How to make a source of electricity from a magnet. Use of magnetic current energy. How to get free electricity out of thin air

What can you say about the idea that you can do without power plants and any power transmission lines and have electricity everywhere, in every device, be it an electric heater, refrigerator, lamp, car, or whatever.

We have been given the most perfect miracle, but we don’t see it. We played with it as children and forgot. In schools they drilled into us that this was just an unusable thing/toy and we believed it, including all the engineers and, in general, all the scientists. They work, invent all sorts of useful things, but their thoughts are distracted from the main thing and it turns out that everything that has been done so far is deeply wrong.

And what will happen to me if I say that it’s time to cancel everything Tesla has achieved and forget it like a nightmare? Let's repeat; We will exclude power plants, high-voltage and low-voltage lines, all wires from cars and houses, all sockets and equipment starters from our lives + more dangerous in all respects, gas lines and propane cylinders, all types of fuel and even firewood.

All this and infinitely much more can be done if you learn to use the power of a permanent magnet. And it exists, it is real. These are not some fairy tales about perpetual motion machines or obscure etheric energies. A magnet contains endless energy. It is quite strong; Try to separate two medium magnets, or tear them away from the metal. Now think that the power of a small or large magnet can be used to do something - because that would be great! And after all, magnets work in all generators, although they are turned by a gasoline engine, but this is old... Under Tesla, there were no technologies that allowed us to simulate the rotation of rotors in generators, but the time has come and we can do it.

The age-old problem with magnets is that they grab onto the poles and do not let them go. To overcome this resistance, we are forced to use motors. Then the poles interact with the magnets and electrical impulses are obtained. It is not possible to operate a magnet and influence its constant field; it will rather demagnetize than give us a variable force. It’s the same with the materials of the interacting poles. If the steel is magnetic, then it is only magnetic and will be attracted to the magnet. The way out is the simplest;

It is necessary to create a material with variable properties, magnetic and non-magnetic, but with the ability to control them. This means working with electrons and placing them in layers, as in transistors/thyristors, and releasing two conductors from the resulting plates to connect and supply pulses that form electricity.

The initial/sort of exciting/triggering pulses can be obtained from a simple generator with two transistors and a battery. Controlling the power of the generator is possible by operating the low-voltage part of the device, a small or larger resistor/rheostat. In this way, you can obtain not only electricity with a frequency of 50 Hz, but any type, for any purpose. For lighting a lamp, operating a refrigerator, a heater, etc. You can generate low-voltage voltage, and also hide the generator inside the device.

Traction motors will have magnets on the rotor, plates of special material/semiconductor/ around the stator and a system for switching them like running lights. These are several transistors with a battery and a rheostat. And no conductors or windings inside! Such an engine is also capable of providing full braking and traction control when cornering. Each wheel has an engine and a brake inside and no transmissions, clutches, hydraulic cylinders with lines or cables for the brakes.

Each light bulb has its own mini generator controlled by WiFi and zero wiring in the car. All this is possible and is already being done. No repair mechanics other than body straighteners!

No electricians, power engineers, accountants or meters, no dangers of electric shocks or fire.

The oil will be used to make plastics and pave the sidewalks, because the roads can also be abolished, but this is when everyone will have a replacement car, which will also use a magnet. Lots of small magnets..

All this is possible with the use of a special effect called “spin electron” in the corresponding material, developed in 2001. Report on the material manufacturing technology: People did not make any secrets, they simply did not find an application for their development and posted it on the network.

