JP2001099046A - Generation system of simultaneously estinguishing generator weight and propeller rotor weight by magnetic levitation zero gravity structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate the own gravity resistance of the generating magnet structure of a generator or the own gravity of a wind driven part such as propeller, rotor shaft or the like in a wind generator to utilize natural energy such wind force or hydraulic power to the full. SOLUTION: In a wind generating device of the type of supporting a rotor 12 having a horizontal propeller 13 by a shaft 1, for example, upper and lower magnet repellent substrates 3, 6 with bearings in the lower parts are fixed on a housing tower 2 in opposition to an upper magnet repellent board 4 and a lower shaft retaining magnetic force repellent disc 7 so that the magnetic poles are mutually coincident to provide a magnetic repellent levitation force, and a generating magnet 9 is installed to the middle of the shaft 1 to constitute a generator 8 with a coil stationarily installed to a generating housing 4 in the middle part of the housing tower 2. A magnet integrated stopper bearing 22 is provided on the bottom end part of the shaft 1 to utilize the magnetic levitation force by the different pole magnetic force on the opposed surface of the lower magnet repelling substrate 6.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

INDUSTRIAL APPLICATION The industrial applications of the present invention are all fields of electricity-based energy.

[0002]

2. Description of the Related Art Natural energy such as wind power and hydraulic power has already been used for power generation, but one of the generators is directly connected to a rotor shaft. Further, a considerable part of the energy conversion efficiency has been consumed by gravitational frictional resistance between the propeller rotor, the water turbine, and the bearing due to the weight of the generator itself.

[0003]

Therefore, how to efficiently utilize natural energy such as wind power and hydraulic power has been an issue for utilization of natural energy in the future. Further, the generator cannot be made too large due to its mounting portion, and the technical difficulty of fixing a heavy object in the sky was immeasurable. In order to maintain the strength of the foundation, the equipment was extremely large.

[0004]

Therefore, by integrating the repulsive levitation force of the magnetic force into the generator itself first, it succeeded in reducing the self-weight pressure, which had deteriorated the efficiency of power generation, and as a result, the rotational speed The structure has a double effect of greatly speeding up the wind, and has a structure that is free from most of its own weight pressure by holding the magnetic force on each component around the wind, water, and passive parts. Further, the power generation unit is provided inside the body of the originally hollow tower (here, the housing tower), and the power generator is of a cartridge type so that a plurality of power generators can be easily installed and connected.

[0005]

The basic structure of the present invention is how to efficiently convert wind and water power to energy. The magnetic levitation structure is integrated into the generator body and the wind and water passive parts, and most of them are resistanceless. So that all passive energy can be converted to electrical energy.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A structure in which the magnet rotor for power generation is released from the enormous gravitational pressure accompanying an increase in the size of the power generator is provided, and the power generators are housed in the housing tower body in a cartridge type. FIG. 5, FIG. In addition, the individual generator shafts are controlled and interlocked with the clutch box 27 in a convenient manner, so that their functions can be adjusted.
In the wind passive section (FIG. 9-48), the vertical shaft length, the propeller arm length, and the like can be adjusted to respond to wind conditions. Further, since the angle of the propeller is variable, the entire function is not damaged by a strong wind such as a typhoon.

[0007]

As described above, wind energy and hydraulic energy can be directly converted to electric energy without wasting as much as possible. In addition, since the generator structure itself can be converted to a zero-gravity resistance type, it is possible to truly promote the use of renewable energy, which was notorious for its inefficiency and high cost.
The magnetic force floating high-speed rotation type is called a so-called top effect or gyro effect. It exerts localization stability and produces various mechanical effects. Needless to say, it reduces the consumption of petroleum and other fossil fuels and helps preserve the global environment.

[Brief description of the drawings]

FIG. 1 is a schematic cross-sectional view showing a zero gravity resistance type shaft holding mechanism which is a basis of the present invention.

FIG. 2 is a schematic sectional view of the transmission gearbox of the present invention.

FIG. 3 is a schematic sectional view of a rotor gear for a vertical propeller,
FIG.

FIG. 4 is a schematic sectional view illustrating a shaft holding mechanism for hydroelectric power generation.

FIG. 5 is a schematic cross-sectional view of the structure of a generator installed and connected in multiple layers in a housing tower.

FIG. 6 is a schematic cross-sectional view of a cartridge-stowed generator with a magnet stabilizing bearing box.

FIG. 7 is a schematic cross-sectional view schematically illustrating a sub-power generation group structure.

