BRPI1001203A2 - SELF-SUSTAINABLE ELECTROMAGNETIC MOTOR - Google Patents

Abstract

SELF-SUSTAINABLE ELECTROMAGNETIC MOTOR, patent for the invention of a motor that takes advantage of the energy contained in the magnetic electric vacuum, created between the stator (1) and the rotor (2). The electrodes of the stator (1) are arranged in a circular shape connected to each other through a permanent magnet (5), thus developing a continuous flow magnetic field, this means that the rotor (2) never finds an equilibrium position , keeping in constant motion, due to the repulsion that the magnets (5) exert on the magnetized nuclei.

Description

«Ι

ELECTROMAGNETIC ENGINE

Self-sustaining "

The present invention relates to a motor that harnesses the energy contained in the magnetic electric vacuum created between the stator and the rotor.

This system solves the problems existing in today's motors and generators using permanent magnets and electromagnets.

In the current state of the art, the motors and 10 generators utilizing the permanent magnet system are of low power, not generating enough energy to realize motive force. The ones that use the electromagnet system are of high power, but consume a lot of energy during its operation.

is In order to solve these problems

The self-sustaining low energy electromagnetic motor was developed through a purely magnetic process, thus providing a significant increase in its efficiency.

During its operation the Motor

Self-sustainable Electromagnetic uses permanent magnets and electromagnets, generating its own energy for its operation, without the need for external power, capable of providing infinite autonomy for equipment that needs electricity.

Its operation is based on the forces of attraction and repulsion of the magnetic and electromagnetic systems. ΓΟ. '. Τ * xAKt ^ ΜΟλ7: * 5 • already vC: V ‘. '- ··: .η-; · ο f. The

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eS? 0 '»: c --T -». , T. The stator electromagnets are arranged in a circular shape connected to each other through a permanent magnet. From this arrangement, a continuous flux magnetic field develops, causing the rotor never to find its equilibrium position, keeping in constant motion as a result of the repulsion that the magnets exert on the magnetized nuclei.

However, to better understand the following detailed description, accompanying illustrative drawings are provided in which:

Figure 1 shows the representation of the

stator.

Figure 2 shows the representation of the

rotor.

Figure 3 shows a cross section of the

engine assembly.

Figure 4 shows the representation of the

bifilar coil.

As illustrated by the above related figures, the "Self-supporting Electromagnetic Motor" invention object, which is the object of the present invention, consists of a motor that harnesses the energy contained in the magnetic electric vacuum created between the stators (1) with the rotor ( 2).

Figure 1 shows that the stator (1) is composed of a base of magnetic insulating material (6), with bifilar coils (4) of extended ferrous core (3) and interspersed with permanent magnets (5). The polarity of the magnets (5) must obey the direction of the current that induces the bifilar coils (4).

Figure 2 shows that the rotor (2) is composed of permanent magnets (5) encapsulated in a disc of magnetic insulating material (7), resistant to possible deformation.

Figure 3 is a cross section of the "Self-supporting Electromagnetic Motor" assembly. This representation shows the position of the rotor (2) between the stator ions (1), connected to a drive shaft (8), allowing the installation of a mechanical coupling (9), affixed to a structure of magnetic insulating material (10). ).

Figure 4 shows the representation of a bifilar coil (4). The most important thing to note is that to install a speed-controlled pulse circuit (12), the magnetic flux direction (11) must be obeyed. In addition to the two-wire coil (4) it is also possible to use three-wire coils to double the volume at the output (13), as long as the pulse circuit is altered for this purpose as well.

Claims (3)

1. w self-supporting electromagnetic motor ", characterized by an electromagnetic motor consisting of a stator (1) with a base of magnetic insulating material (6), bifilar coils (4) with an ferrous core (3), electromagnets arranged in a circular form connected to each other others through a permanent magnet (5). Self-supporting electromagnetic motor according to claim 1, characterized by a rotor (2) composed of permanent magnets (5) encapsulated in a disc of magnetic insulating material (7). Self-supporting electromechanical motor according to claims 1 and 2, characterized in that the rotor (2) is connected to a drive shaft (8), enabling the installation of a mechanical coupling (9), affixed to a structure. of magnetic insulating material (10).