| 摘要 |
<p>The proposed method and device for rotational motion conversion into straight-line motion of round-shaped solid bodies that are located within each other are characterized by the feature that the inner rotary axis of a rotation body (rotor) does not pass through the centre of an outer non-moving body - stator (casing). The eccentricity of the rotor, which is rotating along the curved path such as an ellipse for example, creates two diametrically opposite inertia forces. These forces are not equal. Their resulting force is directed along the bigger radius and by affecting the rotor-stator (casing) system, causes a straight-line motion of the system.Innovation of the invention: the rotating round-shaped body (rotor) goes into an electromagnetic coupling with the stator and thus causes a displacement (turn) of the rotor-stator (casing) system in relation to the initial position, and the coupling is created periodically in accordance with a set algorithm (program) that specifies the place of the coupling, the degree (force) of the coupling, and the duration of the coupling. The proposed method and device have a number of advantages compared to other methods and devices. The advantages are of technical nature (velocity of motion, manoeuvrability, ease of operation, and control) in addition to ecological and safety advantages. Apart from the aforementioned advantages, the device is also distinguishable by its versatility: the device is able to move in underwater, above-water, air, and cosmic spaces, as well as to move on the earth's surface. On the basis of the proposed electromagnetic mover, a universal device, a device for specific purposes and applications, as well as a device for various combinations of the aforementioned applications can be created. The disk-shaped design of the device allows its application both for a deep sub-aqueous motion and for interplanetary transportation.</p> |