Spinning electrons Electrons have a property called spin. This spinning creates a magnetic field with N and S poles, just as the spinning Earth has magnetic poles. Note that the N pole on an electron is really a North-seeking pole, just as in a magnet. If electrons in the shells of an atom spin in the same direction, the atom will exhibit a magnetic field and will respond to the forces of a magnet. If half of the electrons spin one way and the rest spin the other way, they will neutralize each other and the material will not be affected by a magnetic field This atom is barely magnetic because all its electrons are not aligned http://www. school-for-champions.com/science/magnetic_factors.htm Magnetic fields can change the direction of spins by inducing "precession" which is an additional rotation of the spin orientation about the magnetic field, similar to the periodic movement of the axis of a top after it is spun. While the speed of electron spin precession in a magnetic field is generally fixed by the particular materials used, the research reported in Nature has shown that both the speed and direction of precession can be continuously adjusted by applying electric fields in specially engineered quantum structures. Transl: Electrons have a property called spin. This rotation creates a magnetic field from the N and S poles, just as the Earth has magnetic poles. The North Pole on the electron looks for the North Pole in the magnet. If the electrons in the atom's shells rotate in the same direction, the atom will exhibit a magnetic field and will respond to the forces of the magnet. If half the electrons spin one way and the rest spin the other way, they will cancel each other out and the material will be non-magnetic. Spinning electrons Electrons have a property called spin. This spinning creates a magnetic field with N and S poles, just as the spinning Earth has magnetic poles. Note that the N pole on an electron is really a North-seeking pole, just as in a magnet. If electrons in the shells of an atom spin in the same direction, the atom will exhibit a magnetic field and will respond to the forces of a magnet. If half of the electrons spin one way and the rest spin the other way, they will neutralize each other and the material will not be affected by a magnetic field This atom is barely magnetic because all its electrons are not aligned http://www. school-for-champions.com/science/magnetic_factors.htm Magnetic fields can change the direction of spins by inducing "precession" which is an additional rotation of the spin orientation about the magnetic field, similar to the periodic movement of the axis of a top after it is spun. While the speed of electron spin precession in a magnetic field is generally fixed by the particular materials used, the research reported in Nature has shown that both the speed and direction of precession can be continuously adjusted by applying electric fields in specially engineered quantum structures.

Electrons have a property called spin. This rotation creates a magnetic field from the N and S poles, just as the Earth has magnetic poles. The North Pole on the electron looks for the North Pole in the magnet. If the electrons in the atom's shells rotate in the same direction, the atom will exhibit a magnetic field and will respond to the forces of the magnet. If half the electrons spin one way and the rest spin the other way, they will cancel each other out and the material will be non-magnetic.

It’s up to everyone to help promote this idea locally. Offer it to local academies or institutes working with electrical materials or having equipment for the production of transistors, or nanotechnology.. Just get an audience with the president of the Academy of Sciences, etc. and don’t get off them until they understand the meaning and start developing a device for applying layers, making a plate, which is no more complex than a transistor.

We need to start by distributing this article by all means.

Then your country will be the first in the production of spin generators, and not in the export of resources. But keep in mind that this information is also distributed to other countries... It’s up to anyone to be lucky/perceive this, at first glance, fantasy.

In this article you will learn how to use energy magnetic current in household appliances own production. In the article you will find detailed descriptions and assembly diagrams simple devices based on the interaction of magnets and an induction coil, created by yourself.

Using energy in the usual way is easy. It is enough to fill the tank with fuel or connect the device to the electrical network. Moreover, such methods, as a rule, are the most expensive and have dire consequences for nature - colossal natural resources are spent on the production and operation of mechanisms.

In order to get working household appliances, you don’t always need an impressive 220 volts or a loud and bulky internal combustion engine. We will consider the possibility of creating simple but useful devices with unlimited potential.

Technologies for using modern powerful magnets are being developed reluctantly - the oil production and processing industries risk being out of business. The future of all drives and activators lies with magnets, the effectiveness of which can be verified by assembling simple devices based on them with your own hands.

Visual video of magnets in action

Fan with magnetic motor

To create such a device you will need small neodymium magnets - 2 or 4 pieces. As a portable fan, it is best to use a cooler from a computer power supply, since it already contains almost everything you need to create a stand-alone fan. The main parts - induction coils and an elastic magnet - are already present in the factory product.

In order to make the propeller rotate, it is enough to place magnets opposite the static coils, securing them in the corners of the cooler frame. External magnets, interacting with the coil, will create a magnetic field. An elastic magnet (magnetic tire) located in the propeller turret will provide constant uniform resistance, and the movement will be self-sustaining. The larger and more powerful the magnets, the more powerful the fan will be.

