WO2023152738A1 - Elongated vertical dynamo/rotating vertical rod apparatus - Google Patents

Elongated vertical dynamo/rotating vertical rod apparatus Download PDF

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Publication number
WO2023152738A1
WO2023152738A1 PCT/IL2023/050132 IL2023050132W WO2023152738A1 WO 2023152738 A1 WO2023152738 A1 WO 2023152738A1 IL 2023050132 W IL2023050132 W IL 2023050132W WO 2023152738 A1 WO2023152738 A1 WO 2023152738A1
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WO
WIPO (PCT)
Prior art keywords
vertical
dynamo
rotating
rod apparatus
vertical rod
Prior art date
Application number
PCT/IL2023/050132
Other languages
French (fr)
Inventor
Ron KRAUS
Original Assignee
Kraus Ron
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 Kraus Ron filed Critical Kraus Ron
Publication of WO2023152738A1 publication Critical patent/WO2023152738A1/en

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K53/00Alleged dynamo-electric perpetua mobilia
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03DWIND MOTORS
    • F03D9/00Adaptations of wind motors for special use; Combinations of wind motors with apparatus driven thereby; Wind motors specially adapted for installation in particular locations
    • F03D9/20Wind motors characterised by the driven apparatus
    • F03D9/25Wind motors characterised by the driven apparatus the apparatus being an electrical generator

Definitions

  • the present invention relates to dynamo machines/rotating machines. More specifically, the present invention relates to vertical dynamo/rotating rod apparatus.
  • Green energy is important for the environment as it replaces the negative effects of fossil fuels with more environmentally friendly alternatives. Derived from natural resources, green energy is also often renewable and clean, meaning that they emit no or few greenhouse gases and are often readily available.
  • Green energy sources are usually naturally replenished, as opposed to fossil fuel sources like natural gas or coal, which can take millions of years to develop and are both limited and very costly. Green sources also often avoid mining or drilling operations that can be damaging to eco-systems.
  • Green energy resources that are known to be cost effective for various applications include hydroelectric power, solar energy, fuels derived from biomass, wind energy and geothermal energy, wave, ocean current, ocean thermal and other technologies as well as non-electric renewable energy technologies such as solar water heaters and geothermal heat pumps.
  • a dynamo-electric apparatus it is possible to generate a rotating magnetic field by supplying AC power to a stator winding wire and to rotate a rotator by the rotating magnetic field. It is also possible to convert mechanical energy added to a rotator into electric energy and output AC power from a coil.
  • the present invention aims to provide an improved, highly efficient, and easy to use dynamo/rotating rod apparatus to operate various devices and/or to produce electricity from multiple “green” energy sources, in a variety of ways.
  • a rotating vertical rod for operating at least one device comprising: a rotator; a magnetic base: repelling magnetic means; wherein said rotator is attachable/connectable to said magnetic base on one side and on the other side to the at least one operable device; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device.
  • a vertical dynamo for operating at least one device and/or generating electricity
  • a stator for operating at least one device and/or generating electricity
  • a rotator for operating at least one device and/or generating electricity
  • repelling magnetic means wherein said rotator and/or said stator attachable/connectable to said magnetic base; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator and/or said stator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device and/or generate electricity.
  • the vertical dynamo/rotating vertical rod apparatus further comprising stabilizing means to ensure that the rotator rotating only on its axis.
  • said stabilizing means is a ball bearing stabilizer disk.
  • said magnetic base is made of at least one magnetized disk.
  • said repelling magnet is made of at least one repelling magnetic disk.
  • the vertical dynamo/rotating vertical rod apparatus further comprising a housing.
  • said stator is a metallic coil.
  • said stator is a metallic coil made of copper.
  • said rotator is a magnetized rod.
  • said stator and said rotator are attached/connected to said magnetic base.
  • said rotator is a metallic rod having holes into which magnets are inserted at selected intervals.
  • each of the magnets are fixed to each of the magnet insertion holes by an adhesive, powder resin, or mold.
  • said rotator is attached/connected to said magnetic base and said stator is attached/connected to the housing wall of the vertical dynamo/rotating vertical rod apparatus. Furthermore, in accordance with some embodiments of the present invention, said rotator incasing said stator.
  • said dynamo/rotating vertical rod apparatus is activated by ‘"green energy”’.
  • a magnetic floating horizontal flywheel provides energy to rotate said dynamo/rotating vertical rod apparatus.
  • said magnetic floating horizontal flywheel is powered by “green energy”.
  • said “green energy” is one of solar power, hydroelectric power, compressed air, hot steam and water.
  • a repelling magnet is placed underneath the magnetic floating horizontal flywheel to lift/float said magnetic floating horizontal flywheel in the air.
  • said magnetized horizontal floating flywheel is situated at a bottom of an elongated tube to prevent the magnetized horizontal floating flywheel from slipping sideways while levitating.
  • said vertical dynamo/rotating vertical rod apparatus is powered by a wind turbine.
  • said wind turbine is either vertical wind turbine or horizontal wind turbine.
  • said horizontal wind turbine having a pole and a propeller, and wherein the vertical dynamo/rotating vertical rod apparatus is positioned behind said horizontal wind turbine to receive horizontal rotation motion.
  • said vertical dynamo is part of the pole of said horizontal wind turbine.
  • the electricity produced by the wind turbine is used to run an air/water/steam compressor, said air/water/steam injected by a nozzle of said compressor to create rapid rotation of said vertical dynamo/ rotating vertical rod apparatus.
  • the vertical wind turbine is a “Hollow bullet”-type vertical wind turbine comprised of aerodynamic hollow bullet-like containers facing same direction.
  • a propellor comprised of at least four outer wings improves the efficiency of the vertical wind turbine.
  • said vertical wind turbine comprises a screw-like center with slots to allow air to flow in and out through said slots, and thus, push the screw-like center.
  • said vertical wind turbine comprising at least three vertical aerodynamic wings connected to a circular center of a pole rotating horizontally on its axis.
  • said aerodynamic wings ensure a smooth movement when the vertical turbine turns the vertical aerodynamic wings back, against the direction of the wind.
  • said aerodynamic wings are positioned at a slight angle to catch wind thrust, when said vertical aerodynamic wings rotate back, against the wind, the angular position of the wings changing.
