RU2107382C1 - Shaft turning gear for parts of machines and units - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: turning gear has rotor 2, stator 1, and bearing 3 supporting shaft of rotor 2 which carries flywheel 7. Stator 1 and rotor 2 accommodate permanent magnets 5. Rotor 2 turns about its axis due to interaction between magnetic fields of stator and rotor permanent magnets 5 and flywheel 7. EFFECT: improved design. 2 dwg

Description

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

 A device for rotating shafts and assemblies, including a rotor, a stator and bearings [1].

 A disadvantage of the known device is fire hazard, the need to supply electricity for power and injury risk.

 It is already known a device for rotating shafts, machine parts and assemblies, consisting of a stator, permanent magnets which are installed inside the same poles, and a rotor, permanent magnets which are installed on its outer side by both poles [2].

 A disadvantage of the known device is insufficient power.

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

 The goal is achieved in that the device for rotating shafts, machine parts and assemblies, consisting of a stator, permanent magnets which are installed inside the same poles, and a rotor, permanent magnets which are installed on the outside by both poles, is equipped with a flywheel that realizes its energy supply when passing through “dead zone”, and the permanent magnets of the rotor are covered by shielding plates so that they block the magnetic flux from the stator magnets when the opposite poles of the stator and rotor magnets are pulled together to a friend, and the end of the rotor magnet does not equal the pole of the stator magnet of the same name.

 In FIG. 1 shows a device, a longitudinal section; in FIG. 2 is the same side view.

 The device contains a stator 1, rotor 2, bearings 3. The ends of the rotor end with an axis 4, which is supported by bearings 3. Permanent magnets are placed in the stator and rotor 5. Permanent magnets of the rotor are covered with shielding plates 6. The flywheel is located on the axis 7. Permanent magnets the stator are fastened by a casing 8. The permanent magnets of the stator are installed inside the poles of the same name and form the same ring magnetic field inside the stator, and the permanent magnets of the rotor are installed by both poles on the outside of the rotor stator magnets.

 The device operates as follows.

 Permanent magnets installed in the rotor and stator, opposite poles are attracted to each other, as a result of which the rotor rotates around the axis by a certain angle, until the opposite end of the magnet 5 located in the rotor does not equal the magnet pole of the same name in the stator . At this moment, the plates located on the rotor completely block the magnetic flux from the stator magnets, and the flywheel realizes its energy supply when passing through the "dead" zone. With further rotation of the rotor, the opposite poles of the magnets of the rotor and stator interact again, and the rotor rotates again at a certain angle, the cycle repeats. As a result, the rotor rotates around its axis inside the stator.

 In this case, the magnets in the stator and in the rotor at any angle of rotation are located so that at any moment and at any angle of rotation one of the rotor magnets always works on attraction.

Claims (1)

 A device for rotating shafts, parts of machines and assemblies, consisting of a stator, permanent magnets which are installed inside the same poles, and a rotor, permanent magnets which are installed on its outer side by both poles, characterized in that it is equipped with a flywheel that realizes its energy supply during the transition through the "dead zone", and the permanent magnets of the rotor are blocked by shielding plates so that they block the magnetic flux from the stator magnets when the opposite poles of the stator and rotor magnets are pulled a friend, and the end of the rotor magnet does not equal the pole of the stator magnet of the same name.

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