This engine is conventionally called “perpetual”, because there is no information that the neodymium has “run out of charge” or the fan has failed. But the fact that it works productively and stably is confirmed by many users.

Video on how to assemble a fan with magnets

Magnetic fan generator

An induction coil has one almost miraculous property - when a magnet rotates around it, an electrical impulse occurs. This means that the entire device has the opposite effect - if we force the propeller to spin by extraneous forces, we can generate electricity. But how to spin a turret with a propeller?

The answer is obvious - the same magnetic field. To do this, we place small (10x10 mm) magnets on the blades and secure them with glue or tape. The more magnets, the stronger the impulse. To rotate the propeller, ordinary ferrite magnets will be sufficient. We connect an LED to the former power supply wires and give an impulse to the turret.

Generator made from a cooler and magnets - video instructions

Such a device can be improved by placing additionally one or more magnetic tires from the propellers on the cooler frame. You can also connect diode bridges and capacitors to the network (in front of the light bulb) - this will rectify the current and stabilize the pulses, producing an even, constant light.

The properties of neodymium are extremely interesting - its light weight and powerful energy give an effect that is noticeable even on household crafts (experimental devices). Movement is made possible thanks to efficient design bearing turret of coolers and drives - the friction force is minimal. The ratio of mass and energy of neodymium ensures ease of movement, which provides a wide field for experiments at home.

Free energy on video - magnetic motor

Application area magnetic fans due to their autonomy. First of all, these are motor vehicles, trains, gatehouses, and remote parking lots. Another undeniable advantage - noiselessness - makes it convenient in the home. You can install such a device as an auxiliary device in the system natural ventilation(for example, to the bathroom). Any place where a constant small air flow is needed is suitable for this fan.

Flashlight with “eternal” recharging

This miniature device will be useful not only in an “emergency” case, but also for those involved in prevention utility networks, inspection of premises or returning home late from work. The design of the flashlight is primitive, but original - even a schoolboy can handle its assembly. However, it has its own induction generator.

1 - diode bridge; 2 - coil; 3 - magnet; 4 — batteries 3x1.2 V; 5 - switch; 6 - LEDs

To work you will need:

1. Thick marker (body).
2. Copper wire Ø 0.15-0.2 mm - about 25 m (can be taken from an old spool).
3. The light element is LEDs (ideally the head from a regular flashlight).
4. Batteries standard 4A, capacity 250 mAh (from the rechargeable Krona) - 3 pcs.
5. Rectifier diodes type 1N4007 (1N4148) - 4 pcs.
6. Toggle switch or button.
7. Copper wireØ 1 mm, small magnet(preferably neodymium).
8. Glue gun, soldering iron.

Progress:

1. Disassemble the marker, remove the contents, cut off the rod holder (a plastic tube should remain).

2. Install the flashlight head (lighting element) into the removable lid of the bulb.

3. Solder the diodes according to the diagram.

4. Group the batteries adjacently so that they can be placed in the marker body (flashlight body). Connect the batteries in series, on a solder.

5. Mark the area of ​​the body so that you can see free space, not occupied by batteries. An induction coil and a magnetic generator will be installed here.

6. Winding the coil. This operation should be carried out observing the following rules:

• Breaking the wire is unacceptable. If it breaks, rewind the coil again.
• The winding should start and end in one place, do not break the wire in the middle after reaching required quantity turns (500 for ferromagnet and 350 for neodymium).
• The quality of winding is not critical, but only in this case. The main requirements are the number of turns and uniform distribution throughout the body.
• You can secure the coil to the body with regular tape.

7. To check the functionality of the magnetic generator, you need to solder the ends of the coil - one to the lamp body, the other to the LED terminal (use soldering acid). Then place the magnets in the case and shake several times. If the lamps are working and everything is done correctly, the LEDs will react to electromagnetic vibrations with weak flashes. These oscillations will subsequently be rectified by a diode bridge and converted into D.C., which will accumulate batteries.

8. Install the magnets in the generator compartment and cover it with hot glue or sealant (so that the magnets do not stick to the batteries).

