• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Generator of electric current by movement and induction by permanent magnets and resonant coils according to an envelope in which a circular solid is housed as a rotor in which a variable magnetic flux is generated by incorporating thirty-eight permanent and rectangular magnets arranged radially aligned on the outer perimeter of the said rotor, turning inside a stator of annular and hollow shape to carry out the internal cooling, which contains seventy-six rest coils distributed regularly and in which coils and capacitors are interleaved in resonance with non-resonant coils, arranged specifically at three millimeters from the magnets and from where the electric current is obtained with a very high performance. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2587803A1
    申请号:ES201530398
    申请日:2015-03-26
    公开日:2016-10-26
    发明作者:Ana Maria MORENO MAGDALENO
    申请人:Energy Resonance Magnetic S L;Energy Resonance Magnetic SL;
    IPC主号:
    专利说明:

    image 1 DESCRIPTION
    Electric current generator by movement and induction using permanent magnets and resonant coils.
    5 Object of the invention
    The present invention presents a machine for the generation of electrical energy using permanent magnets and resonance coils with a geometric configuration and relative movement based on which a very low torque is achieved, that is, a generation of energy at a high performance.
    The present invention finds its scope in both the electric power generation industry and the mechanical industry.
    fifteen Background of the prior art
    It is known to everyone, that there are currently several types of electromagnetic generators based on the generation of electricity based on the movement of a magnet rotor of very different configurations inside a coil set called stator seeking the creation of a variable magnetic field.
    These systems have some drawbacks that limit their performance, making the use of such applications for electricity generation not widespread.
    The first drawback is that the coil stator is formed according to a laminated ferromagnetic sheet core with very different combinations and shapes, which incorporates the copper windings around the rotor magnets radially or axially and at a minimum distance of 30 rotor to allow maximum transfer of magnetic flux to the stator. These configurations have the limitation that they generate strong magnetic traction between the magnets and the stator's laminated iron core, with the
    image2
    consequent increase in the tensile force or torque necessary to activate the rotation of the said rotor.
    A possible solution to this problem is the one presented in the Patent No.
    5 Publication and Title respectively; EP1147595 “PERMANENT MAGNET ELECTRIC MACHINE WITH ENERGY SAVING CONTROL” in it divides the stator into several sections and with a strategic placement of the magnets, it achieves a balance of the ferromagnetic forces that cancel out the permanent magnetic resistant torque to pass from a magnet to the next.
    10 However, the present invention solves the aforementioned problem in a much more drastic and economical way by completely eliminating the ferromagnetic material from the stator, so that the coils thereof would be with what is called "air core". Thus, with the described system, there is a way to reduce
    Zero the magnetic resistant torque, thereby reducing the weight and volume of the resulting machine and its manufacturing cost.
    In view of the drawbacks of the proposal, by eliminating the ferromagnetic material from the stator, we reduce the winding power generation capacity,
    20 for which a system of coils placed in magnetic resonance has been designed by means of capacitor banks connected to them.
    According to the background of the state of the art in applications of coil systems arranged in magnetic resonance, the Publication and Title No. Patent, respectively; US 4064442, "ELECTRIC MOTOR HAVING PERMANENT MAGNETS AND RESONANT CIRCUIT" proposes a resonant system of coils and capacitors to increase the performance of an electric motor. Likewise, in the Patent; US 7940534 B2, “RESONANT TRANSFORMER SYSTEMS AND METHODS OF USE” uses the resonance of a coil-capacitor circuit to improve the
    30 performance of a toroidal transformer.
    In addition, resonant circuits are especially useful when you want to make tuners or tuners, in which you want to give a lot of power exclusively at a frequency or at a very small frequency range within a spectrum. For example, when we tune in to a radio station on our receiver, what has occurred is a resonance condition for the central frequency assigned for that radio station. Thus, in the case of commercial radio receivers they have a
    image3
    5 "adjustable" resonant circuit to select the appropriate resonant frequency.
    Regarding the second drawback, it arises when taking into account that when the rotor magnets move, the force lines of the generated field cut the windings of the stator thus inducing an electromotive force (EMF) in them. According to Lenz's law, the electromotive force tends to oppose the cause that generates it, that is, in the case at hand it will tend to slow the magnet rotor. The problem described is accentuated when we increase the generator load, taking into account that this increase increases the current flowing through the stator windings, with the consequent increase in the generated electromotive force, which will cause a greater
    15 rotor braking.
