JP2000023450A - Electric motor in which magnet is rotated by another power - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a load from affecting the power which rotates a magnet, although conventionally, rotating a magnet by another power in order to rotate a rotor together with its attractive force required the same force with the load, resulted in no practical use. SOLUTION: Because magnetic force is different between its attracting direction and horizontal direction, magnets 2 of the same magnetic pole are sandwiched above and below a stator 1. Magnetic paths are formed that the lines of magnetic force emitted from the N pole of the magnets 2 pass through the stator 1 and a rotor 4 and enter the S pole of the magnets 2. Rotation is made to continue, by making an attractive force work between the stator 1 and rotor 4, and by shifting the rotor 4 to the neighboring stator 1 one by one.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention utilizes a variety of magnets and uses an infinitely divided magnetic body as a stator, and moves or rotates the magnets on the stator using other power. An output corresponding to the suction force is obtained.

[0002]

2. Description of the Related Art Conventionally, assuming that a magnet is rotated by another power and a rotor is rotated by an attractive force of the magnet, the force for rotating the magnet needs to be equal to or greater than the load connected to the output shaft. So, it was not practical as an electric motor.

[0003]

SUMMARY OF THE INVENTION In the present invention, it was conceived that the force for rotating the magnet was smaller than the load, and it could be possible.

[0004]

As a result, in general, magnets are attracted in the direction in which they are attracted. If this is made vertical, a strong attractive force acts, but if there is a gap and there is no friction, the attractive force is applied in the horizontal direction. And found that it could be moved with much less force than.

[0005]

Referring now to the drawings, a magnet (2) having the same polarity, that is, N for N, is sandwiched above and below the stator (1), and a gap is provided between the stator (1) and the stator (1). It can be rotated by an object (6) with a magnet (2) attached. Rotor (4) is output shaft (5)
And an object (6) to which a magnet (2) is attached is attached to an output shaft (5) via a bearing (3).
Separately from the output shaft (5), the influence of the output shaft (5) is almost eliminated. The upper and lower sides of the object (6) to which the magnet (2) is attached can be almost simultaneously driven by another power. So, for example, if there is no rotor (4), the lines of magnetic force coming out of the magnet (2) have the same polarity on the stator (1) on the upper side and the lower side.
When the rotor (4), which is a magnetic material, repels each other and hardly passes, when the rotor (4), which is a magnetic material, is inserted, the magnetic lines of force coming out of the N poles of the upper and lower magnets (2) pass through the stator (1) through the rotor (4 ), Reaches the S pole side of the magnet (2), a magnetic path is formed, and an attractive force acts between the stator (1) and the rotor (4). Accordingly, when the magnet (2) is sequentially moved to the adjacent stator (1), the rotor (4) continues to rotate while being attracted by the magnet (2). Its output is proportional to suction, except for normal losses. A generator or other load device is connected to the output shaft (5) for use. When an electromagnet is used, the number of turns of the coil is increased, and a strong attraction force is obtained with a small current. Apply current to this,
If the current is turned on / off or the current direction is switched at a high speed, the time constant is slow and a necessary current cannot be supplied. But
With this method, it is not necessary to switch the current on or off at high speed, or to switch the direction of the current, so that a magnet having a strong attractive force can be produced.

[0006]

Since the present invention has the above-described structure, if the force required to rotate the magnet, which is an input, its output is almost determined by the attraction force of the magnet, and since input <output, A highly efficient electric motor could be made. This leads to energy savings.

[Brief description of the drawings]

FIG. 1 is a sectional view of the present invention.

FIG. 2 is a perspective view of a stator part.

[Explanation of symbols]

 (1) Magnetic body used as a stator (2) N and S co-magnets (3) Bearing (4) Rotor and magnetic body (5) Output shaft (6) Attach a magnet, (7) supports the stator, non-magnetic material (8) is the gap between the stators (9) is the outer frame

Claims (1)

[Claims] 1. A method in which the same poles of a magnet (2) are sandwiched between innumerably divided magnetic bodies (1) from both sides and used as a stator.