SU684304A1 - Dial testing device - Google Patents

Description

one

The invention relates to the field of geodesic instrumentation, in particular, to instrumentation devices designed to verify the accuracy of applying divisions of circular scales (limbs) of goniometers of various accuracy and purpose used in geodesy, surveying, mechanical engineering.

A device for controlling limbs is known, which contains an axis of rotation with exemplary calibrated limbs located on it, specifying and recording channels (respectively, serving and turning limbs), measuring and recording systems 1.

The principle of operation of the device is to compare the indications of the reference and calibrated limbs. Information about the angular mismatch of signals from both limbs is recorded on a flat tape in the form of an error curve. The belt is driven by an autonomous feed mechanism.

The essential drawbacks of this device are the impossibility of determining the errors of the diameters of lim / a and the insufficient accuracy of determining the faults of the limb due to the residual effect of the eccentricity of the sample and calibrated limbs, which limits the operation of the device within 2-3 in the best case.

The aim of the invention is to determine the faults of the diameters of the limb and to improve the accuracy of the control.

This goal is achieved by the fact that the information carrier about the angular position of the gaps in the diameters of the turned limb is made in the form of a disk located on a tablet; The tablet is equipped with an axis of rotation, which is kinematically associated with the axis of rotation of the reference and turned limbs by the gear ratio m. 2: 1.

The invention is explained in FIG. 1 where are shown:

1 - axis of rotation of the device for controlling limbs; 2 - model limb; 3 — turning limb; 4 - master and register channels; 5 - sensitive element of the measuring system; 6 — recording system; 7 - measuring system; 8 - tablet; 9 - axis of rotation of the tablet; 10 - transmission mechanism.

In the device, the cylindrical axis 1 (Fig. Bears exemplary 2 and rotatable 3 limbs. The driver specifies and registers the channels so that they form a one-way, common for both limbs reading system 4. The measuring system may include an electromechanical converter with a phase detector and a sensing element 5 (in the form of, for example, a plane-parallel plate inserted in a beam path), allowing measurements to be carried out in a compensation mode.

The information on the angular magnitude of the displacement of the scriha of the turned limb relative to the corresponding schtriha of the exemplary limb is obtained using a recording system 6, including either a recorder, or a mirror with a lighting system, located on a common axis with element 5, on a plantation 8 located on the axis of rotation 9, st in axis 1, a gear ratio of 2: 1.

The device works as follows.

The image of an opaque screech repetition of my limb using optical system 4 is superimposed on the corresponding transparent schtrich of the exemplary limb. Depending on the position of the schtrich of the turnable limb in the model limb window, an electromechanical converter of the measuring system 7 gives a signal of a certain size and polarity, which causes at a certain angle, the plane-parallel plate 5. It is rotated until the light fluxes in the transparent line of the standard limb are completely balanced ihs on the left and right of the opaque schtriha pover emogo limb.

On the same axis with the plate 5, there is a mirror of the recording system (not shown in the drawing, since, in principle, the registration can also be carried out using a recorder). The image of the light from the mirror, formed from an additional source, is transmitted to the film located on the tablet 8. Displacing the image of the point in the radial direction in a certain scale expresses the error in the position of the specular limb.

After registration, the intermittent feeding mechanism is triggered, and images of the following lines of the reference limb and the turned limb are subject to a similar comparison. The measurement and recording cycle is repeated.

Since the gear ratio between axis 9 and axis 1 is 2: 1, half a turn of axis 1, the light point on the plate will describe on the film a closed curve of the errors of the limb being turned in the interval from 0 to 180 ° (curve I in Fig. 2). After that, the polarity of the output signal of the measuring system automatically switches, and as the measurement cycle continues and the error of the calibrated limb in the range of 180-360 ° is recorded, the curve II is superimposed on curve I. The ordinates measured on the film in the radial direction between curves I and II will, on some scale, express the errors of the diameters of the submarines. At the intersection of the curves, the sign of faults changes to the opposite.

Such a registration system makes it possible to determine the magnitude of irregularities in diameters of calibrated limbs, free from the influence of the eccentricity of the calibrated and exemplary limbs, provided that it is preadjusted to a value that does not extend beyond the aperture window of the measuring system.

The speed and objective reading of the indications of the limbs in the presence of a precision axis and the correction of the faults of the model limb contribute to the achievement of instrumental accuracy of about 0.1 Formula of the invention

A device for controlling limbs, containing an axis of rotation with an exemplary and verifiable limb on it, specifying and recording channels, a measuring system and a recording system with information carrier, characterized in that, in order to determine the limb diameter faults and improve the accuracy of control, the information carrier is made in the form of a disk located on a tablet, the axis of rotation of which is kinematically associated with the axis of rotation of the reference and calibrated limbs with a 2: 1 gear ratio.

Sources of information taken into account in the examination

1. Works LITMO. Issue 73, L-, 1973, p. 76-82 (prototype).