FIG. 8 is a perspective view and a schematic front view of the electromagnetic shuttle joint and connector.

FIG. 9 is a schematic front view and a plan view. FIG.

FIG. 10 is a schematic cross-sectional view illustrating the structure of a simplified type of wind and water power generation unit.

FIG. 11 is a schematic sectional view of a bamboo joint.

FIG. 12 is a perspective view of a pole supporting structure using a bamboo joint.

FIG. 13 is a perspective view illustrating a feng shui arm / arm drum using a bamboo joint.

FIG. 14 is a front view of a bottle pole system using a bamboo joint.

FIG. 15 is a schematic cross-sectional view showing a simplified structure of a wind and water generating unit utilizing a drum magnet bearing structure.

FIG. 16 is a schematic sectional view of a drum magnet bearing.

FIG. 17 is a schematic front view of a wiring tower using a bamboo joint type pole joint.

FIG. 18 is a schematic side view of the embodiment; FIG. 18 is an explanatory view of an embodiment of a wind and water power generation system having a conical / cylindrical internal turbine with a spiral groove and a gear structure.

FIG. 19 is a cross-sectional and schematic plan view of a simplified sandwich magnet stabilizing bearing structure and a basic structure of a repulsive thrust combined with a superconducting coil magnet.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Vertical shaft 2 Housing tower 3 Upper magnet repulsion board 4 Upper magnet repulsion board 5 Generator housing 6 Lower magnet repulsion board 7 Lower shaft holding magnetic repulsion disk 8 Generator 9 Magnet for power generation 10 Upper holding part 11 Shaft 12 Rotor 13 Horizontal propeller 14 Bearing Plate 15 First Gear Box Gear 16 Second Gear Box Gear 17 Gear Vertical Shaft 18 Top Base 19 Magnetic Repulsion Repulsion Gear 20 Gear Box Housing 21 Bearing 22 Stopper Bearing 23 Propeller Shaft 24 Truncated Gear 25 Propeller Rotor 26 Francis Turbine 27 Clutch Box 28 Magnetic Disk 29 Magnet Stabilizing Bearing Box 30 Ring Stopper 31 Recess for Ring Stopper 32 Generator Shaft 33 Electromagnetic Clutch Box 34 Main Reaction Magnet Stone plate 35 Both hypotenuses 36 Lower magnet repulsion substrate magnet track 37 Lower shaft holding disk magnet track 38 Secondary reaction magnet rotor 39 Reaction magnet unit 40 Secondary reactor vertical shaft 41 Stopper 42 Multi-layer generator connection / disengagement clutch box 43 Generator upper shaft 44 Power generation Lower shaft of machine 45 Detachable magnetic pole plate 46 Conduction arm connector 47 Spring 48 Wind passive part 49 Propeller root part 50 Propeller part 51 Magnetic repulsion floating part 52 Support column 53 Gear box third gear 54 Center cover 55 Main reaction rotor 56 Vertical propeller Holding structure 57 Magnet built-in stopper 58 Automatic gearbox 59 Sub-reactor magnet repulsion board 60 Fin support drum 61 Shaft hole 62 Turbine fin 63 Fin support projection 64 Drum coupling light 65 Ram Coupling Outer Edge Wall 66 Drum Coupling Left 67 Support Part 68 Rotor Gear 69 Bearing 70 Bearing Hole 71 Horizontal Shaft 72 Bearing Coupling 73 Feng Shui Receiver 74 Snap Shaft Supporter 75 Substrate 76 Substrate Supporter 77 Gear Box with Stand Plate 78 With Stand Play Type generator 79 Vertical supporter 80 Vertical supporter stopper 81 Horizontal bottom supporter 82 Horizontal support plate 83 Sink base 84 Pole head 85 Add pole 86 Bamboo joint pole joint 87 Pole bottom base 88 Arm drum 89 Arm base cylinder 90 Arm 91 Drum magnet bearing 92 Independent horizontal shaft 93 Drum magnet 94 Magnet bearing box 95 Vertical Supporter 96 Semicircular tile-like magnet 97 Magnet stopper 98 Wiring retaining wheel 99 Wiring cap 100 Feng shui conduit 101 Gear box 102 Turbine 103 Supporter 104 Spiral groove 105 Landing base 106 Wind direction detector 107 Wind direction automatic directing motor / gear 108 Large or small Water storage system for dams, etc. 109 Magnetic reaction floating rotor disk 110 Reaction rotor 111 Repulsion propulsion fixed magnet 112 Reaction coil 113 Repulsion propulsion fixed magnet 114 Sandwich magnet stabilizing bearing 115 Snap shaft

