OA21560A - Device for producing electrical energy with opposing magnets. - Google Patents

Abstract

The invention relates to a device for producing electricity without harming our environment. It consists of a frame (1) for holding the armatures and the mechanical axes firm, magnets (13) placed in opposition alternate and produce a rotational movement of the block and thus those of different blades of the wind supports. By pressing the battery control button, the pulley raises the threaded spacer carrying the block (large toothed wheel (7), lower support of the magnets (8), middle support of the magnets (9), upper support of the magnets (10)) in the turbine area. The interaction between the magnets (13) of the block and those of the blades (14) of the wind supports (12) generate a force capable of turning an alternator (16) and producing electricity. All this is coordinated by a gear system of small toothed wheels housed in the large wheel. The system stops when the control button is pressed again and the unit leaves the turbine area. The device according to the invention is particularly suitable for hospitals, cold rooms, hotels and areas where electricity is not available.

Description

DESCRIPTION OF THE INVENTION

Device for producing electrical energy with opposing magnets

The present invention relates to a device for producing energy from opposing magnets.

An electrical device is a device or generator capable of producing electrical energy from another form of energy, for example from an electromotor.

A generator converts the energy produced, whatever its form.

In terms of heating or air conditioning, a generator is a device that converts the energy supplied to it: fuel, thermal energy (heat or cold), thermodynamic (pressurized gas), electrical, mechanical. This energy can be of renewable origin (solar, photovoltaic, wind, geothermal, hydraulic, agro-fuel biomass, etc.), of nuclear origin or of fossil origin (coal, oil, gas).

Generally, electric generators are rotating machines that have a moving part that rotates around a fixed part. The electric current is produced by a force that sets the alternator in motion (hydroelectric dam, internal combustion engine, nuclear power plant, wind power).

These different methods involve risks:

- The destruction of the ecosystem and biodiversity for the dam. In the event of unusual rainfall or an earthquake, the dam may give way and cause a massacre. Indeed, in the event of low rainfall, there are untimely power cuts. There are also losses in Joule effect during the transport of the high-voltage line to the places of consumption. The risks of accidents in forests, hills, river crossings and streams should also not be neglected.

- Noise pollution and air pollution for combustion engines. In case of fuel shortage, there are also power cuts. Which does not make this means of producing electricity reliable and permanent.

- Radioactive waste from nuclear power plants is very harmful to living beings.

- Wind energy is expensive and requires a lot of expertise for underdeveloped countries, it is often a source of conflict over the natural space occupied.

The device according to the invention makes it possible to overcome these drawbacks. It contains a frame on which the mechanical axes are fixed.

The frame is composed of:

- Firstly, a 12V battery, a 12V self-reversing motor, a trapezoidal belt and a trapezoidal pulley in which a threaded spacer is housed;

- In a second step, the block carried by the spacer composed of: the large toothed wheel (drive), the lower support of the magnets, the middle support of the magnets, and the upper support of the magnets. Above the block is attached the alternator. The end of the shaft that supports the block has teeth. It slides from bottom to top and vice versa inside the alternator axis. They are both held by a gear.

- And finally, wind supports equipped at their bases with small gear wheels (driven) meshing with the large gear wheel (driving) and on their tops are fixed blades carrying magnets opposite those of the different magnet supports of the block in Figure 4.

By pressing the control button on its upper part, the battery rotates the trapezoidal pulley by means of a transmission belt by a self-reversing motor. The pulley raises the threaded spacer that carries the block from point A to point B.

The block enters the turbine zone because its magnets are opposite those of the wind turbine supports in Figure 1. The block starts to rotate together with the large gear wheel under the influence of the alternating opposing magnets. The large gear wheel transmits its movement to the various small gear wheels by a gear system. The small gear wheels transmit this movement to the magnets of the blades of the wind turbine supports by a bent gear system in Figure 2. And since the magnets of the block are opposite those of the wind turbine supports, their different interactions cause a motor effect and the movement becomes permanent: hence the permanent source of energy.

The sum of these forces generated by the repelling magnets causes the block and the alternator of the device in Figure 3 to rotate simultaneously. The alternator immediately produces electric current.

