IT201900003542U1 - Electric motor Alternator without stator - implementation Electric motor - wind power - hydroelectric - - Google Patents

Description

Description of industrial invention having as title

Electric motor Alternator without stator

- implementation of electric motor - wind power - hydroelectric power -

State of the art

At the state of the art there is no alternator or electric motor without a stator which, thanks to its mechanical configuration, creates and characterizes a counter-rotating movement between magnets and coils or other materials useful for being installed on the rotors of the invention with the aim of producing electrical energy in a greater quantity than a conventional alternator or electric motor which, as usual, is characterized by the presence of a stator and a rotor located in the body of its structure. The aforementioned positive effect in relation to the increase in the energy productivity of the present invention will be achieved by means of the exponential and automatic increase of the RPM calculated with reference to the counter-rotating movement respectively to both separate counter-rotating parts which, despite being pushed into rotation by an equivalent force, in fact, will double the N / S polar passages of the magnets, or other material possibly discovered by means of research, in the vicinity of coils or other electro-conducting materials, thus generating much more energy with the use of the same force and occupying the same physical space, in dimensional terms, of a conventional generator. A practical and clear example of implementation can simply be referred to the construction of a double helix wind turbine against rotating which, as per the aforementioned characteristic, also realizes a contextual counter rotating movement between magnets and coils and / or other materials and / or electronic components. , electrotechnical, responsible for the generation of energy when suitably configured with each other, being these, in this specific case, for example respectively anchored to the center of the two respective helices, in order to achieve the aforementioned desired effect consisting in the counter rotation between magnets and coils , in order to exponentially increase the number of electrical cycles as anticipated above and, consequently, also the production efficiency in relation to the electricity generated, thanks to the exponential increase in RPM in relation to magnetic cycles, if calculated in reference to the counter rotation of the two rotors. A further example of implementation could refer to the possible dedication of the invention described here also in the hydroelectric field, while maintaining its intrinsic main characteristic, i.e. that inherent in the counter-rotation between magnets and coils, this only by configuring the physical structure of the "Charter" container of the generator / engine, as well as its internal mechanical components, in order to allow, for example, a specially dedicated Pelton turbine to rotate 360 ° with respect to the circumference of the generator casing when pushed into rotation from the falling water.

To conclude this chapter without further specific examples and, in the light of the foregoing, it can be safely argued that the present invention can be implemented for any energy sector that may require the use, installation or placement of a generator / electric motor with the characteristics described here.

Field of application

The field in which the invention represented here is placed is undoubtedly that of the industrial production of energy, approaching specifically to the field of electronics and electrical engineering, and can find application in these specific sectors for a wide range of uses that can be dedicated to the simple implementation referable to the electric motor or dynamo and alternator in general, up to the use of macroscopic devices suitable for the industrial production of energy.

As mentioned above, the main, as well as unique, technical characteristic of the invention lies in the counter rotation between magnets and coils achieved by means of the design of a structure, or more mechanical structures specially dedicated to the purpose. In order to make the technical characteristics of this invention more intelligible, and to provide indications concerning the vastness of solutions that can be implemented for the use of this type of Generator / Electric Motor, the creator of the present invention considers it appropriate to bring some of the more practical examples specifically referred to three different possible implementations, wind-hydro electric-electric motor. For this reason, by not providing a purely inclusive character to the invention, limiting its use in the specific sectors that will be described technically, but for the sole purpose of improving the intelligence of the reader with regard to the multiple implementation possibilities of this device, whose content of the requested concession of the patent title, basically, refers exclusively to the technical characteristics relating to an electric motor or alternator / dynamo without a stator which allows the coils and magnets to counter-rotate each other.

Technical description

Wind turbine implementation Table 1: The wind turbine and / or wind turbine according to the present description, will be realized in full expression of the main technical characteristic here claimed, inherent in the counter rotation between magnets and coils, which will be realized by means of the mechanical configuration of the device, characterized from the installation to a trellis (5), to which two independent counter-rotating propellers (3), (4), (6), (7) are attached which, due to the effect of the wind alone, thanks to their opposite aerodynamic inclination, on the other hand, they will allow them to rotate among themselves, [cf. Fig.2]. The electrotechnical components necessary for the production of electricity, magnets, [Fig.3], (9) and coils [Fig.4], (8), will be attached respectively to the said two respective counter-rotating propellers, in order to produce electricity when pushed against rotation in their respective proximity, (1), (2). The installation of the electronic components, electrotechnical components necessary to develop electrical energy, in order to facilitate their installation, can be attached to two respective disks, (11), (12), which consequently will both be attached to one and the other. another helix to then be positioned in their proximity by means of a pin, (10), (14), with a horizontal axis, which will house a collector, (16), which, being delegated to receive the electric wires coming from the coils , (17), (18), (19), to then convey the electricity produced through brushes sliding on the same metal surface of the collector itself, (15), towards the electric wires, (13), from which it will then be possible to draw the electricity produced, this will be attached to the disk to which the coils are placed and positioned, together with the propeller that will host the same coils in its center, on the part of the axis closest to the trellis, (5), in order to allow the passageof the electric wires, (13), coming from the brushes, along the perpendicular of the trellis itself without any interference from the other helix which, also rotating, would make it impossible for them to exit the circuit, if not leaving them dangling.