9. Bring the antennae of the coil inside the housing and solder it to the diode bridge, then connect the bridge to the batteries, and connect the batteries to the lamp via a key. All connections must be soldered according to the diagram.

10. Install all parts into the housing and protect the coil (adhesive tape, casing or heat-shrink tape).

Video on how to make an eternal flashlight

Such a flashlight will be recharged if you shake it - the magnets must move along the coil to generate impulses. Neodymium magnets can be found in DVD, CD drives or computer hard drives. They are also available for free sale - suitable option NdFeB N33 D4x2 mm costs about 2-3 rubles. (0.02-0.03 c.u.). The remaining parts, if they are not available, will cost no more than 60 rubles. (1 USD).

There are special generators for the implementation of magnetic energy, but they are not widely used due to the powerful influence of the oil production and processing industries. However, devices based on electromagnetic induction are breaking into the market with difficulty, and highly efficient ones can be purchased on the open market. induction furnaces and even heating boilers. The technology is also widely used in electric vehicles, wind generators and magnetic motors.

In this article we will consider the model powerful generator made of magnets, which is capable of generating electricity with a power of 300 watts. The frame is assembled from 10 mm thick duralumin plates. The generator consists of 3 main parts: housing, rotor, stator. The main purpose of the housing is to fix the rotor and stator in a strictly defined position. The rotating rotor should not touch the stator coils with magnets. The aluminum body is assembled from 4 parts. The corner layout provides a simple and rigid structure. The body is made on a CNC machine. This is both an advantage and a disadvantage of the development, since for a high-quality repetition of the model you need to find specialists and a CNC machine. The diameter of the discs is 100 mm.

You can also buy a ready-made electric generator in an online store.

Rotor of the electric generator I. Belitsky

Rotor is an iron axle. There are 2 iron disks with neodymium magnets located on them. An iron bushing is pressed between the discs on the axle. Its length depends on the thickness of the stator. Its purpose is to ensure a minimum gap between the rotating magnets and the stator coils. Each disk contains 12 neodymium magnets with a diameter of 15 and a thickness of 5 mm. Seats are made for them on the disk.

They need to be glued epoxy resin or other glue. In this case, it is necessary to strictly observe polarity. When assembled, the magnets should be positioned so that opposite each one there is another from the opposite disk. In this case, the poles must be different towards each other. As the author of the development himself (Igor Beletsky) writes: “It would be correct to have different poles, so that the lines of force would come out of one and enter the other, definitely S = N.” You can purchase neodymium magnets in a Chinese online store.

Stator device

A sheet of textolite 12 m thick was used as a base. Holes were made in the sheet for the coils and rotor bushings. The outer diameter of the iron coils that are installed in these holes is 25 mm. The inner diameter is equal to the diameter of the magnets (15 mm). The coils perform 2 tasks: the function of a magnetically conductive core and the task of reducing sticking when moving from one coil to another.

The coils are made of insulated wire 0.5 mm thick. 130 turns are wound on each coil. The winding direction is the same for all.

When creating a powerful generator from, you need to know that the higher the speed that can be provided, the higher the output voltage and current of the device will be for free energy.

Universal use of electricity in all areas human activity associated with the search for free electricity. Because of this, an attempt to create a generator became a new milestone in the development of electrical engineering free energy, which would significantly reduce the cost or reduce to zero the cost of generating electricity. The most promising source for realizing this task is free energy.

What is free energy?

The term free energy arose during the time of large-scale introduction and operation of internal combustion engines, when the problem of obtaining electric current directly depended on the coal, wood or petroleum products used for this. Therefore, free energy is understood as a force for the production of which there is no need to burn fuel and, accordingly, consume any resources.

The first attempts to scientifically substantiate the possibility of obtaining free energy were laid by Helmholtz, Gibbs and Tesla. The first of them developed the theory of creating a system in which the generated electricity should be equal to or greater than that spent for the initial start-up, that is, obtaining a perpetual motion machine. Gibbs expressed the possibility of obtaining energy through a chemical reaction so long that it was enough for a full power supply. Tesla observed energy in all natural phenomena and proposed a theory about the presence of ether, a substance that permeates everything around us.

