JP2001016842A - Extract unit for high-output power supply - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an extract unit for a high-output power supply, having a small and simple construction which is easy to move and install and used suitably for a home, office or a small factory for extracting a high rotational output amplified higher than input-side rotating force. SOLUTION: In an extract unit for a high-output power supply, AC or DC power is applied to drive an input motor 2, and a magnet M2 is provided so that the magnet M2 has the same poles as an N-pole 6a and an S-pole 6b of a magnet M1 and different adjoining poles in its outer circumferential direction, while the N- and S-poles 6a and 6b of the magnet M1 are provided around a rotor 5 of a DC generator 3 joined directly with the input motor 2. In this case, magnetic force on the stator side is amplified and the rotor 5 rotates at higher speed, so that high rotating force is transmitted to an output generator 4. Then, the output generator 4 rotates at a high speed, so that, power source of high output which is amplified more than the input side can be extracted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-output power supply device utilizing a permanent magnet which can be output as a high-speed output amplified from the input-side torque.

[0002]

2. Description of the Related Art As is well known, permanent rotation drive by magnetic interaction between permanent magnets has been a dream of mankind for many years, but has not been put to practical use. Mainly, the permanent magnet and the stator permanent magnet have the same magnetic flux direction and use the attractive force or repulsive force between the permanent magnets.However, when the rotor permanent magnet and the stator permanent magnet face the same pole, When a repulsive force is generated and the rotor has a counter torque or a different polarity, an attraction force is generated and the rotor is braked, so that a rotating machine using permanent magnets has not been realized.

[0003] Further, it has been difficult to realize such a technique of using a rotating machine to increase the output energy over the input energy as utilizing the law of nature.

However, in recent years, Japanese Patent Application Laid-Open No. 9-47050 has been proposed as a technique for amplifying energy using a magnet without violating the laws of physics.

[0005] This technique is as shown in the overall perspective view of the conventional energy extraction device shown in Fig. 3, and this energy extraction device 327 is composed of a rotary driving motor 329, a central disk 303, A magnetic energy extracting device 325, a generator 337, a space energy extracting device 321, a clutch 345, and a starting motor 347 are arranged in series, and the input shaft 309 on the motor 329 side and the generator 33 are arranged.
7, the output shaft 323 is separated.

The magnetic energy extracting device 325 includes a central disk 303 and an outer circle in which a plurality of magnet bands 305 are arranged at equal intervals along the outer periphery of the central disk 303 so that adjacent magnetic poles have different polarities. Plate 307 and a central disk 303
Is used as the input shaft 309, and the rotation of the plurality of outer disks 307 is combined into one rotation shaft to which power is not mechanically transmitted from the center disk 303, and this is output. The axis 323 is set.

On the upper and lower sides of the outer periphery of the central disk 303, six pole magnets 301 are alternately arranged so that N and S poles appear.
A central angle of 90 ° at which N and S poles appear on the upper and lower surfaces along the outer periphery of each outer disk 307 is disposed.
Are arranged facing each other.

A motor 329 is connected to the input shaft 309 of the central disk 303, and a central gear 333 fixed to the output shaft 323 is arranged at the center of the four outer disks 307. The rotary synthetic gear 335 attached to each outer disk 307 is meshed with.

A generator 337 is connected to an output shaft 323 extending from the central gear 333, and the rotor 339 of the generator 337 rotates with the rotation of the output shaft 323, whereby the magnets of the four outer disks 307 are rotated. The magnetic potential energy existing in the band 305 can be extracted as power generation power from the two first output lines 341.

Output shaft 323 further extending from rotor 339
Is a disk-shaped magnet 31 having conductivity and having magnetic poles on both sides.
1, the rotating shaft 317 of the rotating body 315 sandwiching the copper disk 313 from the front and back, and an extraction electrode 319 is provided between the outer peripheral edge of the copper disk 313 and the rotating shaft 317, and the space energy extracting device 321 is provided. Is composed. Then, with the rotation of the rotating shaft 317, energy from the space is extracted as a current flowing through the two second output lines 343.

Then, the motor 329 for rotation drive and the motor 347 for starting are rotated at a rotation ratio of 1: 3, respectively, and the center disk 303 and the outer disk 307 are respectively rotated by 1: 3.
Rotate at a rotational speed ratio of 3.

Next, when the rotation of the disk enters a steady state, the clutch 345 is disengaged. However, even if the clutch 345 is disengaged, as long as the rotation driving electric motor 329 is rotating the central disk 303. The outer disk 307 continues to rotate at three times the rotation speed of the central disk 303, and
Continue rotating at double the number of rotations.

