RU2093794C1 - Gear testing geodetic level - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: gear testing geodetic level has massive base 1 which carries autocollimator 2, vessel with liquid 3 and tested geodetic level 4. Objective of autocollimator and pentaprism 5 which overlaps half of entrance pupil of autocollimator are mounted on one location. Bubble of level of tested geodetic level 4 is brought out to center. Autocollimation image of mark is matched with mark proper of autocollimator with the aid of lifting screws with simultaneous viewing through eye piece. Image of sighting mark of tested geodetic level 4 should match same mark. Angular value of mismatch is measured by means of scales of autocollimator. EFFECT: improved authenticity of teat. 1 cl, 1 dwg

Description

 The device relates to the field of measuring equipment, namely to certification systems of levels, and is intended for calibration of the level in laboratory conditions.

A device for calibrating levels [1]
The disadvantage of this device is that leveling is performed using a cylindrical level, which in itself is an unstable system and horizontally installs in only one direction.

Closest to the invention is a device for checking the level described in [2]
In this device, the certified level and the auto-collimator are set to counter collimation. In this case, the sighting axis of the autocollimator is set to a horizontal position along a translucent mirror mounted perpendicular to the level of the liquid poured into a special vessel. Monitoring the position of the mirror relative to the liquid level is carried out using an additional autocollimator installed at an angle of 45 ^o to the liquid level.

 The disadvantages of such a device include the complexity of the installation, the difficulty of controlling the position of the mirror, the need to work almost simultaneously with three devices, two autocollimators and a certified level.

 The technical task of this invention is to provide a facility for the certification of levels with maximum simplicity, stability over time, the metrological certification of which can be easily performed with high accuracy.

 The task is achieved in that a massive base is inserted into the device containing the autocollimator with the lens, the vessel with liquid and the optical element, on which the autocollimator with the lens, the vessel with the liquid and the calibrated level are mounted, and the optical element is made in the form of a prism unit mounted together with an autocollimator lens in one seat; in addition, the prism block is made in the form of a pentaprism, overlapping half of the entrance pupil of the autocollimator, while half of the pupil is intended for oncoming collimation on the level being calibrated, and the other half to obtain an autocollimation image from the liquid level.

 The new features in the claimed technical solution are as follows: a massive base has been introduced into it, on which an autocollimator with a lens, a vessel with liquid and a calibrated level are installed, and the optical element is made in the form of a prism unit installed together with the autocollimator lens in one seat; and also the prism block is made in the form of a pentaprism, overlapping half of the entrance pupil of the autocollimator, while half of the pupil is intended for oncoming collimation on the level being calibrated, and the other half is used to obtain an autocollimation image from the liquid level.

 The invention is illustrated in the drawing.

 The device consists of a massive base 1, mounted on a base untied with a foundation (not shown), on which an autocollimator 2 is mounted, a vessel with liquid 3 and a calibrated level 4. A nozzle with a pentaprism 5 is installed on the seat of the lens (not shown), which overlaps half the entrance pupil of the autocollimator.

 The device operates as follows. The level bubble of the calibrated level 4 is displayed in the middle. Observing the autocollimator 2 through the eyepiece (not shown), using the lifting screws (not shown) the autocollimation image of the brand is combined with the autocollimator brand itself. The image of the target mark of the level to be verified must coincide with the same mark, and the angular value of misregistration is measured using autocollimator scales.

 Thus, in one field of view, the position of the autocollimator relative to the horizon plane and the position of the line of sight of the certified (verified) level are controlled.

 The device is intended for use at level manufacturing plants during acceptance tests, in workshops for repair and maintenance of levels for periodic monitoring of the relative position of the sighting axis of the level and level axis, in laboratories for the certification of levels.

Claims (2)

 1. A device for checking the level, containing an autocollimator with a lens, a vessel with liquid and an optical element, characterized in that it has a massive base on which an autocollimator with a lens, a vessel with liquid and a calibrated level are installed, and the optical element is made in the form of a prism a unit installed in conjunction with the autocollimator lens in one seat.  2. The device according to claim 1, characterized in that the prism unit is made in the form of a pentaprism that covers half of the entrance pupil of the autocollimator, while half of the pupil is designed for oncoming collimation on the level being calibrated, and the other half to obtain an autocollimation image from the liquid level.