SU1165886A1 - Theodolite - Google Patents

Abstract

A TEODOSHGG containing an alidade axis, guides, scale bars, and a reading microscope, distinguished by the fact that, in order to improve the accuracy of sinusugl measurement and simplify the design of the instrument, it is equipped with a bar with magnetic magnets fixed at its ends, perpendicular to Each plate, installed parallel to one another in the groove of the alidade axis, each plate is rigidly connected in the middle part with the corresponding one. governing board, on which is attached a scale ruler. (L 05 cd eo 00 a

Description

one

The invention relates to a measurement technique and is intended to measure the sine of angles in geodetic structures.

A theodolite is known for measuring and directing out tangents of tilt angles, containing horizontal and vertical circles consisting of limbs and alidade prisms, with tangential scales on the limb of a vertical circle, which measure tangents of tilt angles l.

However, the low accuracy of the device makes it impossible to use it in precise work and thereby limits its scope.

Closest to the proposed technical essence and the achieved result. is a theodolite, designed to measure and directly measure the values of sines, cosines of angles, containing a horizontal circle with an alidade axis and an initial index of counting and about, a microscopic microscope, with the horizontal circle provided with a functional limb, and the alidade axis provided with a directionally fixed along the diameter with two moving, scale lines, freely suspended starting ends with the help of sliding marks on the edge of the limb and interconnected springs, and as initial index taken so alidadnoy center axis 2J

The disadvantages of this design are that the accuracy of measurement of the sines and cosines of the angles is low due to the influence of structural errors, such as limb eccentricity, alidade eccentricity, and functional limb error.

The accuracy of the device worsens and the scale rulers are interconnected by springs, since the spring elastic forces depend on the distance between the sliding marks, hence the latter are not. equally pressed against the edge of the limb around the circumference of the horizontal circle.

With the help of a known theodolite, it is possible to obtain the values of sines and cosines with only two, maximum three valid significant digits.

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however, the accuracy of the device corresponds to c. angular measure t I-SO.

A significant disadvantage is that this structure is difficult to manufacture.

The aim of the invention is to improve the accuracy of measurement of the sine of the angle and simplify the design of the device.

The goal is achieved by the fact that the theodolite containing the alidade axis, guides, scale bars and a reading microscope is equipped with a bar with

the ends of the magnetic sliders, two i-magnetized plates, perpendicular guides, installed parallel to one another in the groove of the alidade axis, each plate is rigidly connected in the middle part with a corresponding guide, on which the scale bar is fixed.

Figures 1 and 3 schematically depict the angular portion of the instrument J in Fig. 2 — the field of view of the optical microscope.

The theodolite contains a bar 1 with magnetic runners 2 fixed on it, the alidade axis 3 is equipped with DV5T4Ya parallel magnetized plates 4, each of which is rigidly connected in the middle part with the guide 5 on which the scale bar 6 is attached.

the guides are installed parallel to each other in the groove 7 of the alidade axis 3, and the planes of the magnetized plates 4 are perpendicular to the guides 5.

The device works as follows.

With azimuth rotation of alidade axis 3 (during sighting)

The guides 5 aligned in the groove 7 of the alidade axis 3 rotate, the magnetized plates 4 rigidly connected with them being held by the magnetic force of attraction,

slide along the sliders 2 fixed on the rod 1, while dragging the guides 5 into translational movement relative to each other and in diametrically opposite directions along the scale bars 6 rigidly fixed on the guides 5 read the value of the sine of the angle. In this case, the digitization of the scale lines 6 is made in such a way that, when the axis of the rod 1 is parallel to the positions of the magnetized plates 4, the zeros of the lines 6 are aligned, and for the azimuthal turning of the device 6, they symmetrically diverge in diameter. in the field of view of the optical reading microscope, the same divisions of the scale lines 6 (Fig. 2) are visible, having combined them with an optical deflecting parallel-parallel plate, we obtain the value of the schnus, which is composed of 1165 5 10 times the number; rulers 6 and reference on the drum plane-parallel optical plate. The measurement accuracy of the sine of the angles in degree measure is m 2 -3, while the error of the exclusion is automatically eliminated, and the strength of the contact between the sliders and the magnetized plates is constant along the entire circumference. Theodolite allows to exclude the use of tables, to translate the measured angular values to the decimal number system.

FIG. 2

Claims (1)

Theodolite containing an alidade axis, guides, scale rulers and a reading microscope, characterized in that, in order to increase the accuracy of measuring the sine angle and simplify the design of the device, it is equipped with a bar with magnetic runners fixed at its ends, two magnetized plates, perpendicular to the guides mounted parallel to one another in the groove of the alidad axis, each plate is rigidly connected in the middle part with the corresponding on -. ruling, on which the scale bar is fixed.