FR2987519A1 - Generating set for use in self electricity production installation or station used for e.g. car, has electric generator for supplying electricity to motor, where motor is connected to converter connected with batteries to rotate generator - Google Patents

Abstract

The set has an electric generator for producing electricity that is supplied to an electric motor. The motor is connected to a converter that is connected to a bank of batteries to rotate the generator, where quantity of total electricity produced by the generator is greater than quantity of electricity required for operating the motor. Cog wheels operate as a speed reducer and a torque force multiplier of the motor. The batteries provide electricity for initial starting of the motor. A voltage regulator regulates input of current into the converter and/or into a control board. Independent claims are also included for the following: (1) a station or installation of self production of electricity (2) a variable system for self production of electricity (3) an equipment for a wind turbine (4) a method for manufacturing an electric vehicle (5) a method for manufacturing a train, underground railway or a tram (6) a method for manufacturing a boat or a submarine (7) a method for manufacturing an aircraft or a space vehicle (8) a method for manufacturing a motor-driven pump or a group of motor-driven pumps (9) a method for manufacturing a crane or lift or a tank or an unspecified military apparatus (10) a method for manufacturing an unspecified mechanics or a movable or real object or a electricity production plant or an industrial plant (11) an installation or an electric station, or plant, or a variable system, or a mobile or fixed unspecified mechanics producing electricity.

Description

Self-generating generator of a variable system of self production and multiplication of electricity Inventor: Salah Barbary Applicant: Salah Barbary Self-generating generator of a variable system of self production and multiplication of electricity Description The present invention relates to the design and the method of manufacturing a generator from a variable system of self production and multiplication of electricity. This self-generating generator or self-generating station, operates through one or more electric motors, engines powered by a portion of the electricity produced by one or more electric generators of the same self-powered generator or of this same self-generating station, or by the electricity produced by one of the wind power stations object of the invention No. FR 11/02 578, concerning a wind turbine power multiplier of the same inventor, or of the invention No. RD ONAPI P 2009 - 0082, concerning a variable system for the production of hydraulic energy, the same inventor also. The self-energy generating unit of the invention is feasible by setting up a group consisting mainly of an electric motor, a mechanical movement transmission system, an electric generator, a rectifier of voltage, one or more converters, batteries and timing. The whole of this self-generating group operates thanks to a motor whose consumption of electricity is less than the amount of electricity produced by the generator or the alternator set in motion by this engine. This self-powered generator is feasible by a wind turbine of the Barbary Energy brand that starts producing electricity from 150 rpm and its output reaches 12 KW / h at 500 rpm. 2 On the axis of this aerogenerator is attached a large gear or a large polished 45 cm in diameter, gear or polished connected by a transmission chain or a cross to another small gear whose diameter is 15 cm. The small gear or the small polish is fixed on the axis of an electric motor power of 2 HP = 1490 Watt / h, which turns at 1500 rpm. The small gear or small polish has a diameter of 15 cm which is fixed on the axis of the motor will serve as speed reducer to increase the power of the torque of this engine and ensure its ability to rotate the electric generator . The motor is connected to a first converter of 15 KW, this converter is connected in turn to a bank of 12 Batteries of 6 Volt each, that is a reserve capacity of 72 Volt. The aerogenerator is connected to a voltage rectifier from 440 volts to 220 volts and a capacity of 15 kW; then to the second converter. The motor is connected to the first converter by a fuse switch and timing.

When the timing opens, the initial electricity goes from batteries to the first converter, from the first converter to the fuse interceptor and from the interceptor to the timing then finally to the engine running at 1500 rpm and drives the generator to a speed of 500 rpm during the working time determined by the timing. Thus the wind turbine starts to produce 12 000 W / h against a consumption of 1490 Watt / H only. The electricity generated by the generator is returned to the rectifier or voltage reducer 440 volts to 220 Volts, then to the second converter The electricity coming out of the second converter will serve as follows: Part of the production of the turbine is returned by the second converter batteries to preserve their reserves, to allow the initial operation of the engine permanently and to power the house or the installation in question when the engine rest. - The other part is sent directly by the second converter to a switch connected to the power supply panel of a house or other. 3 The timing of the engine is intended to program the hours of operation and the hours of rest of the electric motor as needed to ensure its cooling regularly. Thus the variable generator of the invention produces its own energy necessary for the power supply of its electric motor, a group of batteries and supply directly or through its battery bank a house, a factory, a vehicle, a train , a boat, a plane or a station of auto production of electricity. The present invention is the improvement of the RD-ONAPI-P 20090082 inventions, concerning a variable system for the production of hydraulic energy, of the same inventor, as well as the invention FR 11/02 578 concerning a wind turbine multiplying power of the same inventor as well. Problem: The production of the energy known to the inventor to date suffers from several shortcomings, for example: 1- The petroleum energy is the cause of the economic crisis suffered by several countries in the world because of the exorbitant price of their oil imports, the price of which is increasing every year. 2- The coal energy is being depleted and is very polluting. 3- Nuclear energy poses great risks after the Chernobyl and Fukushima explosions, these being only the beginning of warning of a very great danger for human life. 4- These three types of energy, oil, coal and nuclear are the main cause of pollution and global warming. 5- Hydraulic energy requires the construction of dams or hydraulic works very expensive, with the great risk of breakage of dams or hydraulic works, moreover it deprives the land of fertility brought by the silt of the river. 6- Not only is wind energy expensive, it is also compromising because of the nuisance it causes. 4 - With solar energy it takes more than 10 years before we can hope for a return on investment, more this type of energy only works during the day. Examination of the known state of the art of the inventor at the European Patent Office, related to the subject of the present invention gave the following results: Self-energy generator, results found: 0 0 results were found in the Worldwide Database for ((txt = generator and txt = a) and txt = auto) and txt = energy using Smart searo Multiplier of electricity, results found: 0 0 results were found in the database Worldwide Data for Multiplier and txt = Electricity Using Smart Searo The above research did not find a satisfactory solution to the issues raised. The object of the present invention is to remedy these problems and the disadvantages of the types of major energies known to the inventor to date. For all these reasons the inventor has developed a variable system of self-production of electrical energy by one or more self-generating generators or by self-generating stations of electricity by this invention, in order to to produce all the electric power necessary for a private or for a State, without economic waste, without pollution and without risk. Composition: The invention is based on the creation of a self-generating generator that operates by a portion of the electricity produced by this generator itself.

Indeed, this generator is composed of a bank of batteries and a first converter that drives a low-consumption electric motor, the electric motor is linked to a low-power and high-output electric generator, the generator is in turn linked a rectifier and a second converter to supply the group of batteries permanently and with the surplus feeds a house, or a factory or a vehicle, a train, a boat, an airplane or other. This self-generating group operates by virtue of the variable system implemented by the present invention which boils down to the principles of manufacturing a self-powered generator composed as follows: 1-A low speed generator, such as a generator of 200 at 1000 rpm. 2-A motor at a speed greater than that of the generator such as 1500 to 3000 rpm. 3-Two gears or two polished speed reducers and torque multiplier motor, whose large gear or large polished can be 45 cm diameter or other, gear or polished connected by a chain or a transmission cross with the small gear or small polish of a small diameter which may be 15 cm by way of example, or any other speed reducer. 4- A leverage created by the large gear or polished attached to the generator shaft. 5- A bank of batteries guaranteeing the supply of the initial electricity necessary to start the engine of this self-generating engine, which from its start runs the generator which starts to provide more electricity to ensure continuity power supply to the batteries and the motor to ensure the permanent operation of the engine of this self-generating group. 6- a rectifier or a voltage reducer which provides input regularization of the electrical current produced by the generator in the converter and / or in an electrical control panel. 7-A first converter that guarantees the supply of electric motor from the bank of batteries. 8-A second converter connected to the voltage rectifier produced by the generator, to ensure the supply of batteries and other connections necessary for a house or a factory or a car, or a boat or other current 25 of 110 or 22 watts w_ or friend: 9-A timing to program the working hours and the hours of rest of the engine alternately, in order to guarantee its cooling. 10-A cooling system of the motor assembly, generator, reducer, converters and others, to ensure the non-warming of all 30 installations of this generator. Example 1 of the invention shows the method of manufacturing a self-generating generating set with a total output of 12 KW, which operates by an electric motor with a consumption of less than 2 KW and feeds a large house. or another installation with a consumption requirement of approximately 10 KW. Example 2 of the invention shows the method of manufacturing a self-generating generating set with net total net power of about 60 KW which operates by three successive engines of consumption of 2, 4 and 6 KW, in order to make successively turn three generators of 12, 24 and 36 KW, generators related to voltage rectifiers and converters to supply a bank of batteries necessary for the operation of these three engines and which with the surplus feeds a factory, a boat or other. Example 3 of the invention shows the manufacturing process of a 1000 KW auto-production station composed of 10 100 KW generator sets. Each for a total output of 1000KW, and this from a starter battery bank, which powers a group of motors, engines linked with a group of generators to produce the electricity needed for a village. This example can be multiplied by a hundred or a thousand times to produce the electricity necessary for a State.