Today you can observe the implementation of these principles to obtain free energy in. Some of them have long ago entered the service of humanity and help to receive alternative energy from wind, sun, rivers, tides. These are the same solar panels, hydroelectric dams that helped harness the forces of nature that were freely available. But along with already proven and implemented free energy generators, there are concepts of fuel-free engines that try to circumvent the law of conservation of energy.

The problem of energy conservation

The main stumbling block in obtaining free electricity is the law of conservation of energy. Due to the presence of electrical resistance in the generator itself, connecting wires and other elements electrical network, according to the laws of physics, there is a loss of output power. Energy is consumed and to replenish it, constant external replenishment is required, or the generation system must create such an excess of electrical energy that it is enough to both power the load and maintain the operation of the generator. From a mathematical point of view, the free energy generator must have an efficiency of more than 1, which does not fit within the standard physical phenomena.

Circuit and design of the Tesla generator

Nikola Tesla became the discoverer of physical phenomena and based on them he created many electrical devices, for example, Tesla transformers, which are used by mankind to this day. Over the entire history of his activities, he has patented thousands of inventions, among which there is more than one free energy generator.

Rice. 1: Tesla Free Energy Generator

Look at Figure 1, this shows the principle of generating electricity using a free energy generator made from Tesla coils. This device involves obtaining energy from the ether, for which the coils included in its composition are tuned to a resonant frequency. To obtain energy from the surrounding space in this system, the following geometric relationships must be observed:

• winding diameter;
• wire cross-section for each winding;
• distance between coils.

Known today various options the use of Tesla coils in the design of other free energy generators. True, it has not yet been possible to achieve any significant results from their use. Although some inventors claim the opposite, and keep the results of their developments in the strictest confidence, demonstrating only the final effect of the generator. In addition to this model, other inventions of Nikola Tesla are known, which are generators of free energy.

Magnetic free energy generator

The effect of interaction between a magnetic field and a coil is widely used in. And in a free energy generator, this principle is used not to rotate a magnetized shaft by applying electrical impulses to the windings, but to supply a magnetic field to an electric coil.

The impetus for the development of this direction was the effect obtained by applying voltage to an electromagnet (a coil wound on a magnetic circuit). In this case, a nearby permanent magnet is attracted to the ends of the magnetic circuit and remains attracted even after turning off the power from the coil. A permanent magnet creates a constant flow of magnetic field in the core, which will hold the structure until it is torn off by physical force. This effect was used to create a permanent magnet free energy generator circuit.

Look at Figure 2, to create such a free energy generator and power the load from it, it is necessary to form a system of electromagnetic interaction, which consists of:

• trigger coil (I);
• locking coil (IV);
• supply coil (II);
• support coil (III).

The circuit also includes a control transistor VT, a capacitor C, diodes VD, a limiting resistor R and a load Z H.

This free energy generator is turned on by pressing the “Start” button, after which the control pulse is supplied through VD6 and R6 to the base of transistor VT1. When a control pulse arrives, the transistor opens and closes the circuit of current flow through the starting coils I. After which the electric current will flow through the coils I and excite the magnetic circuit, which will attract a permanent magnet. Magnetic field lines will flow along the closed contour of the magnet core and permanent magnet.

An emf is induced from the flowing magnetic flux in coils II, III, IV. Electric potential from the IV coil is supplied to the base of transistor VT1, creating a control signal. The EMF in coil III is designed to maintain the magnetic flux in the magnetic circuits. The EMF in coil II provides power to the load.

The stumbling block in the practical implementation of such a free energy generator is the creation of an alternating magnetic flux. To do this, it is recommended to install two circuits with permanent magnets in the circuit, in which the power lines are in the opposite direction.

In addition to the above free energy generator using magnets, today there are a number of similar devices designed by Searle, Adams and other developers, the generation of which is based on the use of a constant magnetic field.