Electric Motor / Alternator Implementation Table 2: The device that will be illustrated herein by way of example, will also have the purpose of demonstrating to the reader the possible diversified mechanical configuration in order to be implemented in various types of use, achieving the same result, such as above, to characterize the counter rotation between coils and magnets which, as already explained, will perform a greater number of magnetic cycles, with an injection of force equal to that used in a conventional Motor and / or Generator, usually characterized by a rotor and a stator, making the counter-rotating electric motor without a stator described and illustrated here, much more efficient in terms of electricity production if used as a generator, as well as saving energy if it is used as an electric motor. of the highest number of revolutions it would achieve by entering a force equivalent to that used to activate the operation of a normal electric motor. The Engine / Alternator described here will be fitted with a charter casing, (24) which will contain two counter rotating rings, (28), (33) which will be placed one inside the other when entered into the Charter, at the purpose of carrying out the counter rotation between the same rings by means of some torque reducers, (37), interposed between the two said rings, with the aim of connecting them to each other by means of two respective toothings obtained in the center of the internal diametrical surface of the the larger ring, (23), and in the center of the outer diametrical surface of the smaller ring, (35), in order to allow the aforementioned counter rotation. The respective teeth clinging to the rotating rings will be specially placed in the center of said surfaces to create spaces on the sides of the same teeth, in which to place coils on one (22), and magnets on the other, (34). On the sides of the external diametrical surface of the larger ring, one or more bearings will be placed, (21), with the intention of making the ring / gear "neutral" or free in its rotation when it is activated by the electric induction a once it will be placed in the envelope / charter (24). The smaller rotating ring, (33), inserted inside the larger ring, (28), (36), will be equipped with a shaft, (30), anchored to it, in such a way as to be able to transmit the rotating movement of the ring / gear (33). In a specific point of the external diametrical surface of the larger ring / gear, (28), sliding brushes will be placed, (29) which, adhering to the surface of two rings of electro-conductive material, (25), specially obtained in the structure of the charter / enclosure board, will allow electricity to be fed into the circuit up to the coils, via electrical cables or connectors, (27),

which will serve to operate the engine from the outside of the same. The Motor will be completely tightened by its own covers, (32), (38), to which a hole will be made in its own structure, (31), which will be useful to allow the insertion and the exit from the motor structure. of the tree, (30); while, on the other hand, a housing (20) will be obtained in the structure of the other cover, able to contain the opposite part of the same shaft, so that it does not protrude from the structure of the Motor.