Example 4 explains the process of manufacturing a self-generating electricity station, by an electric motor group, connected to another group of generators, and whose electricity production is greater than the consumption of the motors who operate this station, regardless of the source of their initial power supply.

Example 5 explains the method of manufacturing a reduced torque motor by fixing the stator of this motor on a floating support in water or oil or other liquid, in order to reduce the need for electrical power or mechanical necessary for the operation of such an electric motor. Example 6 explains the method of manufacturing a reduced torque generator by fixing the stator of this generator on a floating support in water or in oil or other liquid, in order to reduce the need for electrical power. or mechanical necessary for the operation of such a generator or such an electric alternator.

Example 7 explains the method of manufacturing a reduced torque rotor motor by attaching the rotor to a floating support in order to reduce the need for electrical or mechanical power necessary for the operation of a reduced torque electric motor, by proceeding as described in Example 4, but instead of fixing the stator on a floating support, this time the rotor of the engine is fixed above a floating support in a liquid such as water or oil. Example 8 shows the method of manufacturing a reduced torque generator by attaching the rotor to a floating support, in order to reduce the need for electrical or mechanical power necessary for the operation of an electric generator or alternator, by doing so described in Example 5, but instead of fixing the stator on a floating support, this time the rotor of this generator is fixed above a floating support in a liquid such as water or water. oil. Example 9 explains the method of manufacturing a self-powered generator set by one or more floating motors and one or more floating generators with reduced torques according to this invention.

Example 10 shows the method of manufacturing a self-generating generator or a self-generating station by one or more conventional engines associated with one or more floating motors and one or more conventional generators associated with one or more several floating generators with reduced torques Example 11 explains the method of manufacturing a hydraulic power generator system self-energy multiplier power and electricity producer permanently by a hydraulic cycle to infinity. Example 12 shows the method of manufacturing a multiplier system for the production of electricity by a self-energy generating unit of the invention associated with a hydraulic power multiplier system that generates electricity permanently through a hydraulic cycle at the infinite. Example 13 shows the method of manufacturing a variable self-generating electricity system, comprising a self-generating generator set as explained in Examples 1 to 10, and a hydraulic self-generating unit, such as is explained in Examples 11 and 12, associated with a conventional wind turbine, or a wind turbine power multiplier object of the invention FR 11/02 578 of the same inventor. Example 14 explains the method of equipping a wind turbine of the invention FR 11/02 578 of the same inventor, or of these present improvements, with a self-generating generator set of the present invention.

Example 15 explains the method of manufacturing a variable self-energy system or a self-generating station by a self-generating generator set of Examples 1 to 10, a self-powered hydraulic system of the examples 11 to 12, a wind turbine power multiplier of Examples 13 and 14, and one or more variable systems for producing hydraulic energy object of the invention RD-ONAPI - P 2009 - 0082 of the same inventor. Example 16 shows the method of manufacturing a variable self-production system of electricity comprising a self-generating generator or a self-generating system of electricity as described in Examples 1 to 15 , associated with a variable system of solar energy production by loupes of solar ray heat captures. Example 17 explains the method of manufacturing a self-production system of electricity combining the technologies of the present invention with the invention RDONAPI P 2009/0082 and the invention FR 11/02 578 and their present improvements by the same inventor.

Example 18 explains the process for manufacturing a new electric vehicle or the equipment of an already existing electric vehicle, by one or more self-energy generating sets, as described in Examples 1 to 17 of this example. invention. Example 19 shows the method of manufacturing a train, subway, new tram, or the equipment of a train, subway, existing tramway by one or more self-generating generator of the invention. Example 20 explains the process of making a new boat, or submarine, or the equipment of an old boat or submarine by one or more self-generating generators. of the invention. Example 21 explains the method of manufacturing a new aircraft or spacecraft, or the equipment of an aircraft or an existing spacecraft by one or more self-generating generators of the invention. Example 22 explains the method of manufacturing or equipping an electric motor pump with an auto energy generator of this invention. Example 23 explains the method of manufacturing or equipping a hoist, crane, or military apparatus of a self-generating electric generator of the invention. Example 24 explains the method of manufacturing or equipping any mechanical or portable or building installation of a generator or self-generating system of this invention. Examples 1 to 24 below relating to the manufacturing processes of this invention are given as indicative, non-exhaustive and not in any way limiting. Manufacturing processes Example 1: Manufacture of a self-generating generator set: The essential self-energy generating unit of the invention can be produced by a Barbary-Energy turbine generator, which starts producing electricity from from 150 rpm, and its production reaches 12 KW / h at 500 rpm. On the axis of this wind turbine is fixed a gear (gear) or a polished 45 cm in diameter. This grinding or polishing is connected by a transmission chain, or a cross, to an electric motor with power of 2 HP = 1490 Watt, which rotates at 150 RPM, motor on which is fixed on its axis a gear (Gearwheel) or a speed reduction gear with a diameter of 15 cm, to increase the torque power of this small motor to rotate the generator at 500 rpm. The motor is connected to a first converter of 15 KW, this converter is connected in turn to a bank of 12 batteries of 6 volts each, a reserve capacity of 72 volts, to supply the electric motor to the group. The motor is connected to this first converter of 15 KW, by a switch or a timing. When we connect the switch connected to the first converter of 15 KW, the initial electricity passes batteries to this first converter and from this first converter to the timing, then to the engine, which runs at 1500 rpm and drives the generator to a speed of 500 rpm, to produce around 12 KW / h.

The aerogenerator is connected to a voltage reducer from 440 to 220 volts, then to a voltage rectifier or regulator of 15 KW, and the rectifier or regulator is connected in turn to a second converter of 15 KW. This second converter has the function of supplying the bank of 12 batteries in order to guarantee the permanent charging of batteries to supply electricity to the first converter necessary for the operation of the electric motor of this generator and to supply in addition a cooling system and an installation. such as a house, an electric car, an electric boat or other As soon as the engine timing or interceptor is opened, the electricity goes from the bank of batteries to the first converter and from the first converter to the engine, which starts to turn and driven the wind turbine which in turn starts production of an amount of about 12,000 Watt / h = 12 KW / h. The electricity generated by the generator is sent to the voltages reducer and reducer to the rectifier or regulator, the rectifier to the second converter of 15 KW, finally this second converter charges the 12 batteries, supplies a cooling system and provide the necessary electricity to power a house, an electric car, an electric boat or whatever. The power supply line of a house or any other installation is connected to the second converter of 15 KW. 11 All the components of this generator set are placed in a cold box at a reduced temperature thanks to a cooling system such as fan, conditioner area, or refrigerator coil, to guarantee the permanent cooling of the motors, generators, reducer , rectifiers and converters.

By the method of this invention as described in this example is produced 12 KW of electricity by the generator of this group, against 2 KW of motor consumption required for the operation of the same generator. Thus the self-generating generator of the invention produces its own energy necessary to supply its own electric motor, a group of batteries, a cooling system, and a house, or a factory, or a vehicle, or a train, or a boat, or a plane or a station of auto-production of electricity or other. This self-generating self-generating group operates by combining and connecting the following elements and principles of this invention namely: 1- A low speed generator 500 rpm, at 1000 rpm, by way of example . 2- A motor at a higher speed than the generator = 1500 rpm, 3000 rpm or other. 3- Two gears (toothed wheels), or two gears or two polished speed reducers, and torque multiplier of the electric motor, the large one of which has a diameter of 45 cm, the latter is connected by a transmission chain or a cross with a small gear (cogwheel) or a small polish, whose diameter is 15 cm, by way of example. As one can bind the electric motor with the generator by any other system of reduction of speed, such as a box of reduction of speed or other. 4- A leverage that can be created by attaching a large gear (gear) or a large polish attached to the axis of the generator, against a small gear (gear) or a small polish that must be fixed on the axis of the engine, or lives versa, both being connected by a chain or a transmission cross, or any other system of speed reaucuon. 12 - A bank of batteries guaranteeing by means of a converter, the supply of the electricity necessary for the initial starting of the engine of this self-generating engine, which from its start turns the generator which starts to provide more of electricity to ensure the continuity of electric recharging to the batteries, in order to ensure the permanent operation of the engine of this self-generating group. o- a first converter connected to the battery bank to supply the motor. 7- A voltage reducer, and a voltage rectifier, which regulates the input of the electric current, produced by the generator in a second converter with a capacity of 15 KW, which feeds the bank of batteries, the system of cooling and the installation in question, such as a house, an electric car, an electric boat, an electric airplane or other. 8- A power line from a house or other connection to the second converter that leads to the entrance of the power supply panel of the house or installation in question. 9- A second converter of 15 KW connected to the output of the regulator, to guarantee the supply of batteries, motor of cooling, and other connection, current 110 or 220 Watt. 10-A timing to program the hours of operation and the hours of rest of the engine in interval, in order to guarantee its cooling regularly. 11-A cooling system of the generator motor and the electronic assembly permanently. 12-An interval of rest every 15 minutes or every hour or more of the engine and the generator to guarantee their cooling as needed.

