KR20100122046A - A power engine using the rotating circular plates to block the magnetism and the permanent magnets - Google Patents

Abstract

PURPOSE: A power engine using a rotating circular plate to block magnetism and a permanent magnet are provided to generate a lot of driving energy, since the same poles of the permanent magnets is used by repulsion. CONSTITUTION: A power engine using a rotating circular plate to block magnetism and a permanent magnet comprises a piston(100), a cylinder(200), and a magnetic force blocking plate(310). A permanent magnet(110) is installed on the piston. A fixed permanence magnet(210) for face to face repulsion is installed in the cylinder. The magnetic force blocking plate is installed in the rotating disc(300). The magnetic force blocking plate moves in and out between the fixed permanence magnets. A rotary shaft(330) of a rotating disc is connected to a crank(410) rotary shaft(400) through bevel gears(320,420).

Description

A Power Engine using the Rotating Circular Plates to Block the Magnetism and the Permanent Magnets}

The present invention relates to the field of permanent magnet engine power generation using permanent magnets.

The present invention relates to the technical field of permanent magnet engine power generation using permanent magnets, and the energy consumed when the magnetic shielding plate provided between the permanent magnets is reciprocated in and out of the conventional way of thinking by the repulsive force between the permanent magnets. It's a lot less than the energy you get, but it won't.

In the power engine using the magnetic block rotating disk and the permanent magnet of the present invention, by providing the magnetic disk to the rotating disk for absorbing and blocking the magnetic force of the permanent magnet to rotate the rotating disk in conjunction with the crank rotation shaft with a bevel gear As a result, the magnetic barrier plates are moved in and out between the permanent magnets in order to obtain power energy using repulsive force between the same poles between the permanent magnets.

In the present invention, it is to minimize the energy consumed when the magnetic shield plate is inserted and removed by using the rotational inertia force by the rotational motion instead of the reciprocating motion when the magnetic shielding plate provided between the permanent magnets. It is the main task.

In order to solve the above problems, by providing the magnetic shield plates to the rotating disk to rotate the rotating disk in conjunction with the crank rotation shaft with a bevel gear to let the magnetic shield plates in and out between the permanent magnets with rotational inertia.

In the power engine using the magnetically-blocking rotating disk and the permanent magnet of the present invention, by providing the magnetic disk to the rotating disk for absorbing and blocking the magnetic force of the permanent magnet, the rotating disk is rotated by interlocking with the crank shaft by the bevel gear. As the magnetic barrier plates come in and out between the permanent magnets, it is possible to develop a power engine that can obtain a lot of power energy by using the same repulsive force between the permanent magnets.

In the following, with reference to the accompanying drawings a preferred specific embodiment of a power engine using a magnetic block rotating disk and a permanent magnet according to the present invention will be described in detail.

In FIG. 1, first, for example, the permanent magnets 110 for face-to-face repulsion are provided to the pistons 100 on both the left and right sides of the two-cylinder magnet engine, and the permanent permanent magnets 210 for the face-to-face repulsion are both left and right. To the cylinders 200. Then, the repulsive repulsive force between the permanent magnets 110 and 210 is blocked and released to release the magnetic force for the face-to-face outbreak permanent magnets 110 provided to the pistons 100 to obtain kinetic energy. The blocking plate 310 is provided with one (1) rotating disk 300, including a synthetic magnetic shield plate synthesized with a ferromagnetic material, a thin permanent magnet, a semi-magnetic material, etc., the rotating disk 300 is the permanent magnets ( The magnetic shield plates 310 may rotate in and out of the permanent magnets 110 and 210 and may move in and out between the permanent magnets 110 and 210. In addition, the rotating shaft 330 of the rotating disc 300 is interlocked with the crank 410 rotating shaft 400 through the bevel gears 320 and 420 to form a power engine for a generator or a power machine. Here, it is naturally desirable to further provide a flywheel 500 and starter and auxiliary power electric motors 600. Connecting two or more two-cylinder magnet engines provided with one (1) rotating disc 300 will be able to construct a four-cylinder or more multi-cylinder power engine.

In FIG. 2 (section AA of FIG. 1), in order to balance the total rotational mass of the rotating disc 300 provided with the magnetic shield plates 310 of FIG. 1, three (3) magnetic shield plates 310, namely, The magnetic shield plate 310 -L on the left side, the magnetic shield plate 310 -R on the right side, and the magnetic shield plate 310 -U on the upper side are provided in one (1) rotation disc 300. It is preferable to divide and arrange | position evenly at the same angle (for example, 60 degree). Here, more preferably, when the fixed permanent magnet 210-L on the left side is pulled by the attraction force so that the magnetic shield plate 310-L on the left side does not escape, on the contrary, the fixed permanent magnet 210-R on the right side. ) Pulls the magnetic shield plate 310 -R on the right side to the attraction force. Then, when the rotating disc 300 is rotated further (for example, 60 degrees) so that the fixed permanent magnet 210-R on the right side pulls the magnetic force blocking plate 310-R on the right side with the attraction force, on the contrary, The fixed permanent magnet 210-L on the left side attracts the magnetic shield plate 310-U on the upper side with the attraction force. Then, when the rotating disc 300 is rotated further (for example, 60 degrees), the fixed permanent magnet 210-L on the left side pulls the magnetic force blocking plate 310-U with the attraction force so that the upper side is reversed. The fixed permanent magnet 210 -R on the right side attracts the magnetic shield plate 310 -L on the left side to the attraction force. Also preferably, the rotating disk 300 with the balance of the rotating mass is also responsible for the role of another flywheel separate from the flywheel 500 provided on the crank 410 rotating shaft 400 of the magnet engine of FIG. 1. You can do it. In the case of a two-cylinder magnet engine as shown in FIGS. 1 and 2, the balance of the total rotational mass of the rotating disc 300 provided with the magnetic shield plate 310 and the fixed permanent magnets 210-L and 210. In fact, the rotational disc 300 in the present situation of FIGS. 1 and 2 is not considered if -R) does not take into account the problems of pulling the magnetic shield plates 310-L, 310-R, 310-U with attraction force. It is sufficient to provide only the magnetic shield plate 310-L on the left side.

