Patent Application
20180337617
The present invention relates to the field of magneto-electricity, in particular, to a method of supplying energy through the use of magnets and a device applying said method.
Artificial source of power has been the driving force behind everything made by humans and has been the one single element that propelled humanity from the dark ages into modern times. The term “artificial” in this context denotes mechanical power derived from fuel, with one such fuel being electricity. However, as with all fuels, the production of electricity requires an investment of considerable production costs.
Electricity is perceived as the ideal fuel of the future. Since its discovery some 150 years ago, electricity generation and usage has become an increasingly sophisticated and efficient process. For example, over the last several years, while the use of electrical machinery has been increasing, as it has been ever since electricity was discovered, the demand for electricity itself has been slowing down.
As much as electromagnetic science has advanced the notion of efficient generation of electric current, the production of electricity still requires considerable investment of other fuel and resources. While some of these resources are renewable, such as water and air, the cost of electric generation remains significant. Therefore, there is a tremendous need for a device that will reduce the cost of producing electricity, or which will make the existing electrical charge go further. A device that fulfills this purpose is embodied in the present invention.
The present invention has the potential to propel humanity toward nearly autonomous or even passive energy generation by creating a nearly ideal efficiency electricity generation system. The system embodied by the present invention in ideal settings only requires initial energization in order to promote and maintain a self-sustaining electric charge. Practically speaking, the system requires an initial activation shock from an existing power source and periodic secondary electric shocks to maintain the flow of current. However, the built in efficiency of the system reduces the shock requirements to a near standby mode, where the secondary shock requirement is never used if the system equilibrium remains constant.
The apparatus disclosed in the present invention transforms magnetic energy into a continuous electric energy current flow within a circuit. This is accomplished by creating a very strong magnet in the shape of an egg. In this shape the north and south poles of the magnet are complete coaxial with the flow channel of electric current traveling on a wire through the center of the magnet. The magnet contains a longitudinal channel through its center to allow for initial energization. The initial energization is accomplished by applying a very strong burst of electrical current from a direct current power source.
The magnet embodying the present invention is an egg shaped object that is inserted within the existing battery terminals. While the magnetic field inside the magnet is constantly spinning, the magnetic object itself remains immobile. The egg shape of the magnet creates a gradual increasing magnetic field originating from the pointed end of the egg and increasing in strength up until the blunt end, with the strength of the electric current in direct proportion to the magnetic field. The magnetic field inside the magnet and the flow of the current exist on the same axis, thus the flux naturally surrounding the flow of current is augmented by the magnetic field, which without any resistance inside the magnet, initiates an internal centripetal rotation giving rise to a specific one directional centripetal flow of electrons or the left hand rule principle. This centripetal motion creates an electromagnetic depression inside the magnet, which then attracts free electrons from the surrounding atmosphere towards the magnet, thus enhancing the magnet field and recover some of the energy lost by the magnet in maintaining voltage on the circuit. This arrangement will create a permanent or near permanent perpetuating magnetic field. This magnetic field maintains intrinsic, centripetal, magnetic forces that create a magnetic whirl-pool that rotates the magnetic field within the magnet without rotating the magnet itself.
The initial energization is accomplished by passing a wire through the longitudinal channel of the magnet. The wire, made from a highly conductive materials, for example copper, is then charged from a secondary power source, which may be a battery standby, or any other source of direct current. When sufficient wattage is reached to create a self-sustaining or near self-sustaining magnetic field within the magnet, the source of direct power source is disabled or removed. At that point the desired current is produced by the magnet itself. Furthermore, the current flowing through the wire carries on the dual role of delivering electric current to a load source and maintaining the rotation of the centripetal forces within the magnet.
To increase the wattage or power, the magnet embodied in the present invention may be increased by either increasing the size of the magnet, or by connecting one or more magnets in a row, with the energization wire running through the center of each magnet. The strength of electric current or voltage running on the wire is directly proportional to the number of magnets housed on the wire.
