JPS62166765A - Magneto motor - Google Patents

Abstract

PURPOSE:To form an efficient motor, by setting a rotor having two magnetic poles fixed firmly on a central shaft, between stators consisting of two fixed permanent magnets, and by moving non-magnetic units rotationally between the stators and the rotor. CONSTITUTION:Stators are formed with a pair of permanent magnets N1, S2, namely, two fixed ones. N3, S4 are magnetized on a pole piece rotating around a shaft 7. The magnets N1 and N3 are repulsed to each other, and the magnets S2 and S4 are repulsed to each other, and they are rotated as shown by arrow heads. Between a rotor and the stators, shield members 5, 6 consisting of a pair of non-magnetic units are arranged at the phase of 180 deg. and are rotated. By controlling a repulsion between magnetic piles N and N and a forward attraction between S and N, with the shields 5, 6, the rotor is continuously rotated. As a result, a strong rotational force can be generated.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a magnet motor using permanent magnets, and although attempts have been made to solve this type of problem in the past, they have not succeeded.

The purpose of the present invention is that if rotation can be obtained by using the attractive force and repulsive force of a permanent magnet, the energy supply is only required to first magnetize the magnet, and anyone can use it at a low cost. It is.

Traditionally, permanent magnets have an N pole and an S pole.
, the south pole is also repelled. It is well known that the north and south poles attract each other. The present invention uses, for example, the attractive force and repulsive force of two poles, and supports the rotating magnetic pole 14 and the output shaft 7 within the fixed magnetic pole 12 with the metal of both the fixed magnetic poles 011 and 8 so that they can rotate freely. Fixed to. A gap is provided between the fixed magnetic pole 1.2 and the rotating magnetic pole 14 so that they can rotate, and a shielding material 5.6 of a plate-shaped diamagnetic material, such as niobium titanate, is used.
are driven from the output shaft 7 at the same timing by a cam, crank, etc. (not shown). By intermittently controlling the lines of magnetic force between the fixed magnetic pole 1.2 and the rotating magnetic pole 34 with the shield material 56, rotational torque can be obtained smoothly and continuously. Next, I will explain about the attached drawings. Figure 1 shows the rotating magnetic pole N pole 3 inside the fixed magnetic pole N pole 1 and S pole 2.
This is the maximum torque state where the and S pole 4 are now repelling each other and rotating in the direction of the arrow. Furthermore, the rotating magnetic poles N pole 3 and S pole 4 are 2
While proceeding to the figure, it rotates as shown in Figure 3, the north pole 1 and the south pole 4 are attracted, the south pole 2 and the north pole 3 are attracted to the maximum, and it rotates 180 degrees from the figure 1. It is well known that it rotates up to this point. The solution of the present invention is that N pole 1 and S pole 4 in Figure 3 attract each other and S pole 2
If the rotating torque of 180y73 becomes stationary because of the strong attraction between N and N poles 3, rotation cannot continue. Since it is not possible to change the direction of current flow like the commutator of a plan motor, a shield material 56 is moved between the fixed magnetic pole 1.2 and the rotating magnetic pole 14 as shown in Figure 3 to unwind the attractive force between the two poles. By using the rotational torque from the output shaft 7 due to the inertia of the rotating magnetic pole 14, a cam or crank (not shown) can be used to adjust the timing between the N, S pole 12 and the S, N pole 14. When inserted between the gaps of , the magnetic lines of force attracted to each other between N, S pole I4 and S, N pole 23 are soldered, and the rotating magnetic pole '3.4 becomes static +1.
The shield material 56 swings around 90 degrees from FIG. 4 to FIG. 1 due to inertia without any movement. N, N pole 13 and S, S in Figure 1
When the pole 24 reaches its maximum repulsive force at 1111, the repulsive force is instantaneously generated when the lead member 56 is in a curled state, that is, to prevent reverse rotation and to prevent the rotational torque from becoming negative. Further, the object of the present invention can be achieved by proceeding to the IC2 diagram and generating torque from the output shaft 7 which continues to rotate as shown in the diagram. Next, in order to obtain the maximum efficiency of the present invention, the thickness of the shield material 56 in the gap between the fixed magnetic pole I2 and the rotating magnetic pole 3.4 is made small, and the thickness is determined by the strength and surface area of the magnetic pole. The shielding material 5.6 is preferably a diamagnetic niobium titanium material that is deposited on a lightweight material such as aluminum. Fixed magnetic pole again! 2 and rotating magnetic pole 14
It is also conceivable that a plurality of them could be combined and deployed on a flat surface to be applied as a linear magnet motor. In order to simplify the explanation, the present invention uses two fixed single-rotation magnetic poles, but if a plurality of them are arranged in parallel, it can also be realized as a powerful 81-stone motor.

In the attached drawings, the first, second, third, and fourth diagrams are explanatory diagrams of the operation of the present magnet motor.

FIG. 5 is a sectional view of FIG. 3.

1: Fixed magnetic pole N 2: Fixed magnetic pole S 3: Rotating magnetic pole N 4: Rotating magnetic pole S 5: Shield material 6:/-rudo material 7: Output force axis 8: Both sides of fixed magnetic pole Child threat, genius

Claims (1)

[Claims] A plurality of fixed permanent magnets 1 and 2 and a plurality of rotating permanent magnets 3 and 4 each having an output shaft 7 therein are provided to rotate 180 degrees using attractive force and repulsive force. A magnet motor characterized in that it can be rotated by shielding it with a diamagnetic material 5, 6 to shield the magnetic lines of attraction and repulsion. 1) Output shaft 7 of the permanent magnet motor according to claim 1
A magnet motor that swings and moves the shielding materials 5 and 6 at any desired time using the torque of the magnetic motor. 2) The shielding materials 5 and 6 of the permanent magnet motor according to claim 1 are made of a lightweight aluminum material or the like, and the surface of the diamagnetic material such as niobium titanium is vapor-deposited to reduce the gap between the magnets. 3) A magnet motor that can utilize the magnetic poles of the permanent magnet motor according to claim 1 by developing the fixed magnetic poles 1 and 2 and the rotating magnetic poles 3 and 4 in opposite directions or on a plane.