  • steam/hot air/compressed liquid injected from high pressure injection nozzle towards the rear of a "hollow bullet” type vertical turbine creates rapid circular motion.
  • Figs. 1 A and IB are sectional views of a rotating vertical rod apparatus generating rotatable motion according to some embodiments of the present invention.
  • Fig. 2 A is a sectional view of a vertical dynamo electric generator with magnetic rod center and copper coil(s) arranged around it.
  • Fig. 2B is a sectional view of a vertical dynamo electric generator with magnetic rod center and copper coil(s) attached to the housing wall.
  • Fig. 3 is a sectional view of a vertical dynamo electric generator with copper coil center and magnets arranged around it.
  • Fig. 4 illustrates multiple vertical dynamos/rotating vertical rod apparatuses rotatable via a magnetized horizontal floating flywheel in accordance with some embodiments of the present invention.
  • Fig. 5 illustrates a vertical dynamo/rotating vertical rod apparatus rotatable via horizontal wind turbine in accordance with some embodiments of the present invention.
  • Fig. 6 illustrates a vertical dynamo generator /rotating vertical rod apparatus rotatable via “Hollow bullet” -type vertical wind turbine in accordance with some embodiments of the present invention.
  • Fig. 7A illustrates a vertical dynamo/rotating vertical rod apparatus rotatable via vertical wind turbine comprised of vertical aerodynamic wings with a change of angle to the wind direction to allow continued rotation without friction and delay during the return movement against the wind direction according to some of the embodiments of the present invention.
  • Figs. 7B&C are top views of the vertical aerodynamic wings in accordance with some embodiments of the present invention.
  • Fig. 7D is a top view of the vertical wind turbine.
  • Fig. 7E is a schematic illustration of three vertical aerodynamic wings connected to a circular center of the turbine’s pole.
  • Fig. 8 shows a vertical dynamo that generates electricity via the rotating motion of a metal wire wrapped around a rod near vertical magnets.
  • Fig. 9 is a top view of a Hollow bullet”-type vertical wind turbine and multiple jet nozzles according to some embodiments of the present invention.
  • Figs. 1 A&B are sectional views of a rotating vertical rod apparatus 100 A&B according to some embodiments of the present invention.
  • the rotating vertical rod apparatus 100 A&B may comprise a rotator 102. a magnetic base 104, repelling magnetic means such as at least one repelling magnetic disc 106, stabilizing means such as at least one ball bearing stabilizer disk 108 and a housing 110.
  • repelling magnetic means such as at least one repelling magnetic disc 106
  • stabilizing means such as at least one ball bearing stabilizer disk 108 and a housing 110.
  • rotator 102 may be a rod connectable to magnetic base 104 on one side and on the other side to at least one operable device such electric motor 112A.
  • magnetic base 104 may be made of at least one magnetized component/magnet, for instance, at least one magnetic disc.
  • Repelling magnet 106 may be made of at least one repelling magnetized component/magnet, e.g., at least one repelling magnetic disk.
  • rotator 102 may be aitached/connected to the magnetic base 104.
  • the repelling magnet 106 for instance, repelling magnetic disks, repelling the magnetic base 104 and thus levitating the magnetic base 104 and the aitached/connected rotator 102 in the air, thus, eliminating/ minimizing friction and thus increasing the rotation speed.
  • the strength of the magnetic repulsion depends on the number of magnetic disks of the repelling magnet 106. Multiple magnetic disks may be able to repel the weight of the rotating vertical rod apparatus 100A&B that will float in the air. Such magnetic repulsion ensures that the rotator 102 is effectively weightless, thus frictionless rotation ensures easy movement, high speed and great energy.
  • At least one ball bearing stabilizer disk 108 may ensure that the rotator 102 rotates only on its axis and does not move sideways inside the housing 110.
  • rotator 102 is connected to at least one operable device such as pump 112B to create water motion in a pipe and/or suction of liquid, a liquid/water purifier device, and the like.
  • the rotating vertical rod apparatus 100 may be activated by green energy to rotate the rotator 102 and thus to operate various devices such as the electric motor 112A of Fig. 1A, the pump 112B of Fig. IB and the like.
  • Fig. 2 A is a sectional view of a vertical dynamo electric generator 200 for operating at least one device and/or generating electricity according to some embodiments of the present invention.
  • the vertical dynamo electric generator 200 may comprise a stator 202, a rotator 204, a magnetic base 206, repelling magnetic means such as at least one repelling magnetic disk 208, and a housing 210.
  • stator 202 may be a metallic coil such as for example a copper coil, and rotator 204 is a magnetized rod.
  • magnetic base 206 may be made of at least one magnetized component/magnet, for instance, at least one magnetic disc.
  • Repelling magnet 208 may be made of at least one repelling magnet, e.g., at least one repelling magnetic disk.
  • stator 202 and rotator 204 may be attached/connected to the magnetic base 206, and the at least one repelling magnet 208 repelling the at least one magnet 206 and thus levitating the rotator 202 and the at least one magnet 206 in the air, thus, eliminating/minimizing friction and thus increasing the rotation speed.
  • rotator 204 may be a metallic rod such as for instance an iron rod having holes into which magnets are inserted at selected intervals.
  • a metallic rod such as for instance an iron rod having holes into which magnets are inserted at selected intervals.
  • rectangular magnets may be inserted into multiple holes along the circumference of an iron rod at equal intervals.
  • Each of she magnets may be fixed to each of the magnet insertion holes by an adhesive, powder resin, a mold, or the like.
  • the width of each of the magnet insertion holes in the circumferential direction is set so as to be larger than the width of each of the magnets.
  • stator 202 and rotator 204 are attached/connected to the magnetic base 206, and the at least one repelling magnet 208 repelling the at least one magnet 206 and thus levitating the at least one magnet 206, the stator 202, and the rotator 204 in the air, thus, eliminating/minimizing friction and thus increasing the rotation speed.
  • the rotator 204 may be attached/connected to the magnetic base 206, while stator 202, at least one metal coil, may be stationary, for instance, may be attached to the housing 210 wall as seen in Fig. 2B, thus, the at least one repelling magnet 208 repelling the at least one magnetic base 206 and thus levitating the rotator 204 in the air, thus, eliminating/miuimizing friction and thus increasing the rotation speed.
  • Fig. 3 is a sectional view of a vertical dynamo electric generator 300 according to some embodiments of the present invention.
