JP2019122181A - Power generation device - Google Patents

Abstract

To create a power generation device capable of generating a predetermined amount of generated power by making frictional resistance of a rotor be null and transferring rotation of the rotor rotating within a predetermined rotation range to a power generator.SOLUTION: An electric motor (1) includes a rotary shaft connected to a rotor. Air is made to be ejected from an arc-shaped tube (5) on which many fine holes (4) are opened, the arc-shaped tube provided under the rotor. The air makes a "prescribed range" of the rotor's bottom closing the many fine holes (4) float. N poles of two rubber magnets provided at two positions in the longer direction on the rotor's circle edge and N poles of two permanent magnets provided on the arc-shaped tube (5) and facing the two rubber magnets repel each other to make the rotor rotate within a predetermined rotation range.SELECTED DRAWING: Figure 3

Description

The present invention relates to a power generator.

In the search of the website of the Patent Office, the search was made using “power generation device with zero friction resistance” and the hit number was zero.
There is a linear Shinkansen using a superconducting magnet as a representative technology for levitating a rotating body.
As an NPL 1 detailing the principle of the linear Shinkansen, there is the official site of JR Tokai.
According to Non-Patent Document 1, in the transport system that opens the door of the next generation, the principle of propulsion,
"By passing current through the guideway's propulsion coil, a magnetic field (N pole / S pole) is generated, which repels with the attractive force between the vehicle's superconducting magnets (N pole / S pole alternately arranged) Forces are generated, and the vehicle (superconducting magnet) moves forward by using this, and the principle of levitation is described as “surfacing and guiding coils are installed on both sides of the side wall of the guide way, When the superconducting magnet passes at high speed, current flows in the floating and guiding coils on both sides to form an electromagnet, generating a force (repulsive force) to push up the vehicle (superconducting magnet) and a pulling force (attractive force). Yes.
In Non-Patent Document 1, the N pole of the magnetic pole is repelled by the N pole of the propulsion coil slightly behind by switching of the magnetic pole of the superconducting magnet of the vehicle, and is attracted to the S pole of the propulsion coil slightly ahead. Go ahead, when the superconducting magnet of the vehicle passes at high speed, current flows in the floating and guiding coils on both sides to become an electromagnet, and the electromagnet forms a pair of magnetic poles at the top and bottom, and the electromagnet of the vehicle is at the N pole location In contrast to the mechanism that attracts the south pole of the floating and guiding coil and repels the north pole of the guiding coil to repel the vehicle, in the present invention, the arc-shaped wedge (5 ) Of the bottom portion (3) of the rotating body A (2) is provided with a large number of fine holes (4) facing the “predetermined range” of the bottom portion (3) of the rotating body A (2) The pressure of fine holes (4) and arc-shaped 菅 (5) become the same. Both of the inventions are inventions in which the pressure is increased and the bottom (3) of the rotor A (2) is floated, and the device for levitation is a superconducting electromagnet in Reference 1 and compressed air in the present invention. This is an invention different from Document 1.
Although it is necessary to further promote the use of renewable energy to achieve the CO2 reduction that Japan has made internationally pledged to prevent global warming, it is necessary to partially cancel the approval of solar power generation, which was expected to be an Ace rating for renewable energy. As a result, the yellow light has turned on for the further spread of renewable energy.
France and the United Kingdom have stopped selling gasoline vehicles after 2040, and have declared that only electric vehicles and hybrid vehicles are allowed to be sold, and China and India have also declared conversion to electric vehicles. The purpose is to prevent air pollution and global warming.
Naturally, if electricity is used to prevent global warming, electricity from the driving source must also be renewable energy.
Considering that at least half of the supply in the future power supply will be covered by renewable energy, the photovoltaic and wind power generation, which is the core of renewable energy, has the disadvantage of being dependent on weather conditions, In Japan, a large volcanic country, expansion of geothermal power generation is limited considering the possibility of an eruption.
The required power generation system is a new type of power generation system that has never been proposed.
The rotating body is rotated at a frictional resistance of zero, and the rotating body is rotated within a predetermined rotation range. During rotation, the rotating body is rotated without coming into contact with anything, and controlled to a predetermined rotation speed to generate electricity. If it transfers to a machine, it will become a power generator which can generate a predetermined amount of generated electricity.

