WO2007135473A1 - Générateur de puissance électrique - Google Patents

Générateur de puissance électrique Download PDF

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Publication number
WO2007135473A1
WO2007135473A1 PCT/IB2006/001478 IB2006001478W WO2007135473A1 WO 2007135473 A1 WO2007135473 A1 WO 2007135473A1 IB 2006001478 W IB2006001478 W IB 2006001478W WO 2007135473 A1 WO2007135473 A1 WO 2007135473A1
Authority
WO
WIPO (PCT)
Prior art keywords
electric power
power generator
rotor
flux
stator
Prior art date
Application number
PCT/IB2006/001478
Other languages
English (en)
Inventor
K. Thangadurai
Original Assignee
Thangadurai K
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Thangadurai K filed Critical Thangadurai K
Priority to PCT/IB2006/001478 priority Critical patent/WO2007135473A1/fr
Publication of WO2007135473A1 publication Critical patent/WO2007135473A1/fr

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia

Definitions

  • the present invention belongs to the field of Electricity and relates to an Electrical Generator that functions as an electric power amplifier. More particularly the invention relates to an Electric Power Generator in which the magnets and coils are positioned top to bottom or bottom to top or sidewise shear sly relative to each other. The magnet moves in relation to the current conducting coil and during that time it produces a flow of electrons.
  • the invention also uses different types of springs in different parts of the generator to counteract the gravitational force and hysteresis between the rotor and stator
  • the increased output of electricity from a generator can be achieved through use of permanent magnet or an electromagnet and is a known prior that is used by many existing devices. For example, the permanent magnet or the electromagnet has been used in a crane or a magnetic levitation train. However, these devices have used magnetic force of the magnet only for lifting heavy objects.
  • Electric Power generator capable of providing an enhanced output using the magnetic power.
  • Electric Power generator with enhanced energy output is disclosed in the following cited in patent applications.
  • PCTVI B2003/003203 titled "CHIGO MACHINE ELECTROMECHANICS OF ELECTRICITY GENERATOR” talks, about electricity amplifier that has the faculty to produce more electricity than the one utilized for primary motion. Further it claims that if it is connected in network, it . will consume one and it will produce in exit hundred, to utilize to the uses.
  • This patent does not refer to electric efficiency in winding, but relies on the magneto motive force available, applied in a particular geometrical form. However the disadvantage of this patent is that the entire amplification is concentrated in motive power at central motor shaft resulting in differential output.
  • PCT/KR01/00135 titled "ROTAT(NG POWER GENERATOR AND ELECTRIC GENERATOR USING MAGNET” describes an invention of electric generator generating electricity by using the rotating power generator comprised of shaft; disc-shaped rotating wheels secured to the shaft, rotary magnets concentrically mounted on the circumference of the rotating wheel and stationary magnets disposed between the rotating wheels having alternating polarities at their ends close to the rotating wheels.
  • the major drawback of this invention is that the repulsive force between the rotary magnets on the rotating wheels and the stationary magnets cannot be sustained for a prolonged power generation.
  • GENERATING SYSTEM HAVING A MAGNETIC COUPLING describes about an electrical generating system that includes an electric motor coupled to a variable power source and a variable coupling connected to an output shaft of the motor.
  • the variable coupling includes opposed first and second plates each having permanent magnets affixed thereto and arranged such that rotation of the first plate by the motor causes the second plate to rotate by repulsive magnetic force.
  • a switching mechanism is placed to adjust the variable coupling and a gear assembly with high transmission ratio is connected to the variable coupling.
  • the electrical generator is connected to this gear assembly for generating electricity.
  • This patent is complicated due to the use of switching mechanism for the variable coupling and the . gear mechanism effectively nullifying the increase in the output.
  • Previously known from patent application FI-964025 is a gear in which incoming rotational power is divided into two parts by a power-split device such as a differential, where a great rotational speed but a small torque is divided to one and to the other a small rotational speed but a great torque. Both parts are eventually joined to drive the power-out axle. Gear ratio regulation is made with the part that carries the small torque. But an only in slower revolving phase of the power-out axle the generator is able to transfer direct torque to the power- out axle.
  • the main objective of the present new invention is to achieve a decisive improvement over the those limitations, whereby utilizing the principles of the electro-mechanical transmission for the construction of electric generators which are easier to realize and implement and they can run with higher efficiency with minimal or nil energy loss.
  • Another objective of the present invention is to take the advantage of gravitation force by use of special arrangement springs in the generator and the electricity generation is maximum with an effective control over the generation of the output load.
  • Another objective of this invention is to offer a new and unique way to generate small, medium and large-scale electricity using the basic process with almost any kind of a generator even by coupling to existing generators that use other methods and power sources with minor modifications and adaptations.
  • Yet another objective of the present invention is to invent an electric generator that uses the captive power from a battery that is fed in to the machine through low voltage motor and the output can be increased in geometric progression and a portion of the power can be utilized to keep the battery continuously charged. That's why it does not require any external mechanical input energy like petrol and other fuel engines etc. and can charge almost all kinds of high capacity batteries directly and remains completely self-contained as it produces more electricity from the one utilized and a part of it will be utilized to maintain the charge in the battery, which will continue to feed primary electric generator and the excess is administered in network for use.
  • the present invention has an object to provide in the preferred mode, an electric power generator on rotation of the rotor, the stator windings are cut by the magnetic flux of the rotor poles and electromagnetic field is induced in the stator conductor.
  • the flux position is flat so as to easily separate and balance using the mechanical advantages.
  • a unique arrangement of springs is placed in a minimum of five different places in the generator. Different type of springs positions serves as the source of potential energy and balances the energy loss that are caused due to gravitational pull hysteresis loss etc.
  • the magnetic flux friction between the rotor and stator is also minimized by spring orientation.
  • the stator windings which functions as conductors are cut by the magnetic flux of the rotor poles.
  • an electro magnetic force is induced in the stator conductors because the rotor poles are arranged alternatively as N and S. They induce an alternate electro magnetic force in the stator conductors.
  • the conductor is situated at the place of flux density, which will have highest rate of flux cutting.
  • the like poles approach between the rotor and stator repulsive with each other. So the mechanical energy is spent in overcoming this repulsive force, which is converted, into electrical energy, which appears in the coil. But like poles approaches due to inherent attraction between unlike poles the magnet will automatically pull towards the coil without the expenditure of any mechanical energy.