Claims (30)

[Claims] 1. "Generator rotor and propeller rotor zero gravity resistance shaft holding basic structure by magnetic repulsion levitation" As shown in FIG. 1, upper magnet repulsion with a bearing fixed to a housing tower on the upper part of a vertical shaft 1 extending vertically. Substrate 3
Is provided with the magnetic pole of the repulsion surface facing upward. Further, an upper magnet repulsion board 4 fixed to the shaft 1 is provided, with the same pole as the magnetic pole of the upper magnet repulsion board 3, sometimes having a gear structure around the periphery thereof. Also, in the lower part of FIG. 1, the magnetic pole is directed upward, and
A lower magnet repulsion substrate 6 having a bearing is provided to be perpendicular to a bearing hole of the upper magnet repulsion board 4 of the housing. Also, a lower shaft holding magnetic repulsion disk 7 for fixing the shaft, which is oriented to the same magnetic pole of the lower magnet repulsion substrate 6, is provided.
The shaft has a basic structure in which the shaft is released and separated from frictional resistance due to gravity, and a generator housing 5 containing a coil fixed to the housing tower 2 is provided at an intermediate portion of the upper and lower holding portions, and Generator housing 5
A power generating magnet 9 is fixedly mounted on the central shaft so as to be conveniently located, and a shaft 11 protruding from the upper holding unit 10 is provided with a rotor 12 for rotating the shaft in response to wind.
The horizontal propeller 13 for horizontal rotation is fixed to the shaft. Thus, the vertical shaft 1 in which the generator 8, the rotor 12, and the horizontal propeller 13 extend vertically.
The magnetic repulsion structure eliminates the gravitational frictional resistance and prevents the vertical shaft 1 from falling off.
A magnet built-in stopper 57 having the same pole as the magnetic pole of the substrate 6 is fixed to a shaft protruding below the generator rotor, a generator rotor and a propeller rotor zero gravity resistance shaft by magnetic repulsion levitation characterized by the following features. Holding basic structure. 2. "Basic Structure for Holding Zero Gravity Resistance Shaft with Transmission Gearbox" Under the upper magnetic repulsion board 3 with bearings on the upper part of the basic structure of the first embodiment of the present invention, as shown in FIG.
A first gearbox 15 is provided on a shaft penetrating the bearings, a second gearbox 16 is provided in conjunction therewith, and a gear vertical shaft 17 of the second gear 16 is provided. An upper base 18 is provided on the upper side with the upper magnet repulsion substrate 3 interposed therebetween, and the gear vertical shaft 17 is connected.
A third gearbox gear 53 is provided between the
A magnetic repulsion gear 19 interlocking with the vertical shaft 1 is provided perpendicularly to the vertical shaft 1, and the lower surface thereof is provided with a magnet having the same pole facing the magnetic pole surface of the upper magnet repulsion substrate 3. 11 is configured to protrude from a bearing 21 provided at the center of the gearbox housing 20 and to be connected to the wind passive unit structure. Also, below the bearing 21 at the center of the gearbox housing 20, Fig. 2-2
A stopper bearing that prevents the shaft from coming off, such as 2, is installed so that the ball part faces upward, so that the wind passive part does not fall off. A weightless resistance type shaft holding basic structure with a transmission gear box, wherein a cover 54 is attached to the shaft 11. 3. The horizontal propeller 13 and the rotor 12 according to claim 1 of the present invention.
The shaft and arm length in both vertical and horizontal directions can be freely controlled by hydraulic and motor gear structures on the shaft 11 and rotor arm, and the horizontal propeller 1
3. The structure of the wind power passive unit, which can be moved from vertical to horizontal from the angle of 3, and the structure is adjustable. 4. "Housing Structure for Vertical Propeller Rotor" As shown in FIG. 3, in the basic structure for holding a weightless resistance shaft according to the first aspect of the present invention, a gear portion is formed in a truncated cone shape on the upper magnet repulsion plate 4 of the upper shaft. A generator 8 fixed to the housing tower 2 by applying a trapezoidal gear 24 perpendicular to a propeller shaft 23 extending from a propeller rotor suitably connected to the trapezoidal gear to rotate the propeller rotor 25 to the housing tower 2. A housing structure for a vertical propeller rotor, wherein the housing structure is transmitted to the shaft 1. 5. "Basic structure for holding a zero-gravity resistance shaft for hydroelectric power generation" As shown in FIG. 4, the basic structure for holding a shaft according to the first aspect of the present invention is used. A zero-gravity resistance shaft holding basic structure for hydroelectric power generation, characterized in that the Francis turbine 26 is suitably equipped with its housing structure and adapted to around the water to generate power. 