RU2011112640A - METHOD FOR MANUFACTURING DC MOTOR - Google Patents

Abstract

 1. A method of manufacturing a DC motor from a magnetically coupled stator and rotor, characterized in that the working winding is carried out by winding a hollow cylindrical stator along its generatrix, and the magnetizing winding of the rotor is fixed motionless and coaxial to the rotor, and the working winding and magnetization winding are switched on in parallel or in series to a direct current source. ! 2. A method of manufacturing a DC motor from a magnetically coupled stator and rotor, characterized in that the working winding is performed by winding a hollow cylindrical stator along its generatrix, and the magnetizing winding of the rotor is fixed motionless and coaxial to the rotor, in addition, a second cylindrical rotor is introduced coaxially from the outside of the stator a stator magnetically coupled to the rotor magnetizing winding, the working winding and the magnetizing winding being connected in parallel or in series to a direct current source. ! 3. The DC motor according to claim 1, containing a magnetically coupled rotor with an axis of rotation and a stator made of ferromagnetic material, characterized in that the rotor is made in the form of a cylinder, contactlessly connected to a fixed magnetization coil, mounted coaxially with the rotor in the stator body, and the stator is made in the form of a hollow cylinder, one part of which is magnetically connected to one of the ends of the cylindrical rotor with a small gap, and the other forms together with the other end of the cylindrical rotor a cylindrical-annular working prom ducks, inside which is placed a stator working winding, one part of each coil which is located in said annular working cylindrically n

Claims (5)

1. A method of manufacturing a DC motor from a magnetically coupled stator and rotor, characterized in that the working winding is carried out by winding a hollow cylindrical stator along its generatrix, and the magnetizing winding of the rotor is fixed motionless and coaxial to the rotor, and the working winding and magnetization winding are switched on in parallel or in series to a direct current source. 2. A method of manufacturing a DC motor from a magnetically coupled stator and rotor, characterized in that the working winding is performed by winding a hollow cylindrical stator along its generatrix, and the magnetizing winding of the rotor is fixed motionless and coaxial to the rotor, in addition, a second cylindrical rotor is introduced coaxially from the outside of the stator a stator magnetically coupled to the rotor magnetizing winding, the working winding and the magnetizing winding being connected in parallel or in series to a direct current source. 3. The DC motor according to claim 1, containing a magnetically coupled rotor with an axis of rotation and a stator made of ferromagnetic material, characterized in that the rotor is made in the form of a cylinder, contactlessly connected to a fixed magnetization coil, mounted coaxially with the rotor in the stator body, and the stator is made in the form of a hollow cylinder, one part of which is magnetically connected to one of the ends of the cylindrical rotor with a small gap, and the other forms together with the other end of the cylindrical rotor a cylindrical-annular working prom ducks, inside which the working stator winding is placed, one part of each turn of which is placed in the specified cylindrical-annular working gap, and the other part of each of the turns of the working stator winding is passed through the holes in this part of the stator, and these holes are located equidistantly on some circle, and their axis of symmetry is parallel to the axis of rotation of the rotor, and the magnetizing coil and the working winding of the stator are connected in series or in parallel and connected to a constant current source. 4. The DC motor according to claim 2, comprising a magnetically coupled rotor with an axis of rotation and a stator made of ferromagnetic material, characterized in that the rotor is made in the form of a cylinder contactlessly connected to a fixed magnetization coil fixed coaxially to the rotor, and the stator is made in the form of a hollow cylinder, on which the working winding is placed along its generatrix, a second cylindrical rotor with an additional axis of rotation coaxial with the stator, magnetically connected with the magnetizing winding of the rotor is placed outside the stator moreover, the magnetization coil and the working winding of the stator are connected in series or in parallel and connected to a constant current source. 5. The engine according to claim 4, characterized in that the axis of rotation of the rotor and the second cylindrical rotor are equipped with bevel gears, which are engaged with the driven bevel gear located between them and the output axis of rotation, derived from the transmission housing.