WO2015024138A1 - Element for collecting the earth's magnetic field in order to convert same into electrical or mechanical energy - Google Patents

Abstract

The invention relates to an element for collecting the earth's magnetic field, comprising collecting, channeling, concentrating, amplifying and injecting the earth's magnetic field into a core comprising: a platform defining a space, having the appearance of pedestrian paths or in general surfaces intended for stationary or moving wheeled or winged vehicles, said platform being made from ferromagnetic material; a core or shaft of permeable steel for concentrating the magnetic field, oriented longitudinally from south to north, said core containing a secondary winding of the transformer device, with one of its ends connected to the platform by means of a narrowing or constriction in the platform that is sized to match the dimensions of the transverse area of the core; a secondary transformer which transforms the magnetic flux collected in the core into useful energy; and a reluctance regulator at the end of the device, or a diamagnetic ferromagnetic switch such as to provide the flux variation required for the induction in the secondary winding of said transformer device, formed by a coil and an alternating current output capacitor.

Description

 GROUND MAGNETIC FIELD CATCHER FOR

CONVERT YOU IN ELECTRICAL OR MECHANICAL ENERGY

TECHNICAL SECTOR

The present invention relates to a system of uptake of the earth's magnetic field comprising the uptake, channeling, concentration, amplification and injection of the earth's magnetic field into a core by conducting the amplified magnetic field and converted into a variable magnetic field, a necessary and sufficient condition for produce the electromagnetic induction in the final winding where the desired electrical energy is obtained.

PREVIOUS TECHNIQUE

Energy currently caters to human needs:

1) By using nuclear energy either fusion and fission.

 a) The domain has not yet been achieved for peaceful industrial uses.

 b) This energy widely used and of considerable power, adaptable very well to the industry but highly unstable in the face of natural catastrophes and / or accidents (Long Island, Chernobyl, Fukushima).

i The residues of this technology are now socially resisted due to the long and active life with dangers of high contamination and difficult confinement over time. 2) With the use of fossil energy: oil, gas, and coal.

 These pollute the environment through the emission of carbon dioxide, nitrogen and other polluting gases harmful to health and the landscape.

3) In the case of hydraulic energy, it needs natural aquifers and containment dams with a very high initial investment and adequate tectonic needs.

4) Wind energy: it is present in absolutely discontinuous form depending on the weather and orography, not present everywhere.

5) Solar, thermal and / or photovoltaic energy: discontinuous, high cost and difficult to capture according to the demand of large areas for installation. Although the quantum potential of these converter devices is extremely important.

6) Mareomotríz: of the waves and the tides. The physical situation of these plants arranged by the sea only prevents their establishment inland. 7) Biomass: It mainly emits pollutant gases and in the raw material it competes with the use for food in every sense, land, machinery, man hour, costs.

8) Geothermal: The geographical location greatly conditions the possibility of its use.

All the described energies have in common difficulties such as environmental pollution, large initial costs, maintenance, immense surfaces for installation, conditioning of place, time, seasonal.

The proposal of this patent presents better conditions in any part of the world »at all times, every day, 365 days of the year, at very low initial costs, without maintenance, or mechanical transmissions that need lubrication etc.

The problems solved by this proposal is to provide absolutely sustainable energy (non-polluting, effective, efficient, economical, and with absolute flexibility of placement anywhere in this world) and with superlative energy efficiency.

DISCLOSURE OF THE INVENTION

Taking into account the properties of the earth's magnetic field, we capture its flow from the depth, channel it, amplify it, picking up this result on the earth's surface through a platform that is congruent with the Earth's magnetic field, north-south. Then we strangle this format and deliver it concentrated in a core with dimensions provided with the density needed to power a device that will serve as a exciter for any device where magnetic energy is used. The magnetic energy of the earth's magnetic field is used in order to provide it to domestic and industrial equipment and through converters to be able to take advantage of this energy in its different manifestations, magnetic, electrical, thermal, mechanical, light, etc. There are more than 1600 million people who do not have access to electricity (this means refrigeration of food and medicine, of humans and animals. Lighting, which allows more hours of production, entertainment, access to information knowledge, obtaining drinking water). All this implies a significant improvement in the condition of human life.

