SU1660108A1 - Synchronous reaction motor - Google Patents

Description

The invention relates to electric machines. The aim of the invention is to improve energy performance. Synchronous reactive electric motor contains a stator 1 with a t-phase winding 3 and a rotor 4. On a non-magnetic sleeve 5 of the rotor 4, elements 6 are installed in the form of rolls of tape magnetic material, and coils 7 are magnetically isolated by layers 8 of non-magnetic material. Tangentially oriented sections of the elements 6 are located outside the active length of the machine. The axis of turns 7 is oriented radially. This allows you to take away. chit electromagnetic moment by increasing the ratio of inductive resistances on the longitudinal and transverse axes. 5 il.

Φζ / g. one

16601

1660108

The invention relates to electric machines, namely to synchronous reactive electric motors of cylindrical, face and taper designs, and can be used both in power electric drives and in various automation systems.

The purpose of the invention is the improvement of energy performance.

Figure 1 shows a synchronous jet motor, a longitudinal section; figure 2 - section aa in figure 1; on fig.Z - a rotor, cross section; figure 4 - the pole of the rotor, made of steel trapezoidal profile; figure 5 is the same, the layers of steel are placed telescopically.

Synchronous reactive electric motor consists of a stator 1 with a package of magnetic circuit 2 and a t-phase winding 3 and an polar pole rotor 4, On the hub5 of the rotor 4 made of non-magnetic material, elements 6 are installed in the form of rolls of tape magnetic material, and coils 7 of coil steel are magnetically insulated from each other by layers 8 of non-magnetic material, and tangentially oriented portions of elements 6 are placed outside the active length of the machine. The axis of turns 7 is oriented radially.

The elements 6 of the rotor 4 can be performed, for example, in the form of rolls with a telescopic placement of the coils 7 (figure 5) or in the form of rolls of their electrical steel of trapezoidal section.

The motor works as follows.

The winding 2 of the stator 1, fed by a t-phase alternating voltage, creates a magnetic field running at a synchronous speed in the gap of the machine. Due to the magnetic \ asymmetry of the rotor 4, an electromagnet ¹ nit moment arises, causing it to rotate. The electromagnetic moment and the energy indices of a synchronous reactive electric motor are determined by the ratio of inductive resistances along the longitudinal and

transverse axes. In the proposed engine

while maintaining inductive resistance

along the longitudinal axis at the level of the prototype reduced inductive resistance along the transverse axis.

When the rotor 4 elements 6 are made from one roll of electrical steel strip, the longitudinal magnetic flux naturally closes through tangentially oriented portions of the elements 6 placed outside the machine’s active length to reduce the transverse magnetic flux conductivity and use the entire length of the stator 1 to create electromagnetic torque. The transverse magnetic flux on its way encounters a larger magnetic resistance in comparison with the prototype in the form of sections 8 of a material having a magnetic permeability close to that of air and air gaps. The consequence of this is to obtain a higher ratio in comparison with the prototype of the ratio of inductive resistances along the longitudinal and transverse axes and, as a result, a greater electromagnetic moment and higher energy indices of the electric motor.

Claims (1)

Claim A synchronous reactive electric motor containing a stator in the form of a magnetic package with a t-phase winding and a pole-polar rotor, the poles of which are made of tape magnetic material and placed on a non-magnetic sleeve, which are installed on the rotor sleeve of non-magnetic material elements of the magnetic circuit, made in the form of rolls of magnetically insulated turns of tape magnetic material, whose axes are oriented radially, and tangentially oriented ated areas coils placed outside the stator package. 1660108 Aa FIG. 3 1660108