  • the dynamo electric generator comprises a stator 302, a rotator 304 , a magnetic base 306, repelling magnetic means such as at least one repelling magnetic disk 308, and a housing 310.
  • stator 302 may be a metallic coil such as a copper coil encased by a rotator 304 which may be a magnetic casing such as, for instance, a magnetic cylinder,
  • rotator 304 may be a metallic casing, such as a metallic cylinder, having holes into which magnets may be inserted at selected intervals. For instance, rectangular magnets may be inserted into multiple holes along the circumference of an iron casing at equal intervals.
  • Each of she magnets may be fixed to each of the magnet insertion holes by an adhesive, powder resin, a mold, or the like.
  • the width of each of the magnet insertion holes in the circumferential direction is set so as to be larger than the width of each of the magnets.
  • stator 302 and rotator 304 may be attached/connected to the magnetic base 306, and the at least one repelling magnet 308 repelling the magnetic base 306. and thus, levitating the magnetic base 306, the stator 302, and the rotator 304 in the air.
  • the rotating vertical rod apparatus 100 A&B, vertical dynamo 200, 300 receives energy for the circular motion from "green" sources, such as various types of wind turbines, solar panels hydroelectric power sources and the like that operate an electric pump or compressor to generate pressure in a nozzle.
  • the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 creates no polluting bi-products, and the longer the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 is, the more energy it produces.
  • a magnetic floating horizontal flywheel powered by "green” energy may be used as well to provide energy sufficient to rotate the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 as illustrated and described in Fig. 4.
  • Fig. 4 illustrates multiple rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via a magnetized horizontal floating flywheel 400 in accordance with some embodiments of the present invention.
  • repelling magnet 402 is placed underneath the magnetized horizontal floating flywheel 400.
  • the repelling magnet 402 may be made of at least one repelling magnetized component/magnet, e.g., at least one repelling magnetic disk.
  • the magnetized horizontal flywheel 400 may be lifted/floated in the air due to repulsion produced via the repelling magnet 402.
  • the magnetized horizontal floating flywheel 400 To keep the magnetized horizontal floating flywheel 400 from gliding sideways while levitating, it is situated at a bottom of an elongated tube which prevents the flywheel 400 to slip sideways.
  • energy sources used to rotate the magnetized horizontal floating flywheel 400 may be for instance solar power, hydroelectric power, compressed air, hot steam and water.
  • multiple rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 may be disposed around the magnetized horizontal floating flywheel 400.
  • a motor such as an electric motor may be used to initiate rotation of the magnetized horizontal floating flywheel 400.
  • the rest of the energy needed for continuous rotation of the magnetized horizontal floating flywheel 400 may be “green” energy such as compressed air and steam generated by green/non-polluting energy sources and the like.
  • Fig. 5 illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via horizontal wind turbine 500 in accordance with some embodiments of the present invention.
  • the horizontal wind turbine 500 may be a propeller-type wind turbine 500 as seen in Fig. 5.
  • a propeller 502 mounted on a pole 504 is rotatable by wind motion.
  • the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 is positioned behind the propeller 502 to directly receive the horizontal rotation motion to operate various devices (rotating vertical rod apparatus 100A&B) or to create electricity (vertical dynamo 200, 300).
  • the propeller 502 may turn/rotate to face the air motion.
  • the horizontal movement can be transferred to vertical movements by a differential AKA gear (about 45 degrees horizontal to vertical).
  • the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 may be part of the pole 504 onto which the propeller 502 is mounted.
  • Another way to create vertical rotation may be done by using the electricity produced by the horizontal wind turbine 500 to run an air/water/steam compressor.
  • the use of an air/water/steam nozzle may result in rapid rotation of the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300.
  • the long propeller arms of a vertical wind turbine are rotating vertically and not horizontally.
  • Fig. 6 illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via “Hollow bullet” -type vertical wind turbine 600 in accordance with some embodiments of the present invention.
  • a "hollow bullet”-type vertical wind turbine 600 comprises a vertical central pole 602, a top horizontal circle 604 made of at least four arms, such as arm 606 connected to a circular center 608. At the end of each arm is an aerodynamic "Hollo bullet”-like container 610 that resembles a hollow bullet.
  • the "Hollow bullet” -like containers 610 face the same direction.
  • the wind fills the “Hollow bullet” -like containers 610 in the back and causes the “Hollow bullet” -like containers 610 to rotate. Forward movement of the “Hollow bullet” -like containers 610 may be smooth due to the aerodynamic shape of the “Hollow bullet” -like containers 610.
  • the ends of the arms 606 attached to the horizontally positioned circular center 608 may get a push/movement of air from the opening at the back, and the forward movement will not slow the rotation due to the bullet- like shape of containers 610.
  • the bullet-like containers are open in the back and aerodynamic in the font, thus, can be pushed from the back and create minimal fiction during motion forward.
  • Improving the efficiency of the various vertical wind turbines may be accomplished by attaching/connecting at least four outer wings to the circumference of the pole, making the pole look like the back of a mortar shell with the stabilizing wings around the tail. This way, instead of receiving only the wind that hits the pole, the outer wings will thicken and direct more wind to the slots in the center of the pole, thus increasing the rotation speed.
  • additional ways in which a vertical wind turbine may be used to operate the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 are:
  • Multiple outer blades, for instance four - six outer blades, on the vertical wind turbine may focus more air to flow towards the slots (the fixed outer wings make the outside of the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 look like the tail of a mortar shell.
  • Fig. 7A illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via vertical wind turbine 700.
  • Vertical wind turbine 700 is comprised of at least three vertical aerodynamic wings 701. Each one of the at least three vertical aerodynamic wing 701 is connected to an arm 702 connected to a circular center 704 of pole 706 that rotates horizontally on its axis. Each arm 702 is comprised of a bottom part and a top part.
  • the vertical aerodynamic wings 702 have an aerodynamic shape, similar to an airplane wing but with uniform angles on both sides because there is no need to create lift. Such structure of the vertical aerodynamic wings 702 ensures that when the turbine 700 turns the vertical aerodynamic wings 702 back, against the direction of the wind, the movement will be smooth and with as little resistance as possible. This type of thrusting force is created when the vertical aerodynamic wings 702 have a slight angle to capture the movement of the wind, that is, only half of the side is pushed like a sail, while the other wings on their way back against the direction of the wind have no angle and minimal friction, otherwise the movement is significantly slowed down or non-existent.
