RU2120059C1 - Gravitational energy source - Google Patents

Abstract

FIELD: power engineering; different branches of industry. SUBSTANCE: gravitational energy source has housing accommodating rotary stators coupled by axles of rotation through hinge joint with vertical axle of rotation of driving device furnished with power source. Each stator has hollow chamber in which rotor is placed eccentrically. Rotor has cylindrical frame with cylindrical working chamber accommodating rotor-eccentric which has electromagnets with multiple-phase control windings which coupled with electromagnets which have multiple phase rotor control windings. Working sections are arranged on cylindrical frame. These sections are placed in communication through channels with circular working chamber filled with liquid medium. EFFECT: reduced rolling friction in rotor-eccentric. 3 cl, 3 dwg

Description

 The invention relates to the field of energy and can be used in various fields of national economy.

 Known to the claimed invention by essential features is the invention: patent of the Russian Federation for N 2026203 class. B 60. K-7/00, dated 5.09.91, “Motor-wheel-generator” used in devices for moving objects using the energy of a fluid. The essence of the invention "Motor-wheel-generator" contains a wheel and a pivotally coupled volumetric engine, including an elastic shell connected to the wheel movably. The known technical solution includes the following features similar to the prototype: an external energy source driving the wheel in motion, the inner movable part of the wheel in a vertical plane presses on an elastic volumetric shell, the working sections of which are filled with an electrically conductive fluid and connected to the channels of the MHD generator.

 Closest to the claimed invention by essential features is the patent of the Russian Federation for N 2055235 cells. F 03 G 3/00 dated February 27, 1996 “Gravity energy source” containing an electromagnetic control system, a frame on which a platform with a rotor placed on it is mounted with the possibility of moving in a vertical plane, made in the form of at least two inductor balls, interconnected by one axis of rotation and installed with the possibility of movement in a vertical plane and rotation around the axis relative to each other within one revolution, with each ball-inductor installed in a ball chamber of high pressure ect thrically, the latter with a gap in which radial vanes are arranged to rotate reciprocating, forming working sections inside the housing, a planetary device frame is installed inside the housing, in the central part of which there is an additional spherical working chamber in which an eccentric ball is installed with a gap, while the working sections of each ball-inductor are filled with an electrically conductive liquid and are connected to each other by channels of the MHD generator.

 The known technical solution includes the following features similar to the prototype: an external energy source, at least two ball-inductors containing inside the frame of a planetary device with working sections, an additional ball chamber with an eccentric ball inside.

 The known device is fundamentally different from the claimed one and has several disadvantages: lower efficiency and reliability due to the use of the working environment, as well as the complex sealing of the device.

 The technical problem that the claimed invention solves includes the creation of a device for converting the energy of the gravitational field of the Earth by reducing the friction-rolling of the rotor-eccentric located on the vertical axis of symmetry inside the stator during its rotational movement, while the coefficient of friction-rolling is the cylinder / ball / steel k = 0.008 - 0.001 cm. With the weight of the rotor-eccentric P = 200 t at 10 n = 500 rpm, the stator torque decreases by 8 thousand times, compared with existing analogues.

 The problem is solved in that the gravitational energy source is equipped with an electromagnetic system control of the stator, at least two installed with a gap inside the housing. Each stator is in contact with its outer surface with the inner surface of the base body and mounted to move around its own axis of rotation, while the axis of rotation of each stator through a hinge device is connected to the vertical axis of rotation of the drive device containing the electric power source, the axis of rotation of each stator and the vertical axis rotations of the drive device are mounted in a housing on angular contact bearings.

 In each stator inside it there is a hollow chamber, inside of which a rotor is eccentrically placed with a gap, containing a cylindrical frame with a cylindrical working chamber placed inside it, inside of which is mounted an eccentric with a gap and the rotor-eccentric can be moved in vertical and horizontal planes around the outer surface circle, as well as on the inner surface of the cylindrical working chamber, at least two electromagnets with multiphase control windings are placed, while in a circle in a radial plane spine on a cylindrical frame has, at least two working sections with communication channels connecting with the annular working chamber filled with a pressurized fluid (liquid, gas).

 The task is achieved by the fact that inside each working section there are electromagnetic poles with power windings and anchor electromagnets with control windings, while anchor electromagnets contain rollers in contact with the inner surface of the hollow stator chamber, counter-pressure springs in contact with the inner surface of the working section. The anchor electromagnets of the working sections are placed in one radial plane through the rollers and the pusher ring located inside the cylindrical working chamber, are interconnected in pairs, moreover, power windings, multiphase and control windings installed in electromagnets with the possibility of transverse intersection of the magnetic field through a collector installed on the axes of the stators and the vertical axis of the drive unit, connected by wires with an external source of electricity and a consumer, between the outer side surfaces Thrust bearings are installed by the rotor holes and the inner surface of the stator, while the housing, stator and rotor contain removable covers.