  • the invented generator in addition to the arrangement of the first feature, consists of the slot, which is arranged flatly. Poles are arranged directly opposite .
  • the movement of flux cutting lateral inversion Here the magnetic field or the center part of the solenoid assuming to be . inference djsc shape. So we can separate both side attractions.
  • the thrust (gravitation) tension (dragging) and hysteresis can be balanced by using various types of springs in various part of the generator.
  • the magnetic friction is minimized.
  • the rotor lying outside or top of the stator we can arrange multistage flux position in the single generator. By this method the electric energy may increase or decrease by electrically, mechanically and electronically.
  • Figure 1 is a schematic diagram of the Generator according to the principals of the present invention.
  • Figure 2 is a perspective view of a longitudinal section of the generator showing the position of Rotor and Stator
  • Figure 3 is a lateral view of the Centre shaft
  • Figures 4, 4 (a), 4 (b), 4 (c), 4 (d) & 4 (e) are the schematic diagram of the round or disc shaped rotor assembly
  • Figure 5 & 5 (a) are the schematic diagram of the round or disc shaped stator assembly
  • Figure 6 & 6 (a) are the actual view of the Centre shaft
  • Figure 7 is the schematic representation of the magnetic materials arrangements in the electric generator assembly
  • the magnet moves in relation to the current carrying coil. During that time it produces a flow of electron. This phenomenon where ever it is present the electro magnetic force effect will come out inducing a flow of current, which is known as electromagnetic induction.
  • electromagnetic induction When the current flows through an insulated wire solenoid, the solenoid acts as a magnet. This magnetic effect is greater than the ferro - silicon core, which is arranged within the solenoid.
  • the core is magnetized by magnetic induction and loses its magnetism immediately when the induction is stopped and again the magnet shears the conductor. Further it is seen that with the induction, the core becomes a powerful magnet i.e. whenever a conductor cuts or shears the magnetic lines of flux an electro magnetic force is always induced in it.
  • the present generator assembly comprises of the slots arranged in flat position and poles arranged directly opposite to the slots compared to the conventional arrangement, where the slots are arranged cylindrically and poles perpendicularly. This arrangement enables the conductor to be positioned in the region of maximum flux density. A process in which electric energy and magnetic force are used is combined and the output of electricity is produced only on lesser rate.
  • the electric power generator on rotation of the rotor the stator windings are cut by the magnetic flux of the rotor poles and electromagnetic field is induced in the stator conductor.
  • the flux position is flat so we can easily separate and balance by using the mechanical advantages.
  • the unique arrangement of springs are placed atleast five.. Different type of springs positions serves as the source of potential energy and balances the energy loss that are caused due to gravitational pull hysteresis loss etc.
  • the magnetic flux friction between the rotor and stator is also minimized by spring orientation.
  • S1 (Spring 1 ) is termed as elasticity and elongation spring. This spring is arranged in a triangular form. It should be fixed in- between the motor shaft and Dynamo shaft. It will act as a hysteresis balancer and mechanical energy conveyor as shown in Fig-1&2.
  • S2 (Spring 2) is termed as elasticity and elongation springs. This spring is counteracting the stator rotation or act as reversal pulling action spring. Atleast 3 spring are arranged at an angle of 120 degree in-between the outer side of the stator assembly and inner side of the drum 3(counter rotational position) Fig 1 &2.
  • Spring 53 (Spring 3) is termed, as pressable spring. It will counteract against gravitational force and hysteresis force in between the rotor and stator. One or more spring may use at this stage.
  • Spring 54 (Spring 4) is very supportive to spring 2 and is also termed as pressable spring as shown in Fig 1&2.
  • S5 (Spring 5) is termed as vibration absorber and it acts in absorbing the vibration as shown in Fig 1.
  • B1 (Bearing 1) is termed as Timken bearing or cone bearing and placed in the rotor lifting position. It is facing towards the stator winding as shown in Fig 1
  • B2 (Bearing 2) is a ball bearing. It acts as a guide for center shaft in top position. There is a mild gap between shaft and inner side of this bearing as shown in Fig 1&3
  • B3 (Bearing 3) is again a Timken bearing or cone bearing which acts as rotor front side lock bearing .It should be placed in the opposite direction to the stator for maintaining gap between the flux position stator. And it should not move towards the flux position but it is rot table inwards as shown in Fig 1&3.
  • B4 (Bearing 4) is again a ball bearing of bigger size. It acts as stator guide bearing. It bears the total weight of the stator and rotor weight also shown in Fig.1
  • B5 (Bearing 5) is once again a Cone bearing or Timken bearing. This bearing faces towards the rotor side or rotor rear side lock bearing as shown in Fig 1
  • B6 (Bearing 6) is once again a ball bearing that acts as guide to the center shaft at the bottom level. There is a gap between the shatt and inner si ⁇ e o ⁇ the bearing as shown in Fig 1&3.
  • Thrust Bearing (Bearing 7) is termed as Thrust Bearing and it is fixed in between the B3 and B6 in the center shaft. Thrust bearing acts as a safer and relaxer to the spring 7.
  • A1 is an Adjustment system that is used for pressing or releasing the spring 1 .It dispenses the load as shown in Fig 1
  • A2 is an adjustable type motor pulley that is placed in the motor shaft. It is fixed depending upon the "Triangular Gear” load and if this gear system is used in this place to get more mechanical advantage as shown in Fig 1
  • A3 is an adjustable rotor pulley or center shaft pulley. It is coupled with motor pulley through spring 4 (Triangular Springs) and with spring 3 as shown in Fig 1.
  • Winding is used depending upon the load and Bobbin is done depending upon the cores and in some cases it is not even necessary.
  • the invented generator consists of the slot, which is arranged flatly. Poles are arranged directly opposite .
  • the movement of flux cutting lateral inversion Here the magnetic field or the center part of the solenoid assuming to be inference disc shape. So we can separate both side attractions.
  • the thrust (gravitation) tension (dragging) and hysteresis can be balanced by using various types of springs in various part of the generator.
  • the magnetic friction is minimized.
  • the rotor lying outside or top of the stator we can arrange multistage flux position in the single generator. By this method the electric energy may increase or decrease by electrically, mechanically and electronically.
  • the magnetic field strength may split by the springs S2 & S3.
  • the potential energy press able or compress able spring S2 let the pressing of a. spring be stress.
  • weight of the rotor and gravitational force and hysteresis is applied to it let "g" cm/Sec 2 be the acceleration due to the above reasons. Then the work is mgh ergs. This is stored up in the spring as potential energy.
  • mass "m”. If there is repulsive action between the rotor and stator the spring 2 S2 is relaxed that mean strain.
  • We should use this type of press able spring being located on the top portion of the rotor. When it work the length of the spring shortening as "h"cm.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Abstract