  • the vertical aerodynamic wings 702 should be positioned at a slight angle to catch the wind and thrust, like a boat sail, but as the vertical aerodynamic wings 702 rotate back, against the wind, it changes the angle of the wing, for instance, the wing may be at a 90 degree angle to the wind, meaning there is less resistance.
  • the above configurations may allow the slanted vertical wings to be pushed to create the turn, but moving backwards, against the wind, will not have an angle to the wing, as this will actually slow down or prevent the turning motion.
  • Figs. 7B&C are top views of the vertical aerodynamic wings 702 in accordance with some embodiments of the present invention.
  • Fig. 7B shows the vertical wing 708 after angle change, on its way back against wind direction.
  • the aerodynamic shape minimizes friction and thus allows continuous motion.
  • Fig. 7D is a top view of the vertical wind turbine 700
  • Fig. 7E is a schematic illustration of three vertical aerodynamic wings 702 connected to a circular center 704 of pole 706.
  • the vertical aerodynamic wings 712 have an aerodynamic shape, similar to an airplane wing but with uniform angles on both sides because there is no need to create lift. Such structure of the vertical aerodynamic wings 712 ensures that when the turbine 700 turns the vertical aerodynamic wings 712 back, against the
  • the outer shape of the wing 712 improves rotational speed by directing the wind to the center of the pole in the vertical wind turbine 700.
  • the wings 702 direct more wind energy to the slits 710 in the center pole 706 of the vertical wind turbine 700, and thus, increase the rotation speed.
  • Fig. 8 shows the basic design of a vertical dynamo 800 that generates electricity directly from the rotating motion of a metal wire such as copper wire 802 wrapped around a rod 804 near vertical magnets 806 around it.
  • Fig. 9 is a top view of a “Hollow bullet”-type vertical wind turbine 900 and multiple jet nozzles such as jet nozzle 902 injecting compressed air, water or steam to operate the “Hollow bullet” -type vertical wind turbine 900 according to some embodiments of the present invention.
  • the “Hollow bullet”-type vertical turbine 900 can be operated either by wind or by jet nozzles activated by “green” energy for injecting compressed air, water or pressured steam for frictionless fast rotating motion.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Abstract

A vertical dynamo/rotating rod apparatus for operating at least one device and/or generating electricity /motion. The vertical dynamo/rotating rod apparatus comprises a rotator, a stator (optionally), a magnetic base, and repelling magnetic means under it. wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator and/or stator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device and/or generate electricity /rotation motion.

Description

ELONGATED VERTICAL DYNAMO/ROTATING VERTICAL ROD
APPARATUS
FIELD OF THE INVENTION
The present invention relates to dynamo machines/rotating machines. More specifically, the present invention relates to vertical dynamo/rotating rod apparatus.
BACKGROUND OF THE INVENTION
Green energy is important for the environment as it replaces the negative effects of fossil fuels with more environmentally friendly alternatives. Derived from natural resources, green energy is also often renewable and clean, meaning that they emit no or few greenhouse gases and are often readily available.
Even when the full life cycle of a green energy source is taken into consideration, they release far less greenhouse gases than fossil fuels, as well as few or low levels of air pollutants. This is not just good for the planet but is also better for the health of people and animals that breathe the air.
Due to the local nature of energy production through sources like solar and wind power, the energy infrastructure is more flexible and less dependent on centralized sources that can lead to disruption as well as being less resilient to weather related climate or political change.
Green energy sources are usually naturally replenished, as opposed to fossil fuel sources like natural gas or coal, which can take millions of years to develop and are both limited and very costly. Green sources also often avoid mining or drilling operations that can be damaging to eco-systems.
Green energy resources that are known to be cost effective for various applications include hydroelectric power, solar energy, fuels derived from biomass, wind energy and geothermal energy, wave, ocean current, ocean thermal and other technologies as well as non-electric renewable energy technologies such as solar water heaters and geothermal heat pumps.
In a dynamo-electric apparatus, it is possible to generate a rotating magnetic field by supplying AC power to a stator winding wire and to rotate a rotator by the rotating magnetic field. It is also possible to convert mechanical energy added to a rotator into electric energy and output AC power from a coil.
The present invention aims to provide an improved, highly efficient, and easy to use dynamo/rotating rod apparatus to operate various devices and/or to produce electricity from multiple “green” energy sources, in a variety of ways.
SUMMARY OF THE INVENTION
In accordance with some embodiments, there is thus provided a rotating vertical rod for operating at least one device comprising: a rotator; a magnetic base: repelling magnetic means; wherein said rotator is attachable/connectable to said magnetic base on one side and on the other side to the at least one operable device; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device.
Furthermore, in accordance with some embodiments of the present invention, there is provided a vertical dynamo for operating at least one device and/or generating electricity comprising: a stator; a rotator; a magnetic base; repelling magnetic means; wherein said rotator and/or said stator attachable/connectable to said magnetic base; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator and/or said stator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device and/or generate electricity.
Furthermore, in accordance with some embodiments of the present invention, the vertical dynamo/rotating vertical rod apparatus further comprising stabilizing means to ensure that the rotator rotating only on its axis.
Furthermore, in accordance with some embodiments of the present invention, said stabilizing means is a ball bearing stabilizer disk.
Furthermore, in accordance with some embodiments of the present invention, said magnetic base is made of at least one magnetized disk.
Furthermore, in accordance with some embodiments of the present invention, said repelling magnet is made of at least one repelling magnetic disk.
Furthermore, in accordance with some embodiments of the present invention, the vertical dynamo/rotating vertical rod apparatus further comprising a housing. Furthermore, in accordance with some embodiments of the present invention, said stator is a metallic coil.
Furthermore, in accordance with some embodiments of the present invention, said stator is a metallic coil made of copper.
Furthermore, in accordance with some embodiments of the present invention, said rotator is a magnetized rod.
Furthermore, in accordance with some embodiments of the present invention, said stator and said rotator are attached/connected to said magnetic base.
Furthermore, in accordance with some embodiments of the present invention, said rotator is a metallic rod having holes into which magnets are inserted at selected intervals.
