SU1606856A1 - Apparatus for investigating trajectory of movement of revolving shaft - Google Patents

Abstract

This invention relates to instrumentation technology. The aim of the invention is to expand the scope and increase productivity by installing sensors outside the axis of rotation and indicating the trajectory of the actual configuration. The device has two contactless transducers 23 installed mutually perpendicularly with the possibility of receiving signals for moving the surface of the shaft 10 in two mutually perpendicular directions. The circuit forms the trajectory of the tolerance field simultaneously with the axis of the investigated shaft 10 on the oscilloscope screen. 1 il.

Description

The invention relates to measuring technique and can be used to control linear movements and vibrations.

The purpose of the invention is the expansion of the scope and increase productivity by installing sensors outside the axis of rotation and indicating the trajectory of the real configuration.

The drawing shows a block diagram of the proposed device.

A device for studying the trajectory of movement of rotating shafts contains a displacement sensor 1, consisting of two non-contact transducers 2, 3 of displacement along each coordinate, a displacement recording unit in the form of an oscilloscope 4, two commutators 5, 6, a quadrature generator 7, a pulse shaper 8 and a divider 9 frequency.

The displacement sensor 1 at the outputs of the proximity transducers 2, 3 is connected to the first inputs of the switches 5 and 6, the outputs of the quadrature generator 7 are connected to the second inputs of the switches 5, 6, and the second output of the quadrature generator 7 is connected through a pulse shaper 8 and a frequency divider 9 with the third (control) inputs of the switches 5 and 6, the outputs of which are connected to the inputs of the amplifiers of the horizontal and vertical deviations of the oscilloscope 4.

The device operates as follows.

Sensor 1 signals from the outputs of the two proximity transducers 2, 3 move in a stress amplitude Ux and Uy are proportional to the distances lx and 1 _y of shaft 10 to the respective transducer via the first inputs of the switches 5 and 6 to the inputs of amplifiers vertical and horizontal deflection of an oscilloscope 4, as a result of which a luminous point appears on the screen of the latter, the position of which will be set by the values of voltages Ux and Uy. From the outputs of the quadrature generator 7, two sinusoidal, 90 ° shifted in phase, signals of constant amplitude proportional to the magnitude of the limiting displacements, i.e., to the maximum possible distance Imax between the shaft and the converter, also pass through the second inputs of the switches 5, 6 to the inputs amplifiers of vertical and horizontal deflection of the oscilloscope 4, as a result of which the circle of limiting displacements will be displayed on the screen of the latter.

From one of the outputs of the quadrature generator 7, a sinusoidal signal is supplied to a square-wave pulse shaper 9 (Schmidt trigger) and, through a frequency divider 9 (for example, with a division factor of five), is supplied to the third control inputs of the switches 5, 6. As a result, their outputs alternately (for five periods of the oscillator frequency), there will be either quadrature generator signals forming a circle, or signals from the sensor 1 outputs forming a point inside this circle corresponding to the position BBC symmetry of the test shaft. With an optimally selected frequency of the quadrature generator (for example, 1 kHz), the point and the circle are present on the screen at the same time, and switching noise is not observed.

Claims (1)

Claim A device for studying the trajectory of a rotating shaft, comprising a displacement sensor and a displacement recording unit, characterized in that, in order to expand the scope and increase productivity, it is equipped with two switches, a quadrature generator, a pulse shaper, a frequency divider, and a displacement sensor. two non-contact displacement transducers arranged in mutually perpendicular positions, and the displacement recording unit is made in the form of an oscilloscope, and in the strokes of the first and second converters are connected respectively to the first inputs of the first and second switches, the second inputs of which are connected respectively to the first and second outputs of the quadrature generator, the second output of which is connected to the input of the pulse shaper, the output of which is connected to the input of the frequency divider, output which is connected to the third inputs of the switches, the outputs of which are connected to the inputs of amplifiers of horizontal and vertical deviations of the oscilloscope.