In FIG. 3 (section AA of FIG. 1), when the fixed permanent magnets 210-L and 210-R are integrated into one circular (coin-shaped, cylindrical, etc.) fixed permanent magnet 210, the fixed permanent magnet 210 Between the 210 and the magnetic shield plates 310-L, 310-R, 310-U, the rotational resistance does not occur, the permanent magnet (110-L, 110-R) for the face-to-face outbreak provided to the piston And the rotational resistance may be reduced only between the magnetic shield plates 310-L, 310-R, and 310-U. In this case, only two of the magnetic shield plates 310-L, 310-R, and 310 -U may be provided, but may be provided symmetrically about the rotation shaft 330 of the rotation disc 300.

In the above description, the technical idea of a power engine using a magnetically-blocking rotating disk and a permanent magnet of the present invention has been described together with the accompanying drawings, but this is by way of example to illustrate the simplest and preferred embodiment of the present invention. no.

1 is a plan view showing an embodiment of a power engine using a magnetic block rotating disk and a permanent magnet according to the present invention.

2 is a cross-sectional view showing a magnetic interference rotating disk.

3 is a cross-sectional view for explaining a circular permanent magnet.

Explanation of symbols on the main parts of the drawings

100: piston

110: permanent magnet for the face-to-face outbreak provided on the piston

200: cylinder

210: permanent magnet for the face-to-face outbreak provided in the cylinder

300: rotating disc

310: magnetic shield plate

320: bevel gear provided on the rotating shaft of the rotating disk

330: rotation axis of the rotating disc

400: axis of rotation of the engine

410: crank

420: Bevel gear provided on the rotating shaft of the engine

500: flywheel

600: Electric motor for starter and auxiliary power

Claims (3)

It provides a permanent magnet 110 for the face-to-face repulsion to the piston 100 of the magnet engine, and provides a permanent permanent magnet 210 for the face-to-face repulsion to the cylinder 200, Blocking the repulsive repulsive force between the face-to-face permanent magnets (110 and 210) to release and release the magnetic force to allow the face-to-face-based permanent magnet (110) provided to the piston 100 to obtain the kinetic energy Provide the plate 310 (including a synthetic magnetic shield plate synthesized with a ferromagnetic material, a thin plate permanent magnet, a diamagnetic material, etc.) to the rotating disc 300, The rotating disc 300 is rotated so as not to contact the permanent magnets (110, 210) for the face-to-face outbreak between the permanent magnets (110, 210) between the face-to-face outbreak permanently for the magnetic shield plate (310) Provide in and out between the magnets (110, 210), The rotating shaft 330 of the rotary disk 300 is a magnetic block using a rotating disk and a permanent magnet, characterized in that the power engine can be configured by interlocking with the crank 410 rotating shaft 400 through the bevel gears (320,420) Power engine. The method of claim 1, Providing permanent magnets 110 for face-to-face repulsion to the pistons 100 on both the left and right sides of the two-cylinder magnet engine, and providing permanent permanent magnets 210 for the face-to-face repulsion to both the cylinders 200 on the left and right sides. and, The repulsive repulsive force between the face-to-face permanent magnets 110 and 210 is blocked and released so that the face-to-face permanent magnets 110 provided to the pistons 100 can obtain kinetic energy. Providing the magnetic shield plate 310 to one (1) of the rotary disk 300, in order to balance the overall rotational mass of the rotary disk 300 provided with the magnetic shield plates 310, 3) the magnetic shield plates 310 are evenly spaced at the same angle, The rotary disk 300 is well balanced the rotational mass can also play the role of a flywheel, It is possible to minimize the rotational resistance of the rotating disc 300 due to the attraction between the surface-to-surface rebound fixed permanent magnets 210 and the magnetic shield plate 310 provided on both the left and right cylinders 200 A power engine using magnetically-disturbed rotating discs and permanent magnets. The method of claim 1, Magnetic shielding, characterized in that the left and right face-to-face permanent magnets 210-L, 210-R provided in the cylinder can be integrated into one circular (coin-type, cylindrical, etc.) fixed permanent magnet 210 Power engine using rotating discs and permanent magnets.

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