Also, the self-generating generator set of the invention can be manufactured in two groups, each group consisting of a motor and a generator which operates alternately and at intervals of 30 minutes or more each. 13 Since the battery bank can be used to start the engine, once the engine is started, it starts driving the generator, which starts to produce electricity, in turn, then 3 minutes later and by the intermediate switch is supplied directly to the motor by a portion of the electricity produced by the generator instead of battery bank. This example is given as an indication, not exhaustive or limiting, it is subject to modifications and adaptations according to the construction needs of each generator, or each self-generating station of electricity, by this invention.

EXAMPLE 2 Manufacture of an Auto-Energy Generating Block of 72 KW, composed of 3 Self-Generating Groups: The procedure is as in Example 1 to produce the first 12 KW / h, then it is installed in the same frame or on the same basis and by the same process, a second self-generating group of production capacity of 24 KW / H that will be driven by a motor of 4 HP, then a third self-generating group of capacity of 36 KW / H, that will be driven by a 6 HP motor, a total consumption of 12 HP = 8 830 Watt approximately, for a total output of about 72 000 Watt / h. The second and third self-generating unit of the invention are installed according to the same method as in Example 1. The number of batteries as well as the power of rectifiers and converters must be increased to support the power of 72 KW / H produced by this self-generating vehicle of the invention, either by 3 successive electronic groups with their reducers, rectifiers and converters or by a single more powerful electronic unit for powering the three motors and the three generators of this self-generating block of the invention and group their productions. EXAMPLE 3 Manufacture of a Self-Energy Generating Station composed of Several Engines and Several Generators: The procedure is as in Example 1 to 2, but instead of installing three successive generators of the invention. in one frame, 10 production lines are created on a base and 3 self-generating units of the invention are installed per line of which the first group is a 2 HP motor and a 12 KW / H turbine, the second is an 8 HP motor and a 48 KW / H turbine and the third group is equipped with a 10 HP motor and a 60 KW / H turbine. Thus, a total of 120 KW and 100 KW / h net are produced per line, multiplied by 10 lines, that is to say about 100 KW / h, net. Also we can make a station of 20 power lines, which works alternately, each line 12 hours per line and per day, or, we can make a station of 30 production lines that operate in groups of 10 lines alternately 8 hours per line and per day, thus the cooling of the motors and generators of each line is guaranteed and their durability is ensured. For proper operation it is possible to operate the self-generating station of the electricity object of the present example alternately every hour, for example the station of 20 lines, the first group of 10 lines can operate one hour, the first hour ; then the second group of 10 lines can work another second hour, and so on. Thus each group of 10 lines operates 12 times of an hour each time and 12 times a day, ie 12 hours per day and per line, over an interval of one hour of work and one hour of rest for cooling and maintenance . We can also apply the same principle on a 30-line station where each line runs for 1 hour and is idle for 2 hours for more cooling and more maintenance savings. The timing of the working and resting time required for the cooling of the generator sets and self-energy station of the invention which is the subject of Examples 1 to 3 can be varied as required. As we can use the batteries for the first 3-minute start of the first line and then we feed the engines of each line by some of the direct electricity produced by the sets of their generators through a timing and / or a or multiple switches that start each line 5 minutes before the previous line stops. This example is given as an indication and in no way limiting, because we can produce in the same way more electricity, by multiplying the number of lines and / or by multiplying their capacities, to have a greater quantity of electricity, until at 100 megawatts or more. Example 4: A generator or an electricity generating station composed mainly of one or more electric motors that directly drive one or more generators and whose production of their generators in electricity is greater than the consumption of their electric motors: In the case of generating electricity to supply a national electricity grid, or a large private electricity grid and in order to reduce the cost and the maintenance of a self-energy station of the invention, the procedure is as explained in Example 3, however, a battery bank, voltage reducer, voltage regulator or converter for each production line is not used. Battery banks, reducers, regulators and converters are replaced by direct contact of each motor with any electrical source, such as the electricity produced by a first line of this station, as explained in example 3, or by a power supply of public sector power or a wind turbine or hydraulic station or other. 16 In this case the self-generating station or generator will consist mainly of one or more engines powered directly by any electrical source that operate one or more generators to produce an amount of electricity greater than their consumptions. All lines of this station operates alternately as explained in Example 3 and are placed in a cold shed or a cold box or a reduced temperature chamber through a cooling system to ensure the permanent cooling of engines and generators. EXAMPLE 5 Manufacture of the Self-Powered Generating Set by an Electric Motor with a Stator Fixed on a Floating Support to Have a Reduced Torque Motor: In Order to Reduce the Need for Electric or Mechanical Power Required for the Operation of the Electric Motor of the Generating Set self energy of the invention. The inventor has developed a motor with reduced torque, and this by fixing the stator of this motor, above a floating body, in a liquid such as water or oil. The stator of the motor is fixed on the floating body in the liquid and its rotor is fixed by its axis in a static support above the floating body. This support is fixed on the ground or on the body of the liquid bath, or other. The weight of the stator and the floating body that supports it is calculated to float in the liquid with the minimum immersion possible. The liquid pressure in the opposite direction on the floating body which supports the stator according to the law of Archimedes will reduce the gravity of the latter, ie the floating body + the stator fixed on this body. The stator with its free floating body is placed in a jacket, the jacket of which is fixed in the liquid bath to ensure stator stability during its movement in the liquid. This electric motor is connected with electricity, so that this motor rotates through its stator floating in the liquid with reduced power consumption due to the reduction of its torque by the floating in the liquid. Thus, a movement of the assembly in the liquid is obtained with a torque reduced by the effect of the liquid pressure on the floating assembly, and thus the necessary power is reduced and consequently the consumption in kilowatts necessary for the operation of this electric motor in question.

The body of the rotating stator of this motor is connected by a polish fixed on the body of the stator, and a cross or a pinion and a chain or any other motion transmission system with an electric generator as described in Examples 1 to 4 to produce electricity, or with any other mechanism to rotate it by the reduced torque motor of the invention.

This type of floating stator motor can be used in the manufacture of the self-powered generator set of the present invention to operate the generator of the self-generating genset, as described in Examples 1 to 4 with the minimum of electricity expenditure, while connecting this motor with the converter or the electrical board as shown in Example 1 or 2 or 3 or 4 of this invention.

As this reduced torque motor can be used in any other use to generate electricity or operate any mechanics. EXAMPLE 6 Manufacture of the Self-Powered Generator Set by a Reduced-Torque Electric Generator by the Effect of Fixation of its Stator on a Floating Support: In Order to Reduce the Need for Electrical or Mechanical Power Needed to Operate a Generator or electric alternator by reducing its torque, one proceeds as described in Example 5, and this by fixing the stator of the generator above a floating body in a liquid such as water or oil.

The stator of the generator is fixed on the floating body in the liquid and its rotor is fixed by its axis on a static support high above the floating body. The static support is fixed on the ground or on the walls of the body of the liquid bath, or other. The weight of the stator and the floating body that supports it is calculated to float in the liquid with the minimum possible immersion. The liquid pressure in the opposite direction on the floating body which supports the stator, will reduce the gravity of the latter, including that of the stator, ie the floating body + the stator fixed on this body. The stator is placed with its free floating body in a jacket, which this jacket is fixed in the liquid bath to ensure the stator stability during its movement in the liquid. The body of the rotating stator of this generator is connected by a polish fixed to the stator body and a cross, or a pinion and a chain or any other motion transmission system to a reduced torque electric motor as described in FIG. Example 5 or any other conventional electric motor to rotate this generator and produce electricity. Thus we obtain a movement of all in the liquid with a torque reduced by the effect of the pressure of the liquid on the floating assembly, and thus reduces the power required for the engine that will operate the electric generator in question. This type of floating stator generator can be used in the manufacture of the self-generating generator set of the present invention as described in Examples 1 to 4 to produce electricity by the self-generating group, with the minimum of expense in electricity required to rotate this generator by a conventional electric motor or a reduced torque electric motor as described in Example 4 of this invention. Since this reduced-torque generator of the invention can be operated by a low-power heat engine that does not require high consumption, since the torque of this generator produced by the floating effect of its stator in a liquid is reduced. . EXAMPLE 7 Manufacture of a Self-Powered Generating Set by an Electric Motor with a Rotor Fixed on a Floating Support with Reduced Torque: In Order to Reduce the Need for Electrical or Mechanical Power Needed to Operate the Electric Motor of the Self-Energizing Generator of the invention, the procedure is as described in Example 5, but instead of fixing the stator on a floating support, this time we fixed the rotor of the engine above a floating support in a liquid like water or oil.

The motor rotor is fixed to the floating body in the liquid and its stator is fixed by its body or housing on a static support above the floating body. The support of the body of the stator or of its housing is fixed on the ground or on the walls of the bath of nquicre, or other_The weight of the rotor and the floating body which supports it is calculated to float in the liquid with the minimum immersion possible . The pressure of the liquid in the opposite direction on the floating body which supports the rotor reduces the gravity of the latter including that of the rotor, ie the floating body + the rotor fixed on this body, as is the law Archimedes. The rotor is placed with its free floating body in a jacket, which this jacket is fixed in the liquid bath to ensure stator stability during movement in the liquid. The electric motor is connected to electricity, so that the motor rotates through its rotor floating in the liquid with reduced power consumption due to the reduction of its torque by the floating in the liquid.