JR Tokai's official site, Superconducting Linear

Therefore, the present invention has been made in view of the above-described circumstances, in which the friction resistance of the rotating body is made zero, and the rotation of the rotating body rotating within a predetermined rotation range is transmitted to the generator to generate a predetermined amount of power generation. The task is to create a power generation device that can be generated.

The rotary shaft of the electric motor (1) is connected to the rotating body, and air is blown out from an arc-shaped weir (5) having a large number of fine holes (4) provided in the lower portion of the rotating body, Of the two rubber magnets provided in the longitudinal direction at two places on the circumferential edge of the rotating body, with the "predetermined range" of the bottom of the rotating body being floated by the air blocking the many fine holes (4) The N pole of the two permanent magnets provided on the arc-shaped wedge (5) facing the N pole and the two rubber magnets is repelled and the rotating body rotates within a predetermined rotation range Solve the problem.

A rotating body is floated in the air, and the rotating body is rotated with zero frictional resistance, and the rotational speed is controlled and transmitted to the generator to become an ideal power generation device.
A representative means of raising the rotating body in the air is a method using a linear Shinkansen superconducting magnet. The superconducting magnet of the Linear Shinkansen is made with liquid helium at minus 269 degrees, but in addition to the manufacturing method of liquid helium and the cost of containers etc. for storing liquid helium at minus 269 degrees becoming high, Demand for the supply of helium exceeds that of supply, and the price is on the rise, and it is expected that the cost will continue to increase, so it has the disadvantage that the cost is high.
In the present invention, a large number of fine holes (4) in an arc-shaped wedge (5) containing air are blocked in the bottom (3) of the rotating body, and the rotation is performed using compressed air generated. The cost is overwhelmingly low because the body is floating in the air, and the installation site can be installed at the power use site.

Is a schematic view of the whole of the present invention. Is a conceptual view of a rotating body A (2) facing the center of the vertical height of the circular edge of the rotating body A (2) from the bottom portion (3) of the rotating body A (2) and an arc-shaped agate . Is a conceptual view of the “predetermined range” of the bottom portion (3) of the rotating body A (2) facing a large number of fine holes (4) attached to the arc-shaped wedge (5). Is a sectional view of the rotating body A (2), and a horizontal tangent line I (36) at the bottom, a line passing horizontally through the central point G (34) of the rotating body A (2) is the rotating body A (2) The conceptual diagram of a rubber magnet (8) and a rubber magnet (14) in the position which cross | intersects a circle periphery. Is a conceptual view of an arc-shaped weir (5) provided in the lower part of a tangent I (36) from the circular edge J (37) at the bottom of the rotating body A (2) to the circular edge k (38). Is a conceptual diagram of a stepping motor type excitation circuit of 5 phase excitation.

The generator is a synchronous generator with a frequency of 60 Hz and 4 poles, and the electric motor (1) is an inverter (VVVF) control system that changes voltage and frequency, and the rotating body A (2) installed is air from the bottom Have a load that requires a sufficient torque to generate a predetermined amount of power generation without receiving power, rotating body A (2) and the generator rotate at 1,800 times / rpm to generate a predetermined amount of power generation With regard to the apparatus and operation which are the subject matter of the present invention other than the claims and claims, items related to the present invention will be described with reference to FIGS.

Items other than the claims related to the present invention will be described below.

