JP2023008731A - Motor utilizing repulsive force between magnets - Google Patents

Abstract

To provide a motor (activation and power generation device) utilizing magnetic energy between repulsive magnets in order to realize energy utilization and energy production which are permanent and low in environmental load.SOLUTION: By applying magnetic force of a control magnet (6) repelling from a direction of both ends of a rotary shaft (1) to a rotor magnet (3) having an inclination angle on a surface (magnetic pole) facing the control sections (4) and (5), force for trying to move (trying to escape) the rotor magnet (3) in a rotation direction is generated. This force is used as rotational force and is used as power.SELECTED DRAWING: Figure 1

Description

The present invention converts the repulsive force between magnets into rotational force to obtain power, and relates to a motor (motor/generator) that can be used in various fields of equipment such as electrical appliances and automobiles.

Conventionally, when trying to obtain motive power or electric power, it was necessary to use gasoline as an engine, electricity as a motor, and solar or wind power as an energy source that is difficult to obtain permanently or has an environmental impact. There was a problem that I had to
The present invention has been made to solve this problem.

A rotor magnet (3) arranged on a circumference centered on a rotation axis (1) with an inclination angle on the surfaces facing the control units (4) and (5), and a rotor (2) having the rotor magnet (3) are controlled. By placing it between the parts (4) and (5) and bringing the distance between the control parts (4) and (5) closer (the distance between the control magnet (6) and the rotor magnet (3)), the magnetic poles that repel each other are oriented. The repulsive force between the combined control magnet (6) and rotor magnet (3) is strengthened, and a force is generated to move the rotor magnet (3) in the direction of rotation.
This force is used as rotational force and used as power.

As long as the magnetic forces of the rotor magnets (3) and control magnets (6) do not decay, they can be permanently powered. In addition, since it does not require fuel resources and does not generate exhaust gas, it is a clean energy that does not impose a burden on the environment.

1 is a perspective view of the present invention; FIG. Fig. 3 is a side view of the rotor (2) and rotor magnets (3) of the present invention; Figure 3 is a perspective view of the rotor magnet (3) of the present invention; It is an exploded perspective view of the control part left (5) of this invention.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below.
(stomach). The rotor (2) is integrated with the rotating shaft (1) or is connected by a gear or the like, receives the magnetic force from the control magnet (6), and transmits the force of the rotor magnet (3) trying to move to the rotating shaft (1). .
(B). The rotor (2) is arranged between the control units (4)(5), and the rotor magnet (3), whose surface facing the control units (4)(5) is inclined, is driven by the rotor (2). , arranged on a circle about the axis of rotation (1).
(C). The magnetic poles of the rotor magnet (3) are divided into right and left sides as shown in FIG. 3, with one pole facing the right control section (4) and the other facing the left control section (5).
However, if separate rotor magnets (3) are used on the right (4) side of the control unit and the left (5) side of the control unit, the magnetic poles facing the left and right control units (4) and (5) must be the same. It is possible.
(d). The number of rotor magnets (3) and the angle of inclination are not limited to those shown in the figure, and the specifications are determined according to the required rotational speed and torque.
In addition, by using a plurality of rotors (2) (rotor magnets (3)) having different numbers and inclination angles of the rotor magnets (3), the rotors (2) (rotor magnets (3)) for obtaining power are arranged as needed. It is also possible to shift gears by switching with the
The rotor (2) shown in the figure represents a configuration in which the number of rotor magnets (3) is 12 and the inclination angle is about 45 degrees.
(E). The configuration of the rotor (2) and the rotor magnet (3) is not limited to the one shown in the figure. "Attach the rotor magnet (3) directly to the rotating shaft (1)""Use separate rotor magnets (3) on the right (4) side of the control unit and the left (5) side of the control unit", etc. be.
(f). The control units (4) and (5) basically do not contact or interfere with the rotary shaft (1), and are fixed or integrated with an arm component (not shown) that moves by operation.
(door). The control magnets (6) direct the poles that repel the magnetic poles of the opposing rotor magnets (3) toward the rotor (2).
(blood). In the form shown in the figure, there are a total of six control magnets (6) on the left and right.
The shape of the magnetic pole faces extends radially from the center of the rotating shaft (1). is not limited to
(i). A rotor magnet (3) whose repulsive force with the control magnet (6) is strengthened by bringing the distance between the control parts (4) and (5) closer (the distance between the control magnet (6) and the rotor magnet (3)). tries to move. If the rotor magnet (3) is oriented as shown in FIG. 3, the direction of rotation is from top to bottom in the figure. clockwise.
(N). The speed and torque increase as the distance between the control magnet (6) and the rotor magnet (3) decreases.
By using this mechanism and moving the control units (4) and (5) closer to or away from the rotor (2), output control becomes possible.
(L). The left and right notation of the names of the control units (4) and (5) are those in the drawing, and the actual position changes depending on the installation direction of the present invention (the direction in which the rotating shaft (1) extends), and becomes up and down. It is also possible.

1 Rotating shaft 2 Rotor 3 Rotor magnet 4 Control part Right 5 Control part Left 6 Control magnet

Claims (3)

The surfaces (magnetic poles) facing the control units (4) and (5) are inclined, and the rotor magnets (3) arranged on the circumference around the rotation axis (1) are attached to both ends of the rotation axis (1). A motor powered by applying the magnetic force of the control magnet (6) repelling from the direction and using the moving force of the rotor magnet (3) as a rotational force. A control system for performing output control according to claim 1 by adjusting the distance between the control magnet (6) and the rotor magnet (3). Based on the structure of claim 1, the rotor (2) (rotor magnet ( 3) A transmission mechanism that shifts gears by switching ).

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