SU533818A1 - Device for determining the direction of lines - Google Patents

Description

The invention relates to devices for determining and transmitting directions to short lines.

A device for transmitting direction on a short-length line is known, which contains a rod on which a flat optical mirror 1 is rigidly fixed. A theodolite with an autocollimation ocular is used to transmit the direction on a short-length line.

However, such a device is inconvenient in operation due to the need to install a theodolite at a low height and has a narrow measurement range.

The purpose of the invention is to improve the determination accuracy and expand the measurement range.

This is achieved by the fact that in the proposed device the rod is made hollow, at both ends there are telescopically inserted rods, at one end of which the mirrors are fixed. The reflective surfaces of the mirrors are parallel to the exit pupil of the reflector.

In addition, the shtanga is installed in the lagers with the possibility of shifting by 180.

FIG. 1 shows the structure of the device; in fig. Figure 2 shows the measurement parameters when determining the direction of the lines.

The device for determining the direction of the lines contains a treger / with lifting screws, an alidade part 2 with a micrometer.

Bii; iTc.M 3 And lager 4, on which the shtanga is strengthened, consists of three parts - hollow 5 and two rods 6. The movable rods are fixed with respect to the hollow rod with retaining screws 7. On the hollow rod, the reflector 8 is fixed, made, for example, in the form of a rectangular prism, and levels 9 and 10. Reflecting mirror surfaces // whose planes are parallel to the plane of the reflector 8 are attached to the ends of the thighs.

The device works as follows.

The treger is installed approximately (± 1 cm) in the middle of the AB line, fixed by dots 12. The device is set to horizontal polarization with lifting screws, the micrometer screw is adjusted so that the mirror surfaces // are in a position parallel to the defined line.

The autocollimation theodolite measures the angle (A) between the normal of the reflector 8 and the given direction (TC). The position of the mirror surfaces 11 relative to the points L and B (LL ALTs) is estimated by the Fizeau method using transportable microscopes mounted above the mirror surfaces. Then the bar is shifted by 180 ° (position II) and the measurements of D. 4d, A.4 | 1, DVg; repeat. In this case, all geometrical inconsistencies, which are reduced to the non-parallelism of the reflecting surfaces of the mirrors and the rectangular prism of the later axis, are excluded when deriving the average angle. The final value of the direction L (.p, is calculated from the expression:

(Ai-f ii) + - (DD, + A.4p) -

--L (l, -bAfibO i,

i - the length between

e measured by points. L and B: iSii - measured FDL, ASi, LA

, standing mirror end surfaces of stays relative to points L and B, respectively, at the I and II positions of the rod;

A, LII is the direction of the normal of the ir mirror of the angle mirror at the I and II positions of the rod.

By changing the distance AB between points 12, for example, as a result of deformation, or for different points, the direction to which it is necessary to determine, the same device can be used by changing only the length of the rod. This makes it possible to increase the measurement accuracy and reduce the number of devices.

Claims (2)

1. A device for determining the direction of the lines containing its bar with a reflector, a stand, and an autocolliological mapping theodolite, characterized in that, in order to increase accuracy and extend the range of measurements, the bar is made hollow with telescopic rods installed inside it at both ends , at one of the ends of which there are reinforced mirrors, the reflecting surfaces of which are parallel to the exit pupil of the reflector. 2. The device on 1L. 1, characterized in that the rod is installed in lagers with the possibility of shifting by 180. Sources of information taken during the examination: 30 1. Meshchersky F. L. and Muravlev O.F. Method for precise determination of the direction of short lines. - In Proc .: Questions of atomic science and those: 11 ki. Seri "Pro: t11razan: e. M .. 197U