JPH01148085A - Natural rotary machine - Google Patents

Abstract

PURPOSE:To allow a natural rotary machine to naturally rotate only by the magnetic force of a magnet by preparing a mechanism of the magnet having both positive and negative polarities for acting as a physical material. CONSTITUTION:N- and S-poles of a magnet 2 are aligned at an equal interval along the edge a plane disc 1 on the disc 1 in the same direction. A gear 4 is rotated at a shaft 3 as a center. A side disc 6 is moved cooperatively with gearing relatively rightward and leftward at the disc 1 as a center, and simultaneously rotated in the same direction. Further, side plates 6 are provided at the holding rod 7 of a magnet 8 at an equal interval perpendicularly, i.e., laterally with respect to the shaft 3 along the inside of gearing. The magnet 8 is provided at the end of the rod 7. The disc 1 is naturally rotated by the repelling and attracting forces of the magnets 2, 8.

Description

[Detailed Description of the Invention] The purpose of this invention is to create a mechanism that allows a magnet, which has both polar poles, to move as an object, so that it can rotate naturally, just as matter continues to move in a yin-yang motion centered on the nucleus of an atom. did. In this sense, conventional power machines had to be supplied with other energy, but the present invention is a rotating machine that can rotate naturally only by the magnetic force of the magnets.

Regarding the structure and general function, the plane disk (1) has N and S poles of magnets (2) arranged in the same direction along the edge of the disk at equal intervals, and a gear that rotates around an axis (3). (4). The side plates (6) are gear-cuttingly interlocked with each other relative to the left and right sides of the plane plate (1), and rotate at the same time. Furthermore, the side plate (6) has a magnetic holding bar (7) along the inside of the gear cutter.
are provided at equal intervals in a direction perpendicular to the axis (3), that is, horizontally. At the tip of the holding rod (7) is a magnet (8). For example, if the rear pole of magnet (2) is S, arrange two magnets like SN and NS, and attach one magnet with both poles the same. Attach something like a minute magnet.

The number of magnets on the side plate and the flat plate are the same, but a distance of about 2 mm is maintained so that the magnets (2) and magnets (8) do not come into contact when both plates rotate and the magnets (2) and (8) intersect. When the plane plate rotates, the side plate also rotates at the same time, and the magnetic force that occurs when both magnets intersect without contact is the same as the magnets on the side plate because both poles are the same. In the direction of movement of the flat plate, even if it is pushed back by repulsion against comrades of the same polarity, it will not be pushed back. Also, when it comes to people with different polarities, even if you try to pull them, they won't pull you back. As a result, dual forces of repulsion and tension act only on the magnet of the flat plate in the direction of movement of the flat plate. This force becomes the driving force that produces natural rotation.

Since this drawing shows a case in which continuous intersections are possible, the number of magnets on each board was 16.

Consequently, the intersection is performed 64 times during one rotation of the plane plate. That is, the simultaneous crossing is 4 times, 2 times on the left side and 2 times on the right side of the side board, and since there are 16 magnets on each board, 4 times x 16 = 64 times. In other words, continuous crossings occur constantly. Furthermore, the third
As shown in the figure, the holding rods and magnets on both side plates are aligned along the flat plate. In this state, the magnets on the right side of the side panel are just before starting to cross, but once the intersection begins, the magnet (8) on the side panel repels the S pole of the magnet (2) on the flat panel, and the crossing ends. The double pulling force of the opposite poles acts on the magnet (2) from nearby, causing the flat plate to rotate. On the other hand, the magnet (8) on the left side of the side panel has already crossed due to the same force relationship as the one on the right, and is now on a straight line. This situation is unprecedented, and occurs simultaneously on the opposite rear side, resulting in natural rotation.

Next, if the mechanism of this magnet is reversed from the beginning, that is, if magnet (2) has the same S pole as both poles, then magnet (8) will act as a single magnet and will be attached to the flat plate (1). If the side in the direction of rotation is the S pole and the rear pole is arranged in the N direction, natural rotation will occur according to the same theory.

Therefore, the opposite mechanism is also within the scope of the claims.

Regarding the effects of the present invention, there is no contact between the magnets even when they cross each other, so there is little friction loss, and the stronger the magnets, the stronger the rotational force, so it can be widely used in industry and general social life. This theory of natural rotation is just a clue to applying the basic natural activity of matter to objects and bringing out the power of nature, but it has great potential for further development. I guess.

[Brief explanation of the drawing]

This drawing excludes accessories. Arrow L indicates the retrograde direction. FIG. 1 is a side view of the present invention. FIG. 2 is a cross-sectional plan view of the magnets of the flat plate and side plate of the present invention. FIG. 3 is an explanatory diagram of the crossing situation of the magnets of the present invention. Symbol (1) is a flat plate, Mi2) is a flat plate magnet, (3) is a rotating shaft, (4) is a flat plate gear, (5) is a bearing, (6)
is the side plate, (7) is the holder, and (8) is the magnet on the side plate.

Claims (1)

[Claims] As shown in the drawing, the magnets (2) of the plane plate (1) are arranged with the front and rear poles aligned in the same direction with respect to the rotation direction, and the two side plates (6) The magnet (8) has both poles the same as the rear pole in the rotation direction of the magnet (2). For example, if the magnet (2) is arranged in a front N back S arrangement with respect to the rotation direction, the magnet (8) Both poles are S poles. Therefore, the magnet (8
) may be used as one magnet by arranging two magnets in opposite directions like S/N and N/N/S. Among the plates holding such magnets, the plane plate (1) rotates horizontally, but the two side plates (6) rotate at right angles and relative to the plane plate (1). A naturally rotating machine characterized by both magnets (8) crossing magnet (2).