable to be smaller. The stator support 2 has in the central lower part a seat Γ for a bearing 11 in which a shaft 5 of a rotor consisting of a non-magnetic rotor support 6 in the form of a triangle or a star of two intersected triangles, the triangular shape of the rotor support 6 is fixed. having three seats I ”parallelepiped with a parallelogram section with a sharp angle of 60 ° having one of the corners coinciding with a corner of the triangular rotor support, in these places I” being arranged parallel to the side of the rotor support 6 rotor rotary magnets 7 polarized NS on faces, of parallelogram type section with a sharp angle of 60 °, with a thickness of 8-25 mm, a width of 25-50 mm and a length of 30-50mm - a function of the size of the stator magnets 3. The end corresponding to the tip of the rotor support 6 of these rotor magnets 7 is screened with a magnetic screen 8 consisting of a diamagnetic c-type pyrolytic graphite screen about 1/3 of the thickness of the rotor magnet 7 and a lamellar ferromagnetic screen of 1-3 mm thick - function of the thickness of the rotor magnet 7, with an edge corresponding to the tip of the rotor support 6 triangular and with the opposite extended edge for fastening with screws and the rotor support 6, thus with a bearing and fixing of the rotor magnet 7. The positioning of the rotor magnets 7 with respect to the stator magnets 3 is repulsive, with the polarization antiparallel and the number of stator magnets 3 is chosen par.

In this way, when a rotor magnet (in Fig. 1-top) is in the inlet position with the unshielded part in the repulsive field of a stator magnet, the other two rotor magnets are under the action of an accelerating magnetic force, which is oriented. in the sense of rotation, exerted by two stator magnets 3 on each of the two rotor magnets, the consequence being that the accelerating force exceeds the braking force, thus ensuring rotor rotation.

-In the example of embodiment according to figure 3, the stator is made as in the first variant and the rotor is shaped like a star with six corners, ("David's Star"), on the non-magnetic or ferromagnetic rotor support 6 being arranged symmetrically but in the same way as at first variant, six rotor magnets 7. The number of stator magnets 3 can vary between 8 and 20, preferably.

- In another embodiment, the six-cornered star-shaped rotor has the six rotor magnets 7 with the interaction surface extended by extending the height parallel to the axis of rotation and the stator has two rows of n stator magnets 3 on each row, offset with an angle equal to 36072η, being equivalent to two motors in the simple version, coupled with 3-staggered stator magnets.

The shielding variants of the stator magnets 3 are shown in fig. 4. -Another variant, in combination with the known variant, with shielded rotor-type magnets, of the magnetic motor, according to figure 5, is obtained by making and disposing of the static magnets 3 as in the first and second versions but with the rotor made by removing rotor magnets 7 shielded from the second variant to the peripheral circumference of the rotor support 6 ', in radial direction, maintaining the inclination angle of 30 ° to this of the repulsive magnetic interaction face with the stator magnets 3 and the arrangement in the space between two rotor magnets 7 of a bar rotor magnet 9, arranged inclined at an angle of 10 ° -45 ° to the radial direction and screen asymmetrically on the approach face of stator magnets 3, like them, (fig.4), with a diamagnetic c-type pyrolytic graphite screen about 1/3 of the thickness of the rotor magnet 9 and

CV 2 O 1 3 - O O 2 9 2 - θ -04- 2913 a lamellar ferromagnetic screen of 1-3 mm thickness - depending on the thickness of the rotor magnet 7.

Preferred magnets are NdFeB, with very low demagnetization rate (0.1% / ° C). Instead of pyrolytic graphite screens, 4, 8 equivalent magnetic screens, as shown in US 2006/0083931 A1, can be used. Also, any other magnetic screen that screens the magnetic repulsion without introducing braking force through the opposite magnetic screen-magnet attraction can be used.

A preferred variant is the one with 13 static magnets 3 of circular section of approx. 20 mm diameter and 40-70 mm length polarized on the ends, arranged at an angle of 28 ° to the radial direction, with a distance of 10-20mm between the outer surfaces and with 6 rotor magnets 7 polarized on the faces, 20-30 mm thick, 30mm wide and 40-50mm long and 6 rotary magnets 9 bar type polarized on ends of 20mm diameter and 40mm long, arranged between them at an angle of 28 °. Instead of rotor magnets 9 bar type rotor magnets 7 can be used, properly shielded, the ferromagnetic screen b, respectively-d having about 2mm thickness.