The term “forward” In the present invention, the direction of the generator is referred to as “forward” in the present invention from the farthest point from the generator.
B) “predetermined range” of the bottom portion (3) of the rotating body A (2) “predetermined range” of the bottom portion (3) of the rotating body A (2) used in the present invention is an electric motor (1) Perpendicular to the vertical line H (35) drawn from the center point G (34) of the rotor A (2) of the cross section of the rotor A (2) facing to the circumference of the rotor A (2) The bottom portion (3) of the rotating body A (2) at a position near the tangent I (36) from the circular edge J (37) to the circular edge k (38) of the rotating body A (2) It is the range that closes a large number of fine holes (4) provided in the wedge (5) of the shape.
C. The "stepping motor type excitation circuit of five phase excitation""stepping motor type excitation circuit of five phase excitation" means one step angle = 0.72 °, and one rotation of the rotating shaft leads 500 step angles, The number of continuously rotating step angles and the number of stopping step angles are determined by the rotation sensor attached to the rotating body A (2), and the number of rotating steps of the rotating body A (2) When it is changed each time and you want to increase the rotational speed of the rotating body A (2),
The rotating step angle is continuously rotated, and when it is desired to decrease the number of rotations, the stopping step angle is continuously stopped.
The operation of successive steps is performed at a multiple of one step angle = 0.72 °, and after the step angle is continuously rotated or stopped, the operation alternately repeating rotation and stop every one step angle is alternately performed. To repeat.

About the power supply according to the present invention The power supply according to the present invention uses electricity generated by rotation of a DC electric motor connected to a storage battery charged with electricity obtained by solar power generation (Japanese Patent No. 4362545).
This patent is to keep track of the power consumption, rank the power consumption, and control the rotation of the DC electric motor to supply the ranked power one rank higher.
The amount of power consumption used in the present invention is also constantly grasped and ranked, and the electricity one rank higher than that rank is efficiently supplied by controlling the rotational speed of the DC electric motor and supplying it. There is.
Since the CO2 generation of the solar power generation and the power generation generated by the present invention is zero, it is a clean energy generator.

About the stepping motor type excitation circuit of 5 phase excitation in the present invention The stepping motor type excitation circuit of 5 phase excitation is provided in the present invention.
The stepping motor type excitation circuit has one step angle = 0.72 °, advances by 500 step angles when the rotary shaft makes one revolution, and is provided at the middle position of the diameter in the longitudinal direction of the rotating body A (2).
As shown in FIG. 6, a stator A (28) provided with an electromagnet A (27) in which an electric wire is wound around an iron core in a concentric ring A (26) and the electromagnet A (27) are opposed. And a rotor A (29) provided with a magnet B (30) magnetized concentrically in the axial direction around the axis, and a programmable controller A (31, not shown), a controller A (32, The driver A (33, not shown) connected to the electromagnet A (27) is composed.
When a current is supplied to the controller A (32), a pulse signal is given to the driver A (33), and the driver A (33) switches the current of the electromagnet A (27), the magnetic pole of the electromagnet A (27) Switching is performed, and the rotation sensor attached to the rotating body A (2) catches excess or deficiency of the rotation of the rotating body A (2), and the number of step angles of continuous rotation or the step of stopping continuously A pulse signal is given to the driver A (33) by a command from the computer for calculating the number of corners, and the step angle to be rotated is continuously rotated, or the step angle to be stopped is continuously stopped. The predetermined rotational speed of 2) is maintained.
For example, when the rotation of the rotary body A (2) is returned to a predetermined rotation speed by continuously rotating two step angles, the operation is stopped for one step angle, and the operation returns to the original rotation / stop operation every one step angle.
Since the rotational speed deviation is corrected within the range of one step angle = 0.72 °, even if the time required for correction is all over one step angle, correction is performed within 1/500 times as much as possible, and this deviation is The cumulative speed is maintained at 1800 times / rpm and the 1800 times / rpm rotation is transmitted to the generator to enable synchronous power generation.

Hereinafter, the claims will be described.