In this way we solve unmet needs of great importance in the world in which we live.

It's about capturing Earth's magnetic energy. Channel it with high permeability material, collect the magnetic energy that has been amplified along the way; This amplification is directly proportional to the permeability of the constituent material of said device.

This amplified magnetic energy is injected into a core that contains a reluctance variator and a winding on said core where the necessary induction that enables the production of industrial or other electrical energy is produced.

The power obtained depends on the quality of the permeability and the physical size of this device. DESCRIPTION OF THE DRAWINGS

A sectional view on line A-A of Figure 2 is illustrated in Figure 1. A plan view of the object of the invention is illustrated in Figure 2.

In figure (1): several wells (1) are displayed, which must be as deep as possible, filled with ferromagnetic material. At the top we connect these wells (1) to a platform (2) for collection, channeling, concentration, amplification and injection of the magnetic field that shows the appearance of pedestrian routes, pavements in general for transit of wheeled vehicles, winged, and whether fixed or mobile, it is made of ferromagnetic material. This must be oriented north-south being as extensive as possible, strangled at one end. Then we connect this to a magnetic flux conductor, this being a core (3) with the condensed magnetic field transformer type, the core (3) is a permeable steel shaft is oriented longitudinally from south to north with one of its ends connected with the platform by means of a narrowing or strangulation in the platform that coincides in dimensions with the transverse area of the core.

In this core there is a secondary winding of the transformer device (4); In series with the magnetic flux conductor or core (3), we insert a reluctance rod (5) at the end of the device, that is, a diamagnetic ferromagnetic switch in such a way that it will provide the flux variation necessary for induction in the secondary of said transforming device (4), also composed of a winding and a capacitor ae saiiaa ae comment alterna {f).

In figure 2): top plan view with the points described in figure 1. Wells filled with ferromagnetic material (1);

Platforms or shields of ferromagnetic material (2);

A core (3) magnetic flux conductor;

Transformer device (4); Y

Reluctance Vary (5).

Due to the characteristics of this invention, the device does not require maintenance of any nature.

What has been said here is congruent with the numbers and letters that are described in the figures.

Claims

1. Sensor of the Earth's Magnetic Field that includes the capture, channeling, concentration, amplification and injection of the Earth's magnetic field to a core by driving the amplified magnetic field and converted into a variable magnetic field CHARACTERIZED because it comprises: a platform that defines a volume, which shows the appearance of pedestrian routes, pavements in general for transit of wheeled, winged vehicles, whether fixed or mobile, it is made of ferromagnetic material; a steel core or axis of concentration of the permeable magnetic field oriented longitudinally from south to north, in this core there is a secondary winding of said transformer device, with one of its ends connected to the platform by means of a narrowing or strangulation on the platform that coincides in dimensions with the cross-sectional area of the core; a secondary transformer that transforms the magnetic flux captured in the nucleus into useful energy; and a reluctance variator at the end of the device, that is, a diamagnetic ferromagnetic switch in such a way that it will provide the necessary flux variation for the secondary induction of said transformer device, consisting of a winding and an alternating current output capacitor.

2. Terrestrial Magnetic Field Sensor comprising the collection, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because it also comprises deep wells, filled with ferromagnetic material, which are connected on top of the platform.

3. Terrestrial Magnetic Field Sensor comprising the collection, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because it also comprises two or more sensors connected in series.

4. Terrestrial Magnetic Field Sensor comprising the capture, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because the secondary transformer is an electric motor.

5. Terrestrial Magnetic Field Sensor comprising the collection, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because the secondary transformer is an alternator.

6. Terrestrial Magnetic Field Sensor comprising the acquisition, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because the secondary transformer is a dynamo.

7. Terrestrial Magnetic Field Sensor comprising the acquisition, channeling, concentration, amplification and injection of the earth's magnetic field to a core according to claim 1, CHARACTERIZED because the secondary transformer is a semi-motor.