- The movable fixing of the upper end of the shaft 5 is made in a non-magnetic bearing bearing in the rotor area, not shown.

For the generation of electric current, this end of the axis 5 is coupled with an electric generator and for stopping the rotation on this end of the axis 5 a ferromagnetic disk can be arranged through which the magnetic braking of the rotor with a pair of semi-cylindrical magnets is performed. .

Claims (3)

1. Magnet engine using the asymmetric magnetic repulsion between rotor and stator magnets, composed of a stator formed by a non-magnetic stator support (2) fixed to a ferromagnetic sheet housing (1), the stator support (2) having some magnets. stator (3) bar type with round or square section, polarized on the ends, arranged equidistant at an angle of 10..45 ° from the radial direction and shield at least on the face (f) corresponding to the sharp angle with a magnetic screen (4) In a preferred embodiment, from a diamagnetic screen (a) type pyrolytic graphite of thickness about 1/3 of the thickness of the stator magnet (3) and a ferromagnetic screen (b) lamellar, of 1-3 mm thick, for the "tightening" of the lines magnetic field residual, the stator support (2) having at the bottom a bearing (11) in which is fixed an axis (5) of a rotor constituted by a non-magnetic rotor support (6), characterized in that the support ro toric (6) is star-shaped from two intersecting triangles, the triangular shape of the rotor support (6) having three parallelepiped seats (I ”) with a parallelogram section with a 60 ° sharp angle having one of the corners coinciding with a corner of the support triangular rotor, in these seats (I ”) being arranged parallel to the side of the rotor support (6) rotor magnets (7) parallelepiped polarized on faces, of parallelogram type section with a sharp angle of 60 °, with a thickness of 8-25 mm, repulsive with respect to the stator magnets (3) and with the end corresponding to the tip of the rotor support (6) shielded with a magnetic screen (8) formed by a diamagnetic screen (c) pyrolytic graphite type of thickness about 1/3 of the thickness of the rotor magnet (7) and a ferromagnetic screen (d) lamellar of 1-3 mm thickness - depending on the thickness of the rotor magnet (7), with a margin corresponding to the tip of the rotor support (6) triangular and with a margin extended opposite ring for fixing with screws (s) to the rotor support (6). 2. Magnet engine, according to claim 1, characterized in that the rotor magnets (7) have the extended interaction surface by extending the height parallel to the axis of rotation and the stator has two rows of n stator magnets (3) on each row, offset by an angle equal to 360 ° / 2n, 3. Magnet engine using the asymmetric magnetic repulsion between rotor and stator magnets, composed of a stator formed by a non-magnetic stator support (2) fixed to a ferromagnetic sheet housing (1), the stator support (2) having some magnets. stator (3) bar type with round or square section, polarized on the ends, arranged equidistant at an angle of 10..45 ° from the radial direction and shield at least on the face (f) corresponding to the sharp angle with a magnetic screen (4) In a preferred embodiment, from a diamagnetic screen (a) type pyrolytic graphite of thickness about 1/3 of the thickness of the stator magnet (3) and a ferromagnetic screen (b) lamellar, of 1-3 mm thick, for the "tightening" of the lines of residual magnetic field, the stator support (2) having at the bottom a bearing (11) in which is fixed an axis (5) of a rotor consisting of a non-magnetic rotor support (6), characterized in that the rotor is it is realized by the equidistant arrangement towards the peripheral circumference of the rotor, of rotor magnets (7) polarized parallelepiped on faces, of parallelogram type section with a sharp angle of 60 °, with a thickness of 8-25 mm, disposed repulsively with the stator magnets (3 ) and screen with a magnetic screen (8) consisting of a diamagnetic screen (c) pyrolytic graphite type about 1/3 of the thickness of the rotor magnet (7) and a ferromagnetic screen (d) lamellar of 1-3 mm thick, with an angle of inclination of 30 ° with respect to the radial direction of the repulsive magnetic interaction face with the stator magnets (3) and with the arrangement in the space between two rotor magnets (7) of a rotor magnet (9) bar type, inclined at an angle 10 ° -45 ° from the radial direction and asymmetrical shield on the approach face of stator magnets (3) with a diamagnetic screen (c) pyrolytic graphite type of thickness about 1/3 of the thickness of the rotor magnet (9) and a thin screen romagnetic (d) lamellar 1-3 mm thick.