SU655891A1 - Tangential plant for certification of angle-measuring device - Google Patents

Description

The invention relates to instrumentation engineering and can be used, in particular, to certify goniometers, such as photoelectric autocollimators. The closest device to this invention in its technical essence and problem to be solved is a tangential installation for certification of goniometers, comprising a support, a lifting mechanism, one end of which is connected with a support rotatably around a horizontal axis, and the other end is connected with a lifting mechanism, and the zero indicator with end measures, located on the ruler 1. The disadvantage of the known installation is the limitations of its use, and it is possible to measure angles only in vertical oh plane. The purpose of the invention. - the ability to measure angles in two coordinate planes. The goal is achieved by the fact that the installation is equipped with a collimator fixed on the ruler and an optical element located in front of the collimator along its optical axis. The drawing shows a schematic diagram of the installation. The installation contains a support 1, a lifting mechanism 2, a ruler 3, a collimator 4, an optical element 5. An indicator 6 is a pool with end measures 7, a measuring goniometer 8. The optical element 5 converts the horizontal direction of the axis of rotation to a vertical one. As such an optical element can be used, for example, a Dove prism, rotated around an axis. parallel to the hypotenuse, at an angle of 45 ° relative to the horizontal. The device works as follows. Measurement in the vertical plane along the Y axis. Set the ruler 3 along the indicator 6 zero to the initial position. The installation screws of the measured instrument combine in its field of view an image of the center of overlap of the collimator 4 with the center of overlap of the device 8. Putting the certified end measure 7 of a pre-calculated size on the ruler 3, set the ruler on the indicator 6 to the desired angle of inclination in the vertical plane. The image of the center of overlap of the collimator 4 in the field of view of the goniometric device 8 will shift along the Y axis along the scale of the device. By comparing the readings of the instrument with a predetermined angle of inclination of the ruler, the accuracy of the instrument is determined. If the instrument being measured is an autocollimator, then the readings of its scale must be equal to twice the slope angle of the ruler.

Measurement in the horizontal plane along the X axis.

For measurement in the horizontal plane between the collimator 4 and the goniometer 8, the optical element 5 is turned on. In this case, the image of the horizontal line of the collimator mark will be in the field of view of the measured device vertical. The slope of the ruler 3 and with it the collimator 4 around the horizontal axis will cause in the field of view a mixture of a vertical image of the horizontal line of the collimator mark along the horizontal scale of the device. By comparing the readings of the instrument on a horizontal scale with a predetermined slope of the ruler in the vertical plane, the error of the instrument in the horizontal plane along the X axis is determined.

Thus, the presence in the device of a movable optical element 5 that converts the direction of the horizontal axis of the turn into a vertical axis allows measurement in both vertical and horizontal planes.

Claims (1)

1. “Feingeratetechnik, 1971, No. 3, p. 119. L , S,. , 2/7 - better