Hydro Electric Generator Implementation: The Hydro Electric Generator that is described below, will maintain an almost identical mechanical characteristic with the Engine just illustrated, but with the only difference that, instead of being equipped with a charter that will lock all the components inside mechanical, electrical and electronic, will be equipped with two independent containers (41), (43), (46), (49), (67), which will house them, anchored respectively to two vertical shoulders, (39), (48) . The said separate charters and / or containers will be attached respectively to a structure (44), equipped with the two said vertical shoulders, (39), (48), which will delineate the mutual distance between the two separate charters / containers, in order to determine the right distance between them that can allow, in addition to containing the mechanical, electrotechnical and electronic components, above all to obtain a central space between the two containers, for the entire circumference of their edge, so that a Pelton or other type of turbine, (42), (45), (53), made for the purpose, can perform a complete rotation of 360 ° all around its casing [two separate casings], without any obstacles, when the same turbine is pushed into rotation by the pressure water. The rotating mechanical structure of the device will be completely centralized on a horizontal axis pin, (40), (64), which will be inserted and locked inside the holes, (50), (66), obtained in the structure of the two separate casings / charters once the generator is assembled. To said pin, (40), (64), a series of bearings, (63), (65) will be anchored to its diametral surface, and then inserted, together with the latter, inside a cylinder, (57 ), (61), so as to make the latter "neutral", ie free in its rotation with respect to the pin, (40), (64), when put into rotation. The said cylinder of which, (57), (61), will be equipped with a toothing obtained in the center of its external diametrical surface, (60), on which surface, right on the side of the toothing, some permanent magnets will be attached, (58 ). Once these components have been assembled to the cylinder just described, a series of bearings will be installed, (56), (62), which will be stopped on the sides of its outermost diametrical surface, in order to make it "neutral", that is free in its rotation, the said cylinder when it is inserted inside a second larger cylinder, (54), also equipped with a toothing, (68), but obtained in the center of the surface of its own internal diameter, by means of the which, by means of a series of torque reducers, (59), (69), will be connected to the toothing, (60), obtained on the external surface of the smaller cylinder, (57), (61) placed inside it; this in order to reverse the direction of rotation of the same cylinder with respect to the larger cylinder of which (54), when pushed into rotation by means of the water pressure exerted on the Pelton turbine, (42), (45), (53) or otherwise. On the sides of the teeth of the larger cylinder just illustrated, coils of electrically conductive material will be installed, (52), which, against rotating with respect to the magnets, (58), anchored to the smaller cylinder inserted in its body, when pushed into rotation by the water pressure through the said Pelton turbine, (42), (45), (53), anchored to the surface of the outer diameter of the largest cylinder and tightened in the casing / charter, (41), (43), (46), (49), (67); and when all the same described components of the generator will be tightened in the casing / charter anchored to the shoulders (39), (48), as described, against rotating in their proximity they will allow to generate electricity in greater quantities than a conventional generator usually equipped of a rotor and a stator, this through the introduction of an equivalent force which, in this specific case, will be exerted by the pressure of the fluid. The method of extracting electricity from the structural body of the generator can be carried out in the same way as the method described above, or by means of sliding brushes that will adhere to the surface of two rings of electro-conducting material integrated into the structure of the respective casings / charter,

[see Table 2 n. (25), (26), (29)].

Claims (9)

CLAIMS 1. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electrical energy or also suitable for being an electric motor, characterized in that it is without a stator. 2. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electricity or also suitable for being an electric motor according to claim 1., characterized by the fact that it houses all inside its own container, two or more mechanically configured rotors rotate against each other in opposite and opposite directions. 3. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electric energy or also suitable for being an electric motor according to claims 1. and 2., characterized by the fact that the respective counter-rotating rotors of the preceding claim will be attached to the one magnets and / or material emanating magnetic fields and to the other electro-conducting material which also against each other will rotate in opposite and opposite directions. 4. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electric energy or also suitable for being an electric motor, according to claims 1., 2. and 3. , characterized in that the material emanating magnetic fields and the electro-conducting material respectively attached to the distinct rotors will both rotate in their proximity towards opposite and / or opposite directions to each other. 5. A counter rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electric energy or also suitable for being an electric motor according to claims 1., 2., 3., and 4., characterized by the fact that it is suitable for the construction of wind turbines or wind turbines. 6. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electric energy or also suitable for being an electric motor according to the preceding claims, characterized in that the wind generator of which claim n. 5. will be equipped with two counter-rotating propellers due to the effect of the wind, to which said propellers will be anchored magnets and / or material emanating magnetic fields at the center of one and electro-conducting material at the center of the other which will rotate in different directions opposite and contrary to each other in their very proximity. 7. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electricity or also suitable for being an electric motor according to the preceding claims, characterized by the fact that it is suitable for the realization of hydroelectric generators, to whose plurality of rotors against rotating each other in opposite directions placed inside the generator structure, magnets and / or material emanating magnetic fields and electro-conducting material will be clinging, which will also rotate against their proximity pushed by fluids towards opposite and / or opposite directions. 8. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electric energy or also suitable for being an electric motor according to the preceding claims, characterized by being suitable for the realization of induction electric motors being equipped within their structure with two or more counter-rotating rotors instead of a rotor and a stator, to which said rotors are attached respectively magnets and / or material emanating magnetic fields to one and material electro conductor to and against each other will rotate in their proximity towards opposite and / or opposite directions. 9. A counter-rotating mechanism boxed in a container to constitute an electric motor and / or an alternator and / or a dynamo, suitable for generating electricity or also suitable for being an electric motor according to the preceding claims, characterized by being suitable for any construction that requires an engine, alternator, dynamo, generator without stator and equipped with a plurality of counter-rotating rotors to which magnets and / or material emanating magnetic fields are attached to each other and electro-conducting materials that counter-rotate in their proximity towards opposite and / or opposite directions.