Schematic of the device of the invention.
FIG. 1 is a schematic view of the whole of the present invention.
The rotating body A (2) is provided facing the electric motor (1), and the rotating body A (2) is provided so as to extend horizontally in the direction of the generator (53). A rotating shaft (52) connected to the rotating body A (2) is provided "forward", and the other of the rotating shaft (52) is connected to a generator (53).
A rotating body A (FIG. 2) is provided with an arc-shaped wedge (5) facing the bottom of the rotating body A (2) and facing the electric motor (1) as shown in FIG. The tangent I (36) orthogonal to the perpendicular H (35) drawn from the center point G (34) of the rotating body A (2) in the cross section of 2) to the circumferential edge of the rotating body A (2) As shown in FIG. 5, the tangent I (36) extends from the circumferential edge J (37) of the rotating body A (2) to the position of the circumferential edge k (38), and the position near the tangent I (36) The "predetermined range" of the bottom portion (3) of the rotating body A (2) in the figure closes a large number of fine holes (4) provided in the arc-shaped wedge (5).
As shown in FIG. 3, a large number of fine holes provided at the top of the arc-shaped wedge (5) facing the "predetermined range" portion of the bottom portion (3) of the rotating body A (2) (4) is provided open, and the air blown from the blower (23) is contained in the arc-shaped crucible (5).
As shown in FIG. 5 in the lower part of the “predetermined range” of the bottom portion (3) of the rotary body A (2) located near the tangent I (36) drawn in the longitudinal direction of the bottom portion of the rotary body A (2) There is provided an arc-shaped wedge (5) having a large number of fine holes (4) attached thereto.
As shown in FIG. 5, a rotation passing a center point G (34) of the rotating body A (2) in parallel with the tangent line I (36) intersects the circumferential edge of the rotating body A (2) A rubber magnet Q (8) is provided from the circular rim O (6) facing the electric motor (1) of the body A (2) to the circular rim P (7) facing the generator (53) The magnetic pole whose rubber magnet Q (8) faces the arc-shaped wedge (5) is a north pole R (9).
The circle facing the part from the circular rim O (6) facing the electric motor (1) of the rotating body A (2) to the circular rim P (7) facing the generator (53) A permanent magnet S (10) is installed in the arc-shaped crucible (5), and the magnetic pole whose surface faces the rotor A (2) is the N pole T (11) .
Power is generated from the circumferential edge U (12) shown in FIG. 5 facing the electric motor (1) of the rotating body A (2) located between the rubber magnet Q (8) and the bottom of the rotating body A (2) The rubber magnet W (14) is provided up to the circumferential edge V (13) facing the machine (53), and the magnetic pole where the rubber magnet W (14) faces the arc-shaped wedge (5) is It is N pole X (15).
A permanent magnet Y (16) is installed on the arc-shaped crucible (5) facing the portion from the circular rim U (12) to the circular rim V (13), and the permanent magnet Y (16) is The magnetic pole facing the rotating body A (2) is the N pole Z (17).

The vertical direction is from the bottom portion (3) of the rotating body A (2) to the middle of the vertical height of the circumferential edge of the rotating body A (2), and the horizontal direction is the rotating body A as shown in FIG. An arc-shaped wedge (5) is provided to face the circular edge k (38) from the circular edge J (37) of (2), and the “predetermined portion of the bottom portion (3) of the rotating body A (2) In the portion of said arc-shaped weir (5) facing the surface area of the range ", a large number of fine holes (4) shown in FIG. 3 are opened and in said arc-shaped weir (5) The air is blown from the blower (23) through the hose (25), and the hose (25) can flow from the blower (23) only in the inward direction of the arc-shaped weir (5). A stop valve is provided.
Because the air is "viscous", the air in the arc-shaped weir (5) is difficult to pass through the fine holes (4) and the pressure in the arc-shaped weir (5) M (21) is slightly higher than the atmospheric pressure M0 (20).
In FIG. 3, the rotating body is provided with a large number of fine holes (4) of the arc-shaped wedge (5) provided facing the "predetermined range" of the bottom portion (3) of the rotating body A (2). When the "predetermined range" of the bottom portion (3) of A (2) is closed, the flow of air in the hole (4) becomes gentle, and according to "The Bernoulli's theorem", the pressure M1 (19) 21) When the pressure M (21) is gradually increased, the pressure M1 (19) also increases, and a large number of them face the “predetermined range” of the bottom portion (3) of the rotating body A (2) Assuming that the surface area of the “predetermined range” of the bottom portion (3) of the rotary member A (2) blocking the fine pores (4) of L is (M−M 0) × L, The pressure M1 (19) acts on the "predetermined range" of the bottom portion (3) of the rotating body A (2) from the lower side of the rotating body A (2) to "fly" the bottom portion (3) of the rotating body A (2) So, the "floating" is "floating" to a position balanced with the gravity working downwards to the bottom of the rotating body A (2) (3).
Each of the holes (4) is perpendicular to a tangent drawn from the center point G (34) of the rotating body A (2) at a right angle to the line connecting the circumference of the rotating body A (2) The air flowing out of the hole (4) near the surface area of the “predetermined range” of the bottom portion (3) of the rotary body A (2) is disposed toward the rotary body A (2). Even if the rotating body A (2) approaches the arc-shaped wedge (5) by shifting the center point G (34) of 2), the N pole R (9) and the N pole T (11), and The magnetic poles provided at two places of the N pole X (15) and the N pole Z (17) repel each other, and the rotating body A (2) is pushed back within the predetermined rotation range, and the rotating body A (2) Rotates within a predetermined rotation range without contacting the arc-shaped wedge (5).