Thus we obtain a movement of the entire floating support and the rotor in the liquid with a torque reduced by the effect of the liquid pressure on the floating assembly, and thus reduces the power required for the operation of the electric motor. question. The axis of the rotating rotor of this motor is linked by a polish and a cross or pinion and a chain or other motion transmission system to the electric generator to produce electricity as described in Examples 1 to 4 of the invention, or with any other mechanism to rotate it by this reduced torque motor of this invention. This type of floating rotor motor can be used in the manufacture of the self-powered generator set of the present invention to operate the electric generator of this self-generating group as described in Examples 1 to 4 with the minimum of expense. in electricity, while connecting this motor with the converter or the electrical board as shown in Example 1 or 2 or 3 or 4 of this invention. Just as we can compose the self-generating generator or the electric self-generating station of Examples 1 to 4 by one or more reduced torque motors of Example 5 and / or 7 and one or more generators with reduced torque of Example 6 of this invention.

Also this reduced torque motor can be used in any other use to generate electricity or operate any mechanics. Example 8: Manufacture of the self-powered generator set by an electric rotor generator fixed on a floating support to have a reduced torque: In order to reduce the need for electrical or mechanical power necessary for the operation of the generator or electric alternator of the generator set the invention is carried out as described in Example 6, but instead of fixing the stator of the generator on a floating support in a liquid, this time the rotor of this generator is fixed above a body floating in a liquid like water or oil. The rotor of the generator is fixed to the floating body in the liquid and its stator is fixed by its body or housing in a static support above the knotting body. The static support is fixed on the ground or on the walls of the body of liquid bath, or other. The weight of the rotor and the floating body that supports it is calculated to float in the liquid with the minimum immersion possible. The liquid pressure in the opposite direction on the floating body which supports the rotor, will reduce the weight of the latter, including that of the rotor, ie the floating body + the rotor fixed on this body. The rotor is placed with its free floating body in a jacket, this jacket is fixed in the liquid bath to ensure stability of the stator during movement in the liquid. The rotor axis of this generator is connected by a polish. and a cross, or pinion and chain or other motion transmission system to a reduced torque electric motor of Example 5 or 7 of this invention or any other conventional electric motor, to rotate this generator and produce electricity. Thus we obtain a movement of the entire floating body and the rotor in the liquid with a torque reduced by the effect of the liquid pressure on the floating assembly, and thus reduces the power and consumption necessary for the operation you electric generator in question. This type of floating rotor generator can be used in the manufacture of the self-powered generator set of the present invention to produce electricity by this self-generating group or electric self-generating station, as described in Examples 1 to 4, with the minimum of electricity required to run this generator by a conventional electric motor or a reduced torque electric motor as described in Example 5 or Example 7 of this invention. Since this reduced-torque generator of the invention can be operated by a conventional low-power electric device, that is to say a small consumption of electricity, or a small-power heat engine, which does not require a large consumption of fuel. fuel considering the reduction of the torque of this generator produced by the floating effect of its rotor in a liquid. Just as we can compose the self-generating generator or the electric self-generating station of Examples 1 to 4 with one or more reduced torque motors of Example 5 or 7 and one or more generators with reduced torque. Example 6 or 8 of this invention.

Also this reduced torque generator can be used in any other use to generate electricity or operate any mechanics. Example 9: A method of manufacturing a self-generating generator set by one or more floating motors and / or by one or more floating generators with reduced torques, according to this invention. Instead of choosing an electric motor known from the technical state and a generator as described in Example 1 or another conventional generator to compose the self-generating generator of the invention according to Example 1, one chooses a reduced torque floating motor of the invention as described in Examples 5 or 7, and a floating generator with reduced torque of the invention as described in Examples 6 or 8. Then we proceed by the same method described in Example 1 to manufacture a self-generating group that guarantees the minimum power consumption by its engine and the maximum power generation by its generator according to the present invention. As one can manufacture by the same method a block or a self-energy power station object of Examples 2, 3 and 4, by one or more floating motors with reduced torque and / or one or more floating generators with reduced torque Example 10: Manufacture of a self-powered generator or a self-generating station by one or more conventional motors and floating motors and / or one or more traditional generators and floating generator torques refluas 23 is carried out by association of manufacturing processes as indicated in Example 1 or 2 or 3 or 4 with the manufacturing method indicated in Example 9 for the manufacture of a self-generating generator or a self-powered electrical station, which works by both systems. That is to say by floating motors and traditional motors and by floating generators and generators of Barbary Energy, or other generators known in the state of technique, and this by a mixed choice of one or more conventional electric motors associated with one or more reduced torque floating motors which are the subject of Examples 5 and 7 and one or more generators of Barbary Energy or of conventional generators associated with one or more floating generators with reduced torque, object of Examples 6 and 8 of this invention. Example 11: Manufacture of the self-powered generator set by a hydraulic system 15 multiplier power and electricity producer permanently by a hydraulic cycle to infinity To multiply the means of self-production of electricity by this The invention relates to the production of the generator set by a variable hydraulic system for the self-production of energy as well as the improvement of the invention RD-ONAPI 2009-P-0082, concerning a variable system for the production of the hydraulic power, from the same inventor, and this as follows: 1- A 2 x 2 x 2 meter water tank is built, with a drain cock at the bottom of the tank and an automatic filling valve controlled by a floating float at the top of this reserve 25 2 - On this tank is installed a frame 3 meters high, 2 meters long and 2 meters wide. 3.- Inside this frame and at a height of 50 cm, from the bottom of this frame, we weld on the inside on the right side a second base, whose size is 198 30 x 100 cm, base on which an electric motor pump is installed. 24 - Also within the same frame and at a height of 150 cm, from the base of this frame, is installed a second base of dimension of 1.98 x 1 m, this second base is welded or fixed on the same right side inside the large frame. On this second base we install a water wheel with a total diameter of 160 cm. This hydraulic wheel is a power multiplier by the installation effect of the vanes or godets receiving the pressure of a waterfall at its ends, and the axis of this wheel is connected with a low-power generator RNP such as the Barbary Energy generator of Example 1, by means of two polis speed multipliers and a cross, or by two speed multiplier gears and a chain or gear box. 5- It is installed on a third base identical to the first, that is to say of dimension 1.98 x 1 m, always placed on the right side inside the same large frame, a battery bank of 12 batteries of 6 volts each, a first converter, then a voltage reducer, a voltage rectifier at 220 volts and a second converter 220 volts. 6- A second frame of 2m x 2m x 12m in height is installed on the first large frame of 3m in height, and on this second frame is fixed a pipe with a diameter of 2 inches = 2 inches, in the form of U inverted, 12 meters went up and 10 meters back down and that ends with a water pouring cannon on the blades of a water wheel. This pipe is connected on one side with the electric motor motor pump outlet and on the other side with the water pouring barrel on the water wheel blades or buckets. 7- A strainer at the end of the pipe of the inlet of the motor pump is installed, then the strainer is put in the water of the water tank, after having filled it with water. 8- The motor pump is connected with the electricity output of the first converter. 9- We contact the generator, the voltage reducer and the voltage rectifier. With the second converter. 25 - The second converter is connected with the battery bank and the electricity supply board 11-One connects the first converter to the motor pump motor to operate the electric motor by the electricity of the first converter, electricity obtained at from the initial current of the battery bank. 12-As soon as the engine is connected, it turns the motor pump which raises the water of the tank in the U-shaped pipe from a height of 12 meters, and makes it fall on the buckets of water wheel, then in the tank itself. Thus the wheel rotates by the pressure force of the waterfall and rotates the generator linked to this wheel and produce electricity. The electricity produced by the generator is sent to the voltage reducer, rectifier and the rectifier sends electricity to the converter.

The converter sends a first line of electricity to the batteries to ensure their initial charges permanently, in order to be able to continuously rotate the electric motor of the motor pump. The other part of the electricity generated by the generator of this system is sent through a second line to the electrical control panel to be used as needed.

Thus this invention has created by the refinement of the invention RD-ONAPI 2009-P-0082, the same inventor, a second self-powered hydraulic generator system, which will operate in permanent cycle to infinity thanks to the circulation permanent and infinitely the same amount of water by the motor pump, wheel, tank, motor pump, wheel, tank and so on to infinity.