Furthermore, in accordance with some embodiments of the present invention, each of the magnets are fixed to each of the magnet insertion holes by an adhesive, powder resin, or mold.
Furthermore, in accordance with some embodiments of the present invention, said rotator is attached/connected to said magnetic base and said stator is attached/connected to the housing wall of the vertical dynamo/rotating vertical rod apparatus. Furthermore, in accordance with some embodiments of the present invention, said rotator incasing said stator.
Furthermore, in accordance with some embodiments of the present invention, said dynamo/rotating vertical rod apparatus is activated by ‘"green energy"’.
Furthermore, in accordance with some embodiments of the present invention, a magnetic floating horizontal flywheel provides energy to rotate said dynamo/rotating vertical rod apparatus.
Furthermore, in accordance with some embodiments of the present invention, said magnetic floating horizontal flywheel is powered by “green energy”.
Furthermore, in accordance with some embodiments of the present invention, said “green energy” is one of solar power, hydroelectric power, compressed air, hot steam and water.
Furthermore, in accordance with some embodiments of the present invention, a repelling magnet is placed underneath the magnetic floating horizontal flywheel to lift/float said magnetic floating horizontal flywheel in the air.
Furthermore, in accordance with some embodiments of the present invention, said magnetized horizontal floating flywheel is situated at a bottom of an elongated tube to prevent the magnetized horizontal floating flywheel from slipping sideways while levitating.
Furthermore, in accordance with some embodiments of the present invention, said vertical dynamo/rotating vertical rod apparatus is powered by a wind turbine. Furthermore, in accordance with some embodiments of the present invention, said wind turbine is either vertical wind turbine or horizontal wind turbine.
Furthermore, in accordance with some embodiments of the present invention, said horizontal wind turbine having a pole and a propeller, and wherein the vertical dynamo/rotating vertical rod apparatus is positioned behind said horizontal wind turbine to receive horizontal rotation motion.
Furthermore, in accordance with some embodiments of the present invention, said vertical dynamo is part of the pole of said horizontal wind turbine.
Furthermore, in accordance with some embodiments of the present invention, the electricity produced by the wind turbine is used to run an air/water/steam compressor, said air/water/steam injected by a nozzle of said compressor to create rapid rotation of said vertical dynamo/ rotating vertical rod apparatus.
Furthermore, in accordance with some embodiments of the present invention, the vertical wind turbine is a “Hollow bullet”-type vertical wind turbine comprised of aerodynamic hollow bullet-like containers facing same direction.
Furthermore, in accordance with some embodiments of the present invention, a propellor comprised of at least four outer wings improves the efficiency of the vertical wind turbine.
Furthermore, in accordance with some embodiments of the present invention, said vertical wind turbine comprises a screw-like center with slots to allow air to flow in and out through said slots, and thus, push the screw-like center.
Furthermore, in accordance with some embodiments of the present invention, said vertical wind turbine comprising at least three vertical aerodynamic wings connected to a circular center of a pole rotating horizontally on its axis.
Furthermore, in accordance with some embodiments of the present invention, said aerodynamic wings ensure a smooth movement when the vertical turbine turns the vertical aerodynamic wings back, against the direction of the wind.
Furthermore, in accordance with some embodiments of the present invention, said aerodynamic wings are positioned at a slight angle to catch wind thrust, when said vertical aerodynamic wings rotate back, against the wind, the angular position of the wings changing.
Furthermore, in accordance with some embodiments of the present invention, steam/hot air/compressed liquid injected from high pressure injection nozzle towards the rear of a "hollow bullet" type vertical turbine creates rapid circular motion.
BRIEF DESCRIPTION OF THE FIGURES
Figs. 1 A and IB are sectional views of a rotating vertical rod apparatus generating rotatable motion according to some embodiments of the present invention.
Fig. 2 A is a sectional view of a vertical dynamo electric generator with magnetic rod center and copper coil(s) arranged around it.
Fig. 2B is a sectional view of a vertical dynamo electric generator with magnetic rod center and copper coil(s) attached to the housing wall. Fig. 3 is a sectional view of a vertical dynamo electric generator with copper coil center and magnets arranged around it.
Fig. 4 illustrates multiple vertical dynamos/rotating vertical rod apparatuses rotatable via a magnetized horizontal floating flywheel in accordance with some embodiments of the present invention.
Fig. 5 illustrates a vertical dynamo/rotating vertical rod apparatus rotatable via horizontal wind turbine in accordance with some embodiments of the present invention.
Fig. 6 illustrates a vertical dynamo generator /rotating vertical rod apparatus rotatable via “Hollow bullet” -type vertical wind turbine in accordance with some embodiments of the present invention.
Fig. 7A illustrates a vertical dynamo/rotating vertical rod apparatus rotatable via vertical wind turbine comprised of vertical aerodynamic wings with a change of angle to the wind direction to allow continued rotation without friction and delay during the return movement against the wind direction according to some of the embodiments of the present invention.
Figs. 7B&C are top views of the vertical aerodynamic wings in accordance with some embodiments of the present invention.
Fig. 7D is a top view of the vertical wind turbine.
Fig. 7E is a schematic illustration of three vertical aerodynamic wings connected to a circular center of the turbine’s pole.
Fig. 8 shows a vertical dynamo that generates electricity via the rotating motion of a metal wire wrapped around a rod near vertical magnets.
Fig. 9 is a top view of a Hollow bullet”-type vertical wind turbine and multiple jet nozzles according to some embodiments of the present invention.
DETAILED DESCRIPTION OF THE FIGURES
Figs. 1 A&B are sectional views of a rotating vertical rod apparatus 100 A&B according to some embodiments of the present invention.
The rotating vertical rod apparatus 100 A&B may comprise a rotator 102. a magnetic base 104, repelling magnetic means such as at least one repelling magnetic disc 106, stabilizing means such as at least one ball bearing stabilizer disk 108 and a housing 110.
In accordance with some embodiments of the present invention, rotator 102 may be a rod connectable to magnetic base 104 on one side and on the other side to at least one operable device such electric motor 112A.
In accordance with some embodiments of the present invention, magnetic base 104 may be made of at least one magnetized component/magnet, for instance, at least one magnetic disc. Repelling magnet 106 may be made of at least one repelling magnetized component/magnet, e.g., at least one repelling magnetic disk.
In accordance with some embodiments of die present invention, rotator 102 may be aitached/connected to the magnetic base 104.