 The task is achieved by the fact that in a circle in the radial plane on the cylindrical frame of the rotor are placed at least two working sections with electromagnets with sinusoidal power windings and anchor electromagnets with control windings installed inside each perpendicular to the radial plane; contains at least two working sections with electromagnets with multiphase power windings and anchor electromagnets with control windings installed inside each perpendicular to the radial plane.

 The authors of the use of the claimed gravitational energy source is not known.

 In FIG. 1 shows the appearance of a gravitational energy source; in FIG. 2 shows a section AA of FIG. 1 gravitational energy source in a vertical plane, along the horizontal axis of rotation of the stators, side view; in FIG. 3 shows a section BB of FIG. 2 gravitational energy sources by a vertical plane, perpendicular to the axis of rotation.

 The gravitational energy source (Fig. 1 - 3) contains the housing 1, inside the housing with a gap installed, at least two, the stator 2, in contact with its inner surface of the base, Each stator 2 contains an axis of rotation 3, while the axis of rotation 3 of each stator 2 through a hinge device 4 is connected with a vertical axis of rotation 5 of the drive device 6 containing the electric power source 7. The axis of rotation 5 of the drive device 6 is mounted in the housing 1 on angular contact bearings 8. Inside each stator 2 there is a hollow chamber 9, inside of which a rotor 10 containing a cylindrical frame 11 is eccentrically placed with a gap. A cylindrical working chamber 12 is placed inside the cylindrical frame 11. Eccentric, with a gap and the ability to move in vertical and horizontal planes, a rotor eccentric 13 is installed inside the cylindrical working chamber 12. the surface of the rotor-eccentric 13, as well as on the inner surface in the radial plane of the cylindrical working chamber 12 of the rotor 10, are placed, at least two, electromagnets 14 with multiphase control windings phenomena 15. At least two working sections 16 with communication channels 17 are arranged in a circle in a radial plane on a cylindrical frame 11. Communication channels 17 connect each working section 16 with a circular working chamber 18 filled under pressure with a fluid (liquid, gas) 19. Inside each working section 16 there are electromagnetic poles 20 with power windings 21 and anchor electromagnets 22 with control windings 23. Each anchor electromagnet 22 contains a roller 24 in contact with the inner surface of the hollow chamber 9 of the stator 2, the spring is against pressure 25 in contact with the inner surface of the working section 16. Anchor electromagnets 22 of the working sections 16, located in the same radial plane, through the rollers 24 and the pusher ring 26, located inside the cylindrical working chamber 12, are interconnected in pairs. Power windings 21 of the electromagnetic poles 20, control windings 23 of the anchor electromagnets 22, as well as multiphase control windings 15 of the electromagnets 14 through the collector 27, mounted on the rotation axes 3 of the stator 2 and the vertical rotation axis 5 of the drive device 6, are connected to an external power source 7 and a consumer . Thrust bearings 28 are mounted between the outer side surfaces of the rotor 10 and the inner surface of the hollow chamber 9 of the stator 2. For access to the inside of the housing 1, removable covers 29 of the stator are 2-removable covers 30 and for the rotor are 10-removable covers 31. In a circle in a radial plane on at least two working sections 16 are placed in the cylindrical frame 11 of the rotor 10 with electromagnets 32 with sinusoidal power windings 33 and anchor electromagnets 34 with control windings 35 installed inside each perpendicular to the radial plane. And also the rotor 10 contains at least two working sections with electromagnets 36 with multiphase power windings 37 and anchor electromagnets 38 with control windings 39 installed inside each perpendicular to the radial plane.