    In accordance with the inventions present in the state of the art, to avoid or reduce the proposed problem, in the Patent of Publication No. and Title, respectively; EN 2264648 A1, “ELECTRICAL ENERGY GENERATOR”, it is proposed that both the 20 rotor magnets and the stator windings, be fixed without movement and facing each other, being a metal shutter disk which, on rotation, would produce the variation of the Magnetic flux necessary for electricity generation. With this system we eliminate the electromotive force that slows the rotation of the rotor, but has the disadvantage that compared to the systems described above, the performance is
    25 much lower, therefore requiring much more bulky and heavy machines with the inconvenience in cost and utility that this circumstance implies.
    Then, by way of conclusion, the “Electric current generator by movement and induction by means of permanent magnets and resonant coils” provides a machine that provides the following advantages with respect to the state of the art in the art;
    image4
    A. The braking effect of the rotor is avoided according to the conformation of the magnetic fluxes of the magnet rotor and the stator coils based on a concentric and specific configuration of their coils and magnets, respectively.
    5 B. Resonance coil configuration that prevents the transmission of any traction or braking force on the variable magnetic source that primes or induces them with respect to the said resonance. EXPLANATION OF THE INVENTION
    10 By way of explanation of the “Electric current generator by movement and induction by means of permanent magnets and resonant coils”, it is carried out according to an enclosure in which a circular solid that includes permanent magnets is housed, provided with rotational movement as a rotor and in which a magnetic flux is generated
    15 variable, which rotates inside a system of idle coils arranged specifically as a stator and where the said variable magnetic flux is transformed into electric current.
    The rotor is formed by a piece of circular aluminum that rotates in solidarity around
    20 A rotating shaft made of steel and held at both ends by ball bearings that allow it to rotate freely and without friction within the coil system called stator. Regularly distributed on the outer perimeter of the aforementioned rotor are 38 rectangular magnets arranged radially. Regarding the orientation of the magnetic poles of the magnets, they have been arranged so that the north pole of each
    25 magnet has the sense of clockwise rotation and vice versa, in order to generate a circular flow clockwise along the perimeter of the rotor and which barely exceeds the upper edge of the perimeter of the magnets.
    On the other hand, the stator is shaped according to a piece of copper of annular shape and section
    30 oval, according to an inner diameter designed to accommodate the magnet rotor. This piece of copper will be hollow and with some inlet and outlet ducts, to allow a coolant to circulate inside, which will keep the temperature of the coils below 35ºC. The meaning of this cooling is that due to the resonance of the coils of the
    image5
    even circuit that will be described below, there is a considerable induction heating effect that causes the electrical resistivity of copper to increase detrimentally, which would produce a decrease in the energy production in the coils, with the consequent loss of performance of the generator. Thus, the 76 coils that make up the stator are wound along the perimeter of said piece of copper, the entire surface of the ring being covered by the coils. This distribution of the coils aims to generate a toroidal flow inside them and that produces a feedback or ‘feedback’ between them thus producing a considerable increase in the amount of induced flow, with the consequent increase in the
    10 resulting electricity generated.
    It is important to note that the space that must remain between the coils and the magnet rotor will be three millimeters, since if it were higher the generator would not work, because the flow generated by the magnets would not reach the coils, and if it were lower,
    The flow of the magnets would penetrate inside the coils and a braking effect would occur because the direction of rotation of the flow generated in the coils is opposite to the variable flow generated by the rotation of the magnets.
    Continuing with the definition of the stator, the coils it contains are divided into two
    20 groups, odd and even coils. Thus, each coil of the even group is resonated with a bank of capacitors in order to create an LC circuit tuned to the frequency of variation of the magnetic flux generated in the magnet rotor when it rotates and that is 2,216.66 Hz. This frequency is Calculate by dividing the revolutions per minute at which the magnet rotor rotates (3500RPM) by 60 and multiplying the resulting ratio
    25 by the number of pairs of magnetic poles that are in this case 38 and that correspond to the number of magnets, taking into account that each magnet has a pair of magnetic poles.
    Regarding the coils of the odd group, these are not put in resonance, since their
    The mission is limited to converting the intense magnetic flux generated by the magnetic resonance generated by the resonant toroidal circuit of even coils into electricity.
    image6
    To facilitate the understanding of the invention, the coil stator could be compared with a toroidal transformer, in which the primary winding would be the resonant coils of the even circuit, and the secondary would be the non-resonant coils of the odd circuit, with the difference that in this case the high electrical energy generated is also used
    5 by the pair circuit of resonant coils. In this way the total energy produced by the generator is the sum of the energy produced by the even circuit of resonant coils, plus the sum of the energy produced by the odd circuit or of non-resonant coils.