As for the rotational energy of the output shaft 323, the power generated by the rotation of the input shaft 309 is larger than the power supplied to the rotation driving motor 329 by the generator 337.
From between the two extraction electrodes 319, energy from space is extracted as a current.

[0014]

However, such a conventional energy extracting device 327 using a magnet has the following problems.
Rotary drive motor 329 and generator 3 arranged in series
37, a magnetic energy extracting device 325 and a space energy extracting device 321 are arranged between the starting motor 347, respectively. In particular, the magnetic energy extracting device 325 has six poles so that N and S poles appear above and below the outer periphery. It comprises a central disk 303 in which bar magnets 301 are alternately arranged to have different polarities, and four outer disks 307 arranged around the central disk 303. Each outer disk 307 has ,
A magnet band 305 having a central angle of 90 ° at which the N and S poles appear is formed on the upper and lower surfaces along the outer periphery so as to face each other.

However, in this kind of energy amplification technology using a magnet, the device itself becomes complicated and large-sized, and therefore, for example, when used in a home, office, or small factory, the installation location is not sufficient. Is required widely, and the relocation work is also difficult. Therefore, it is not suitable for use in this kind of use area and has a problem that practical use is difficult.

Accordingly, an object of the present invention is to obtain a high-rotational output amplified from the input-side rotational force, thereby simplifying the structure and simplifying the relocation, facilitating home and office use. Another object of the present invention is to provide a high-output power supply device that can be suitably used in a small-scale factory.

[0017]

In order to achieve the above object, the present invention has the following technical means. That is, this will be described using reference numerals in the accompanying drawings corresponding to the embodiments of the present invention. The present invention directly connects the DC generator 3 to the input motor 2 using AC or DC power as a power source, and A permanent magnet M2 is attached to the outer periphery of the magnet M1 so that the N and S poles 6a and 6b of the magnet M1 arranged on the outer periphery of the rotor 5 of the DC generator 3 have the same polarity and have mutually different polarities between adjacent magnets. And amplifies the number of rotations of the rotor 5 of the DC generator 3, and connects the output generator 4 to the output shaft 5 b of the DC generator 3, and outputs the output power from the output generator based on the input-side torque. The high-output power supply extracting device 1 is characterized in that the high-output power supply is also extracted as an amplified high-rotation output AC or DC power supply. According to the above, when the AC or DC power is supplied to start the input motor 2 and the rotor 5 of the DC generator 3 directly connected thereto is rotated, the magnet M1 disposed around the rotor 5 is rotated. The N and S poles 6a and 6b have the same polarity, and the permanent magnet M2 attached to the adjacent outer circumference so as to have a different polarity from each other amplifies the magnetic force on the stator side, thereby increasing the rotation of the rotor 5. It turns. By transmitting the high rotational force to the output generator 4 and rotating the output generator 4 at a high speed, a high-output power source amplified from the input side is taken out. Therefore, when the input motor 2 is started by the input power source, the rotor 5 of the DC generator 3 directly connected to the input motor 2 has N outside the rotor corresponding to the magnet M1 disposed on the outer periphery of the rotor 5. , S poles 6a and 6b are provided with permanent magnets M2 having the same polarity and different polarities on adjacent outer circumferences, so that the magnetic force on the stator side is amplified and the rotor 5 of the DC generator 3 is amplified. Can be rotated high,
Since the output generator 4 is rotated at this high rotation, it can be taken out from the output generator 4 as a high-output power source from the input side.

Further, in the present invention, the input motor 2 is a DC motor which is A / D converted by using a household power supply as an input power supply and is directly connected to the DC generator 3. The rotated output shaft 5b is connected to the output generator 4 via the transmission mechanism 15, and the rotor 18 of the output generator 4 is rotated at a higher speed and a higher torque than the torque of the input motor 2. This is a high-output power supply extraction device that is configured to be extracted as an amplified AC power supply and that is entirely unitized. According to the above description, when the DC motor 2 is started by the A / D converted current using the household power supply as the input power supply, the DC generator 3 connected to the DC motor 2 rotates at the amplified high rotation. The rotor 18 of the output generator 4 connected to the DC generator 3 via the transmission mechanism 15 is also rotated at the same high speed, and the output generator 4 outputs a higher output than the home power supply on the input side. Power is taken out. Accordingly, when the DC motor 2 is started by the A / D converted home input power, the rotor 5 of the DC generator 3 directly connected to the DC motor 2 is rotated at a high speed, and the DC generator 3 is rotated.
Generator 4 connected to the power generator 15 via a transmission mechanism 15
Is also rotated at a high speed, and can be taken out from the output generator 4 as a power source having a higher output than the home power source on the input side. In addition, since the structure is small and simplified and the whole is unitized, it can be relocated and can be suitably used in homes, offices, or small factories.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of the present invention will be described in detail with reference to the accompanying drawings, FIGS. FIG. 1 is an explanatory diagram illustrating a high-output power supply device according to an embodiment of the present invention, and FIG. 2 is an explanatory diagram illustrating a structural example of the high-output power supply device according to the embodiment of the present invention.