The repelling magnet 106, for instance, repelling magnetic disks, repelling the magnetic base 104 and thus levitating the magnetic base 104 and the aitached/connected rotator 102 in the air, thus, eliminating/ minimizing friction and thus increasing the rotation speed.
In accordance with some embodiments of the present invention, the strength of the magnetic repulsion depends on the number of magnetic disks of the repelling magnet 106. Multiple magnetic disks may be able to repel the weight of the rotating vertical rod apparatus 100A&B that will float in the air. Such magnetic repulsion ensures that the rotator 102 is effectively weightless, thus frictionless rotation ensures easy movement, high speed and great energy.
In accordance with some embodiments of the present invention, at least one ball bearing stabilizer disk 108 may ensure that the rotator 102 rotates only on its axis and does not move sideways inside the housing 110.
In Fig. IB, rotator 102 is connected to at least one operable device such as pump 112B to create water motion in a pipe and/or suction of liquid, a liquid/water purifier device, and the like.
In accordance with some embodiments of die present invention, the rotating vertical rod apparatus 100 may be activated by green energy to rotate the rotator 102 and thus to operate various devices such as the electric motor 112A of Fig. 1A, the pump 112B of Fig. IB and the like. Fig. 2 A is a sectional view of a vertical dynamo electric generator 200 for operating at least one device and/or generating electricity according to some embodiments of the present invention.
The vertical dynamo electric generator 200 may comprise a stator 202, a rotator 204, a magnetic base 206, repelling magnetic means such as at least one repelling magnetic disk 208, and a housing 210.
In accordance with some embodiments of the present invention, stator 202 may be a metallic coil such as for example a copper coil, and rotator 204 is a magnetized rod. In accordance with some embodiments of the present invention, magnetic base 206 may be made of at least one magnetized component/magnet, for instance, at least one magnetic disc. Repelling magnet 208 may be made of at least one repelling magnet, e.g., at least one repelling magnetic disk.
As seen in the figure, stator 202 and rotator 204 may be attached/connected to the magnetic base 206, and the at least one repelling magnet 208 repelling the at least one magnet 206 and thus levitating the rotator 202 and the at least one magnet 206 in the air, thus, eliminating/minimizing friction and thus increasing the rotation speed.
In accordance with some embodiments of the present invention, rotator 204 may be a metallic rod such as for instance an iron rod having holes into which magnets are inserted at selected intervals. For instance, rectangular magnets may be inserted into multiple holes along the circumference of an iron rod at equal intervals.
Each of she magnets may be fixed to each of the magnet insertion holes by an adhesive, powder resin, a mold, or the like. The width of each of the magnet insertion holes in the circumferential direction is set so as to be larger than the width of each of the magnets.
In accordance with some embodiments of the present invention, stator 202 and rotator 204 are attached/connected to the magnetic base 206, and the at least one repelling magnet 208 repelling the at least one magnet 206 and thus levitating the at least one magnet 206, the stator 202, and the rotator 204 in the air, thus, eliminating/minimizing friction and thus increasing the rotation speed.
In accordance with some embodiments of the present invention, to decrease the weight of the levitating dynamo, the rotator 204 may be attached/connected to the magnetic base 206, while stator 202, at least one metal coil, may be stationary, for instance, may be attached to the housing 210 wall as seen in Fig. 2B, thus, the at least one repelling magnet 208 repelling the at least one magnetic base 206 and thus levitating the rotator 204 in the air, thus, eliminating/miuimizing friction and thus increasing the rotation speed.
Fig. 3 is a sectional view of a vertical dynamo electric generator 300 according to some embodiments of the present invention.
The dynamo electric generator comprises a stator 302, a rotator 304 , a magnetic base 306, repelling magnetic means such as at least one repelling magnetic disk 308, and a housing 310.
In accordance with some embodiments of the present invention, stator 302 may be a metallic coil such as a copper coil encased by a rotator 304 which may be a magnetic casing such as, for instance, a magnetic cylinder,
In accordance with some embodiments of the present invention, rotator 304 may be a metallic casing, such as a metallic cylinder, having holes into which magnets may be inserted at selected intervals. For instance, rectangular magnets may be inserted into multiple holes along the circumference of an iron casing at equal intervals.
Each of she magnets may be fixed to each of the magnet insertion holes by an adhesive, powder resin, a mold, or the like. The width of each of the magnet insertion holes in the circumferential direction is set so as to be larger than the width of each of the magnets.
In accordance with some embodiments of the present invention, stator 302 and rotator 304 may be attached/connected to the magnetic base 306, and the at least one repelling magnet 308 repelling the magnetic base 306. and thus, levitating the magnetic base 306, the stator 302, and the rotator 304 in the air.
In accordance with some embodiments of the present invention, the rotating vertical rod apparatus 100 A&B, vertical dynamo 200, 300 receives energy for the circular motion from "green" sources, such as various types of wind turbines, solar panels hydroelectric power sources and the like that operate an electric pump or compressor to generate pressure in a nozzle. The rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 creates no polluting bi-products, and the longer the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 is, the more energy it produces.
In accordance with some embodiments of the present invention, there are various ways to use natural resources to produce the circular motion of the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300, e.g., to create the fast rotation motion in the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 having a center coil/rod/rod and coil floating. Such ways which may change in relation to local conditions, such as wind, wave, sun light, and the like, and based on customer/energy producer needs, are detailed below.
In accordance with some embodiments of the present invention, a magnetic floating horizontal flywheel powered by "green" energy may be used as well to provide energy sufficient to rotate the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 as illustrated and described in Fig. 4.
Fig. 4 illustrates multiple rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via a magnetized horizontal floating flywheel 400 in accordance with some embodiments of the present invention.
As seen in the figure, repelling magnet 402 is placed underneath the magnetized horizontal floating flywheel 400.
The repelling magnet 402 may be made of at least one repelling magnetized component/magnet, e.g., at least one repelling magnetic disk.
In accordance with some embodiments of the present invention, the magnetized horizontal flywheel 400 may be lifted/floated in the air due to repulsion produced via the repelling magnet 402.
To keep the magnetized horizontal floating flywheel 400 from gliding sideways while levitating, it is situated at a bottom of an elongated tube which prevents the flywheel 400 to slip sideways.