The "predetermined range" of the bottom portion (3) of the rotating body A (2) and the rotation when the "floating" is performed to a position balanced with the gravity acting downward on the bottom portion (3) of the rotating body A (2) The pressure M1 (19) between the "predetermined range" of the bottom (3) of the body A (2) and the large number of fine holes (4) facing it is an arc-shaped weir (5) The pressure is slightly lower than the pressure M (21), and the bottom (3) of the rotating body A (2) starts to fall.
The distance between the large number of fine holes (4) shown in FIG. 3 and the “predetermined range” of the bottom (3) of the rotating body A (2) is measured at a total station combining the electron theodolite and the optical distance meter, When the interval reaches a predetermined interval, the number of rotations of the fan (23) installed outside the rotating body A (2) is increased and the air flow rate through the hose (25) = air volume is arc shape Air is blown to (5) to increase the amount of air in the arc-shaped crucible (5) to form a large number of fine holes (4) and the "predetermined range" of the bottom portion (3) of the rotating body A (2) Is maintained at a predetermined distance.

FIG. 4 is a cross-sectional view of the rotating body A (2) facing the electric motor (1).
A line passing through the center point G (34) of the rotating body A (2) in parallel with a horizontally drawn tangent I (36) of the bottom of the rotating body A (2) is the rotating body A (2) The circular rim P (7) facing the generator (53) from the circular rim O (6) shown in FIG. 5 facing the electric motor (1) of the rotary body A (2) intersecting the circular rim of Rubber magnet Q (8) is provided, and a rubber magnet W (14) is provided intermediate the rubber magnet Q (8) and the bottom of the rotating body A (2).

As shown in FIG. 5, the rubber magnet Q (8) generates electric power from the circumferential edge O (6) facing the electric motor (1) of the rotating body A (2) in the longitudinal direction of the rotating body A (2) The magnetic pole which is provided up to the circular peripheral edge P (7) facing the machine (53) and whose rubber magnet Q (8) faces the arc-shaped wedge (5) is N pole R (9) is there.
A permanent magnet S (10) is installed in the arc-shaped crucible (5) facing the portion from the circular rim O (6) to the circular rim P (7), and the permanent magnet S (10) The magnetic pole whose surface is opposed to the rotating body A (2) is the N pole T (11).
When the rotating body A (2) approaches the arc-shaped wedge (5), the N pole R (9) and the N pole T (11) repel each other, and the rotating body A (2) falls within a predetermined rotation range. Pushed back to

The rubber magnet W (14) is, as shown in FIG. 5, a circular rim facing the electric motor (1) of the rotating body A (2), a circular rim facing the generator (53) from the circular rim U (12) It is provided up to V (13).
An N pole X (15) which is a magnetic pole of the rubber magnet W (14) faces the arc-shaped wedge (5).
The arc-shaped wedge (5) facing the portion from the circumferential edge U (12) facing the electric motor (1) to the circumferential edge V (13) facing the generator (53) A permanent magnet Y (16) is installed on the magnetic pole, and the magnetic pole facing the rotating body A (2)) is the N pole Z (17).
When the rotor A (2) approaches the arc-shaped wedge (5), the N pole X (15) and the N pole Z (17) repel each other, and the rotation of the rotor A (2) is a predetermined rotation. Pushed back into range.