As shown in FIG. 1, the high power supply tap is shown as 1. This high-output power supply extraction device 1 includes an AC motor or a DC motor as a power source, and a DC generator 3
Are directly connected to each other, and have the same polarity with respect to the N pole 6a and the S pole 6b of the magnet M1 disposed on the outer periphery of the rotor 5 of the DC generator 3, and have the different polarity between adjacent magnets.
An N-pole 7a and an S-pole 7b of the permanent magnet M2 are attached to the outer periphery of 1 to amplify the number of rotations of the rotor 5 of the DC generator 3 described above.

An output DC generator 4 is connected to an output shaft 5 b of the DC generator 3, which will be described later. The output DC generator 4 amplifies the output power of the input motor 2 from the rotational force of the input motor 2. Further, an AC or DC power supply having a high rotation output is taken out.

In this embodiment, the input motor 2
As is well known, a direct current (DC) obtained by converting a home power supply (100 V AC power supply) introduced from a plug 11 as an input power supply by an A / D converter 12 into an electrode 1
0a, 10b alternately flow through the rotor 8 in the opposite direction,
A DC motor 2 is used in which the rotor 8 is rotated by the action of lines of magnetic force due to changes in the forward and reverse directions of the current flowing through the rotor 8 with respect to the poles 9a and 9b of the magnet M3.

As shown in FIG. 2, the input shaft 5a of the rotor 5 of the DC generator 3 is connected to the output shaft 13 of the DC motor 2 via the clutch 14, and the output shaft 5 of the rotor 5
b and the rotor 1 of the output DC generator 4 which is the output generator
The eight input shafts 16 are connected to each other via a pair of gears 15a and 15b having the same number of teeth, which are transmission mechanisms 15, for example.

As is well known, the output DC generator 4 has N and S poles 19a, 19b of the magnet M4 on the outer periphery of the rotor 18.
Are disposed, and the rotor 20 has electrodes 20a, 20a.
b are connected, and these electrodes 20 a and 20 b are connected to an outlet 22 via an A / D converter 21.

Therefore, the rotor 18 of the output DC generator 4
When rotation is given to the rotor, when a field current is present, electricity is generated and a current flows through the rotor 18. This direct current (DC)
Are taken out from the electrodes 20a and 20b, converted by the A / D converter 21, and taken out from the outlet 22 as an alternating current (AC). Note that an AC generator may be used instead of the output DC generator 4, and in this case, the A / D converter 21 becomes unnecessary.

Next, the DC generator 3 will be described. When the rotor 5 is rotated, the electricity generated in the DC generator 3 increases in proportion to the speed, and the voltage also increases in proportion to the voltage. When a constant determined by the structure, N is the number of revolutions of the rotor of the generator, and φ is a magnetic flux, a relationship of V = k · N · φ is established. From the above equation, it can be seen that the magnetic flux φ = V / k · N, and as the magnetic flux φ increases, the rotation speed N increases with the voltage V.

From the above, outside the magnet M1 arranged on the outer periphery of the rotor 5 of the DC generator 3, the magnet M1 has the same polarity with respect to the N pole 6a and the S pole 6b. Then, the N poles 7a and S of the permanent magnet M2 have different polarities from each other.
By attaching the poles 7b, an attempt was made to increase the magnetic force of the magnet to increase the magnetic flux φ.

Due to the increase of the magnetic flux φ, the rotation speed N of the rotor 5 of the DC generator 3 becomes A
It was confirmed that an amplified high rotation speed approximately three times as high as the two rotation speeds of the DC motor subjected to the / D conversion was obtained.

Therefore, a pair of gears 1 is connected to the DC generator 3.
The rotation speed of the rotor 18 of the output DC generator 4 connected through the 5a and 15b is also as high as that of the DC generator 3, and the power generated from the output DC generator 4 is supplied to the input side. Can be taken out of the outlet 22 as a power supply having a higher output than the power supply of the power supply.

Here, the rotor 18 of the output DC generator 4
Can be increased or decreased by suitably selecting the gear ratio of the pair of gears 15a and 15b.