In the same context can be installed a second generator as described in Example 1 to 10 of this invention to multiply the electricity production by the same installation. EXAMPLE 12 A multiplier system for the production of electricity by an auto-energy generating unit of the invention associated with a hydraulic power multiplier system that generates electricity permanently by a hydraulic cycle at infinity. The choice is made and the manufacture of a self-generating generator or a self-generating electricity station, as described in one of Examples 1 to 10, and then the generator or the generator is associated. chosen station with the hydraulic system or the self-energy hydraulic unit described in example 11, and this by the installation of the generator in the same frame of the hydraulic system station or by the combination of their electrical production . Thus, thanks to the combination of a self-energy generating unit or a self-energy station of this invention, with the water wheel multiplying power and producing electric energy by a second generator, a dual system is created. permanent self-production of electricity; by a self-generating group and a self-powered hydraulic system by a repetitive hydraulic cycle at infinity. According to the manufacturing variability of this system of self-production of electricity by this invention, it is possible to manufacture an installation uniting a generator object of Examples 1 to 10 with the hydraulic generator system object of Example 11. Also by this invention it is possible to create an installation with dual self-energy systems, or a station of several self-energy generating sets or to manufacture or equip a vehicle; train, metro, tram, boat, submarine, airplane, spacecraft, crane, tank or any other installation or any other self-powered mechanics; examples ta 12. As one can use the self-powered hydraulic generator or the hydroelectric self-generating station of Example 11 only for producing electricity without association with the other Examples 1 to 10 of this invention. Example 13: A variable self-generating station, comprising a self-generating generator, a self-generating hydropower station and a power multiplier wind turbine: In order to increase the efficiency of the dual self-energy system object of Example 12 of this invention, and make the cost of building a 12-meter tower that supports the U-shaped water pipe inverted, the objective of which is to raise and lower water on the hydraulic wheel, one installed on the top of this tower one of the wind turbines known from the state of technology, or a wind turbine power multipliers object of the invention No. FR 11/02 578 of the same inventor. EXAMPLE 14 Manufacture or Equipment of a Wind Turbine of the Invention FR 11/02578 by the same Inventor, or of these Present Improvements, by an Auto-Energy Generating Set: Since the Wind Power Produced by a Wind Turbine is not constant because of the intermittency of the wind, this problem can be solved by the manufacture or the equipment of a turbine with a power multiplier turbine, object of the invention FR 11/02578 of the same inventor, by a group of the present invention described in Example 1 or 2 or 3, or as described in Examples 4 to 13. In this case is carried out by choosing a self-generating generator of the present invention, and then install this self-powered generator at the bottom of the tower or mast of the wind turbine or at a close distance.

Or we install the self-energy generator object of our choice, as explained in Examples 1 to 13, in the body of the tower of a wind turbine obtained by the present improvements of the invention FR 11/02578, the same inventor, dealing with a wind turbine power multiplier, and whose improvements are reaiises as sun. 28 - We proceed by the manufacture of a wind turbine power multiplier whose rotor is constituted by one or more couples whose two wings of each pair are in the form of half oval profiled or profiled semicircle with variable geometry, attached horizontally by a handle and fixed on an arm in concave and convex position, as described in the invention FR 11/02 578. 2-is added to each pair of wings at its ends two vertical half cylinder, or two half cone, that will be fixed on both ends of the wing torque arm, in the same concave and convex direction, to increase the pressure at the end of each wing. This turbine is associated with one or more generators of the invention as described in Examples 1 to 12. 3- For the improvement of the same invention FR 11/02578, it is possible to manufacture two wings as airplane wings, NACA type or other. Then we mount each pair wing on a rotor arm horizontally, or vertically. The upper surface of the right wing is mounted in opposite direction with respect to the extrados of the left wing. Such a wind turbine may be constituted by stages whose first stage of two or four pairs is formed by wings in the form of aircraft wings as explained above and the second stage is constituted by shaped wings. of half oval or semicircle with variable geometry, as described in the invention FR 11/02567, wings associated or not with their ends with semicircle or two a courtyard As one can install the rotor of this turbine in a large box, open box completely up for the reception of pressure of the area and open 1/6 of its surface down for the leakage of the area to accelerate the speed of this turbine. This turbine can be associated with one or more generators of the invention as described in Examples 1 to 13. 29 - We can also proceed to the manufacture of a wind turbine power multiplier, consisting of one or more couples wings. Each wing or blade is like an airplane wing, NACA type or other. Each pair of wings is mounted in pairs on the rotor horizontally or vertically and the extrados of the right wing is mounted in opposite direction relative to the extrados of the left wing, then this turbine is associated with one or more groups generator of the invention, as described in Examples 1 to 14. The production of electricity by the generator of the wind turbine will be associated with the electricity produced by one or more self-generating generator sets of Examples 1 to 12, to remedy the problem of intermittent electricity produced by the generator of the wind turbine and to ensure through this invention a constant production of electricity regardless of the wind situation or whatever its speed. According to the variability of this system of self-production of electricity by this invention, it is possible to manufacture an installation uniting a generating unit that is the subject of Examples 1 to 10, associated with the hydraulic generator system that is the subject of Examples 11 and 12, and associated with a normal wind turbine or a power multiplier wind turbine object of Examples 13 and 14, to create a self energy sorting system of this invention. Also one can manufacture or equip a vehicle; train, metro, tram, boat, submarine, airplane, spacecraft, crane, tank or other mechanics by this tri-energy system of the invention. Example 15: A self-generating station by a self-generating generator, a self-powered hydraulic system, a power-generating wind turbine and one or more variable systems for producing hydraulic power the invention RD-ONAPI - P 2009 - 0082 of the same inventor. In order to multiply again the means of self-production of electricity and to perfect the inventor's patent RD-ONAPI - P 2009-0082 concerning a variable system for the production of hydraulic energy, by the the present invention, the procedure is as described in Examples 1 to 14 by associating one or more self-generating generating sets as indicated in Examples 1 to 10 and / or one or more self-energy hydraulic units indicated in Examples 11 and 12 and / or or more wind turbine power multipliers object of the invention FR 11/02 578 of the same inventor, and / or one or more wind turbines brought by the present invention to the invention FR 11/02 578, as described in FIGS. Examples 13 and 14, with one or more variable systems for producing the hydraulic power object of the invention RD-ONAPI-P 2009-0082 of the same inventor. And this by the combination of the above systems with one or more hydraulic turbines usable in the invention RD-ONAPI-P-2009 -0082, to increase the efficiency of the variable systems or the energy production facility by the present invention. Example 16: A variable system of self-production of electricity comprising a self-generating generator or a self-production system of electricity as described in Examples 1 to 15, associated with a variable system for the production of solar energy by magnifying loupes of heat of solar radiation: 1-In order to further multiply the means of self-production of energy by this invention, the inventor has developed a variable system of production solar energy by solar ray heat captures. This system is composed as follows: We take a galvanized iron pipe or non-oxidizable iron or copper or aluminum or any other metal good conductor of heat, pipe whose diameter is 10 cm and whose ion is On the upper semi-circle of the body of this pipe, 3 lines are drawn over the whole length of the pipe, at a distance of 5 cm between each line.

We make a hole of 10 cm, every 10 cm, along the entire length of each line. A solar ray pickup magnifier is hermetically installed in each hole, so that the concentration of solar rays is directed towards the field of a serpentine which will be installed inside the pipe. Inside the pipe is installed a serpentine with a diameter of 7 cm and a length of 99 meters and 99 meters back. The serpentine is connected to a right-hand water tap, with injection control. The serpentine is connected to a steam outlet pipe on the left side with a check valve.

The steam outlet is connected to a steam turbine. The turbine will run thanks to the steam produced by the serpentine water of the solar heat sensor pipe. The turbine is connected to an electric generator to turn the electric generator and produce electricity. The steam leaving the turbine passes through a check valve and will be returned to the serpentine feed pipe to benefit from the reuse of hot water back from the steam turbine. The inlet of the serpentine is divided into two inputs: a return hot water inlet of the turbine and a cold water inlet to compensate for the loss of evaporation, controlled by a float or a system regulating the level of presence of water in the serpentine. This system is associated with a system or several generators of the invention as described in Examples 1 to 15, to increase the efficiency of all systems developed by this invention. We can also use this system alone to produce electricity by capturing the sun's heat through loupes to turn water into steam, and steam into a mechanical motion of a steam turbine that runs an electric generator or any other mechanics as needed. The installation pipe of the solar radiation heat loupes may be replaced by any other shape such as cylindrical, triangular, spherical or other as required. The explanations mentioned above are indicative, non-exhaustive, non-limiting and subject to change in order to improve the efficiency of this system of the present invention. Example 17: Manufacture of a system for the self-production of electricity combining the technologies of the present invention with the invention RD-ONAPI P 2009/0082 and the invention FR 11/02 578 and their present improvements by the same inventor: For the manufacture of a self-generating electricity system combining the technologies of the present invention with the invention RD-ONAPI P 2009/0082 and 33 the invention FR 11/02 578 and their present improvements by the same inventor, one proceeds to the choice of a self-generating generator or a self-generating system, as described in one of Examples 1 to 16 of this invention, then associates the generator or the self-generating station of our choice to one of the wind power multipliers of the invention No. FR 11/02 578, invention relating to a wind turbine power multiplier. Or we proceed to the choice of a self-generating generator or a self-generating station of electricity, as described in one of Examples 1 to 16 of this invention, then we associate the generator or the self-generating station of our choice to one of the hydraulic power generation systems or with one or more hydraulic turbines of the invention RD-ONAPI P -2009 0082, invention relating to a variable system for the production of hydraulic energy.

