SU718785A1 - Induction dc tachogenerator - Google Patents

Description

one

The invention relates to a control and regulation technique and can be used to measure the speed of rotation of shafts and mechanisms.

To improve the accuracy of the speed measurement, devices with two electric machines 1 are used.

The closest technical solution to the invention is a reverse contactless tachogenerator with direct current 2, in which the excitation is osushestvl from a multiphase winding, creating a rotating magnetic field, which induces an emf in the rotor winding and the reference voltage winding. Under the action of the emf, a current flows through the rotor windings, the magnetic field of which induces an emf in the measuring winding, the amplitude of which is proportional to the slip of the rotors relative to the field of the excitation winding. The amplitude of this EMF is proportional to the rotor speed.

Such a tachogenerator has significant fluctuations in the output voltage of variable frequency and a limited number of phases, the number of which is on the stator and on the roto, which is usually the same.

The purpose of the invention is to increase the measurement accuracy.

The goal is achieved by the fact that

In an asynchronous DC tachogenerator containing two electric machines, whose short-circuited rotors are rigidly connected to each other, and the three-phase field windings are connected to a power source with forward and reverse phase rotation, two multi-phase rectifiers connected inputs to the output windings of the machines, and exits - to

the subtraction circuit with the recorder, the stators of the electric machines are equipped with coaxial magnetic conductors on which the output windings are placed. The number of phases of the output windings is greater than the number of phases of the field windings.

Pa figs. 1 schematically shows the proposed tachogenerator; in fig. 2 given his electrical circuit. Asynchronous constant tachogenerator

current consists of two stators 1 and 2 with excitation windings 3 and 4, two magnetic cores 5 and 6 with measuring multiphase windings 7 and 8, magnetic shields 9 and 10, two rotors - 11 and 12 s

short-circuited windings 13 and 14, made in the form of a squirrel cage, common shaft 15 for both rotors, multiphase rectifiers 16 and 17, ballasts 18 and 19, payload resistance 20 and common case 21. When

In this case, the EOexcited 3 and 4 windings are connected to the network with the opposite phase alternation (3-ABC, 4-DIA), and the measuring windings 7 and 8 through the rectifiers 16 and 17 are connected in a differential circuit to the payload 20.

Tachogenerator works as follows.

When the windings 3 and 4 are connected to the network, the currents flowing through them create under the stators 1 and 2 rotating magnetic fields in opposite directions which induce an emf in the short-circuited windings of the rotors I and 12. The currents creating rotating magnetic fields flow through the rods of these windings under magnetic cores 5 and 6. These magnetic fields induce in multiphase windings 7 and 8 EMFs with an amplitude proportional to the slip of rotors 11 and 12 relative to magnetic fields generated only in windings 3 and 4. At the same time, the frequency of EMF in windings 7 and 8 does not depend from pilots at and tacho shaft rotational frequency is proportional to the network. The field windings and measurement windings can be performed with both normal drum and ring ones.

Claims (2)

1. USSR author's certificate No. 123604, cl. G 01 P 3/46, 1959. 2. USSR author's certificate number 539358, cl. G 01 R 3/46, 1976 (prototype). /five p || 1 - ||||| | Yo one