L'invention concerne un générateur de puissance électrique constituée d'aimants et de bobines qui sont positionnés du sommet vers le bas et/ou du bas vers le sommet et/ou produisent un cisaillement latéral les uns par rapport aux autres, l'aimant se déplaçant par rapport à la bobine de conduction de courant. Ledit générateur est caractérisé en ce qu'un assemblage est constitué de fentes disposées en position plate et des pôles disposés directement à l'opposé, ainsi que de différents types de ressorts utilisés dans différentes parties du générateur afin d'amortir la force de gravitation et l'hystérésis entre le rotor et le stator, ce qui résulte en une sortie très puissante.
PCT/IB2006/001478 2006-05-24 2006-05-24 Générateur de puissance électrique WO2007135473A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/IB2006/001478 WO2007135473A1 (fr) 2006-05-24 2006-05-24 Générateur de puissance électrique

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/IB2006/001478 WO2007135473A1 (fr) 2006-05-24 2006-05-24 Générateur de puissance électrique

Publications (1)

Publication Number Publication Date
WO2007135473A1 true WO2007135473A1 (fr) 2007-11-29

Family

ID=38723000

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/IB2006/001478 WO2007135473A1 (fr) 2006-05-24 2006-05-24 Générateur de puissance électrique

Country Status (1)

Country Link
WO (1) WO2007135473A1 (fr)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1218056A (en) * 1968-10-09 1971-01-06 Edward Stanley Beyers Improvements in alternators
JPH03215154A (ja) * 1990-01-19 1991-09-20 Matsushita Electric Ind Co Ltd モータ

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1218056A (en) * 1968-10-09 1971-01-06 Edward Stanley Beyers Improvements in alternators
JPH03215154A (ja) * 1990-01-19 1991-09-20 Matsushita Electric Ind Co Ltd モータ

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