Or we proceed to the choice of a self-generating generator, or a self-generating station, or an electrical self-generating system, as described in one of Examples 1 to 16 of this invention, and then associates the generator or the self-generating station, or the electrical self-production system, of our choice, with one of the wind turbines power multipliers of the invention No. FR 11 / 02 578 relating to a wind turbine power multiplier, then to one of the hydraulic power generation systems or with one or more hydraulic turbines of the invention RD-ONAPI P -2009 -0082, invention relating to a system variable for the production of hydropower.

EXAMPLE 18 Manufacture of a New Electric Vehicle or Equipment of an Old Electric Vehicle, by One or More Self-Energy Generating Sets of the Invention: The Selection and Manufacture of a Self-Generating Unit of the Invention invention as described in Example 1, as one can make the choice and manufacture of another self-generating generator of the invention as described in Examples 2 to 17, then installs this group within or in a vehicle and the converter or the output of electricity of the self-generating group of the invention is connected to the batteries and the electric motor of the vehicle in question. Since it is possible to install a self-generating generator of the invention composed of a motor and an alternator only, by replacing the bank of batteries, the rectifier and the converter mentioned in example 1, by the bank of batteries , the rectifier, and the converter already existing in an electric vehicle, by connecting the motor of the self-powered generator with the car battery bank and connecting the electric generator powered by the engine of this generator with the vehicle converter electrical power to power the vehicle's electric motor. This process can be adapted according to the need of each venicut.

The number of engines, generators, regulators, converters and batteries of each self-generating group of the invention which must equip a vehicle, such as a car, truck, tractor, motorcycle, lift or other, such as the type of the generator of the invention as described in Examples 1 to 17, can be varied according to the need of each case, while adapting the principles of the invention according to the varying needs of each vehicle, and that by the manufacture and installation of a self-generating unit of the invention and its installation in the vehicle, then the electric motor of this vehicle is connected, as well as its batteries to the converter or the electrical output of the self-energy group, so that it operates from electricity produced by the self-generating group of the invention.

Example 19 Manufacture of a train, metro, new tramway, or equipment of a train, metro, existing tramway by one or more self-energy generating units of the invention The procedure is as in Example 18 by the choice and the manufacture of a self-generating generator set such as that described in Example 1 or as described in Example 2, or as described in Example 3, or as described to the other examples 4 to 17, installing a self-generating group of the invention or more in each electric train or in each subway car or tram. The number of engines, generators, regulators, converters and batteries of each self-generating group of the invention as well as its power and its size, which must equip a train or a metro or a tram, can be varied according to the need of each case to make adequate equipment for the needs of a train, or a metro or a tramway. Example 20: Manufacture of a new boat, or submarine, or equipment of an existing boat or submarine by one or more self-energy generating units of the invention: The procedure is as in the examples 18 and 19 by installing a self-generating group or more of the invention as indicated in Example 1 or 2 or 3 or other examples of the invention of Examples 4 to 17, in a boat or a submarine . The number of engines, generators, regulators, converters and batteries of each self-generating group of the invention that must equip a boat or a submarine and its power can be varied according to the need of each case by adapting the principles of the invention according to the varying needs of each boat or submarine.

EXAMPLE 21 Manufacture of a New Aircraft or Spacecraft or Equipment of an Aircraft or an Existing Spacecraft by One or More Self-Energy Generating Sets of the Invention The procedure is as described in the Examples 18 to 19 by installing a self-generating group or more of the invention as described in Example 1 or 2 or 3 or as described in other examples 4 to 17, in an airplane or in a craft spatial. The number of engines, generators, regulators, converters and batteries of each self-generating group of the invention, their compositions, their dimensions and their positions which must equip an aircraft or a spacecraft as well as their powers can be varied according to the need of each case, adapting the same principles of the invention according to the varying needs of each aircraft or craft as uccin to Examples 1 to 21 of the present invention.

Example 22: The manufacture or the equipment of a motor pump with an electric motor by an auto energy generator. The procedure is as in Example 1 and then connected to the output of the converter of the self-energy generator of the invention with the electric motor of the motor pump. This example is subject to great variability as all the examples of the present invention since it is possible to apply infinite variations in the manufacture of this self-powered generator by the application of one of the examples of the invention as described in Example 2 or 3 or other examples 4 to 17, or by the combination of several examples of this invention to manufacture the self-generating generator the most suitable for every situation. As one can equip each object such as a motor pump, vehicle, train, boat, plane, wind turbine, hydraulic station or other of one or more generators of the invention. EXAMPLE 23 Equipment of an Elevator, Crane or Military Apparatus of a Self-Energizing Electrogen of the Invention The procedure of Example 18 is carried out by installing one or more self-generating generating sets of the invention. as indicated in Example 1 or in the other examples 2 to 17, and the electricity produced by this group is connected to an electric motor which will replace the heat engine used to date in this type of machine.

EXAMPLE 24 Manufacture or Equipment of Any Mechanism or a Movable or Building Installation of an Electrogen or a System of the Invention It is carried out according to one of the variable applications indicated in one of Examples 1 to 23 of the present invention, in order to manufacture or equip any mechanical, whatever its use, or its name, to produce the electricity necessary for its operation by one or more self-generating generator or a self-generating station of the electricity or a system for producing electricity as described in the present invention or as described in the present invention in combination with the invention RD P 2009/0082 and: or FR 11/02 578 from the same inventor. Also the same procedure is used to equip all furniture such as a camping truck or other and any building such as a house, building, greenhouse or other by a generator or self-energy station of this invention to produce the electricity required for all electrical, mechanical, light and other purposes. As is done by the application of the same methods explained in Examples I to 23 of this invention, to manufacture a self-generation system or manufacture any plant or any installation necessary for the power supply of the national electricity networks. any country in the world. 30 38

Claims (4)