Followers of Nikola Tesla and their generators

The seeds of incredible inventions sown by Tesla gave birth to an insatiable thirst in the minds of applicants to turn into reality fantastic ideas for creating a perpetual motion machine and send mechanical generators to the dusty shelf of history. The most famous inventors used the principles laid down by Nikola Tesla in their devices. Let's look at the most popular of them.

Lester Hendershot

Hendershot developed a theory about the possibility of using the Earth's magnetic field to generate electricity. Lester presented the first models back in the 1930s, but they were never in demand by his contemporaries. Structurally, the Hendershot generator consists of two counter-wound coils, two transformers, capacitors and a movable solenoid.

The operation of such a free energy generator is only possible if it is strictly oriented from north to south, so a compass must be used to set up the operation. The coils are wound on wooden bases with multidirectional winding to reduce the effect of mutual induction (when EMF is induced in them, EMF will not be induced in the opposite direction). In addition, the coils must be tuned by a resonant circuit.

John Bedini

Bedini introduced his free energy generator in 1984; a feature of the patented device was an energizer - a device with a constant rotating torque that does not lose speed. This effect was achieved by installing several permanent magnets on the disk, which, when interacting with an electromagnetic coil, create impulses in it and are repelled from the ferromagnetic base. Due to this, the free energy generator received a self-powering effect.

Bedini's later generators became known through a school experiment. The model turned out to be much simpler and did not represent anything grandiose, but it was able to perform the functions of a generator of free electricity for about 9 days without outside help.

Look at Figure 4, here is a schematic diagram of the free energy generator of that same school project. It uses the following elements:

• a rotating disk with several permanent magnets (energizer);
• coil with a ferromagnetic base and two windings;
• battery (in in this example it was replaced with a 9V battery);
• control unit consisting of a transistor (T), resistor (P) and diode (D);
• Current collection is organized from an additional coil that powers the LED, but power can also be supplied from the battery circuit.

With the start of rotation, the permanent magnets create magnetic excitation in the coil core, which induces an emf in the windings of the output coils. Due to the direction of the turns in the starting winding, current begins to flow, as shown in the figure below through starting winding, resistor and diode.

When the magnet is located directly above the solenoid, the core is saturated and the stored energy becomes sufficient to open the transistor T. When the transistor opens, current begins to flow in the working winding, which recharges the battery.

At this stage, the energy becomes sufficient to magnetize the ferromagnetic core from the working winding, and it receives a pole of the same name with a magnet located above it. Thanks to the magnetic pole in the core, the magnet on the rotating wheel is repelled from this pole and accelerates the further movement of the energizer. As the movement accelerates, pulses appear in the windings more often, and the LED switches from flashing mode to constant glow mode.

Alas, such a free energy generator is not a perpetual motion machine; in practice, it allowed the system to work tens of times longer than it could function on a single battery, but eventually it still stops.

Tariel Kapanadze

Kapanadze developed a model of his free energy generator in the 80s and 90s of the last century. Mechanical device was based on the operation of an improved Tesla coil, as the author himself claimed, compact generator could power consumers with a power of 5 kW. In the 2000s, they tried to build a 100 kW industrial-scale Kapanadze generator in Turkey, according to technical specifications it required only 2 kW to start and operate.

The figure above shows a schematic diagram of a free energy generator, but the main parameters of the circuit remain a trade secret.

Practical circuits of free energy generators

Despite a large number of of existing schemes of free energy generators, very few of them can boast real results, which could be tested and repeated at home.

Figure 8 above shows a free energy generator circuit that you can replicate at home. This principle was set forth by Nikola Tesla and is used to operate metal plate, isolated from the ground and located on some hill. The plate is a receiver of electromagnetic oscillations in the atmosphere, this includes a fairly wide range of radiation (solar, radiomagnetic waves, static electricity from the movement of air masses, etc.)

The receiver is connected to one of the plates of the capacitor, and the second plate is grounded, which creates the required potential difference. The only stumbling block to its industrial implementation is the need to isolate the plate on a hill large area for feeding at least a private home.