In addition to the rotating body A (2) being connected to the rotating shaft of the electric motor and being rotated by the rotational force of the electric motor, the rotating body A (2) to be installed is not receiving air from the lower part It has a load that requires a sufficient torque to generate a predetermined amount of power generation, and the rotating body A (2) floats upward with the air from the bottom of the rotating body A (2) and has zero friction resistance. The rotating body A (2) rotates without contacting the arc-shaped wedge (5) because it rotates in a predetermined rotation range as described in paragraph 0018 and paragraph 0019.
The torque of the stepping motor type excitation circuit of the five-phase excitation is also added to secure the torque required to generate a predetermined amount of power generation, control the rotating body A (2) to a speed of 1800 times / rpm, and 1800 times The rotation of / rpm is transmitted to the generator (53) to enable synchronous power generation.

1 = electric motor 2 = rotary body A
3 = bottom 4 of rotating body A (2) = many fine holes 5 in bottom (3) of rotating body A (2) = arc shaped wedge 6 = rotation facing electric motor (1) Peripheral edge O of body A (2)
7 = circle edge P facing the generator (53) of the rotating body A (2)
8 = Rubber magnet Q provided from the circumference O (6) to the circumference P (7) facing the generator (53)
9 = N pole R of rubber magnet Q (8)
10 = permanent magnet S of arc-shaped 菅 (5)
11 = N pole T of the surface where the permanent magnet S (10) faces the rotating body A (2)
12 = circle edge U facing the electric motor (1) of the rotating body A (2)
13 = circle edge V facing the generator (53) of the rotating body A (2)
14 = rubber magnet W
15 = N pole of the surface where the rubber magnet W (14) faces the arc-shaped wedge (5)
16 = permanent magnet Y in arc-shaped 菅 (5)
17 = N pole Z of the surface where the permanent magnet Y (16) faces the rotating body A (2)
19 = pressure M1 between a large number of fine holes (4) and the bottom (3) of the rotating body A (2)
20 = atmospheric pressure M0
21 = pressure M on the lower surface of the bottom portion (3) of the rotating body A (2)
22 = Area L of bottom portion (3) of rotating body A (2) blocking many fine holes (4)
23 = Blower 25 = Hose 26 connected from the blower (23) to the arc-shaped weir (5) = concentric ring A provided at the middle position of the diameter of the longitudinal direction of the rotating body A
27 = electromagnet A
28 = Stator A
29 = Rotor A
30 = magnet B magnetized axially concentrically around the axis
31 = programmable controller A
32 = Controller A
33 = driver A
34 = center point G of rotating body A (2)
35 = perpendicular H drawn from center point G (34) of rotator A (2) to circumferential edge of rotator A (2)
36 = tangent I perpendicular to perpendicular H (35)
37 = circle edge J of rotating body A (2)
38 = circle edge K of rotating body A (2)
52 = rotating shaft connecting rotating body A (2) and generator 53 = generator

Claims (5)

