RU53827U1 - MULTI-ROTARY GENERATOR - Google Patents

Abstract

In the submitted application, the main thing is to reduce the cost of generating electricity by creating a new generation of generators that independently produce current. Such a generator in a static state rests on a fixed magnetic axis on supports. And in the dynamic state, the stator together with the rotors rotates on this axis, current is generated. Such a generator is environmentally friendly, can be used in any household, both stationary and mobile, and can also be used as a motor. For example, in transport. But for this, the rotor must be made, of such a design as shown in the drawing, see drawing.

For simplicity of concept, the drawing shows one section in section and a rotor is taken out along sections AA and BB. To increase power, it is enough to make such a motor from the desired number of sections since the power is summed up.

Description

The invention relates to the electrical industry, namely the manufacture of current generators.

Generators are known, consisting of a fixed stationary stator with current windings, a rotor with windings and a collector rotating inside the stator, and an external drive that receives mechanical energy of falling water, or the power of steam, wind, etc.

The aim of the invention is to reduce the cost of receiving email. energy. The goal is achieved by the fact that the proposed current generator also has a stator, but without windings, has several rotors with contour frames and coils, the rotors rotate inside the stator, has a fixed axis resting on supports.

A distinctive feature of the proposed generator is that the stator has freedom of rotation in any direction, to the right, to the left. The rotors rotate: due to contact with the inner surface of the circumference of the stator and move in the space between the stator and the axis, circling it. To prevent the rotors from converging and interfering with each other, there is a separator. The movable stator and axis • have permanent magnets. The design of the generator resembles a roller bearing. By analogy, the stator can be called the outer ring, the rotors are rollers, and the axis is the inner ring. Such a design creates an inhomogeneous magnetic field inside the generator. Magnetic lines of force from the stator to the axis are condensed, which gives heterogeneity.

To start the generator, it is enough only once to give the stator rotation. An inhomogeneous (alternating) magnetic field will begin to cross the contour frames of the rotors, the rotors will rotate with the stator, rotating several times faster than the stator. There will be a double alternating magnetic intersection of the contour frames of the rotors. Voltage and current depend on the crossing frequency per unit time, but this requires a lot of effort, as with a fixed stator. In the proposed generator, this is not so: the stator is movable, the rotors are movable, rotating and moving in the same direction as the stator, only the axis is stationary. The mass of the stator is several times greater than the mass of the rotors. It is much easier to drag rotating rotors behind you with your alternating moving field than to rotate a rotor in place in a uniform motionless magnetic field.

What is a rotor? This is roller 1, contour frames 2, electromagnetic coils 3. In this case, it is a rotor that generates current, it is also an electric motor that rotates the stator.

This cannot be, the expert will say. With the prevailing stereotype of thinking, yes this can not be. But, having carefully studied the design of the rotor, it becomes clear. Each contour frame has its own pair of coils arranged in a circle perpendicular to the plane of the frame

and connected by wires. The current arising in the contour frame equally distributes only its own pair of coils. Now imagine an uneven magnetic space in which the rollers are between the stator and the axis. For simplicity, the concept in the drawing is a roller with one contour frame and a pair of its coils. The roller stops so that the upper part of the frame is adjacent to the stator, i.e. to the north pole, and the bottom to the magnetic axis, i.e. to the south, and the coils are one to the left of the frame, the other to the right. When the stator rotates to the right, the roller with the frame and coils starts to rotate and move to the right. The resulting current in the frame will create electromagnetic force in the coils, turning the coils, right to the south pole, left to the north. But the inductive magnetic field of the frame itself will prevent the rotation of the roller with the same force with which the coils are pulled. It would seem that no movement should occur. But there is movement. Because the center of magnetic induction counteracts the rotation of the frame located in the northern part of the axis of rotation of the roller, is located in the middle of the upper half of the frame, and in the southern part of the frame also in the middle of the square. Electromagnetic coils are located in the outermost diameter of the roller. The size from the axis of rotation of the roller to the center of magnetic induction is two times smaller than to the effective force of the electromagnetic coils. Therefore, the torque of the electromagnetic coils directed towards the rotation of the stator is twice as much as the braking torque of the magnetic induction. It's all about the difference in torque, in addition, the movement and direction of rotation of the roller in the same direction as the rotation of the stator. This makes it possible to significantly reduce the cost of generating electricity in comparison with the prototype with the same parameters.

How is the energy received. For example, out of ten rotors, eight work to rotate the stator, and two work to generate electricity for consumers. These two have only contour current frames with slip rings with brushes on the separator rotating with it. The separator also has current rings, but the brushes are on a fixed axis and transmit current to the consumer. The drawing shows one of the sections of the generator.

Claims (1)

A multi-rotor generator having a stator, a rotor and an axis, characterized in that the stator is movable, without current windings with permanent magnets, the rotors are made with current contour frames and electromagnetic coils, moving and rotating in variable magnetic space, circling the stationary axis with magnets.