6. "Basic structure for holding a zero-gravity resistance type shaft with a clutch-disconnecting clutch box for a multi-layer generator" As shown in FIG. 5, a plurality of magnets 9 for power generation are fixed to the vertical shaft 1 according to the first embodiment of the present invention. The interior generator housing 5 is fixed to the convenient housing tower 2, and the generator magnet 9 is wrapped around to form the generator 8. At this time, the vertical shaft 1 is provided with the clutch box 27 in each power generation period, A weightless resistance shaft holding basic structure with a multilayer generator coupling / disengagement clutch box, which is indirectly joined and the number of rotating generators can be controlled by switching the clutch. 7. "Magnet Stabilizing Bearing Box with a Magnet Stabilizing Bearing Box" A cartridge housing type generator with a simple coupling function as shown in FIG. 29, and the magnetic disk 28 fixed to the shaft is conveniently equipped with the same pole facing the magnetic pole inside the main bearing box 29 so as to be constrained to be hollow inside the main bearing box 29. Is mounted on the upper and lower bearings, and a donut-like ring stopper 30 is provided on the outer periphery of the center of the original generator, and is appropriately inserted into the ring stopper recess 31 provided on the inner wall of the housing tower 2 to generate power. The machine body 8 has a structure that can be easily fixed and connected, and the generator housing has a shaft 1
The power generation magnet 9 fixed to the generator housing 5 does not move in the generator housing 5. Also, the generator shaft 32 is connected to one of the upper and lower magnet stabilizing bearing boxes 29 by connecting the shaft in a semi-cylindrical shape, and then an assemblable electromagnetic clutch box 33 is provided. A cartridge housing type generator with a magnet stabilizing bearing box and a shaft simple coupling function, characterized in that it can be connected and integrated with the power generation clutch box 33 and can be released at any time. 8. A structure of a generator housing provided with a magnet stabilizing bearing box in which a hollow cylinder is integrated.
As will be understood from FIG. 6 of the present invention, the assembling process of the present invention is performed in such a manner that the inner hollow semi-cylindrical unit is combined so as to be convenient for all operations such as assembling the generator and storing the generator shaft 32 in a cartridge in the housing tower 2. It is characterized by the structure of the generator housing with magnet stabilizing bearing box. 9. "Wind Propeller Rotor Structure with Solar Cell" A solar cell is added to the propeller rotor of the wind power generator of the present invention so that both wind and solar energy can be taken in. In the absence of a solar cell, a solar-powered propeller rotor structure is designed to generate electricity exclusively from sunlight. 10. A magnetically levitated reaction-dependent power generation group structure using a magnetically levitated magnetic reaction rotor main structure according to the present invention.
5, the main reaction magnet plate 34 is formed in a triangular prism so that the lower shaft holding magnetic force repulsion disk 7 has a large diameter to some extent and has a symmetrical position with respect to the disk 7. According to the hypotenuse 35, the magnet is fixedly formed with the same polarity facing the magnet surface of the reaction magnet. At this time, the lower magnet repulsion substrate magnet trajectory 36 is aligned with the lower shaft holding disk magnet trajectory 37. In addition, the reaction magnet portion 39 of the secondary reaction magnet rotor 38 is made to have the same pole as the magnetic pole of the main reaction magnet plate 34 in a triangular pyramid shape in a path slightly overlapping the rotation path of the main reaction magnet plate 34. , Slave magnet rotor 3
Fix to 8 at appropriate intervals. Others are formed similarly to the main reaction magnet structure. However, whether the vertical shaft 40 of the sub-reactor vertically extending in the center of the sub-reaction magnet rotor 38 holds the power generation magnet 9 of the generator 8 in the generator housing 5 in a hollow manner or not according to the present invention. Item 2: The transmission gearbox having the magnetic levitation structure of item 2 is connected to the generator housing 2
And a secondary reactor vertical shaft 40 extending from the secondary reaction magnet rotor 38. Further, it is naturally possible to arrange the joint / clutch structure of the claims of the present invention at the same position to add various functions. Also, the vertical shaft 40 of the slave reactor is slidably stopped by the stopper 41 so as not to move up and down even at high speed. The vertical shaft 40 is provided with an automatic transmission gearbox 58 movable by computer control. Therefore, in the invention of this section, the main reaction rotor 55 with the main reaction magnet plate 34 is configured by the zero gravity resistance type shaft holding basic structure of the present invention, and the lower part of the housing tower 2 is exclusively provided without a generator inside or outside. The power transmission to the main reaction rotor 55 extends from the lower part of the main reaction rotor 55, and it goes without saying that the force is transmitted by the shaft 1. A magnetic levitation reaction-dependent power generation group structure with a magnetic levitation magnetic reaction rotor main structure characterized by the above. 11. An integral structure of an electromagnetic shuttle joint / connector The multilayer generator connecting / disconnecting clutch box 42 according to claims 6 and 7 of the present invention is provided with a rectangular pillar-shaped cavity as shown in FIG. A shaft with magnets provided with magnets N and S poles which can be conveniently inserted into the square pole is formed by forming or coating a non-conductor other than the electromagnet portion with a non-conductor so that different poles come to the upper shaft of the generator. 43 and FIG.