It is an object of the present invention to create a super-efficient power generating electric system.
It is another object of the present invention to create a self-recharging power generating electric system.
It is still another object of the present invention to turn a rare earth magnet or a magnetized material into a battery through introduction of a particular shape and linkage of the magnet.
It is still another object of the present invention to create an electric system that optimizes the efficiency of electric transfer through shape and configuration of its components.
The preferred embodiments of the present invention will now be described with reference to the drawings. Identical elements in the various figures are identified with the same reference numerals.
Reference will now be made in detail to embodiment of the present invention. Such embodiments are provided by way of explanation of the present invention, which is not intended to be limited thereto. In fact, those of ordinary skill in the art may appreciate upon reading the present specification and viewing the present drawings that various modifications and variations can be made thereto.
Turning now descriptively to the drawings, in which similar reference characters denote similar elements throughout the several views, the figures illustrate a perpetual or nearly perpetual permanent magnetic energy system showing in the
The magnet 1 may be made from an alloy combining several highly ferromagnetic conducive metals, or elements known to possess natural magnetism, such as copper, iron, nickel, aluminum, cobalt or titanium. The preferred length 10 of the magnet 1 may be between six and twelve inches, with the preferred width 11 being between four and eight inches, respectively. The egg shape serves as a guide for the magnetic field spin vertex 8. The infinite molecular magnetic domains will angle themselves and maintain a consistent pattern after the initial polarization. The electric current 12 creates the magnetic field 8 with initial energization. The magnetic field 8 will spin counterclockwise, with a natural inclined bias toward the current 12, as shown. The electric current 12 leads the rotating magnetic force 8, resulting in a natural concave acute shape (parabola) around the conducting wire, law of driven motion.
The magnet 1 that embodies the present invention has a small diameter, representing about one third of the magnet's overall width 11, at the point of current inflow, which is the front section 2. The diameter gradually increases gradually, until a point 13 that is approximately three forth of the distance to the rear section 2. At point 13, the preferred width of the magnet 1 is approximately eight inches, which must be kept proportional to the length 10. The diameter is then reduced precipitously until it reaches the rear section 2, which is also the area of the electron outflow, or the plus section or terminal. This design provides for the difference in magnetic field strength, with small diameter having a weaker magnet field flowing toward the larger diameter and stronger magnetic field, thus directing the flow of current 12 based on the principle of internal centripetal magnetic angular momentum vectorism. The measurements as shown in the diagram are 12″ length 10, and 8″ width (diameter) 11. Those dimensions making the magnet 1 into an egg shape. These dimensions may be increased or reduced for larger or smaller device sizes, respectively. For example, the length 10 may be 24″ and the width 11 at 16″, or length 6″ by width 5″. The magnet 1 has no energy loss due to resistance, since there is no rotation and the magnetic field resides inside the device. The direction of magnetic and electric energy fields flow to produce a perfect synergy for coaxial transmission of power.
The magnetic field 8 within the magnet 1 originates at longitudinal channel 9 and is then distributed in an arch confirming to the curvature of the sidewall 18, and eventually refracting centripetally to create a magnetic vortex shown in
The left hand principal stated above, creates a flow of current toward the rear end 2 of the magnet 1. The angular momentum of the centripetal force 8 in the magnet 1 functions to create an atmospheric depression within the magnet 1 where the atmospheric pressure 20 surrounding the magnet 1 is higher than within the magnet, causing the electrons of atmospheric molecules surrounding the magnet 1 to transfer their electrons to the magnet 1. This transfer of electrons partially offsets the loss of electric charge of the magnet 1 due to the resistor 6. Therefore, the magnet 1 is constantly recharged from two sources, the energized wire within the longitudinal channel 9 and from electrons given off by atmosphere 20.
Although this invention has been described with a certain degree of particularity, it is to be understood that the present disclosure has been made only by way of illustration and that numerous changes in the details of construction and arrangement of parts may be resorted to without departing from the spirit and the scope of the invention.