    The impeller of the aforementioned magnet rotor can be a wind turbine or an electric motor
    10 low power. In this regard, it is important to indicate that during the starting transient in which the acceleration of the rotor is carried out until the 3500 RPM has been reached and, consequently, the resonance frequency of the bench of even coils, the induced flow in The odd coils are 180º out of phase with respect to that generated in the even coils, so they tend to cancel each other out. However, once it has
    15 reached the optimum speed and, therefore, the appropriate frequency, the even coil circuit resonates, generating a much higher flow than that generated in the odd coils due to the effect of the rotor magnets, getting the coils Odd become slaves of the even circuit when automatically put into phase with that circuit.
    twenty DESCRIPTION OF THE DRAWINGS
    To complement the description being made and in order to help a better understanding of the features of the invention, according to an example
    25, a preferred embodiment of the same, is accompanied as an integral part of said description, a set of drawings where illustrative and not limiting, the following has been represented:
    Figure 1.- It shows a main plan view of “Electric current generator by movement and induction by means of permanent magnets and resonant coils”.
    image7
    Figure 2.- Shows an elevation view of the main section of the “Electric current generator by movement and induction by means of permanent magnets and resonant coils”.
    5 Figure 3.- Shows a main plan view of the rotor with details of the distribution of the magnetic poles and the intensity of the magnetic flux they generate.
    Figure 4.- Shows a main plan view of “Electric current generator by movement and induction by means of permanent magnets and resonant coils” with detail 10 of the distribution and connection of the resonant coils.
    Figure 5.-Scheme of installation of the wind generator based on the invention.
    In the mentioned figures the following constituent elements can be highlighted;
    fifteen
    one. Circular envelope
    2. Spacers
    3. Stator
    Four. Coils
    20 5. Inlet pipette
    6. Outlet pipette
    7. Rotor
    8. Central axis of rotation
    9. Neodymium magnets 25 10. Fixing wedges.
    eleven. Copper ring piece with oval and hollow section
    12. Magnetic flux intensity
    13. Resonant coils
    14. Capacitors 30 15. Non-resonant coils
    16. Propeller propeller
    17. Generator
    18. Centrifugal clutches and transmission set
    19. Electric motor
    twenty. Electronic speed control
    twenty-one. Battery pack
    22 Charger circuit
    image8
    5 23. Rectifiers
    24. Pulsating chargers
    25. Graphene supercapacitor banks
    26. DC bus
    27. Converters 10 28. Output bus EXAMPLE OF PREFERRED EMBODIMENT SUPPORTED IN FIGURES
    In view of Figure 1, it can be seen, by way of example of a preferred embodiment
    15 of the “Electric current generator by movement and induction by permanent magnets and resonant coils” to support the generation of electricity from a wind generator, as it can be carried out inside a circular envelope (1) as a chassis, made of aeronautical aluminum 10mm thick and 400mm in diameter, equipped with four spacers (2) also in aluminum as a
    20 stator support (3) where the set of 76 coils (4) that fill the entire space of the said stator (3) are housed. In the aforementioned figure 1, the inlet pipette (5) and the outlet pipette (6) of the cooling circuit of the coil assembly (4) are also appreciated. Finally, according to the configuration of the rotor (7), it is seen as the same revolves around its central axis (8), and houses the neodymium magnets (9) of 40x20x10mm of
    25 size and a power of 2500 gauss, as well as the aluminum wedges (10) necessary to keep the magnets under pressure.
    Continuing with figure 2, the elevation view of the radial section allows to appreciate the assembly of the aluminum rotor (7) of 230mm in diameter with the set of magnets (9) 30 placed on its periphery, as well as the location of the axis of 22mm diameter steel (8) that performs angular movement. The set of coils (4) wound on the copper ring piece (11) of oval and hollow section is also appreciated for the purpose of
    allow the circulation of the coolant.
    image9
    Figure 3 shows a main rotor plant (7) in order to show the distribution of the magnetic poles of the magnets (9) over the perimeter of the rotor, and represent the intensity of its magnetic flux (12) that forms a shape curve
    5 sine or variable.
