SU484398A1 - Device for measuring vibration displacement - Google Patents

Description

At the measured frequency, the signal of the reference oscillator 9 is selected, which is connected to the oscilloscope 8 to adjust it. Further, the amplified electrical signals from the photodiode 5 are fed to an oscilloscope 8, on the screen of a cathode ray tube of which bursts will be observed. The distance between the latter is proportional to the time between pulses.

To determine the distance between the extreme positions 12 and 13 of the enlarged image of the mark 10, the diaphragm 3 is moved by the N guides of the housing 14 (micrometric drive). When the slit approaches the extreme positions 12 and 13 on the screen of the oscilloscope 8, the spacing between the spikes will decrease, and at the narrow slit positions coinciding with the extreme positions 12 and 13 of the tag image, the spikes will merge into one.

As the slit moves further, the image will overlap with the diaphragm 3, the light pulses arriving at the photodiode 5 will stop, and not a single burst will be observed on the oscilloscope screen 8. The position of the diaphragm is recorded at these times.

Moving the slit between positions 12 and 13 by 2CA is measured on the scale of the micrometer screw 14. To measure the oscillation amplitude in any other direction, it is enough to turn the case with diaphragm 3 using a screw drive 15, setting the slit perpendicular to this other selected direction.

When determining the boundaries of the area of possible location of a point that oscillates in a plane along regular and irregular trajectories, an interchangeable nozzle with two diaphragms (see Fig. 2) 3 and 4 with narrow gaps that can move in two mutually perpendiculars is used directions by micrometric actuators 16 and 17 (Fig. 2).

The measurement principle is as follows.

At first, the diaphragm 3 is installed so that its slit intersects the boundary of the area of possible location of the image of the oscillating point 18.

Then, along the slit of the diaphragm 3, the diaphragm 4 is moved. The attachment of the photodiode 5 to the diaphragm is such that it is constantly located at the cross of two mutually perpendicular slits. When the crosshair crosses the border 18 at points A and B, the light pulses stop. At these moments, the readings are taken from the scales of micrometric cameras 16 and 17. Next, the diaphragm 3 is installed in a new position so that its slit intersects border 18 at points C and D. The position of these points is determined similarly.

Having determined the coordinates of a number of points, they find the boundary of the area of possible location of the image of the oscillating point.

High measurement accuracy is achieved by the sensitivity and resolution of photoelectronic and electronic devices.

Subject invention

Claims (2)

1. A device for measuring vibration displacement, comprising a microscope with a reading micrometer head, characterized in that, in order to increase the measurement accuracy, it is equipped with a slit diaphragm photodiode and two micrometric actuators, one of which moves the diaphragm in the plane perpendicular to the microscope's sighting axis, and the other rotates it around this axis. 2. A device according to claim 1, characterized in that it is provided with a second diaphragm, the slit of which is perpendicular to the slit of the first diaphragm and movable along the slit of the first diaphragm. 15 77 . 2