SU1815751A1 - Two-core axial induction generator - Google Patents

Description

The invention relates to electric machines, namely, inductor-type generators and can be used in electrical converters.

The purpose of the invention is the increase in specific power. The expected effect of this is a reduction in the size and mass of the generator per unit of power it develops, especially with a slow-moving version.

In FIG. 1 shows a general view of the generator, a longitudinal section; in FIG. 2 - mutual arrangement of a permanent magnet and additional twisted magnetic cores: in fig. 3 - a fragment of the rotor.

The two-pack axial inductor generator is made integral, it contains two separate longitudinally-charged stator packages 1, 2 and a common longitudinally-charged rotor 3 for them. On each stator package there is a multiphase winding 4, 5, and between them, the excitation source. The excitation source is made in the form of an axially magnetized annular permanent magnet b. Between each end face of the annular magnet 6 and the stator packets 1 and 2 are placed additional twisted magnetic cores 7, 8. Additional twisted magnetic cores have radial cuts 9,

10.11, 12. The cuts on each additional magnetic circuit are made with a step equal to the double step of the stator winding located in mutually perpendicular planes. The longitudinal charge of the stator and rotor packages is reduced to the fact that each stator package and rotor are assembled from charged elements 13, 14, 15, each of which is lined longitudinally and separated from other elements by non-magnetic material 16, for example: aluminum, and air gaps 17 , 18.

The operation of the generator is as follows.

Under the action of the MDS of the ring magnet 6 through an additional twisted magnetic circuit 7, the charge element 13 of one package of the stator 1, the air gap 17, the charge element of the rotor 15, the second air gap 18. the charge element 14 of the second package 2 of the stator and the twisted magnetic circuit 8 excites magnetic flux (in Fig. 1 it is shown by a dashed line). When the rotor rotates, the air gaps between the elements of the stator and rotor packages change, and the magnetic resistances to the flows change. There is a modulation of the magnetic fluxes themselves, coupled to the stator windings 4, 5. EMF is induced in the windings. In this case, additional twisted magnetic cores 7, 8 align the magnetic potentials of the ends of the stator packets adjacent to them, which helps to increase the modulation of the excitation flux.

When the generator is loaded with current, the latter causes the MDS reaction and the corresponding flows. Under these conditions, reaction flows are forced to close either through a permanent magnet 6. or through radial cuts 9. 10, 11, 12 of additional twisted-magnetic cores 7, 8. Both the permanent magnet and the cuts have increased magnetic resistances. Therefore, the magnetic fluxes of the reaction are greatly attenuated, the inductive resistances of the stator windings decrease, and the load capacity increases. The specific power of the generator is increasing.

Claims (1)

Claim A two-pack axial inductor generator containing a longitudinally charged stator and rotor, a multiphase stator winding located on each packet, and an excitation source, characterized in that, in order to increase the specific power, the stator is made of two separate packets, the excitation source is placed between the packets the stator and is made in the form of an axially magnetized annular permanent magnet, between each end face of the annular magnet and the stator package an additional twisted split magnet a gadfly, and radial cuts made in the magnetic cores with a step equal to the double step of the stator winding are in mutually perpendicular planes. fig.Z