SU731284A1 - Tacheometer - Google Patents

Description

The ZIS is two levers of the second kind. The small lever 7 is mounted on axis 6 and is connected to the mirror 5. Its free end rests on the round protrusion 8 of the large lever 9. The large lever is mounted on axis 10 and rests its free end on the micrometer screw I. The distance between axes 6 and 10 should be equal to the distance between the axis 10 and the center of the protrusion 8. The lever 7 and the protrusion 8 are in continuous contact by means of a coil spring 12, and the lever 9 and the micrometer screw 11 are connected by a coil spring 13. The nut 14 of the micrometer screw is fixed on the bracket connected to vertical axis kr uga tacheometer. Axes 6 and 10 are fixed on the same bracket.

When the micrometer screw Vandr And around the axis 10, the lever 9 rotates, which with the aid of the circular protrusion 8 and the springs 12 and 13 causes the lever 7 and the mirror 5 to rotate around the axis 6. Thanks to the equal distance between axis 6 and 10, axis 10 and the center of the protrusion 8, the lever 9 will rotate at its angle, twice the angle of rotation of the lever 7 with the mirror 5. It is known from optics that when the mirror is rotated at any angle, the reflected beam will rotate in the same direction by the double angle of rotation of the mirror. It follows from this that the ray of the vertex is at the same time at the angle a, exactly equal to the angle of rotation of the lever 9.

When the microscrew is raised, the reticle mark is stereoscopically aimed at a terrain point or bar reiki, for example A. At the same time, the light beam enters one of the binocular tubes, and the beam hits the mirror 5, is reflected from it, hits the mirror 4, reflects from which at an angle of 45 °, enters another binocular tube.

By designating the distance between point O and axis 6 by b, the distance between axis 10 and point / C by if, and the segment Km, by Pt, the distance between the point of guidance and the instrument is determined from the proportion

And from where ..

The value of P is taken over the drum of the micrometer screw.

The standard error in determining the distance is given by

t ± - tr.

In order to more accurately determine the distance, a horizontal rail 15 can be used, which is mounted on a tripod perpendicular to the measured line. On the rail three strokes are applied A, B to C.

In order to increase the accuracy of determining distances, the parallax angle can be increased by stereoscopic aiming of the target mark at different strokes of the distance meter rod. At the same time, it is possible to place the MI target mark on the bar A of the rail, and the target mark M by rotating the microscrew on the stroke B.

Consider both marks and both lines stereoscopically, to achieve their precise alignment.

We denote AB and AU by BI. The distance D is according to the formula

/ (61 +)

rj

The instrument can be effectively used for measuring small distances in various areas of the national economy.

Claims (2)

1. Guide to topographic surveys on a scale of 1: 5000, 1: 500. Land surveys, M., “Nedra, 1977, p. 12-14. 2. In the same place 14 (prototype).