The generator lower shaft is formed of a non-magnetic material as a square pole of suitable length, as in -44, and a magnet as shown in FIG. A detachable magnetic pole plate is provided so that the S pole comes to the side where S comes during conduction. Fig. 8-4
As shown in Fig. 6, the head is a conductive arm connector with a front wheel handle structure of a bicycle, and a spring 47 is formed on the hinge portion so as to bend inward, so that when a direct current comes to the side of the electromagnet, It is configured so that an appropriate current flows and the electromagnet is magnetized. If the current is reversed, the magnetic poles of the electromagnet are also reversed.
3, the magnetic pole 3 is ejected by the repulsive magnetic pole, is attracted to the magnetic pole stopper of the lower shaft 44 of the generator, and is stopped. At this time, the joint between the generators A and B is canceled. Electromagnetic shuttle joint / connector integrated structure characterized by having been configured as described above. 12. A power generation structure having various functions according to the present invention, "a power generation structure with a housing tower and a sub power generation group structure by a multilayer wind passive portion magnetic repulsion levitation integral structure", as shown in FIG. One side of the outer periphery of the shell is cut into a crescent shape and the top of the periphery is made to be an acute angle to make use of aerodynamic structure. And the propeller base 49 has an arm expansion / contraction function, and the propeller part 50 of the wind passive part, the rotor and the magnetic repulsion levitation 51 are integrated, and it repels through a vertical shaft in the center. The upper magnet repulsion substrate 3 to be levitated also has a structure in which a supporting column 52 is formed and supported so as to have a large diameter and a large size and be horizontally fixed to the zenith of the housing 2 in accordance with the magnet trajectory of the wind passive portion. Further, the shaft 11 extends into the housing tower through the bearing at the zenith part, and according to the present invention,
In consideration of the configuration of 7, 9, 11, etc., a generator is housed in the housing tower 2 to generate power, or a number of generators are operated indirectly by the auxiliary power generation group of claim 10 of the present invention, A housing tower housed generator and secondary power generation group structure with a multilayer wind passive part magnetic repulsion levitation integrated structure characterized by generating electricity. 13. "Wind Passive Propeller Structure with Completely Imitation Bird Feather Aerodynamic Characteristics of a Bird Feather Structure" In the propeller structures of the present invention, the air completed by nature for hundreds of millions of years (the present invention) Aerodynamic characteristics of a bird's wing, which imitates as much as possible the structures that convert the wind into thrust for water, and the structure is artificially constructed. . 14. A generator mounted on the center upper portion of a sub-reaction magnet rotor 38 in a sub-power generation group structure according to claim 10 or 12, etc. of the present invention. Is installed at the center lower portion of the secondary reaction magnet rotor 38, and the magnetic repulsion weightless resistance generator according to the eighth aspect of the present invention, and gears, clutch boxes, etc. are attached vertically to the secondary reaction magnet rotor 38 and the secondary reactor of the generator. A generator and a subordinate power generation group structure with a rotor installed at the lower part, which is installed in the middle of the shaft 40 so that the rotation speed, disconnection and the like can be controlled and the workability such as inspection and repair is taken into account. 15. A housing structure for a vertical propeller rotor utilizing a weightless resistance type shaft holding basic structure with a transmission gearbox, and a housing structure for a vertical propeller structure according to claim 4 of the present invention. 3. A housing for a vertical propeller rotor utilizing a weightless resistance type shaft holding basic structure with a transmission gearbox, wherein the stopper bearing is replaced by a frusto-conical gear and the vertical propeller holding structure 56 is integrated with the present invention. Construction. 16. "Gearbox housing structure employing computer-controlled automatic transmission gears" The structure of the gears, clutch structure and the like according to the claims of the present invention is operated by computer control in consideration of the safe rotation speed, output program and the like. A gearbox housing structure employing computer-controlled automatic transmission gears, characterized by introducing and replacing the basic technology of computer-controlled automatic vehicles. 17. A power generation system utilizing a magnetic repulsion substrate repulsion magnet superconducting coil replacement. The upper magnet repulsion substrate 52 of the present invention.
