FR739458 --- COUTIER - 1932
Self-generating perpetual of electrical energy.

Description

The apparatus is composed of a closed magnetic circuit (fig. 1) consisted 1 soft iron core, affecting the shape of a cylinder of section S; NR cores satellite, of section parallels to the core and laid out circularly around this core; 2N radial branches, of section S/N connecting the NR satellite cores to the core.

The core carries inductive winding comprising the number of whorls necessary to obtain, with a primary current of intensity given, the saturation of the magnetic circuit.

Each satellite core carries a winding comprising the same number of whorls as that of the core.

Being given the specific measure of the magnetic circuit, each one of the NR groups formed by the core and any of the NR satellites constitutes alone a transformer. The current induced in each one of the NR satellite windings has even power that the inductive central current.

Thus constituted, the apparatus carries out the multiplication of electrical energy. Energy collected being higher than initial creative energy, one immediately conceives the possibility of taking indefinitely, on energy collected, the power necessary to the perpetual reconstitution of initial energy.

Figure 2 schematically indicates the device used to carry out the industrial model of self-generating perpetual of electrical energy, models established for its employment in industry, sea and river transport, traction on railways.

Three multiplying apparatuses (the number of these apparatuses can be unspecified) are combined in series, in such way that the circuit of the core E of any of the apparatuses, is supplied by the current resulting from the satellite circuits F, combined in derivation, of the apparatus which precedes it. The satellite circuits of 1 combined in derivation feed the central circuit of 2. In the same way, the satellite circuits of 2 feed 3 exchange.

Each apparatus comprising 6 satellites (the number of the satellite cores can be unspecified) the factor of amplification for each apparatus is 6, that is to say for the 6^ unit 3 = 216.

It is then easy, using a derivation and rheostat H, to take on the final current, energy necessary to the reconstitution of the initial current.

Engine I with alternative course, actuates the dynamo J, assembled on the same tree. The D.C. current from the dynamo J, actuates the transformer trembler K (report/ratio 1/1).

The alternative course, resulting from the transfor mator K, reconstitutes the current initiated feeding the circuit of the core E of the first multiplier.

The device includes/understands moreover 2 accumulator batteries intended to counter any possibility.

One of the batteries, L is on standby whereas the battery m is in load.

In the event of accidental stopping of the dynamo J the electro one of circuit breaker N is de-energized and its reinforcement comes to complete, of the battery L which enters immediately in action, it is the same the electro one of the circuit breaker O whose reinforcement comes to put at the mass the exit of the primary education of the transformer K.

Moreover it is always possible, using the switch p intercalated following resistance Q in the circuit of excitaion of éiectro N to cause the setting in motion of the battery in position of waiting (battery 1 of the fig. 2).

The battery m is in load and the flow of the charging current is regulated by the r. La rheostat put in load of a battery effec is killed by the operation out of the switch S. the startup (position of waiting) out of a battery is carried out using the COM mutateur T.

The entry in action of the battery in position of waiting is: announced by ringing N.

Figure 3 indicates the simplified device schematically, for its application to the domestic uses, the aerial navigation, the traction of the motor vehicles.

- In this model, the engine with alternative course, the dynamo and the accumulators are removed. The setting goes from there is carried out with arid magneto v, with D.C. current, which actuates the transformer K whose alternate neck rant feeds the central circuit E.

The catch of the current is carried out on only one wire and the circuit being closed with the mass is traversed by a rectified current whose undulations are deadened by filter Z formed by two magnets coupled by two condensers.

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Claims of FR739458

Multiplication of electrical energy carried out by induction of satellite windings, grouped .circulairement around inductive central winding. The sum of the sections of the satellite cores is equal to the section of the core. Each satellite winding, separately considered form, with the core, a transformer. If NR is the number of the satellites, seems about it constitutes NR transformers and the inductive central power is multiplied by NR. the multipliers group in series and to constitute Self-generating perpetual electrical energy one takes at the exit of the last multiplier the current necessary to the reconstitution of the initial current. The current thus taken, initially transformed into D.C. current, is then transformed again into alternative course which feeds the central circuit of the first multiplier. The industrial model comprises, moreover, two accumulator batteries, one in load, the other on standby, and whose automatic startup is intended to counter any possibility.

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