In accordance with some embodiments of the present invention, energy sources used to rotate the magnetized horizontal floating flywheel 400 may be for instance solar power, hydroelectric power, compressed air, hot steam and water. In accordance with some embodiments of the present invention, multiple rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 may be disposed around the magnetized horizontal floating flywheel 400. Thus, the energy produced, while the flywheel 400 is rotating, rotates the multiple the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300.
In accordance with some embodiments of the present invention, a motor such as an electric motor may be used to initiate rotation of the magnetized horizontal floating flywheel 400. The rest of the energy needed for continuous rotation of the magnetized horizontal floating flywheel 400 may be “green” energy such as compressed air and steam generated by green/non-polluting energy sources and the like.
In accordance with some embodiments of the present invention, there are several types of wind turbines that can generate energy needed to rotate the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300.
Fig. 5 illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via horizontal wind turbine 500 in accordance with some embodiments of the present invention.
The horizontal wind turbine 500 may be a propeller-type wind turbine 500 as seen in Fig. 5.
As seen in the figure, a propeller 502 mounted on a pole 504 is rotatable by wind motion. The rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 is positioned behind the propeller 502 to directly receive the horizontal rotation motion to operate various devices (rotating vertical rod apparatus 100A&B) or to create electricity (vertical dynamo 200, 300).
In accordance with some embodiments of the present invention, the propeller 502 may turn/rotate to face the air motion.
According to some embodiments of the present invention, the horizontal movement can be transferred to vertical movements by a differential AKA gear (about 45 degrees horizontal to vertical).
This way, the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 may be part of the pole 504 onto which the propeller 502 is mounted. Another way to create vertical rotation may be done by using the electricity produced by the horizontal wind turbine 500 to run an air/water/steam compressor. The use of an air/water/steam nozzle may result in rapid rotation of the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300.
Unlike the previously described horizontal wind turbine 500, the long propeller arms of a vertical wind turbine are rotating vertically and not horizontally.
Fig. 6 illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via “Hollow bullet” -type vertical wind turbine 600 in accordance with some embodiments of the present invention.
As seen in the figure, a "hollow bullet"-type vertical wind turbine 600 comprises a vertical central pole 602, a top horizontal circle 604 made of at least four arms, such as arm 606 connected to a circular center 608. At the end of each arm is an aerodynamic "Hollo bullet"-like container 610 that resembles a hollow bullet. The "Hollow bullet" -like containers 610 face the same direction.
The wind fills the “Hollow bullet” -like containers 610 in the back and causes the “Hollow bullet” -like containers 610 to rotate. Forward movement of the “Hollow bullet” -like containers 610 may be smooth due to the aerodynamic shape of the “Hollow bullet” -like containers 610.
The ends of the arms 606 attached to the horizontally positioned circular center 608 may get a push/movement of air from the opening at the back, and the forward movement will not slow the rotation due to the bullet- like shape of containers 610. The bullet-like containers are open in the back and aerodynamic in the font, thus, can be pushed from the back and create minimal fiction during motion forward. Improving the efficiency of the various vertical wind turbines may be accomplished by attaching/connecting at least four outer wings to the circumference of the pole, making the pole look like the back of a mortar shell with the stabilizing wings around the tail. This way, instead of receiving only the wind that hits the pole, the outer wings will thicken and direct more wind to the slots in the center of the pole, thus increasing the rotation speed. In accordance with some embodiments of the present invention, additional ways in which a vertical wind turbine may be used to operate the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 are:
1. A screw-like center with slots located in a rod center that allow air to flow in and out. Wind penetrates the slots and pushes the screw-like center, which due to its screw-like shape makes a circular movement. Multiple outer blades, for instance four - six outer blades, on the vertical wind turbine may focus more air to flow towards the slots (the fixed outer wings make the outside of the rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 look like the tail of a mortar shell.
2. Vertical aerodynamic wings with variable angle as seen in Fig. 7A.
Fig. 7A illustrates a rotating vertical rod apparatus 100A&B, vertical dynamo 200, 300 rotatable via vertical wind turbine 700.
Vertical wind turbine 700 is comprised of at least three vertical aerodynamic wings 701. Each one of the at least three vertical aerodynamic wing 701 is connected to an arm 702 connected to a circular center 704 of pole 706 that rotates horizontally on its axis. Each arm 702 is comprised of a bottom part and a top part.
The vertical aerodynamic wings 702 have an aerodynamic shape, similar to an airplane wing but with uniform angles on both sides because there is no need to create lift. Such structure of the vertical aerodynamic wings 702 ensures that when the turbine 700 turns the vertical aerodynamic wings 702 back, against the direction of the wind, the movement will be smooth and with as little resistance as possible. This type of thrusting force is created when the vertical aerodynamic wings 702 have a slight angle to capture the movement of the wind, that is, only half of the side is pushed like a sail, while the other wings on their way back against the direction of the wind have no angle and minimal friction, otherwise the movement is significantly slowed down or non-existent.
According to some embodiments of the present invention, the vertical aerodynamic wings 702 should be positioned at a slight angle to catch the wind and thrust, like a boat sail, but as the vertical aerodynamic wings 702 rotate back, against the wind, it changes the angle of the wing, for instance, the wing may be at a 90 degree angle to the wind, meaning there is less resistance. The above configurations may allow the slanted vertical wings to be pushed to create the turn, but moving backwards, against the wind, will not have an angle to the wing, as this will actually slow down or prevent the turning motion.
Figs. 7B&C are top views of the vertical aerodynamic wings 702 in accordance with some embodiments of the present invention.
Fig. 7B shows the vertical wing 708 after angle change, on its way back against wind direction. The aerodynamic shape minimizes friction and thus allows continuous motion.
It should be noted that when the angle of the wing to the wind direction is not 90 degrees, rotation is produced (like a sail) for the first half of the turn. The second half, on the way back against the direction of the wind, the angle of the wing changes to be 90 degrees to the wind, which minimizes friction and enables movement.
In Figure 7B, the vertical aerodynamic wings 702 are retracted against the wind direction, while in Figure 7C, the vertical aerodynamic wings 702 are positioned downwind.
Fig. 7D is a top view of the vertical wind turbine 700, and Fig. 7E is a schematic illustration of three vertical aerodynamic wings 702 connected to a circular center 704 of pole 706.