Alternatively, the magnets of the sub-reactor magnet repulsion substrate 59 are replaced with superconducting coils and are provided at equal intervals, and the corresponding magnetic repulsion levitation 51 and the levitation magnet of the sub-reaction magnet rotor 38 are integrated into a donut disk-like integrated structure. However, the superconducting coils are provided so as to match the intervals of the attached superconducting coils and to have the N and S poles alternately facing the superconducting coils. At this time, each of the floating rotor portions is suitably installed with a vertical shaft bearing so as not to damage the superconducting coil when it is not movable. In addition, these superconducting coils are alternately connected by a conducting wire between the upper and lower coils, and a battery is installed ahead of them. When the wind passive rotor rotates, it repels and floats due to the electromagnetic induction action, and has the same weightlessness as magnets. Create an effect. In addition, a disk rotor is applied to the lower vertical shaft of the Francis turbine 26 according to the fifth aspect of the present invention, and a magnet is provided on the lower surface thereof according to the present invention, and a superconducting coil is provided below the magnet. In the same way,
When the Francis turbine rotates due to the water flow, it floats due to the electromagnetic induction effect to obtain the same effect as in the case of wind power, and the battery can be charged. In addition, this power generation system can be applied not only to rotating bodies but also to the superconducting coils of so-called linear motor cars, making it possible to utilize the generated energy that has been wasted now. Power generation system using magnet superconducting coil replacement. 18. A magnetic levitation wind power generation system utilizing a power transmission tower A vertical / horizontal magnetic levitation rotor generator system using the claims of the present invention is installed on a power transmission tower which is not currently used, particularly on the top of the tower, and has a long length. By locating the current power transmission system, which produces more than 40% loss by distance transmission, to the wind dam created in the wind river, it is possible to generate enormous wind power throughout Japan. Unused, power transmission tower-based magnetic levitation wind power generation system based on a reversal idea. 19. "Simplified sandwich magnet stabilizing structure-assisted self-propelled power generation structure" As shown in a plan view of FIG. 19 and a schematic cross-sectional view from a viewpoint A, a pair of sandwich magnet stabilizing bearing structures 114 are vertically formed. It is installed on the shaft 1, and the magnetic reaction floating rotor disk 109, which floats magnetically at the center, is slid and joined. 120 degrees before the peripheral edge, one tip at both ends of a triangular prism-like structure at one tip, N pole on the left in this figure 19 is formed and fixed so that the south pole surface comes to the right, and at a distance outside the reaction orbit circle that can strongly react with the reaction surface of the reaction rotor 110 in the cross direction in FIG.
In this arc-shaped figure, a repulsion propulsion fixed magnet with the N pole facing the reaction surface is formed, and a self-propelled power generation auxiliary structure using a simple sandwich magnet stabilizing bearing structure. 20. "Basic structure of superconducting coil / magnet combined repulsion propulsion and its applied rotor" The superconducting coil 112 is formed in the shape as shown in FIG. A superconducting coil 112, which is a reaction coil, is formed so that the other end comes just in the middle of the reaction rotor 110 of the disk of the magnetic reaction floating rotor disk 109 and the other end of the superconducting coil 112. In this figure, the reaction propulsion fixed magnet 113 is fixed to the disk of the rotor disk 109 so as to intersect at right angles with the S pole facing, reacts with the repulsion propulsion fixed magnet 113, and maintains the rotor thrust. Characteristic: Basic structure of superconducting coil / magnet combined repulsion propulsion and its applied rotor. 21. "Basic structure of feng shui power generation unit" Fig. 1
0, the shaft hole 61 of the support drum 60
The fin support drum 60 is cut at an angle of approximately 30 to 45 degrees with respect to the thickness of the turbine fin 62, and fin support protrusions 63 are wrapped around both ends of the fin support drum 60, and are connected to the drum. Coupling 6