The bottom portion (3) of the rotating body A (2) is provided with a rotating body A (2) between the electric motor (1) and the generator (53) and connected to the rotating shaft of the electric motor (1) There is an arc-shaped weir (5) with a large number of fine holes (4)
A rubber magnet Q (8) is provided in the longitudinal direction of the rotating body A (2) at an intermediate height in the vertical direction of the circular periphery of the rotating body A (2), and the rubber magnet Q (8) A permanent magnet S (10) is installed on the arc-shaped weir (5) facing the face, facing the rubber magnet Q (8),
The rubber magnet W (14) is in the middle of the circumference of the circle of the rubber magnet Q (8) of the rotor A (2) and the bottom of the rotor A (2) and in the longitudinal direction of the rotor A (2) In the apparatus in which the permanent magnet Y (16) is installed facing the rubber magnet W (14), the arc-shaped wedge (5) is provided, facing the rubber magnet W (14). The rotor comes from the air coming out of a large number of fine holes (4) of the arc-shaped weir (5) facing the "predetermined range" of the bottom (3) of the body A (2) It has a function to float the bottom portion (3) of A (2), and the rotating body A (2) rotates with zero frictional resistance within a predetermined rotation range without contacting the arc-shaped wedge (5) A power generator characterized by The function of the air coming out of the large number of fine holes (4) to float the bottom portion (3) of the rotating body A (2) is that the atmospheric pressure is M0 (20) and the large number of fine holes (4) The pressure between the rotating body A (2) and the bottom (3) is represented by a pressure M1 (19), and the pressure in the arc-shaped wedge (5) is represented by a pressure M (21). 5) Air continues to be injected from the blower (23) into the interior, and the "predetermined range" of the bottom portion (3) of the rotating body A (2) faces the "predetermined range" When the fine holes (4) are closed, the pressure M1 (19) is increased to about the pressure M (21) according to the "Bernoulli's theorem", and the pressure M (21) gradually increases and the pressure M1 (19) also increases. Assuming that the surface area of the “predetermined range” of the bottom portion (3) of the rotor A (2) closing the large number of fine holes (4) is L (22), (M−M0) × L The pressure M1 (19) is greater than the force, and the pressure M1 (19) acts on the “predetermined range” of the bottom portion (3) of the rotator A (2) from the lower side of the rotator A (2) A method according to claim 1, characterized in that "3" is "lifted" and said "lifting" is "lifted" to a position commensurate with the gravity acting downward on the bottom portion (3) of the rotating body A (2). Power generator. The total station combining the electron theodolite and the light wave range finder is provided, and the rotor floats to a position where it balances with the gravity acting downward on the bottom (3) of the rotor A (2) according to claim 2 Between a "predetermined range" of the bottom (3) of A (2) and a number of fine holes (4) facing the "predetermined range" of the bottom (3) of the rotor A (2) Pressure M1 (19) is slightly lower than the pressure M (21) in the arc-shaped weir (5), and when the bottom (3) of the rotating body A (2) starts to fall, the bottom (3 Catch the fall of) and increase the number of rotations of the blower (23) to send the air flow rate through the hose (25) = the air volume is blown to the arc-shaped weir (5) and a large number of fine holes (4) And the “predetermined range” of the bottom part (3) of the rotating body A (2) Power generating device according to claim 2, characterized in that it is. A line passing through the center point G (34) of the cross section of the rotor A (2) parallel to a tangent I (36) drawn horizontally to the bottom (3) of the cross section of the rotor A (2) A circular rim P facing the generator (53) from a circular rim O (6) facing the electric motor (1) of the rotary body A (2) intersecting the circular rim of the rotary body A (2) A rubber magnet Q (8) is provided up to (7), and the magnetic pole facing the arc-shaped wedge (5) is the N pole R (9).
A permanent magnet S (10) is installed in the arc-shaped crucible (5) facing the portion from the circular rim O (6) to the circular rim P (7), and the permanent magnet S (10) is The magnetic pole facing the rotating body A (2) is the N pole T (11), and when the rotating body A (2) approaches the arc-shaped wedge (5), the N pole R (9) and the N pole T (11) repels, and the rotating body A (2) is pushed back within the predetermined rotation range, so that the rotating body A (2) and the arc-shaped wedge (5) never come in contact with each other. The power generator according to claim 1, characterized in that The rubber magnet W (14) rotates in the longitudinal direction of the rotating body A (2) at the circumferential edge of the rotating body A (2) which is intermediate to the rubber magnet Q (8) and the bottom of the rotating body A (2). The rubber magnet W (W) is provided from the circular rim U (12) facing the electric motor (1) of the body A (2) to the circular rim V (13) facing the generator (53). 14) the magnetic pole facing the arc-shaped wedge (5) is the N pole X (15), and the generator (53) from the circumferential edge U (12) facing the electric motor (1) A permanent magnet Y (16) is placed on the arc-shaped wedge (5) facing the part up to the circular rim V (13) facing the), and the permanent magnet Y (16) is a rotating body A The magnetic pole facing (2) is the N pole Z (17), and when the rotary body A (2) approaches the arc-shaped wedge (5), the N pole X (15) And the N pole Z (17) repel each other to push the rotating body A (2) back into the predetermined rotation range, and the rotating body A (2) and the arc-shaped wedge (5) come into contact with each other. The power generator according to claim 1, characterized in that

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