RU141813U1 - ECONOMOGENERATOR ZAKHAREVICH - Google Patents

Abstract

Perpetual motion machine Combine me the feat of filing a new application for a utility model with the mention of my name. My great-grandfathers from peasant families had 11 children each, and my grandfather's grandfather did not even have a surname. The replacement of manual labor leads to low birth rates, and the surname is lost at the birth of girls. By education, I was awarded the qualification of a chemical engineer, and the specialty is encrypted as "liquid chemical technology." The education received at the Lensovet LTI in 1964 does not allow me to agree with the existence of perpetual motion.

I received a patent for utility model No. 12,037 with induction coils and a U-shaped core. On the videos, Bedini shows induction coils in which the cores are located, which supposedly take energy from the ether. I tried to reproduce this “miracle” and made sure that when the magnet approaches the turns of the induction coil, on one side an electric current is excited in one direction, when the axis of symmetry of the magnet is aligned with the axis of the induction coil, the other direction is excited, and when the magnet is removed, the current is excited in the same way directions as with approach. This is graphically depicted as a “three-humped” sine wave passing through two zero points.

The number of magnets located on the circles is calculated so that they do not affect each other with their magnetic fields. Therefore, on a large circle, you can place magnets - we get a higher frequency of alternating current. The arrangement of magnets, simultaneously approaching the coil from two sides, doubles the magnetic flux. In this position, the number of magnets will be equal on two circles.

The choice remains for theorists and designers.

Generator manufacturing on its knees cannot compete with machine manufacturing. The beak-shaped poles in the excitation winding of the electromagnets of the G-221 generator with a rotation of 5000 rpm give 14 volts and 42 amperes. The linear rotation speed of the magnetic field in this generator is equivalent to the linear speed of a flywheel with a diameter of 7 meters with a rotation speed of 1 revolution per second. If you place more powerful magnets on the edges of the flywheel, increasing their number and a small amount, even just one powerful induction coil, you can make an ECONOMOGENERATOR of incredible power. The number of coils can be increased if there is a good source of rotation of the flywheel, but this is already a question for the designers. If we turn to the contradictory laws of the dialectic of knowledge, I can say with certainty that the achieved results of the production of generators cannot put an end to the knowledge of electricity generation. In modern technology, various flywheels are used, but I have not seen the use of a flywheel as a generator. I propose to send a technical thought to the design of generators using a large diameter flywheel. The law of unity and struggle of the opposites of small and large will be a good example. If the linear speed of the flywheel is already reached - 1 km per second, then knowledge of the flying saucer is not far.

Description

Technical field

Generators with permanent magnets located on the rotor are well known. Induction coils are located on the stator. The drawback of such designs, despite the attractiveness of technical creativity, is the energy consumption to overcome the resistance of the closed magnetic fields of the rotor with the stator.

State of the art

While natural reserves of hydrocarbon fuel exist, the lack of traditional generators seems inconspicuous, but humanity is already thinking about how to use natural resources economically and not pollute nature with industrial waste. Electric and diesel vehicles are replacing cars with diesel and gasoline fuels.

Disclosure of a utility model.

The economic generator in a wide range is applicable to alternative sources of electricity. All natural sources: wind, water, waves, tides, low tides - all that can lead to the rotation of the flywheel. The technical result is achieved by applying Newton’s first law "Every body continues to be held in its state of rest or uniform and rectilinear movement, until and since it is forced by the applied forces to change this state." Newton indicates rectilinear motion, but the rotation of the flywheel also applies to the first law.

The model represents a non-magnetic stator housing, on which induction coils are located around the circumference. In the center of the stator, a hub with support and centering bearings is fixed to accommodate the flywheel shaft. The flywheel is made of non-magnetic material and has a shape convenient for placement of permanent magnets, which with their magnetic fluxes cross the turns of induction coils on both sides. The alternating magnetic flux forms an alternating current in the induction coil, which is sent by means of diodes to recharge the battery. The technical result of the proposed model of the economic generator is that the attraction of the magnet to the core occurs in only one case. The next case will be with another magnet. This problem is easily solved by mathematicians who can determine the number of magnets and their location depending on the location of the induction coils. Thus, the resistance is practically absent due to the rotation of the flywheel and the attraction of the next magnet to the same core.

An economic generator has the prospect of development if a magnetic drive is used to rotate the flywheel, closing the generator with a sealed cap with a helium pad.

Implementation of a utility model.

A close area of application of the economic generator is the use of road transport. The flywheel can be spun by a motor drive to recharge the battery.

In order to bring the magnetic flux closer to the turns of the coils, I replaced the core with a hollow iron tube. The solid core of the Bedini engine only slows down the flywheel, because the magnetic field does not reach the remote end of the coil.

Generator manufacturing on its knees cannot compete with machine manufacturing. The beak-shaped poles in the excitation winding of the electromagnets of the G-221 generator with a rotation of 5000 rpm give 14 volts and 42 amperes. The linear rotation speed of the magnetic field in this generator is equivalent to the linear speed of a flywheel with a diameter of 7 meters with a rotation speed of 1 revolution per second. If you place more powerful magnets on the edges of the flywheel, increasing their number and a small amount, even just one powerful induction coil, you can make an ECONOMOGENERATOR of incredible power. The number of coils can be increased if there is a good source of rotation of the flywheel, but this is already a question for the designers. If we turn to the contradictory laws of the dialectic of knowledge, I can say with confidence that the achieved results of the production of generators cannot put an end to their production. In modern technology, various flywheels are used, but I have not seen the use of a flywheel as a generator. I propose to send a technical thought to the design of generators using a large diameter flywheel. The law of unity and struggle of the opposites of small and large will be a good example. If the linear speed of the flywheel is already reached - 1 km per second, then knowledge of the flying saucer is not far.

Claims (1)

An economic generator, on the rotor of which there are permanent magnets, and on the stator induction coils, characterized in that the rotor-flywheel is made of non-magnetic material with fixed magnets alternately crossing the ends of the induction coils on opposite sides with opposite poles, the cores of the induction coils are made in the form of a cylinder.

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