Since the high-output power supply apparatus 1 configured as described above is simply configured, the whole unit 24
By adopting the configuration as described above, a small and compact configuration can be obtained, and the device can be appropriately relocated to a use location and used.

As shown in FIGS. 1 and 2, when the plug 11 is inserted into a household power supply and a switch (not shown) is turned on, the A / D converted DC motor 2 starts.

In this state, since the clutch 14 is disconnected, the rotation of the DC motor 2 is not transmitted to the DC generator 3, so that the clutch 14 is engaged to rotate the rotor 5 of the DC generator 3. .

When the rotor 5 rotates, the magnetic flux φ generated by the magnetic force of the magnet M1 is further amplified and strengthened by the attached permanent magnet M2, so that the rotation speed of the rotor 5 is amplified to a high speed. Rotation continues.

Then, by transmitting the high rotation to the output DC generator 4 via a pair of gears 15a and 15b as the transmission mechanism 15, the rotor 18 also has a high rotation speed, and the rotation speed is also obtained. A / D converter 2
1 and can be taken out of the outlet 22 as a high-output AC power supply that is converted to AC and amplified about three times as much as the input power supply.

It is to be noted that an AC generator may be used in place of the output DC generator 4, and when the AC generator is used, A / D
It can be taken out of the outlet 22 directly as an AC power supply without using a D converter.

The outlet 22 is connected to a home electric appliance 26 or various electric appliances (for example, a vacuum cleaner, a copying machine, a heating / cooling appliance, an OA appliance, etc.) via a plug 25, and a higher output power than a home power supply. It can be suitably used in homes, offices, small factories and the like.

[0038]

The present invention has the following effects.

As described in detail above, according to the first aspect of the present invention, the rotor of the DC generator is directly connected to the input motor started by the input power source, and is arranged on the outer periphery of the rotor of the DC generator. Corresponding to the magnets, permanent magnets are provided on the outside of each of the N and S poles so as to have the same polarity, and have mutually different polarities on the adjacent outer circumference. The rotor of the generator can be rotated at high speed, and this high rotation can also be obtained with the output generator connected to the DC generator, so it can be taken out of the output generator as a power source with higher output from the input side it can.

According to the invention described in claim 2 of the present application, A /
The DC motor started by the D-converted household input power supply is directly connected to the DC generator, and the rotor of the DC generator is rotated at a high speed, so that the DC motor is connected to the DC generator via a transmission mechanism. The rotor of the output generator is also rotated at a high speed, and can be taken out of the output generator as a power supply having a higher output than the home power supply on the input side. In addition, since the structure is small and simplified and the whole is unitized,
It can be relocated and can be suitably used in homes, offices, or small factories.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram illustrating a high-output power supply extracting device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating a structural example of a high-output power supply extracting device according to an embodiment of the present invention.

FIG. 3 is an overall perspective view of a conventional energy extraction device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 High-output power supply extraction device 2 DC motor (motor for input) 3 DC generator 4 DC generator for output (output generator) 5 Rotor 5b Output shaft 5a Input shaft 6a, 7a N pole 6b, 7b S pole 8 Rotor 9a N pole 9b S pole 10a, 10b Electrode 11 Plug 12 A / D converter 13 Output shaft 14 Clutch 15 Transmission mechanism 15a, 15b Gear 16 Input shaft 18 Rotor 19a N pole 19b S pole 20a, 20b Electrode 21A / D converter 22 Outlet 24 Unit 25 Plug 26 Home appliances M1, M3 Magnet M2 Permanent magnet M4 Magnet N Rotational speed V Voltage φ Magnetic flux

Claims (2)

[Claims] 1. A DC generator 3 is directly connected to an input motor 2 powered by AC or DC power.
N and S poles 6a of the magnet M1 arranged on the outer periphery of the rotor 5
The permanent magnet M2 is attached to the outer periphery of the magnet M1 so as to have the same polarity with respect to the DC generator 6b and different polarities between adjacent magnets, thereby amplifying the number of revolutions of the rotor 5 of the DC generator 3, and The output generator 4 is connected to the output shaft 5b, and is taken out from the output generator 4 as an AC or DC power supply having a high rotational output amplified from the input-side rotational force. And a high-output power take-out device. 2. The input motor 2 is a DC motor that is A / D converted by using a household power supply as an input power supply and directly connected to the DC generator 3, and the DC motor 3 is amplified and rotated. The output shaft 5b is connected to the output generator 4 via the transmission mechanism 15, and the rotor 18 of the output generator 4 is amplified to a higher rotation and a higher torque than the rotation force of the input motor 2. It is configured to be taken out as an AC power source,
2. The high-output power take-out device according to claim 1, wherein the whole is unitized.