CLAIMS1- A self-powered generator, which operates by an electric motor, the engine is powered by a portion of electricity, produced by the generator of the same generator, from a converter by a bank of batteries, in order to turn the electric generator of this group, and the total amount of electricity produced by the generator of this group is greater than the amount of electricity necessary for the operation of the electric motor of the same self-generating group, such as is described in Example 1. 2- an auto-energy generator or a multiplier system of the production of electricity, as described in claim 1 and in example 1, which operates and produces electricity from these main components such as : A low speed generator of 500 rpm, at 1000 rpm, as an example. A motor with a speed greater than that of the generator = 1500 rpm at 3000 rpm, for example, with or without capacity. Two spines (gears), or two polished ones that function as speed reducer and torque multiplier of the electric motor, whose big spine or large polish is of a diameter of 45 cm, connected by a chain of transmission or a cross with the small spine or small polished 15 cm diameter, for example, or any other dimensions, or any other system of reduction and transmission of speed like gearboxes or any other gear reduction mechanism . A leverage created by the big spine or the big polish fixed on the axis of the generator, or lives versa. A group of batteries guaranteeing the supply of the electricity necessary for the initial start-up of the engine of this auto-generator, a motor which from its start turns the generator yes, in turn begins to provide bare electricity than that consumed by the electric motor, to ensure the continuity of power supply to the batteries and the motor to ensure the permanent operation of the engine of this self-generating group. A voltage reducer from 440 volts to 220 volts, or other gearbox connected with the output of electricity from an electric generator and the input of electricity into a voltage regulator. - A voltage regulator that provides input regulation of the electrical current produced by the generator in a converter and / or in the electrical control panel of the installation in question. - A converter which guarantees the battery supply, motor and other current connection of 110 or 220 Watt. - A system that recolves Tl - A timing to program the working hours and the rest periods of the engine alternately. atm to guarantee its cooling regularly. 3- A block of self-generating generators or a system or installation of self-production of electricity as described in claims 1 and 2, and tel is explained in Example 2. A block that consists of several successive generators, several electric motors, battery banks, generators, voltage reducers, regulators, converters, and all of which operate at the same time, or at intervals or alternately, regardless of the number of minutes or hours of work per day or per month or year, to produce electricity by multiplication. 4- A station or a facility for self-production of electricity by one or more self-energy generating sets of the invention as described in claims 1 to 3 and explained in example 3 of the invention, example which is given like all the other examples of the invention, as an indication, not exhaustive and neither limiting nor subject to modifications. 40- A self-generating generator or a self-generating station of electricity, as described in claims 1, 2, 3, or an electricity generating station, as described in Claim 4 and Example 3; whose engines of this group or of this station, which drive the generators are powered by a bank of batteries of these same generators, or powered by the connection to a second line of self-production of electricity according to the invention and which operates alternately with the first or second self-generating line of this invention. 6- A group or a generator or a self-generating electricity system, as described in claims 1 to 5, which produces electricity without fuel such as diesel or other, but which works by a part the amount of total electricity produced by one or more generators in the same group or system or facility. 7- A generator or a power generation station as described in claims 1 to 6 and as explained in Example 4, composed mainly by one or more electric generators that operate by one or more engines electric motors, motors connected or connected with mains electricity, or any other electrical source, such as hydro, wind or solar electricity, in order to obtain an electric motor generator or an electricity generating station by electric motors in place of thermal engines, and the amount of electricity produced by the generator (s) of this generator or electrical station is greater than the amount of electricity consumed by the electric motor or motors of the same generator or the same electrical station. 41- A variable multiplier system of the production of electricity as described in claims 1 to 7, consisting of one or more electric motors connected to one or more generators and including all of these engines and generators are connected to a battery bank, voltage reducers, voltage regulators, converters or not, and that produces more electricity than it consumes by its electric motors. Either these engines are self powered by the electricity produced by the generator (s) of this system, or by another source of electricity. 9- A group or a generating system producing more electricity than that consumed by one or more electric motors as described in claims 1 to 8, and as explained in example 1, 2, 3 and 4 , but the battery bank which supplies these electric motors via a converter is replaced by another source of electrical power such as the electricity produced by a second self-generating generator of the invention or such as the electricity of town , or wind power, or hydro electricity, or whatever. 10-A group or a generating system producing more electricity than that consumed by its electric motor as described in claims 1 to 9 and as explained in Examples 1 to 4, but the batteries that power one or more electric motors of this group, via one or more converters and the converters themselves are replaced by another power source such as the electricity produced by a second self-generating generator of the invention, or such that city electricity, or wind power, or hydroelectricity, or other, and the electricity generated by generators of this group or of this generating system is channeled directly by a rectifier or without rectifier to the table d power supply to any house or facility or to public or private electricity grids. 42-A generator or a self-generating station, as described in claims 1 to 10 and explained in Examples 1 to 4, composed by one or more electric motors that actuates one or more electric generators to produce a quantity of electricity greater than their consumption, and this by a direct connection of the generator to any electrical source, with or without batteries, with or without voltage reaper, with or without regwateur, with or without converter and are where . Generators feed a national or private network. 12-A multiplier station of the production of electricity, or a generator multiplier of the electrical production, as described in claims 1 to 11, composed mainly by several production lines, and each line of which is composed by one or several electric motors, one or more generators, which operate alternately over an interval of 15 minutes or more, and a cold room or a cooling system, the engine (s) of this station are powered by a direct connection with any electrical source, and whose electrical production of this multiplying station of electrical production is greater than the consumption, as explained in Example 4 of this invention. 13- All self-generating generators, all self-generating stations and all systems and variable installations of self-production of electricity by multiplication or on more as described in claims 1 to 12 and such which is explained in Examples 1, 2, 3 and 4 of this invention, whatever their models, name brands, uilliensions, appellations or their dispositions or their civil uses, private, commercial or military. 14-An electric motor with reduced torque by the effect of fixing its stator on a support floating in a liquid, and whose upward liquid pressure force is directed towards the floating support on which is fixed the stator of this motor, in order to reduce the effect of the force of gravity of the assembly and consequently reduce the torque of this motor, and reduce the power necessary for its operation, as described in example 5 of the invention . 43-A self-generating generator or a self-generating station of electricity as described in claims 1 to 13, equipped with one or more motors with reduced torque by the effect of fixing its stator on a floating support, as described in claim 14 and in example 5 of this invention. 16-A generator with reduced torque by the effect of fixing its stator on a support floating in a liquid, and whose upward liquid pressure force is directed towards the floating support on which is fixed the stator of this generator , in order to reduce the effect of the gravitational force of the assembly and consequently reduce the torque of this generator and reduce the power required for its operation, as described in Example 6 of the invention. 17-A self-generating generator or a self-generating station of electricity or any mechanical, as described in claims 1 to 13, equipped with a torque generator reduced by the fixing effect of its stator on a floating support, as described in claim 16, and in example 6 of this invention. 18-A self-generating generator, or a self-generating station of electricity object of claim 1 to 13, or any mechanism on which is applied the principle of reduced torque motor and / or reduced torque generator or equipped with a motor and / or a reduced torque generator, as described in claims 14 to 17 to reduce the power requirement for its operation, as described in Examples 5 to 6 of this invention. 19-A torque motor reduced by the effect of fixing its rotor on a floating support in a liquid, and whose upward pressure of liquid pressure is directed towards the floating support on which is fixed the rotor of this engine , in order to reduce the effect of the gravity force of the assembly and consequently reduce the torque of this motor and reduce the power required for its operation as described in Example 7 of the invention. 20-A self-generating generator or a self-generating station of electricity as described in claims 1 to 13, or any mechanics equipped with a torque reduced motor by the sound fixation effect rotor on a floating support, as described in claim 19 and in example 7 of this invention. 44-A torque generator reduced by the effect of fixing its rotor on a support floating in a liquid, and whose upward liquid pressure force is directed towards the floating support on which is fixed the rotor of this generator , in order to reduce the effect of the gravitational force of the assembly and consequently reduce the torque of this generator and reduce the power required for its operation as described in Example 8 of the invention. 22-A self-generating generator or a self-generating station of electricity as described in claims 1 to 13, or any mechanism, equipped with a torque generator reduced by the fixing effect of its rotor on a floating support, as described in claim 21, and in example 8 of this invention. 23- A self-generating generator or a self-generating station of electricity as described in claims 1 to 22, or any mechanics composed of one or more floating motors and / or by one or more floating generators with reduced torques, as described in Example 9 of this invention. 24-A self-generating generator or a self-generating station as described in claims 1 to 23, composed by one or more conventional engines associated with one or more floating motors and / or one or more generators Conventional methods associated with one or more floating generators with reduced torques as described in Example 10 of this invention. 25-A system for producing electricity by multiplication or a positive difference between the quantity of electricity produced and the electricity consumed by the same system, as described in claims 1 to 24 of the present invention, whatever the name, brand, size or use of this system. 26-Any mechanics equipped with one or more self-generating generators and / or one or more motors and / or one or more generators with reduced torque or in which is applied the principle of the self-generating generator and / or the motor and / or reduced torque motor principle as described in claims 1 to 25 of this invention. 45-A self-generating generator, or a self-generating station of electricity or any mechanism on which is applied the principle of the reduced torque motor and / or the reduced torque generator or equipped with a motor and / or a reduced torque generator, as described in claims 1 to 26 to reduce the power requirement for its operation as described in Examples 5 to 10 of this invention. 28-A self-energy hydraulic generator system, as improvement of the RD-ONAPI patent 2009-P-0082 of the same inventor, power multiplier system and electricity producer permanently by a hydraulic cycle to infinity, such as is described in Example 11 of this invention, a system that operates in analogy with the self-energy generator set object of claims 1 to 27, from a bank of batteries associated with a motor-driven motor pump, a hydraulic wheel multiplier of power, a reservoir or a source of water, an inverted U-shaped pipe, to raise the water by the motor-pump and to make it fall by a cannon on a water wheel, wheels connected with one or more electric generators, a voltage reducer, a voltage regulator, a converter and an electrical control system for generating electricity by hydraulic cycle to infinity. 