NL8703016A - Environmental kinetic to electrical conversion using magnetic flux - energy from kinetic particles or photon field into electron current in conductor surrounding permanent magnet - Google Patents

Abstract

The energy conversion method uses a permanent magnet (11) which is installed in the space within a sec. coil (13) which lies within and concentric with a pref. superconducting prim. winding (12). The axis of magnetisation lies in a plane parallel to the upper and lower boundary planes of the coils (12, 13), which are accommodated between thermally conductive plants (14, 16) of e.g. Cu or Al with outwardly projecting ribs (15, 17) of the same material. Alternating current through the prim. coil (12) generates an alternating magnetic field at right angles to that of the magnet (11). The resultant field traverses the sec. coil (13) and induces a useful voltage in it. Energy drawn from the sec. coil (13) is replaced by heat transfer from the surroundings through the plates (14, 16) and ribs (15, 17) on either side of the structure.

Description

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Magnetic Nuclear Resonance Converter, method for converting ambient energy into electrical energy, and apparatus for carrying out this method.

In my Dutch patent application no. 8700869 "Device for converting magnetic energy into electrical energy", filed on 13.04.1987, a device for converting magnetic energy into electrical energy has already been described. This was done using permanent magnets, among other things.

The magnetic core resonance converter, method for converting ambient energy into electrical energy, as well as a device for carrying out this method, according to the invention, is in fact a special case of the principle already described in my above-mentioned patent application. In the particular case where magnetic core resonance of the magnetic medium occurs within the primary and secondary windings of the energy absorption system, the presence of permanent magnets in the system, as described in my aforementioned patent application, is not necessary.

The magnetic core resonance converter according to the invention aims to create a useful method, as well as a usable device, with which environmental energy can be collected and converted into electrical energy, thereby obtaining a useful electrical energy source.

Electromagnetic energy transmitters have long been known in various forms. They usually consist of two electric coils enclosing a common magnetic or magnetizable medium and are usually referred to as transformers. Energy transformers are supplied with a sinusoidal voltage with a mains frequency between 16 2/3 Hz. up to 60 Hz.

These transformers have the disadvantage that they have heat losses during the energy transfer, which are known under the name copper and iron losses and which have a negative effect on the efficiency of the transformers.

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The transformers used in this way are only capable of transforming the supplied electric energy into magnetic energy and then converting this magnetic energy back into electric energy of different voltage and current.

The delivered electric energy is always less than the supplied electric energy.

Electric energy transfer avoids using a frequency that is close to the transformer's own magnetic core resonance frequency, since at this frequency the electric energy absorbed increases sharply at the same electric power output, which would mean a significant loss of efficiency.

15 Investigations into the mechanism that causes the sudden increase in energy loss upon reaching the transformer's magnetic core resonance frequency have led to the discovery of the reverse phenomenon, namely that the electrical energy absorbed suddenly decreases sharply with constant energy delivery upon reaching the magnetic core resonance frequency, when the transformer and the supplied electrical signal have certain specific properties. Namely, in that case it has been found that the transformer absorbs environmental energy and converts this environmental energy into electrical energy, so that the total amount of electrical energy delivered is more than the electrical energy supplied.

Fig. 1 shows a very schematic representation of the three essential parts of the magnetic core resonance converter, namely: a signal generator 13, an energy absorption transformer 14, and an electronic frequency converter 15. Electric power is supplied to input 11, e.g. 220 V. / 50 Hz. This power is electronically processed in the '35 signal generator 13 in such a signal that a magnetic core resonance is created in the magnetic medium of the energy absorption transformer 14 when it is fed therewith. Fig. 2A shows a side view and FIG. 2B shows a cross section I-I of the energy-8 / C · G £ t 3 absorption transformer, in which the energy absorption and conversion takes place. The core 21 preferably consists of laminated soft iron or ferrite material, or any other suitable magnetic or magnetizable medium, and is provided with energy-absorbing ribs 22. The width 24 of the primary resonance coil 23 should be as small as possible. The secondary energy coil 25 should preferably be placed opposite the primary resonance coil 23.

In the construction of the secondary energy coil 25, the width 26 must be chosen as large as possible.

Due to the magnetic core resonance in the energy absorption transformer 14, an electrical, sinusoidal voltage is induced in the secondary energy coil 25, with a frequency corresponding to the magnetic core resonance frequency. This generated electric power is supplied to an electronic frequency converter 15 and is processed into a desired voltage and frequency and is output via the output 12.

By a suitable adjustment of the signal at the output 12 with the signal at the input 11, the signal generator 13 can be powered from the output 12, whereby an independent electric energy source is created. A second voltage source is only needed to "punch" or "start" the magnetic core resonance converter.

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Claims (11)

1. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method, characterized in that energy is extracted from the environment and converted into electrical energy. 2. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 1, characterized in that the device comprises, inter alia, an energy absorption transformer. 3. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 1 and 2, characterized in that the device comprises, inter alia, a signal generator. 4. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 1 to 3, characterized in that the device comprises, inter alia, a frequency converter. 5. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 2, characterized in that said transformer comprises a primary resonance coil, which is constructed such that the width 24 of this coil is as small as possible. 6. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 2, characterized in that said transformer contains a secondary energy coil, which is constructed such that the width 26 is as large as possible is. 7. Magnetic core resonance converter, method for converting ambient energy into electrical energy, as well as a device for carrying out this method according to 6, characterized in that said secondary energy coil is opposite the primary resonance coil is placed on the common magnetic resonance medium. 8. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 2, characterized in that said transformer is provided with energy-absorbing ribs. 9. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to one of the preceding claims, characterized in that said primary resonance coil and secondary energy coil of the energy absorption transformer, a common enclose transformer core, or magnetic medium, in which a magnetic core resonance 20 is produced. 10. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to one of the above claims, characterized in that said signal generator feeds the energy absorption transformer with such an electrical signal that a magnetic core resonance is generated as defined in claim 9. 11. Magnetic core resonance converter, method for converting ambient energy into electrical energy, and device for carrying out this method according to 1 to 4, characterized in that the device can supply itself with energy and in this way creates an independent energy source. . 8 7 0 i C 16