WO2008090264A1

WO2008090264A1 - Device for propelling a body

Info

Publication number: WO2008090264A1
Application number: PCT/FR2007/000115
Authority: WO
Inventors: Roland Moutou
Original assignee: Roland Moutou
Priority date: 2007-01-22
Filing date: 2007-01-22
Publication date: 2008-07-31

Abstract

The invention relates to a device for propelling a body, consisting of an assembly comprising at least two parallel planar conductive members electrically supplied with a variable current, said current being capable of generating electromagnetic forces in the same direction and applied to said conductive members which are remote from each other in order to generate a π/2 phase difference of the magnetic field between the point where said magnetic field is applied and the point where it is generated, thereby inducing a displacement of said conductive members and the movement of the body to which said assembly is connected.

Description

DRIVE DEVICE FOR A BODY ⁷

The present invention relates to a propulsion device, whose characteristic is to act, to put a body in motion, without the need for interaction with its environment.

All propulsion devices known at present actually call for their operation, the reaction of a medium that is external to them or that of material elements that become external.

Thus, for example, the foot of a walker or the driving wheel of a motor vehicle allow the propulsion of the walker or said vehicle because they can transmit to them the tangential reaction of the ground.

Similarly, a boat or airplane propeller transmits to the vehicle the reaction of the fluid in which it is located; a turbojet engine or a rocket engine moves under the effect of the reaction exerted by the gas ejected on the nozzle and the combustion chamber.

Finally, an ion propulsion engine moves thanks to the electrostatic reaction exerted by the particles ejected on the electric charges of the particle guns.

The object of the present invention is, therefore, to propose a device for moving a body capable of avoiding any interactions, apart from those resulting from a possible surface contact, between the propellant and an external medium. .

Such an invention thus advantageously makes it possible to pave the way for new applications, such as in particular propulsion in a material medium or in a vacuum without emissions of materials, without emissions of thermal radiation or emitting electromagnetic radiation.

For this purpose, the invention proposes a propulsion device, characterized in that it consists of an assembly comprising at least two parallel planar conducting elements powered electrically in variable current, said current being defined capable of generating at each level. conductive element a magnetic field generating, on these conductive elements, electromagnetic forces of the same direction; said conductive elements are spaced relative to each other by a determined distance such that the magnetic field created at one of the conductive elements is exerted with a phase shift of π / 2 on the other element driver.

The variable current producing a variable magnetic field whose propagation is comparable to a wave moving at the speed of light, this last characteristic then assumes a spacing between the conductive elements equal to λ / 4, where λ corresponds to the length of wave wave assimilated to propagation of the magnetic field.

The principle on which the invention is based therefore consists in creating a particular electromagnetic interaction between at least two conductive elements traversed by variable currents.

By applying variable currents to conducting elements, the device according to the invention advantageously has the possibility of making the direction of a current and the effect it produces independent.

More precisely, by applying variable currents to an assembly comprising, for example, two parallel flat conductive elements connected to the same body, one of the two elements will be attracted by the other while the latter will be seen repelled, and the two conductive elements will transmit to the body forces of the same meaning which may have the effect of setting it in motion.

The driving of the propulsion device is thus ensured by the variation of the voltage of the power supply, the electromagnetic force of propulsion produced being even greater than the same voltage is high, and the inversion of this force being obtained by inverting the supply voltage by inverting the direction of propagation.

Advantageously, the conductive elements are spaced apart from each other so as to generate a phase shift of the magnetic field of ir / 2 between the point where said magnetic field is exerted and the point where it is created, causing the displacement said conductive elements. So that the electromagnetic forces produced are maximum, the spacing between the conductive elements will be chosen as small as possible. A spacing of lmm is thus for example quite appropriate and possible since it implies for the current a frequency of f = c / λ = 75Ghz. However, the industry is currently quite capable of supplying sources producing IkV at this frequency.

Consequently, the propulsion device according to the present invention is further characterized in that the power supply used is of the high frequency type, for example capable of delivering such a current with a frequency of 75 Ghz.

Thus, when a flat conductive element, for example of circular shape is connected to such a high frequency power supply, high frequency currents will travel it diverging from the point of application. When two flat conductive elements are located opposite, the surface currents flowing through them are in the desired position for the operation of the propulsion device according to the invention. A plurality of conductive elements can of course be associated with the assembly, provided however that the same phase difference between their power supplies is maintained. It is thus advantageously possible to obtain a module in which each "inner" conducting element is subjected to the electromagnetic forces of the two conductive elements which surround it.

According to a feature of the invention, the propulsion device is further characterized in that the various conductive elements forming said assembly are separated from each other by means able to maintain the spacing and to increase the magnetic coupling, these means which can be defined in particular by an insulator, isolated laminated soft iron or a ferromagnetic dielectric.

It should also be noted that the propagation velocities of the magnetic field between the conductive elements and that of the electric field in the supply wiring are similar if not equal. This feature makes it possible to simplify significantly the mounting of the device by connecting all the conductive elements together.

According to an additional feature of the present propulsion device, the assembly cooperates with supra-conductive means to increase its effectiveness.

On the other hand, so as to satisfy the criterion of absence of electromagnetic radiation emission, the propulsion device is further characterized in that said assembly is placed in a conductive enclosure to prevent the propagation of electromagnetic waves in the environment.

Two other characteristics of the propulsion device according to the invention also provide the possibility of either mounting said set of at least two parallel planar conducting elements directly on said mobile, or through a rotating shaft.

Thus, attached to any body, the present device makes it possible to propel it in two different ways, namely directly, in which case the displacement of the body is perpendicular to the planes of the associated conductive elements, or indirectly by driving a rotation shaft. .

Claims

1. A propulsion device, characterized in that it consists of an assembly comprising at least two parallel flat conductive elements electrically powered with variable current, said current being defined capable of generating at each conductive element a magnetic field generating, on these conductive elements, electromagnetic forces of the same direction; said conductive elements are spaced relative to each other by a determined distance so that the magnetic field created at one of the conductive elements is exerted with a phase shift of ir / 2 on the other element driver.

2. Propulsion device according to claim 1, characterized in that the spacing between the various conductive elements forming said set is equal to λ / 4, where λ corresponds to the wavelength of the wave assimilated to the propagation of the magnetic field.

3. propulsion device according to any one of the preceding claims, characterized in that the various conductive elements forming said set are separated from each other by means able to maintain said spacing and to increase the magnetic coupling, these means being defined by an insulator, isolated laminated soft iron or a ferromagnetic dielectric.

4. Propulsion device according to any one of the preceding claims, characterized in that the power supply is of the high frequency type.

5. Propulsion device according to any one of the preceding claims, characterized in that said assembly cooperates with supra-conductive means.

6. propulsion device according to any one of the preceding claims, characterized in that said assembly is placed in a conductive enclosure to prevent the propagation of electromagnetic waves in the environment.

7. Propulsion device according to any one of the preceding claims, characterized in that said assembly is mounted directly on said mobile.

8. propulsion device according to any one of claims 1 to 7, characterized in that said assembly is connected to said mobile through a rotating shaft.