Modern look and new developments

Despite widespread interest in creating a free energy generator, it has been forced out of the market classic way They are not yet able to obtain electricity. Developers of the past, who put forward bold theories about significantly reducing the cost of electricity, lacked the technical perfection of the equipment or the parameters of the elements could not provide the desired effect. And thanks to scientific and technological progress, humanity is receiving more and more inventions that make the embodiment of a free energy generator already tangible. It should be noted that today free energy generators powered by the sun and wind have already been obtained and are actively being used.

But, at the same time, on the Internet you can find offers to purchase such devices, although most of them are dummies created with the aim of deceiving an ignorant person. And a small percentage of actually operating free energy generators, whether on resonant transformers, coils or permanent magnets, can only cope with powering low-power consumers, providing electricity, for example, a private house or lighting in the yard they can't. Free energy generators – promising direction, but their practical implementation still not implemented.

There are a large number of devices belonging to the so-called "". Among them, there are numerous designs of current generators that make it possible to obtain electricity from a magnet. These devices use the properties of permanent magnets capable of performing external useful work.

Currently, work is underway to create a device capable of driving a device that generates current. Research in this area has not yet been fully completed, however, based on the results obtained, one can fully imagine its structure and principle of operation.

How to get electricity from a magnet

In order to understand how such devices work, you need to know exactly how they differ from conventional ones. electric motors. All electric motors, although they use the magnetic properties of materials, move solely under the influence of current.

To operate a real magnetic motor, only constant energy magnets, with the help of which all necessary movements are performed. The main problem with these devices is the tendency of the magnets to become statically balanced. Therefore, the creation of variable attraction, using physical properties magnets or mechanical devices in the motor itself.

The operating principle of a permanent magnet motor is based on the torque of repulsive forces. The action of the same magnetic fields of permanent magnets located in the stator and rotor occurs. Their movement is carried out in the opposite direction in relation to each other. In order to solve the problem of attraction, a copper conductor was used with a electric shock. Such a conductor begins to be attracted to the magnet, but in the absence of current, the attraction stops. As a result, a cyclic attraction and repulsion of the stator and rotor parts is ensured.

Main types of magnetic motors

Over the entire period of research, a large number of devices have been developed that make it possible to obtain electricity from a magnet. Each of them has its own technology, but all models are united. Among them there are no ideal perpetual motion machines, since magnets completely lose their qualities after a certain time.

The simplest device is the anti-gravity magnetic Lorentz engine. Its design includes two disks with opposite charges connected to power. Half of these disks are placed in a hemispherical magnetic screen, after which they begin to gradually rotate.

The most real functioning device is considered simplest design rotary ring ringer Lazarev. It consists of a container that is divided in half by a special porous partition or ceramic disk. A tube is installed inside the disk, and the container itself is filled with liquid. First, the liquid enters the bottom of the container, and then, under the influence of pressure, the sweat tube begins to move upward. Here the liquid begins to drip from the bent end of the tube and again enters bottom part containers. In order for this structure to take the form of an engine, a wheel with blades is located under the drops of liquid.

Magnets are installed directly on the blades, generating a magnetic field. The rotation of the wheel accelerates, water is pumped faster and, in the end, a certain maximum operating speed of the entire device is established.

Basis linear motor Shkondina is a system of placing one wheel in another wheel. The entire design consists of a double pair of coils with opposite magnetic fields. This ensures their movement in different directions.

The alternative Perendeva engine uses only magnetic energy. The design consists of two circles - dynamic and static. Magnets are located on each of them in the same sequence and intervals. The free force of self-repulsion sets the inner circle into endless motion.

Application of permanent magnet devices

The results of research in this area are already making us think about the prospects for using magnetic devices.

In the future, there will be no need for all kinds of chargers. Instead, magnetic motors will be used different sizes, driving miniature current generators. Thus, many laptops, tablets, smartphones and other similar equipment will work continuously for a long time. These power supplies will be able to be switched from old models to new ones.

Magnetic devices with higher power will be able to rotate such generators, which will replace the equipment of modern power plants. They can easily work instead of internal combustion engines. Each apartment or house will have an individual energy supply system.