SU526044A1 - Electric machine - Google Patents

Claims (2)

cars; in fig. 2 shows an embodiment of a short-circuited rotor winding. The electric machine contains stator discs 1, 2 core winding, excitation winding 3, rotor discs 4, short-circuited rotor winding 5, shaft 6, cryostat 7, superconducting screens 8. On the stator discs 1 made of electrically insulating material, for example fiberglass, there is winding 2 core, made as the core winding of an asynchronous frequency converter. An excitation winding 3 is located on the same disks. The windings 2 and 3 can be located on one or both sides of the disks 1. The electrical connections between the windings of the individual stator disks are made using jumpers. The disks 4 are fixed on the shaft 6 and are located between the disks 1 of the stator. The rotor discs 4 are the same as the stator discs 1. On the disks 4 are located the conductors of the short-circuited winding 5 of the rotor. The number of conductors of winding 5 per pair of excitation winding poles 3 must be at least three. These conductors change their position towards the pentru of disk 4 so that the direction of rotation of the magnetic field of the multiphase rotor system coincides with the direction of rotation of the rotor of the electrical maschine. FIG. Figure 2 shows the arrangement of the conductors of the rotor winding 5 in the case when four rotor conductors are placed on a pair of poles. All windings 2, 3 and 5 are made of pure metals or type II superconductors (Nt), S, etc.) and they are cooled to cryogenic temperatures, for example by pumping gaseous gels with a temperature of 5-15 ° K through internal the cryostat cavity 7. The cryostat 7 simultaneously serves as the housing of the electrical machine. For shielding magnetic fields, superconducting screens 8, made in the form of disks of a first-type superconductor or short-circuited superconducting rings, can be installed. When using an electric machine as a generator, a direct current is applied to the field winding 3. The magnetic flux created by these windings permeates across the disks 1 stator and 4 rotors. When the rotor rotates in the short-circuited winding 5, an electromotive force is induced and a current appears. Due to the change in the order of the rotor phases following the intersection of the conductors of the winding 5, the rotational speed of the magnetic field in the gap between the winding 2 core and the winding 5 is twice the rotation speed of the rotor, which leads to double frequency electromotive force in the winding 2 core. The absence of ferromagnetic parts in the core of the proposed mask, doubling the speed of rotation of the magnetic field leads to a decrease in the weight and dimensions of the electric machine. The use of the proposed machine is expedient as a synchronous generator or motor on stationary or mobile installations. 1. Electrical machine comprising a stator and a rotor, made in the form of a set of disks carrying windings, of which the field windings and the main ones are located on the stator disks, and on the rotor disks there are short-circuited multi-phase windings, the conductors of which are arranged with a change of the phase order This means that, in order to reduce weight and dimensions, the field windings and the main ones are located on the same stator disks, and the conductors of the rotor windings are arranged with a change in the order of the trace and the phase in the direction from the outside of the rotor disks to their center. 2. The machine according to claim 1, so that the windings are placed in an environment that provides deep cooling, for example, in a cryostat. Sources of information taken into account in the examination: 1.Patent UK, cl. Н 2 А, Н1К (Н02) No. 105О521, 1966. 2. German patent number 158347, cl. 21 d 26, 1904. 7 i / f 1 eight