 The gravitational energy source (Fig. 1 - 3) works as follows: using an external drive device 6, powered by an electric power source 7, through a vertical axis of rotation 5, a hinge device 4, axis of rotation 3 of stators 2 and an electromagnetic control system containing electromagnets 14 with multiphase control windings 15, fed through a collector 27 from an electric power source 7, a stator 2, at least two, inside the housing 1 and the eccentric rotor 13 inside the rotors 10 are driven in constant rotational movement around of the common axes of rotation 3 and the vertical axis of rotation 5. Simultaneously, the control windings 23 of the anchor electromagnets 22, the control windings 35 of the anchor electromagnets 34 and the control windings 39 of the anchor electromagnets 38 are fed through the collector 27 through the collector 27. The rotor-eccentric 13, moving in vertical and horizontal planes inside the cylindrical working chamber 12 of the rotor 10, presses with its weight (gravity) and gyroscopic pressure on the lower half of the cylindrical frame 11, moving it down, and the anchor The electromagnets 22, 34, 38 move upward relative to the cylindrical frame 11 and the power windings 21 of the electromagnetic poles 32 and the multiphase power windings 37 of the electromagnets 36, as a result of the movement of the electromagnets 22, 34, 38 the magnetic field changes across the power windings 21, the multiphase power windings 37 and sinusoidal power windings 33, in which there is an electromotive force, under the action of which an electric current arises in the circuit, which is transmitted through the collector 27 through wires to electricity consumers, while In the lower half of the rotor, the currents in the power windings flow in one direction, and in the upper half of the rotor, the currents in the power windings flow in the opposite direction.

 When bringing the stators 2 from the external drive device 6 into rotational motion and energizing from an external power source 7 by direct current of multiphase control windings 15, electromagnets 14 located on the outer surface of the rotor-eccentric 13, when the rotor-eccentric 13 moves, the magnetic field crossing the multiphase control windings 15, electromagnets 14 located on the cylindrical frame 11 of the rotor 10. A varying magnetic field induces in the multiphase control windings 15, electromagnets 14, placed on the cylindrical frame 11 of the rotor 10, an electric current which through the collector 27 is transmitted by wire to the electric power consumers.

 To simplify the design, each stator can operate separately mounted on a moving platform, which drives the stator in rotational motion, while the platform is driven by an external drive device powered by an electric power source.

Claims (3)

 1. Gravity energy source containing a frame on which is mounted with the possibility of movement in the vertical plane a platform with a rotor placed on it, made in the form of at least two ball-inductors, interconnected by one axis of rotation and installed with the possibility of movement in a vertical plane and rotation around the axis relative to each other within one revolution, with each ball-inductor installed in the high-pressure ball chamber eccentrically last with a gap in which are placed with With the reciprocating movement of the radial blades forming the working sections inside the body, the planetary device frame is installed inside the ball-inductor body, in the central part of which there is an additional spherical working chamber, in which the ball-eccentric is installed with a gap, while the working sections of each ball the inductor is filled with an electrically conductive liquid and connected to each other by channels of the MHD generator, characterized in that it is equipped with an electromagnetic control system, a housing inside of which at least two stators are installed with azor, each stator can move around its own axis of rotation in contact with its outer surface with the inner surface of the base of the housing, while the axis of rotation of each stator through a hinged device is connected to the vertical axis of rotation of the drive device containing an electric power source, the axis of rotation of each stator and the vertical axis of rotation of the drive device are mounted in the housing on angular contact bearings, in each stator inside it p a hollow chamber is placed, inside which a rotor is eccentrically placed with a gap, containing a cylindrical frame with a cylindrical working chamber located inside it, inside which a rotor-eccentric is mounted eccentrically with a gap and the ability to move in vertical and horizontal planes, in a circle around the outer surface of each eccentric rotor, as well as on the inner surface of the cylindrical working chamber, at least two electromagnets with multiphase control windings are placed, while in a circle in a radial plane at least two working sections are placed on the cylindrical frame, with working sections with communication channels connecting to a circular working chamber filled with pressurized fluid (liquid, gas), electromagnetic poles with power windings are installed inside each working section, and anchor electromagnets contain rollers, contacting with the inner surface of the hollow chamber of the stator, back pressure springs, contacting with the inner surface of the working section, anchor electromagnets of the working sections, placed in one radial plane axes, through rollers and a pusher ring located inside the cylindrical working chamber, are interconnected in pairs, with control windings, power windings, sinusoidal power windings and multiphase power windings installed in electromagnets with the possibility of transverse crossing by a changing magnetic field, through collectors installed on the axes of the stators and the vertical axis of the natural device, connected to an external source of electricity and a consumer, between the outer side surfaces of the rotor and the inner thrust bearings are installed on it by the surface of the stator, while the housing, stator and rotor contain removable covers.  2. The energy source according to claim 1, characterized in that at least two working sections with electromagnets with sinusoidal power windings and anchor electromagnets with control windings installed inside each perpendicular to the radial plane are arranged in a circle in a radial plane on the cylindrical frame of the rotor.  3. The energy source according to claim 1, characterized in that it contains at least two working sections with electromagnets with multiphase power windings and anchor electromagnets with control windings installed inside each perpendicular to the radial plane.

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