JPH10150756A - Clamped generator rotor disk interposing type vertical multilayer power generation system employing interpole action linear motor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To satisfy energy demand of 21 century by rotating a floating motion body utilizing a permanent magnet at high speed through an interpole linear motor thereby restraining extension of a generator consuming fossil fuel and a dangerous nuclear power plant which can not be controlled easily or construction of a dam accompanying destruction of nature as much as possible. SOLUTION: A magnetic levitation rotor projects a core applied with a power generation coil 2 at a constant interval from the top plate 16 and the floor plate of housing while describing a circular orbit such that the power generation magnet 19 of the magnetic levitation rotor can pass appropriately through the interrupted intermediate layer of the orbit of upper and lower coil cores. A lateral U-shaped interpole action linear motor 23 disposed on the circumferential fringe part at the forward end is rotated at high speed to generate electric power. This system may employ other driving power than that generated from a linear motor.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[Industrial applications] All fields that require energy.

[0002]

2. Description of the Related Art A cylindrical magnet is attached to a shaft, a coil is mounted around the magnet, and an induced current is generated by rotating the magnet to generate electric power.

[0003]

SUMMARY OF THE INVENTION The development of a more efficient power generator, which can generate a large amount of carbon dioxide gas due to the current power generation using fossil fuels, and pose a great danger to humanity,
The purpose is to curb the construction of nuclear power plants.

[0004]

Means for Solving the Problems In the development of a more efficient generator, the inventor has found that most of the energy used for power generation is consumed to rotate a rotor that is extremely heavy, and as a solution therefor. The rotor is levitated by magnetic force to significantly reduce its mass, and the two poles of the magnet are efficiently used to break the conventional concept and split the coil into two layers as shown in Fig. 1 to achieve high efficiency. We developed a generator and used it as a means.

[0005]

Although the basic mechanism of the present invention has been described in the means for solving the problems of the present invention, the conventional power generation concept has been completely broken down and the coil is vertically connected as shown in FIG. It is wound so that it has two layers from the top and bottom, and an interruption layer (3) is provided so that a magnet for power generation, that is, a movable magnet (5) passes therethrough in a convenient manner. More than just using one pole of a magnet. As a result, both poles of the magnet are effectively used, and efficiency is obtained as if two generators were simultaneously operated by rotating the generator rotor. In addition, since the rotor floats and its mass is greatly reduced, the energy required for its rotation is significantly less than that of the conventional rotor. Further, as described in the third aspect of the present invention, if necessary, it can be connected to a special shaft structure, and can be used immediately in multiple layers. It can be used in a wide range of fields, both large and small. If the operation of claim 5 is mentioned, the electromagnet or the permanent magnet is not acted on the conventional planar one-track magnetic pole, but the sandwiched magnetic pole is used in the present invention.
An intermediate magnetic body, an electromagnet (10) in the case of the present invention, or a permanent magnet according to the concept of the present invention is sandwiched between electromagnets in a sandwich manner by a permanent magnet (11) in the form of:
In this structure, a current is alternately passed through one of the magnetic poles to reverse the magnetic poles, and the sandwiched magnetic poles generate a thrust on the intermediate magnetic pole body or vice versa. In other words, the diameter of the rotor according to the present invention can be significantly increased by the coverless motor as compared with the conventional gear.

[0006]

FIG. 1 is a vertical sectional view showing the structure of a suspended layer vertical stop coil type 2 when the interpole-acting linear motor according to claim 5 of the present invention is used.
It is an Example in the front sectional view about a layered power generation system. (12) is a housing of this device, and a rotating shaft is vertically connected to a center by a sliding stopper (13) incorporating upper and lower bearings. The rotating shaft (14) passing through the upper and lower layers of the housing is joined by a bearing (15) which also has a bearing structure. From the top plate (16) and the floor plate (17) of the housing, an iron core equipped with a total of four power generation coils (2) protrudes from the top and bottom at symmetrical positions in this figure. In this sectional view, the rotor disk (4), which is the heart of the present invention, extending in the horizontal direction from the middle position of the rotating shaft, is a rotor disk bearing portion (18) for power generation, a magnetically levitating movable magnet (5), Magnet (19), a two-pole magnetic pole structure of a linear motor with a magnetic pole acting between the magnetic poles.
The permanent magnets (11) and (10) are arranged symmetrically. Immediately below the magnetic pole floating movable magnet (5), a fixed magnet track (6) is provided. The magnetic levitation rotor (7) for power generation is equipped with two upwardly-rotating force transmitting vertical arms (2).
0) is connected to the vertical shaft supporter. From the center of the left side wall of the housing connected to the rotational force transmission horizontal arm (21), an intermediate magnetic pole body arm (22) provided with an electromagnet (10) at the center of the ⊃-shaped interpole active linear motor. It is stretched out, but this is only a schematic diagram.

[0007]

As described above, according to the present invention, a magnetic levitation anti-gravity state is generated in accordance with the energy theory derived from today's physical law in the concept of mass due to gravity, and the rotor mass is applied to the bearing and the resistance is reduced. Does not function as (brake). Also, since the driving force is not transmitted by direct gear contact, energy loss due to resistance is extremely small. Further, according to the interpole-pole acting linear motor according to claim 5 of the present invention, even if the diameter of the generator rotor is as large as 5 meters or more, it may be formed on the peripheral edge by the principle of the pulley according to the example. Since the power point is provided, the maximum efficiency can be demonstrated, the start, stop, speed, etc. can be freely controlled by electric signals, and once the disk structure of the power generation rotor starts to rotate, The retention of its inertia is markedly different from the conventional one. As mentioned above, the effect is prideful for a 21st century type generator.

