SU1035728A1 - Salient pole electric machine rotor - Google Patents

Abstract

1. ROTOR OF AN APPROPRIATE ELECTRICAL MACHINE containing poles with tips, with longitudinal excitation coils and control transverse winding laid in axial grooves of tips of poles, and a fan with a hub, so that, in order to increase reliability, frontal fans The parts of the control wires of the transverse winding are located in the space between the end walls of the poles and the internal surfaces of the longitudinal excitation coils and are fixed on the end wall of the pole, and on the edges of the pole tips opposite the axial grooves are radial holes through which the said frontal portions of the control transverse windings pass. 2. The rotor according to claim 1, I distinguish (L i and the fact that the ends of the conductors controlling the transverse winding are fixed on the surface of the fan hub.

Description

The invention relates to electrical engineering and can be used, in particular, in synchronous compensators to ensure their electromechanical stability when operating in parallel with the network.

A rotor of a pole-type electric machine is known, comprising poles with tips, longitudinal excitation coils and a transverse damping winding in the form of rods placed in the grooves of pole pieces and closed at the ends of the poles by tires. By opening in the middle part of one of the tires and powering the said winding from an adjustable voltage source, a control transverse winding lj is formed.

However, due to the low electrical resistance of such a winding and the high current, it is not possible to select a suitable source for supplying the winding. I,.

Closest to the proposed rotor is a pole-type electric machine, containing poles with tips, longitudinal excitation coils and a control transverse winding laid in the axial grooves of the tips of the poles, and a fan with a hub 2.

The coils of the longitudinal field winding, worn on the core of the pole, create the main field of excitation along the longitudinal axis.

The rods laid into the grooves of the pole tips are connected in the frontal parts between the adjacent poles in such a manner that a transverse winding (of a wave or loop type) is created, the magnetic axis of which is shifted relative to the magnetic axis of the main field of excitation by 90 el.

The disadvantages of this technical solution include the complexity of the design of the frontal parts of the crossover and the unreliability of securing them from the action of centrifugal forces.

The aim of the invention is to increase reliability.

This goal is achieved by the fact that in the rotor of a pole-mounted electric machine containing poles with, Tips, with longitudinal excitation coils and controlling transverse winding placed in the axial grooves of the pole tips, and a torch with a hub, the frontal parts of the control wires the transverse windings are located in the space between the end walls of the poles and the inner surfaces of the longitudinal excitation coils and are fixed to the end wall of the pole, and on the edges of the pole tips against

The axial grooves have radial holes through which the said frontal portions of the control transverse windings pass.

The ends of the control transverse windings are fixed to the surface of the fan hub.

FIG. 1 shows a rotor of a pole-type electric machine, an end view, FIG. 2 shows section A-A in FIG. 1, in FIG. 3 - view B of FIG. 2

On the basis of the rotor 1, the poles 2 are fastened with T-shaped tails 3. On the tips 4 of the poles 2 axial grooves 5 are made on the side of their cylindrical surfaces. On the end portions of the tips 4 of each pole against the front sides of the 7 pole cores through axial grooves 5 through holes 8 are made.

The control transverse winding rods 9 are laid in axial grooves 5 so that their frontal parts 10 pass through the openings 8 and the pads 11 are fixed on the end sides 7 of the cores and tails 3. In the axial grooves 5. The rods 9 are fixed with wedges 12, and gaskets 13 are installed in the through holes 8. After installation, the coils of the longitudinal field winding 14 k of the front cross section 10 of the control transverse winding are folded over the poles and led out of the coil of the longitudinal excitation winding 14.

The frontal parts 10 of the control transverse winding rods 9 are additionally secured between the core and the excitation coil 14 by means of spacers and spacers (not shown).

After the poles 2 and the hub of the fan 15 are mounted on the core of the rotor 1, the ends of the frontal winding portions 10 are located in the immediate vicinity of the cylindrical surface of the fan 15 hub, at the opposite end of which the fan blades 16 are mounted. The hubs of the fan 15 are fastened by centrifugal forces during rotation of the rotor, and their ends are connected by soldering to the ends of 18 conductors of the transverse winding rods. The soldering is carried out in such a way that the conductors of the rods 9 are connected in series and the same direction of the currents in all the conductors of the rods 9 of each poyayus, and at the adjacent poles the direction of the currents is reversed. The damping short-circuiting segments 19 are fastened in the usual way.

The current flowing in the conductors of the control transverse winding creates a magnetic field, the axis of which passes between adjacent poles, i.e. it turns out to be shifted relative to the axis of the main working field of excitation by 90 el. hail.

With a proper change of the excitation current in the control transverse winding, carried out by an automatic regulator, the rotor is electromechanically stable in the modes of consumption of reactive power by the compensator (including emergency modes.).

When using the proposed rotor device with a control transverse winding, its mounting is greatly simplified, there is no need to use retaining segments and strips attached by straps. At the same time, proper fastening of the frontal parts and transverse winding connecting busbars is provided, which contributes to the reliability of the machine as a whole.

8a / b

Claims (2)

1. ROTOR OF A CIRCULAR ELECTRIC MACHINE, containing poles with ferrules and a control transverse winding laid in the axial grooves of the pole tips, and a fan with a hub, characterized in that, in order to increase reliability, the frontal parts of the conductors of the control transverse winding are located in the space 'between the end walls of the poles and the inner surfaces of the coils of longitudinal excitation and are fixed on the end wall of the pole, and on the edges of the tips of the poles against the axial grooves of radial holes are laid through which the aforementioned frontal parts of the conductors are passed 2. SC and nicknames are fixed on the surface of the step Q of the control transverse winding. (In Rotor pop. 1, characterized in that the ends of the wire transverse transverse winding S U 1035728 A