The vertical aerodynamic wings 712 have an aerodynamic shape, similar to an airplane wing but with uniform angles on both sides because there is no need to create lift. Such structure of the vertical aerodynamic wings 712 ensures that when the turbine 700 turns the vertical aerodynamic wings 712 back, against the
In accordance with some embodiments of the present invention, the outer shape of the wing 712 improves rotational speed by directing the wind to the center of the pole in the vertical wind turbine 700.
The wings 702 direct more wind energy to the slits 710 in the center pole 706 of the vertical wind turbine 700, and thus, increase the rotation speed.
Fig. 8 shows the basic design of a vertical dynamo 800 that generates electricity directly from the rotating motion of a metal wire such as copper wire 802 wrapped around a rod 804 near vertical magnets 806 around it. Fig. 9 is a top view of a “Hollow bullet”-type vertical wind turbine 900 and multiple jet nozzles such as jet nozzle 902 injecting compressed air, water or steam to operate the “Hollow bullet” -type vertical wind turbine 900 according to some embodiments of the present invention.
The “Hollow bullet”-type vertical turbine 900 can be operated either by wind or by jet nozzles activated by “green” energy for injecting compressed air, water or pressured steam for frictionless fast rotating motion.

Claims

1. A rotating vertical rod apparatus for operating at least one device comprising: a rotator; a magnetic base: repelling magnetic means; wherein said rotator is attachable/connectable to said magnetic base on one side and on the other side to the at least one operable device; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and she attached/connected rotator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device.
2. A vertical dynamo for operating at least one device and/or generating electricity comprising: a stator; a rotator; a magnetic base; repelling magnetic means; wherein said rotator and/or said stator attachable/connectable to said magnetic base; wherein the repelling magnetic means positioned underneath said magnetic base, said repelling means repelling said magnetic base and thus levitating the magnetic base and the attached/connected rotator and/or said stator, thus, minimizing friction and thus increasing the rotation speed of said rotator; thereby, said rotator rotating to operate the at least one device and/or generate electricity.
3. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, further comprising stabilizing means to ensure that the rotator rotating only on its axis.
4. The vertical dynamo/rotating vertical rod apparatus of claim 3, wherein said stabilizing means is a ball bearing stabilizer disk.
5. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, wherein said magnetic base is made of at least one magnetized disk.
6. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, wherein said repelling magnet is made of at least one repelling magnetic disk.
7. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, further comprising a housing.
8. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said stator is a metallic coil.
9. The vertical dynamo/rotating vertical rod apparatus of claim 8, wherein said stator is a metallic coil made of copper.
10. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said rotator is a magnetized rod.
11. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said stator and said rotator are attached/connected to said magnetic base.
12. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said rotator is a metallic rod having holes into which magnets are inserted at selected intervals.
13. The vertical dynamo/rotating vertical rod apparatus of claim 12, wherein each of the magnets are fixed to each of the magnet insertion holes by an adhesive, powder resin, or mold.
14. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said rotator is attached/connected to said magnetic base and said stator is attached/connected to the housing wall of the vertical dynamo/rotating vertical rod apparatus.
15. The vertical dynamo/rotating vertical rod apparatus of claim 2, wherein said rotator incasing said stator.
16. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, wherein said dynamo/rotating vertical rod apparatus is activated by “green energy” . The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, wherein a magnetic floating horizontal flywheel provides energy to rotate said dynamo/rotating vertical rod apparatus. The vertical dynamo/rotating vertical rod apparatus of claim 17, wherein said magnetic floating horizontal flywheel is powered by “green energy”. The vertical dynamo/rotating vertical rod apparatus of claim 16, wherein said “green energy” is one of solar power, hydroelectric power, compressed air, hot steam and water. The vertical dynamo/rotating vertical rod apparatus of claim 17, wherein a repelling magnet is placed underneath the magnetic floating horizontal flywheel to lift/float said magnetic floating horizontal flywheel in the air. The vertical dynamo/rotating vertical rod apparatus of any one of claims 17-20, wherein said magnetized horizontal floating flywheel is situated at a bottom of an elongated tube to prevent the magnetized horizontal floating flywheel from slipping sideways while levitating. The vertical dynamo/rotating vertical rod apparatus of any one of claims 1 and 2, wherein said vertical dynamo/rotating vertical rod apparatus is powered by a wind turbine. The vertical dynamo/rotating vertical rod apparatus of claim 22, wherein said wind turbine is either vertical wind turbine or horizontal wind turbine. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein said horizontal wind turbine having a pole and a propeller, and wherein the vertical dynamo/rotating vertical rod apparatus is positioned behind said horizontal wind turbine to receive horizontal rotation motion. The vertical dynamo/rotating vertical rod apparatus of claim 24, wherein said vertical dynamo is part of the pole of said horizontal wind turbine. The vertical dynamo/rotating vertical rod apparatus of claim 22, wherein the electricity produced by the wind turbine is used to run an air/water/steam compressor, said air/water/steam injected by a nozzle of said compressor to create rapid rotation of said vertical dynamo/ rotating vertical rod apparatus. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein the vertical wind turbine is a “Hollow bullet”-type vertical wind turbine comprised of aerodynamic hollow bullet-like containers facing same direction. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein a propellor comprised of at least four outer wings improves the efficiency of the vertical wind turbine. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein said vertical wind turbine comprises a screw-like center with slots to allow air to flow in and out through said slots, and thus, push the screw-like center. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein said vertical wind turbine comprising at least three vertical aerodynamic wings connected to a circular center of a pole rotating horizontally on its axis. The vertical dynamo/rotating vertical rod apparatus of claim 30, wherein said aerodynamic wings ensure a smooth movement when the vertical turbine turns the vertical aerodynamic wings back, against the direction of the wind. The vertical dynamo/rotating vertical rod apparatus of claim 31, wherein said aerodynamic wings are positioned at a slight angle to catch wind thrust, when said vertical aerodynamic wings rotate back, against the wind, the angular position of the wings changing. The vertical dynamo/rotating vertical rod apparatus of claim 23, wherein steam/hot air/compressed liquid injected from high pressure injection nozzle towards the rear of a "hollow bullet" type vertical turbine creates rapid circular motion.
PCT/IL2023/050132 2022-02-07 2023-02-07 Elongated vertical dynamo/rotating vertical rod apparatus WO2023152738A1 (en)

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