[Brief description of the drawings]

FIG. 1 is a front sectional view showing a main main structure of the present invention.

Fig. 2 Cross-sectional front view Main structure when using a magnetic levitation rotor

FIG. 3 is a front view and a partial cross-sectional view of the main structure of a reaction-tuned interpole magnetic motor.

[Explanation of symbols]

 1 = iron core 2 = generation coil 3 = interruption layer 4 = rotor disk 5 = movable magnet for magnetic levitation 6 = fixed magnet orbit 7 = magnetic levitation rotor 8 = polygonal hollow head 9 = permanent magnet 10 = electromagnet 11 = ⊃-shaped installation Permanent magnet 12 = Housing 13 = Sliding stopper 14 = Rotating shaft 15 = Bearing 16 = Top plate 17 = Floor plate 18 = Rotor disk bearing for power generation 19 = Magnet for power generation 20 = Rotation power transmission vertical arm 21 = Rotation power transmission horizontal arm 22 = Intermediate magnetic pole arm 23 = Interaction linear motor 24 = Reaction tuning rotor switch 25 = Conducting terminal strip 26 = Input roller connector 27 = Conductor plate 28 = Output roller connector

Claims (9)

[Claims] As shown in FIG. 1, an iron core (1) is protruded from the top and bottom of the disk at an equal interval to the periphery of a disk, and a power generation coil (2) is placed there. The plate-shaped permanent magnet is wound at the tip of the rotor disk (4) so that it is wound in the vertically symmetrical direction and in the adjacent direction so that they are opposite to each other, and passes through the interruption layer (3) appropriately. , S poles are installed in the same number as the power generation coil (2) and the neighbors N and S are opposite to each other, so that the power generation magnet (19) and the power generation coil accompanying the rotation of the rotor disk (4) An interrupted layer vertical cut-off coil type two-layer power generation system characterized in that an induced current is generated simultaneously in the upper and lower layers by the reaction of (2). 2. "Movable magnet for magnetic force levitation at equal intervals on the same diameter line of the rotor disk of FIG. 1 of FIG. (5) is installed on the substrate as shown in FIG. 2 with a fixed magnet orbit (6) symmetrical to the movable magnet diameter line of the rotor disk with respect to the movable magnet (5) with the same polarity facing the rotor magnet (5). ), And the function of claim 1 of the present invention is facilitated, whereby a two-layer power generation system with an interrupted layer vertical interrupted coil using a magnetic levitation rotor (7) is provided. 3. A generator with a connectable shaft having a polygonal hollow head In the power generator of the present invention, a polygonal hollow head (8) is formed on one of the shafts, and the other of the shafts has a hollow inner angle. A connectable shaft having a polygonal hollow head, characterized in that the generator according to the present invention is connected vertically or horizontally by being provided with a polygonal head that can be inserted conveniently. With generator. 4. An air resistance reducing type air magnet resistance rotor characterized in that a triangular prism wind vent is suitably provided in the traveling direction of the movable magnet to reduce the air resistance of the rotating object. Moving magnet rotor. 5. To improve the efficiency of a floating rotor disk according to claim 2 of the present invention, a "linear motor between magnetic poles" is shown in FIG.
The N and S poles of the permanent magnets (9) are alternately and regularly formed in the periphery of the tip of the rotor disk (4) at regular intervals and are joined in the shape of 、, and the Ｎ-shaped N, S One or more electromagnets (10) are suitably installed at the intermediate positions of the poles to flow current, and the current is alternately converted, so that N and S poles are generated alternately at the upper and lower ends of the electromagnet (10). At the same time as the resilient reaction with the ⊃-shaped permanent magnet (11), it is caused to attract and react with the next ⊃-shaped permanent magnet (11) to generate a strong thrust on the ⊃-shaped permanent magnet or the electromagnet (10). A linear motor (23) that operates between magnetic poles. 6. An electromagnet (10) having a triangular prism electromagnet and a magnetic pole acting type linear motor according to claim 5 of the present invention,
A triangular electromagnet-equipped linear motor with a triangular-shaped electromagnet equipped with a triangular prism turned sideways and an electromagnet coil wound around the bottom. 7. A "permanent magnet movable linear motor between magnetic poles" wherein the permanent magnet (11) and the electromagnet (10) of the fifth embodiment of the present invention are replaced by a magnetic force retaining form. , A permanent magnet movable type magnetic pole action type linear motor. 8. In a moving body having a permanent magnet of a reaction-tuning type inter-pole acting linear motor at an end thereof, a reaction of an intermediate magnetic pole is placed in a permanent magnet. For example, when the moving body is a rotor, the rotor shaft is equipped with a reaction-tuned rotor switch (24) as shown in FIG. 3, and the ⊃-shaped permanent magnet (11) at the end of the rotor is connected to a conductive terminal. The input roller connector (26) on the left side of FIG.
1 flows through the conductive plate (27), comes into contact with the conductive terminal strip (25) at the output roller connector (28), flows to the electromagnet (10) as the intermediate magnetic pole body in FIG. Reaction-tuned magnetic pole acting linear motor characterized by the following: 9. A structure of the magnetic levitation rotor (7) according to claim 2, wherein only the power generating magnets (19) are removed from the lowermost layer. The generator having a connectable shaft having a diameter of about 1/3 is connected on the housing (12), and the generator is stacked in a multilayer structure, and is replaced with the same reference numeral (23). A gear-like structure can be attached to and detached from the place, and a linear motor that works between magnetic poles by transmitting other power through gears, etc., and a convex multi-layer power generation system with other power.