4 and 66 are screwed in, and the fin support projection 63 is just fit between the outer edge wall 65 of the drum coupling and the rear end. Further, in this drawing, the drum coupling light 64 has a supporting portion 67 longer than the drum coupling left 66, and is configured such that the rotor gear 68 can be suitably inserted into the supporting portion. or,
As shown in FIG. 10, a bearing insertion hole 70 is formed in the left side of the drum coupling light 64, and after inserting the bearing, the bearing coupling hole 70 is passed through a horizontal shaft 71 supporting these structures.
Is fixed to the horizontal shaft with bolts and the like, and is stopped. A snap shaft supporter 7 for connecting the feng shui receiver 73 is provided at the center of the turbine fin projection.
Four fusing holes are drilled, and the feng shui receiver 73 is mounted on the horizontal shaft 71 by the snap shaft 115.
Are fixed in parallel to form a shape capable of responding to winds from all directions claimed in the following claims. or,
A substrate supporter 76 for fixing a substrate 75 on which a generator or a gearbox which is the heart of the present invention is mounted to a horizontal shaft 71 is fixed to the horizontal shaft 71, and the gearbox 7 is fixed.
7 (this may not be installed)
Then, the generator 78 with a stand plate is connected to the output gear of a gear box 77 with a stand plate and fixed, so that it is turned around the wind and hydraulic power and around the power generator. Further, as a suspension for fixing these structures underwater or on the roof, a vertical supporter 79 having a shaft hole is provided at both ends of the horizontal shaft 71.
Before the insertion, two vertical supporter stoppers 80 and a pair of vertical supporters are inserted in that order, and the respective stoppers are fixed to the horizontal shaft 71. The vertical supporters 79 of each pair are spread in a triangle, and the bottom supporters 81 are horizontally connected to the bottoms of the vertical supporters 79 of the same direction in each pair to form a sole. Also, in order to keep the angle of widening of the vertical supporter 79 constant, the vertical angle of support is set and fixed by the vertical supporter horizontal direction support plate 82 according to each situation. Also, when installed in water such as a riverbed, the sink base 83 made of heavy metal such as iron is used because the main body is not washed away.
Is fixed to the horizontal bottom supporter 81 to form a main body joint. As described above, the basic structure of a power generation unit for both uses is characterized by the fact that it can be easily assembled to make power generation for both uses. 22. "Basic structure of omnidirectional fixed wind turbine" As shown in FIG. 10 corresponding to claim 21 of the present invention, even if the horizontal shaft 71 is fixed in any direction of north, south, east and west, the horizontal shaft A turbine fin 62 having an angle of about 30 to 45 degrees to 71 and a feng shui receiver 73 fixed in parallel with the horizontal shaft 71 ahead of this.
The omnidirectional fixed wind turbine basic structure is characterized by a structure that rotates in response to the wind regardless of the direction of the wind. 23. "Bamboo joint type pole joint" As shown in FIG. 11, a thread groove is formed on the inner circle side from both ends of the cylindrical tube and screwed into the center to leave a thick separating wall of the pole, and the separating wall is formed. A bamboo joint type pole joint that features a convex wall on the periphery to maintain the strength of the outside of the slab, and has been integrated. 24. A pole having a spiral female thread groove on a substrate 75 as shown in FIG. 12 in order to make the basic structure of the present invention function more efficiently. A head 84 is mounted, an add pole 85 having a male screw groove is screwed in, and a bamboo joint type pole joint 86 as shown in FIG. 11 is screwed into the remaining end, and an add pole is inserted into the other end. The end of the add pole 85 is screwed into a pole bottom base 87, which has a cylinder with a female thread groove fixed to the board at the end of the joint and extends the bamboo joint type pole joint. Stop and fix, and if necessary, screw the board to concrete or the like to reinforce it and complete the suspension. Also, at this time, because of the feng shui passive structure corresponding to the long undercarriage, the invention of claim 2
Instead of the fin support drum 60, a female screw groove is provided at the center periphery of the drum as shown in FIG. 13 at equal intervals and perpendicular to the drum to form an arm drum 88, into which an arm base cylinder 89 is screwed and inserted. An arm 90 having male thread grooves at both ends is screwed in, and the arm 90 is joined to the remaining end with a bamboo joint type pole joint 86 so as to have a suitable length, and a feng shui receiver 73 is attached to the end to wind. Or, it was configured to correspond to the water flow. At this time, the gear box 77 with the stand plate on the substrate and the generator 7 with the stand plate
The mode such as 8 shall conform to claim 21 of the present invention.