The accompanying drawings illustrate the invention.

Figure 1 shows the front view of the device of the invention;

Figure 2 shows the side view of the wind support of the magnets according to the invention;

Figure 3 shows the top view of the upper magnet support and the alternator;

Figure 4 shows the large toothed wheel on which the lower support of the magnets is fixed, the wind support of the magnets provided at its base by the small toothed wheel meshed in the large wheel.

With reference to these drawings, the device comprises:

a frame, a 12V battery, a 12V self-reversing motor, a trapezoidal belt, a trapezoidal pulley, a threaded spacer, the large driving gear, the lower magnet support, the middle magnet support, the upper magnet support, the small driven gears, the wind supports, the magnets, the blades, the movement input shafts, the alternator.

By pressing the control button on its upper part, the battery (2) activates the self-reversing motor (3). The motor, by means of a trapezoidal belt (4), in turn rotates the trapezoidal pulley (5). The trapezoidal pulley raises the threaded spacer (6) carrying the block containing the large toothed wheel (7), the lower support of the magnets (8), the middle support of the magnets (9) and the upper support of the magnets (10) from point A to point B.

When the path reaches point B, the block enters the turbine zone because its magnets (13) are opposite those of the blade magnets (14) of the wind supports of the magnets (12).

The interaction between the magnets (13) placed in opposition causes a rotational movement of the entire block as well as that of the small wheels meshed in the large toothed wheel (7). The movement input shafts (15) fixed on the small toothed wheels in turn transmit the rotation received to the different blades (14) of the wind supports by a bent gear system of figure 2. While the first magnets of the blades come out of the different interactions, the other magnets of the blades follow, entering in turn into action under the effect of the rotation. The movement thus becomes permanent.

It should be noted that each time a magnet (13) of the blade (14) crosses an opposite magnet of the different magnet supports of the block on its path, mounted in parallel and each in its well-defined trajectory, this triggers a permanent rotational movement of the entire system since the different magnets alternate. The sum of the forces of these different interactions generates a power capable of rotating the alternator (16) coupled to the axis of the block by a sliding tooth Figure 3. This results in a production of electrical energy of approximately 5000 watts capable of powering a small business. This free, local energy is inexpensive.

By pressing the control button on its lower part again, the block exits the turbine area leaving from point B to point A and the system stops.

According to a variant not illustrated, the device can be equipped with an automatic relay system capable of ensuring continuity in the event of an untimely power outage.

The device according to the invention is intended for hospitals, cold rooms, and Sahelian areas which are not supplied by the electricity network.

Claims (3)

1. Device comprising a frame (1) on which the mechanical axes are fixed, said frame comprising: • a battery (2); • a self-reversing motor (3); • a trapezoidal belt (4); • a threaded spacer (6) housed in a trapezoidal pulley (5); • a block carried by the spacer composed of a large driving toothed wheel, a lower magnet support, a middle magnet support and an upper magnet support; above the block is attached an alternator, the end of the shaft which supports the block has teeth, the latter sliding from bottom to top and vice versa of the alternator axis; both are held by a gear; • wind supports equipped at their bases with small driven gear wheels meshing with the large driving wheel and on their tops are fixed blades carrying magnets opposite those of the different magnet supports of the block; said elements operating in synergy so as to provide electric current. 2. Device according to claim 1, characterized in that by pressing the control button on its upper part, the battery (2) activates the self-reversing motor (5), the latter rotates the trapezoidal pulley by means of a trapezoidal belt (4); the trapezoidal pulley (5) raises the threaded spacer (6) carrying the block from point A to point B or lowers it from point B to point A; when the path reaches point B, the block enters the turbine zone, the magnets (13) of the block being opposite those of the different blades (14) of the wind supports (12), the interactions between the magnets (13) of the block and those of the blades (14) generate a permanent rotational movement of the entire system as well as that of the alternator (16) producing the electric current. 3. Device according to any one of the preceding claims, characterized in that the production of electrical energy is close to the place of consumption and preserves our environment.