    Finally in Figure 4, a main elevation view is presented in order to appreciate the distribution and connection of the resonant coils of the even group (13) with their capacitor banks (14) and the set of non-resonant coils (15) that are placed
    10 alternately or interleaved between the coils of the even group (13). We also observe in the aforementioned figure, the rotor assembly (7) and the representation of the intensity of the magnetic flux of the magnets (12) and how the coils are located radially (13 and 15) matching the inner corners of each two adjacent coils .
    15 As regards its connection with the specific application object of this preferred embodiment, a schematic view of the wind generator that exploits the advantages of this invention is shown in Figure 5, and which would reduce the size of the propeller (16) of the assembly generator, given the smaller amount of energy that must be applied to put it into operation. Thus, the generator object of the present invention (17) is coupled
    20 by centrifugal clutches and transmission assembly (18) to the propeller propeller (16) and a small 3 KW electric motor (19), which would allow the generator (17) to run when there is no wind or when its intensity is very low, using the electric motor (19). Said electric motor is powered by an electronic speed control (20) and a set of batteries (21) that are kept recharged by
    25 the charger circuit (22), powered by the 25-volt DC current delivered by the set of rectifiers (23) which, in turn, is fed by the high-frequency alternating current delivered by the odd and even coil coil assembly. generator proposed as invention.
    30 The pulsating chargers of the pulsa buck converter ’type (24) are each feeding 25V and 200A to graphene supercapacitor banks (25). The referred capacitors have a capacity of 3000 Farads each and the respective outputs are connected to a DC bus (26) with a capacity for 25V and 400A in turn connected to inverter-type converters (27) with a capacity to generate 230Vac and 5KW of power for each converter, resulting, therefore, a total power of 10KW on the output bus (28).
    image10
    5 As we see in what has been described above, a wind turbine is proposed that would allow generating power to power a house or small farm and that allows solving the great problem of conventional wind turbines that stop generating when there is no wind or is very weak. Finally, it should be noted that the larger the storage capacity of the battery bank (21), the longer the period of
    10 time in which the generator can be kept running, making it more independent that the wind intensity is not adequate.
    It is not considered necessary to extend the present specification so that anyone skilled in the art understands the scope of the invention and the advantages that
    15 of its use are derived in any application where an electrical and / or mechanical power is required.
    The connection elements from the generator object of the invention to adapt it to a specific application, materials chosen for the manufacture of the different
    20 elements described, dimensions, technology that implements it, rotor diameter and number of magnets and number of coils and / or joining elements, etc., will be subject to modification as long as this does not imply an alteration to the essentiality of the invention.
    25 The terms in which this report has been written must always be taken in a broad and non-limiting sense.
    权利要求:
    Claims (1)
    [1]
    image 1
    1.- “Electric current generator by movement and induction by magnets
    5 permanent and resonant coils ”, characterized according to an outer stator and an inner rotor consisting of a circular solid that includes permanent magnets and in which a variable magnetic flux is generated based on its rotational movement inside the referred stator, which is formed according to a system of idle coils in which coils and condensers in resonance with
    10 non-resonant coils, specifically arranged three millimeters from the magnets that make up the outer perimeter of the rotor and where the said variable magnetic flux is transformed into electric current based on the configuration of the following elements:
    fifteen
    A. Circular rotor that houses thirty-eight rectangular magnets arranged radially aligned on its outer perimeter, so that the north-south axis of the magnet is perpendicular to the radius that passes through its center and the north of the magnet is clockwise of rotation, jointly and severally connected to an axis that is housed through
    20 of their respective ends in ball bearings based on which the movement inside the stator is guaranteed.
    B. Stator according to a hollow piece in annular shape and inner diameter arranged to
    25 to house the magnet rotor, oval section designed to circulate a coolant inside it, provided with its corresponding inlet and outlet ducts, and designed to regularly contain the winding of the seventy-six coils that make up the stator.
    30
    C. Configuration of the coils containing the stator in which coils and resonators are intercalated in resonance with non-resonant coils, so that each resonating coil is arranged with a bank of capacitors, creating an LC circuit tuned to 2,216.66 Hz, which is the frequency of variation of the magnetic flux generated in the magnet rotor when it rotates.
    image2
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    法律状态:
    2016-03-29| PC2A| Transfer of patent|Owner name: ENERGY RESONANCE MAGNETIC, S.L. Effective date: 20160321 |
    2017-08-04| FG2A| Definitive protection|Ref document number: 2587803 Country of ref document: ES Kind code of ref document: B1 Effective date: 20170804 |
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