As described above, the pole-floor type wind-and-flood power generation unit structure characterized by the above-mentioned configuration. 25. A bottle pole system using a bamboo joint type pole joint to increase the diameter as needed According to claim 24 of the present invention, the strength of the pole support depends on the load weight of the mounted generator and wind receiving parts. Therefore, as shown in FIG. 14, the upper end and the lower end of a cylindrical bottle-like pole with a screw lid are machined by cutting a male screw groove. A bottle pole system that uses a bamboo-type pole joint to increase the diameter as needed. 26. The structure of the drum magnet bearing and the structure of the passive wind and water utilizing part of the bearing according to the present invention, wherein the bearing of the present invention provides a passive wind and water such as a fin support drum 60, a turbine fin 62, a coupling 64, a wind and water receiver 73, etc. In supporting various parts, a great amount of frictional resistance is generated due to the weight of the bearing 69, and therefore, a cylindrical magnet made of a large-diameter and wide-diameter internal / external polar body as shown in FIG. A pair of independent horizontal shafts 92 are connected to the drum,
The drum magnet bearing 91 is wrapped around a cylindrical bearing box 94 having the same polarity as the outer pole of the drum magnet 93, and the magnet bearing box 9 is formed.
A vertical supporter with an independent horizontal shaft 92 protruding left and right from 4, a rotor box 68, a gear box 77 with a stand plate and a generator 78 with a stand plate, and a large-diameter pole that can be conveniently installed in the bearing box 94. A table on which a suitable board 75 can be mounted is constituted by a joint 95 and a vertical supporter stopper 97, and a vertical supporter horizontal support plate is mounted thereon. The lower part of the magnet bearing box 91 is formed like a semi-circular tile plate as shown in FIG. 16 as shown in FIG. The diameters are serialized. A ring-like magnet stopper 9 is provided on the side surface of the bearing box 91 so that the drum magnet 93 does not slide horizontally.
7 and a magnet stopper 97 is provided at the left and right ends of the magnet drum with the same pole facing the pole surface. . 27. The present invention relates to an "extendable wind-and-flood power generation unit with a turbine fin using a bamboo joint type flat joint".
The turbine fin 6 is attached to the tip of the first turbine fin 62.
An inner rectangular parallelepiped having an inner space with a thickness and width of 2, having an inner wall that is bisected at the center, with the outer edge of the inner wall protruding in a convex shape, and a bottle positioned symmetrically across the inner wall A plurality of holes are formed, and when the ends of the turbine fins 62 are inserted into the turbine fin joint, holes are also formed in advance at the ends of the turbine fins 62 so that the holes corresponding to the bottle holes pass through the holes appropriately. An extendable wind and water power generation unit with an extendable turbine fin using a bamboo joint type flat joint. 28. A wiring cap utilizing a bamboo joint type pole joint pole basic structure according to the present invention.
A bamboo-type pole joint such as 25, a pole structure, and a substrate structure are applied. A semi-cylindrical bottle cap-like body with a threaded inside as shown in FIG. Equipped with a conductor, vertically from the head of the wiring holding ring 98 that has a lightning arrester effect, and also protrude the conductor bar in an arc from the side of the cap and join the apex to form a chicken cap,
By passing the electric wire through the wiring holding ring 98, it is very easy to use the wiring from the power generation site to the power use site, and it has a lightning protection effect. cap. 29. "Water-discharge passive wind turbine generator system" The horizontal rotor type wind-power receiver of the present invention dams a river or the like, or forms large and small dams in lakes and marshes and drills holes in some of them. The water pressure is discharged using water pressure, and the discharged water stream is applied to the wind-powered receiver of the present invention to move the water flow, thereby eliminating the need for a conventional large water turbine of a vertical configuration of a water turbine type, or a falling water pipe and large equipment for power generation. A low-cost, high-efficiency water discharge passive wind power generation system. 30. A wind-and-water power generation system using a turbine-gear structure internally provided with a spiral groove and a streamlined gearbox in a cylindrical or conical tubular water-and-water conduit having a spiral groove inside as shown in FIG. 101 and a turbine 102 are internally installed, and a rotating shaft extending from the gearbox 101 is used to integrally form a generator 8 with a rotating force externally provided to a feng shui conduit. The inner spiral groove structure and the conical shape maximize the flow velocity pressure. The power generation efficiency is improved by increasing the power limit, and not only is it adapted to both wind power and hydropower, but also its usage can be applied not only to the claims of the present invention, but also to various applications such as, for example, in a chimney. A wind-and-water power generation system with a turbine-gear structure inside a cylinder with a spiral groove, characterized by having a configuration.