29- A bi-energy self-generating generator, or a multiplier system for electricity production permanently by an infinite hydraulic cycle, system composed by a self-generating generator of the invention as described in claims 1 at 27, associated with an improved self-energy hydraulic system of RD-ONAPI 2009-P-0082 of the same inventor, as described in claim 28 and explained in Example 12 of this invention. 30-A variable system of self-production of electricity comprising a self-energy generating unit object of claims 1 to 27 and / or a self-generating hydraulic self-generating hydraulic group, as described in claims 28 and 29, and to Examples 11 and 12, and / or a wind turbine power multiplier object of the invention FR 11/02 578 to the same inventor, and / or any other wind turbine, as explained in Example 13 of this invention. 46-Manufacture or Equipment of a Wind Turbine by a Self-Powered Generating Set, or by an Electricity Self-generating Station of Claims 1 to 30, and as explained in Example 13 of this invention. 32-Manufacture or Equipment of a Power Multiplication Wind Turbine, Object of the Invention FR 11/02 578 by the same Inventor by a Self-Powered Generating Set or by an Electricity Self-generating Station of Claims 1 to 29 of the present invention and as explained in Examples 13 and 14 of this invention. 33-Manufacture or Equipment of a Power Multiplication Wind Turbine, Object of the Improvements of the Invention FR 11/02 578 provided by the present invention, by the addition of a semi-circle or a half-cone placed vertically at the end of each wing, in the concave or convex direction of the wing itself, as described in Example 14, then this wind turbine is equipped by a self-powered generator or by a station self-generating electricity object of claims 1 to 32 of the present invention. 34-Manufacture or Equipment of a Power Multiplication Wind Turbine, Subject of Improvements of the Invention FR 11/02 578 provided by the present invention, by the addition of one or more pairs of wings on the wings described in the original invention and each new wing has the shape of an aircraft wing type NACA 4415, or NACA 0012, or other, and each of two wings form an aerodynamic torque by mounting in the opposite direction of the extrados of the right wing with respect to the extrados of the left wing on the two arms of the same pair of a rotor, as explained in Example 14, and then we equip this wind turbine by a self-generating generator set or a self-generating electricity station according to claims 1 to 34 of the present invention. 35-Manufacture or equipment of a power multiplier wind turbine as described in claim 34, a wind turbine that will be placed in a large housing or a large box with a total opening at the top and a 1/6 opening at the bottom to accelerate the speed of this wind turbine. Wind turbine that can produce electricity independently by an aerator or in combination with one of the generators of the invention makes claims 1 to 34. 47-A variable system or a self-generating station, including a generator self-generating electric generator as described in claims 1 to 27 and / or a self-generating hydraulic system, object of claims 28 to 29, and / or one or more wind turbines power multiplier object of invention FR 11/02578, object of claim 30 to 36, and / or a variable system for the production of hydraulic power object of the invention RD-ONAPI 2009-P 0082 of the same inventor, and / or any other hydraulic turbine, as explained in Example 15 of this invention. 37-A variable system of self-production electricity, tri energies, comprising a self-generating generator set as described in claims 1 to 27, and / or a wind turbine power multiplier as described in Examples 13 and 14 and / or a variable system for the production of hydraulic energy according to the invention RDONAPI-P 0082 of the same inventor, and / or any other hydraulic turbine, and / or a wind turbine power multiplier object of the invention FR 11 / 02 578 of the same inventor or improvements or any other wind turbine as explained in Example 15 of this invention. 38-A variable system of solar energy production by solar ray heat captures composed by sun-ray heat capturing loupes which are fixed on a pipe, cylinder, sphere or other body, and within which there is a serpentine heat by the heat of solar rays and which transforms the water which sticks to its interior in vapor, steam sent to a steam turbine to rotate an electric generator or any other mechanical according to the need such as is explained in Example 16 of this invention. 39-A self-generating generator or a self-generating station or any mechanical device including a self-generating generator or a self-generating system as described in claims 1 to 37 and explained in Examples 1 to 15, associated with a variable system for producing solar energy by magnifying loupes of heat of solar radiation as explained in Example 16 of the present invention. 48- A variable self-generation system comprising one or more self-generating generators or one or more self-generating systems as described in claims 1 to 37, associated with the variable system of producing solar energy by solar ray pickup loupes as described in claim 37 and 38, and explained in example 16 of this invention. 41-A variable system of self-production of electricity, four energies, comprising a self-generating generator set as described in claims 1 to 27 and / or a self-generating hydraulic self-generating hydraulic group, such as described in claims 28 to 29, and / or a wind turbine power multiplier as described in claims 30 to 35 and / or a variable system for the production of hydraulic power object of the invention RD-ONAPI-P 0082 of the same inventor, and / or any other hydraulic turbine, and / or a wind turbine power multiplier object of the invention FR 11/02 578 of the same inventor or any other wind turbine as explained in Examples 12 to 16 of this invention and / or a system for collecting solar energy by magnifying glasses according to claims 39 and 40 and as explained in example 16 of this invention, or any other solar energy production system such as solar panels or other. 42- A system for generating electricity by combining all of Examples 1 to 17 given by the present invention or by the examples of this invention with the invention RD-ONAPI-P 2009/0082 and / or the invention FR 11 / 02578 by the same inventor as well. 43-A variable system of self-generation of electricity bringing together the technologies of the present invention, as described in Examples 1 to 24 and claims 1 to 52, with one of the wind turbines power multipliers of the invention 11/02 578, and / or one of the variable systems of the production of hydraulic energy of the invention RD-ONAPI P -2009-0082 and / or their present improvements by the same inventor; as described in an indicative, non-exhaustive and non-limiting manner to Examples 1 to 24 of this invention. 49-The manufacture of an electric vehicle equipped with one or more self-energy generating sets of the invention or a system for the automatic production of electricity, or the equipment of an existing vehicle by one or more generators self-energy device of the invention, or a self-generating system of electricity, as described in example 1 and claims 1 and 2, or as described in examples 2 to 4 and claims 3 and 5, or as described in Examples 5 to 43 and Claims 6 to 52, or combinations of the technologies described in Examples 1 to 17 and Claims 1 to 43, and as described in an indicative and non-exhaustive manner neither limited to example 18 of this invention, whatever its appointment: car, truck, tractor, elevator, tank, etc., and whatever its make or model or name, or its civil, private, commercial, or military. 45-The manufacture of a train or subway or tramway equipped with one or more generators or self-generating station, or electrical self-generating system, of the invention or the equipment of an already existing train or metro or tramway by one or more self-generating generating sets of the invention, or by a self-generating station of electricity, or by a system of electric self-generation, as described in Example 1 and Claims 1 and 2, or as described in Examples 2 to 4 and Claims 3 and 5, or as described in Examples 5 to 5; 17 and 5 to 52, or by combinations of the technologies described in Examples 1 to 17 and Claims 1 to 43, and as described in an indicative and non-exhaustive and non-limiting manner to Example 19 of this invention, which whatever its make or model or name, or its civil, private, commercial or military use. 30 50- Manufacture of a boat or submarine equipped with one or more generators or self-generating station, or electrical self-generating system, of the invention or the equipment of an existing train or boat or submarine, by one or more self-powered generator sets of the invention, or by a self-generating station of electricity, or by a electric self-production system, as described in example 1 and in claims 1 and 2, or as described in examples 2 to 4 and in claims 3 and 5, or as described in the examples 5 to 17 and to claims 5 to 52, or combinations of the technologies described in Examples 1 to 17 and Claims 1 to 43, and as described in an indicative and non-exhaustive and non-limiting manner to Example 20 of this invention, regardless of its make or model or name, or its civil, private, commercial or military use. 47-Manufacture of an airplane or spacecraft, equipped with one or more generators or self-generating station, or electrical self-generating system, of the invention or the equipment of an aircraft or an existing spacecraft by one or more self-generating generating sets of the invention, or by a self-generating station of electricity, or by an electrical self-generating system, such as is described in Example 1 and in Claims 1 and 2, or as described in Examples 2 to 4 and Claims 3 and 5, or as described in Examples 5 to 17 and Claims 6 to 52, or by combinations of the technologies described in Examples 1 to 17 and Claims 1 to 43, and as described in an indicative and non-exhaustive and non-limiting manner to Example 21 of this invention, regardless of its make or model. or name, or its civilian, private, commercial or military use. 51-The manufacture of a motor pump or a group of motor pumps equipped with one or more generators or self-generation station, or electrical self-production system of the invention, or the equipment of a motor pump or a group of motor pumps, already existing, by one or more self-generating generator sets of the invention, or by a self-generating station of electricity, or by an electrical self-production system as described in Example 1 and Claims 1 and 2, or as described in Examples 2 to 4 and Claims 3 and 5, or as described in Examples 5 to 17 and the claims 6 to 52, or by combinations of the technologies described in Examples 1 to 17 and Claims 1 to 43, and as described in an indicative and non-exhaustive and non-limiting manner to Example 22 of this invention, whatever its make or model or name, or its civilian, private, commercial or litaire. 49-The manufacture of a crane or a lift or a tank or any military apparatus equipped with one or more generators or self-generating station, or electrical self-generating system, of the invention or equipping an existing crane or elevator or tank or military apparatus with one or more self-powered generator sets of the invention, or a self-generating station, or by an electric self-production system, as described in Example 1 and Claims 1 and 2, or as described in Examples 2 to 4 and Claims 3 and 5, or as described to Examples 5 to 17 and to Claims 6 to 43, or combinations of the technologies described in Examples 1 to 17 and Claims 1 to 52, and as described in an indicative and non-exhaustive and non-limiting manner to the example 23 of this invention, regardless of its brand or odèle ou nom, or its civil, private, commercial or military use. 52-The manufacture of any mechanical or any movable or immovable object or an electricity production plant or an industrial or other factory by one or more generators or self-generating station of electricity, or system of electric self-production, of the invention or the equipment of any mechanical or movable or immovable object or an electricity production plant or an existing industrial or other factory, by one or more self-generating generators energy of the invention, or by a self-generating station of electricity, or by an electrical self-production system, as described in example 1 and 1 and 2, or such that is described in Examples 2 to 4 and Claims 3 and 5, or as described in Examples 5 to 17 and Claims 6 to 43, or combinations of the technologies described in Examples 1 to 17 and Claims 1 to 52, and as described in a indicative and non-exhaustive and non-limiting manner to example 24 of this invention, regardless of its make or model or name, or its civilian, private, commercial or military use. 51-An installation, or an electrical station, or a factory, or a variable system, or any mobile or stationary mechanics producing electricity by multiplying the electricity production or by a system of self-production of electricity by a or a plurality of self-generating generators, or by one or more self-generating stations or by a multiplier power generating system, or by self-generation, as described in claims 1 to 52 ; and to Examples 1 to 24 of the invention, or a combination of the sets of methods and technologies described in Examples 1 to 24 and Claims 1 to 52 of this invention. 52- All self-generating generators, all self-generating stations and all systems and variable installations of self-production electricity by multiplication or surplus, as described in claims 1 to 51 and such that is explained in Examples 1 to 24 of this invention, whatever their models, brands, dimensions, names or their provisions or their civil, private, commercial or military uses. 53