SU714182A1 - Device for measuring rotating shaft torque - Google Patents

Description

The present invention relates to measurement techniques and can be used in measuring power and speed characteristics of a rotating shaft. A device is known for measuring the torque of a rotating shaft, which contains a tensomufant with tenso resistors, an inductive current-collecting power source, supported by rotating shaft 1. However, it does not provide the required accuracy of measurement. The closest in technical essence to the proposed device is a device for measurement. torque of a rotating shaft containing two magnetic systems installed in different sections of the shaft and made in the form of toothed inductors and H-shaped magnetic conductors with a signal winding located on the crossbar, and permanent magnets 2. The disadvantage of the known device is low accuracy reni. The purpose of the present invention is to increase the accuracy. To do this, each of the H-shaped magnetostructures in it with the ends of the legs is attached to one of the poles of the magnet. The drawing shows a device for measuring the torque of a rotating shaft. Gear lasers 2 and 3 are fixed on l i, transmitting the torque M of rotation. The first one is mounted on the shaft end by means of a hollow cylinder 4 rigidly connected to it. Each of the gear inductors is connected with H-shaped magnetic cores 5, b, with signal windings 7, 8 on their crossbars 9, Yu and permanent magnets 11, 12. Gear inductors 2, 3 and H-shaped magnetic cores form two magnetic systems 13, 14 with pole tips 15, 16. Interpolar pole distances 15, 16 selected so that if the first pole tip is over protrusions intsuktora gear, the latter is above the troughs between the teeth of the inductor. In this case, when the teeth of the inductors will be our first pole tip, the working magnetic fluxes

for example, the poles of the N magnets pass through the crossbars of the corresponding H-shaped magnetic cores and the first pole pieces to the gear inductors and from the inductors close to the S poles of the magnets in the environment. they change their direction in the crossbar and move in their direction. Thus, when the shaft is rotated with toothed inductors 23, the magnetic fluxes passing along the crossbars 9, 10 of the H-shaped magnetic circuits induce an electromotive force in the signal windings of If 8 alternately in opposite directions. If the angular positions of toothed inductors 2. and 3 are different with respect to the rotating shaft, then the difference in their mechanical angle is expressed as a phase shift faq.c. or () VL Ug. at the outputs of the signal windings. As is known, the angle of twist of the shaft within the elastic deformation of the shaft is proportional to the applied moment. And by the magnitude of the phase shift between voltages (t U U is judged about the torque.

Claims (1)

Invention Formula A device for measuring the torque of a rotating shaft, containing two magnetic systems installed in different sections of the shaft and made in the form of toothed inductors and H-shaped magnetic conductors with a signal winding located on the crossbar, and permanent magnets, characterized in that in order to improve accuracy, in it each of the H-shaped magnetic cores with the ends of the legs attached to one of the poles of the magnet. Sources of information taken into account in the examination 1, Journal of Instrument Engineering, Lime universities, volume XIX, No. 7, 1975, p. 26-28, 2, USSR Author's Certificate No. 239686, cl. a 01 L 3/10, 1951 (prototype),