RU2130686C1 - Rotator - Google Patents

Abstract

FIELD: rotational drives. SUBSTANCE: rotator has stator whose permanent magnets are spring-loaded and loosely mounted with like poles outside. Rotor permanent magnets are installed on its external side with both poles facing stator magnets. Permanent magnets of ring-shaped rocker-flywheel are mounted with like poles inward facing like poles of stator; rocker-flywheel is arranged outside around stator. Interaction between stator, rotor, and rocker-flywheel magnets sets rotor in motion about its axis inside stator. Rocker-flywheel prevents development of forces interfering with rotor motion. EFFECT: reduced resistance to rotor motion. 2 dwg

Description

 The invention relates to mechanical engineering and can be used in other sectors of the economy.

 A device / 1 / is known which includes a stator, the permanent magnets of which are installed inside the same poles, a rotor, the permanent magnets of which are installed on its outer side by both poles, an axis and bearings.

 A disadvantage of the known device is insufficient power.

 The aim of the invention is to increase the power of the device by reducing the resistance of the rotor to rotation.

 This goal is achieved in that the rotator consists of a dual stator, the permanent magnets of which are spring-loaded and mounted movably outward by the same poles, a dual rotor, the permanent magnets of which are installed on its outer side by both poles towards the stator magnets, and an annular flywheel reel, whose permanent magnets are installed with the same poles inward towards the same poles of the stator and located on the outside around the stator.

 In FIG. 1 shows a rotator, a longitudinal section.

 In FIG. 2. the same side view.

 The rotator contains a double stator - 1, a double rotor 2, which is rigidly connected to the axis 8, a ring-shaped reel-flywheel 3, also rigidly connected to the axis 8, permanent magnets of the dual stator 4, permanent magnets of the rotor 5, permanent magnets of the reel-flywheel 6, springs permanent magnets 7, axis 86, bearings 9 and casing 10.

The rotator works as follows:
Permanent magnets installed in the rotor and stator with opposite poles are attracted to each other, as a result of which the rotor rotates at a certain angle. At the moment the rotor magnet enters the zone of action of the stator magnet, the flywheel rocker magnet will approach the stator magnet of the same name and push the latter into the stator body, as a result of which the spring 8 will be compressed and the opposite end of the stator magnet will go outside the stator and will attract the opposite magnet rotor. The rotor will rotate a certain angle. With a further rotation of the rotor, the flywheel rocker magnet passes the stator magnet and the latter, under the action of the spring 8, moves to the top of the stator and clears the rotor magnet. Then, the interaction of the following three permanent magnets (stator, flywheel and rotor / located around the circle in the direction of rotation / through one /), again the magnet of the flywheel-flywheel will push the stator magnet inside and again the stator and rotor magnets will interact, the latter will again turn to a certain angle, and then the stator magnet moves inside the stator, and so on, the cycle repeats with the following magnets.

 Thus, the rotor rotates continuously around its axis inside the stator.

 The principle of operation of both stators and rotors is similar.

 The poles of the magnets are shaded in black.

Sourse of information
1. RF patent N 2 0199016, H 02 N, 1994

Claims (1)

 A rotator consisting of a stator, permanent magnets of which are installed inside the same poles, of a rotor, permanent magnets of which are installed on its outer side by both poles, axles and bearings, characterized in that the permanent magnets of the stator are equipped with springs and are mounted movably, and around the outside the stator has a ring-shaped flywheel-beam with rigid magnets rigidly connected to the rotor axis with permanent magnets that are turned by the same poles of the same polarity towards the same-named poles of magnets the stator so that at the moment the rotor magnet enters the zone of action of the stator magnet, the flywheel rocker magnet will push it into the stator body, compressing the spring and pulling it out for attraction with the opposite pole of the rotor magnet.

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