RU2013104484A - ELECTROMAGNETIC MACHINE - Google Patents

Abstract

An electromagnetic machine made with a stator with electromagnets and a rotor with permanent magnets, characterized in that the stator has an even number of windings, half through one of which is parallelly connected equally to the battery, and the other half is connected in the same way to this battery, but through diodes that allow the current to move only towards the battery, current consumers are connected to the battery, the windings are on the protrusions inside the sleeve made of magnetoplast on the rotor having a shaft, this sleeve is made of magnetoplastics with radial magnetization and alternating magnetic poles, the number of which is equal to the number of windings, the first half of the windings is connected to the battery, for example, through the collector so that the current flows through the windings only from the moment each second rotor pole passes under them and until this pole begins to exit from under this winding, this device together with the battery is repeated two to ten times so that the rotor shafts are coaxially rigidly connected and rotated relative to each subsequent rotor in the plane of rotation of the rotor by an angle equal to the angle of the chord occupied by the protrusion of the magnetoplast of the rotor inside the winding, divided by the number of these rotors, the stators are all installed identically.

Claims (1)

An electromagnetic machine made with a stator with electromagnets and a rotor with permanent magnets, characterized in that the stator has an even number of windings, half through one of which is parallelly connected equally to the battery, and the other half is connected in the same way to this battery, but through diodes that allow the current to move only towards the battery, current consumers are connected to the battery, the windings are on the protrusions inside the sleeve made of magnetoplast on the rotor having a shaft, this sleeve is made of magnetoplastics with radial magnetization and alternating magnetic poles, the number of which is equal to the number of windings, the first half of the windings is connected to the battery, for example, through the collector so that the current flows through the windings only from the moment each second rotor pole passes under them and until this pole begins to exit from under this winding, this device together with the battery is repeated two to ten times so that the rotor shafts are coaxially rigidly connected and rotated relative to each subsequent rotor in the plane of rotation of the rotor by an angle equal to the angle of the chord occupied by the protrusion of the magnetoplast of the rotor inside the winding, divided by the number of these rotors, the stators are all installed identically.