SU146852A1 - Not vopolyasna synchronous machine - Google Patents

Description

In non-pole-synchronous electromagnetic excitation machines used at high values of the inductor peripheral speed, the rotating excitation winding has a relatively high mechanical strength.

In autonomous synchronous machines with output voltage regulation, reliable self-excitation should be provided. The use of sections of a magnetic circuit with a high coercive force for this leads to a relatively wide hysteresis loop of the idling characteristic and a large value of the power of the excitation winding, which worsens the conditions for stabilizing the output voltage.

In order to eliminate this drawback and ensure reliable self-excitation with reduced weight and dimensions of the maschie, large inductor (poles) of the inductor are proposed to be made with axial orifices and to place in them prismatic permanent magnets whose flows are closed along magnetic shunts between these holes and adjacent grooves covered by the field winding.

By varying the magnitude of the current in the latter, the magnitude of the magnetic flux in the magnetic shunts is controlled.

Improving the shape of the output voltage curve of such a machine is achieved with the help of wedges made of soft magnetic steel, covering the grooves adjacent to the large teeth (poles).

In the drawing, schematically depicting the proposed non-pole synchronous machine, the following symbols are used: / -stator (measles), 2-steel inductor, 5-excitation winding, 4-permanent magnet and 5 - wedge made of mild steel or non-magnetic material.

A permanent magnet 4 having a prismatic shape is disposed in the rectangular axial notch of the large tooth (pole)

№ 146852- 2 steel 2 inductor. The excitation winding 3 is located in the slots of the inductor, covering the permanent magnets and the large teeth of the rotor. The permanent magnets produce a flux of excitation in the machine bore and a flux of scattering that is closed in magnetic shunts (in the lateral faces of the large tooth of the inductor).

When a direct current is passed through the field winding, the latter creates a stream of electromagnetic excitation, coinciding in direction with the tray of the permanent magnet in the bore and directed oppositely to the flow of the permanent magnets in the magnetic shunts.

The flow in the gap (output voltage) is controlled by adjusting the flow of scattered permanent magnets in the magnetic shunts.

The inductor steel may be laminated or solid. Massive rotors are used at very large values of the peripheral speed (as the turbogenerator rotor).

In non-pole-synchronous machines of increased frequency in a massive inductor, significant additional power losses may occur, caused by higher harmonic fields of the inductor. To improve the spatial distribution curve of the LOL inductor, a wedge of 5 soft magnetic steel can be used, covering the grooves directly adjacent to the large teeth of the rotor. These - CLINUs increase the pole arc of the inductor.

The advantages of the proposed non-pole-mounted synchronous machine of shifted excitation compared with similar machines of electromagnetic excitation are, in addition to ensuring reliable self-excitation and reducing weight and size, the ability to directly control the output voltage when excited by constant magnets and the implementation of magnetization and demagnetization in the assembled machine without special magnetization devices.

Subject invention

Claims (2)

1. A non-pole synchronous machine, characterized in that, in order to ensure reliable self-excitation, as well as to reduce weight and dimensions, the large teeth (poles) of the inductor are made with axial holes and in the latter prismatic permanent magnets are placed, the flows of which are scattered they are closed by magnetic shunts-gaps between the said holes and adjacent grooves occupied by the excitation winding, by changing the current in which the magnitude of the magnetic flux in the magnetic shunts is regulated. 2. A synchronous machine according to claim 1, characterized in that, in order to improve the shape of the output voltage curve of the maschine, adjacent to. the large teeth (poles) of the grooves are closed with wedges of soft-mild steel to increase the pole arc of the inductor.