SU1377580A2 - Device for determining direction of line - Google Patents

Description

The invention relates to geodetic instrumentation and can feiTb be used to measure the angular torsions of objects, as well as to determine the azimuths of short directions fixed by closely spaced signs.

The purpose of the invention is PI) Acquisition of accuracy and performance from measures of scientific research institutes.

4G.1 shows the device, a general view; in (| and) p.2 is a scheme for determining the direction of a line using a device.

The device contains a stand 1 with lifting screws and a clamping screw 2, on which the base 3 is reinforced with two lagers 4. In the camps lies a shank 5 with retractable rods-6, clamping screws 1 and a reflector 8 in the form of a prism BR-1 80 °, located on the vertical axis of the rod. The reflector 8 is installed so that its entrance face is parallel to the longitudinal

the axis of the rod 5; On the vertical axis of the rod there is a rectangular isosceles prism 9 with mirror catheter faces and lateral edges perpendicular to the plane of the reflector.

A rectangular isosceles prism is designed to transmit images of embedded grades 10 and P, received from optical elements 12 and 13, made in the form of pentaprisms, the output faces of which are parallel to one another and the edges of the rectangular isosceles prism, to the input face of the pentaprism 14.

To adjust the movement along the vertical axis of the rod, a penta-prism is fixed on a retractable rod 15 of the holder 16 with a fixed screw 17. The pentaprism, thus fixed, serves to transfer images of embedded grades reflected from the mirror catholic faces of a rectangular isosceles

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prism on the horizon of observation. Therefore, the pentaprism is set so that its entrance face is parallel to the entrance face of the reflector, i.e. upright.

Two cylindrical levels 18 and 19 are mutually perpendicularly fixed on the rod to enable it to horizontally.

The device works as follows.

The stand 1 is installed approximately in the middle of the oriented line fixed with embedded marks 10 and 11, and the rod 5 laid in lagers 4 is approximately oriented along it. The stand 5 is lifted by the lifting screws of the stand to the horizontal position at level 18. By rotating the rod 5 in lagers 4 at level 19, the entrance face of the reflector 8 is brought to a vertical position. The optical elements 12 and 13 are set using the sliding rods 6 so that the distance between them equals the distance between the fixed marks 10 and 11 and fix them in this position, the clamping screws 7. The pentaprism 14 is mounted on the measurement horizon with a sliding rod 15 and secured with a screw 17. Then, the base 3 is deployed in the stand 1 until the images of embedded grades 10 and 11 appear in the field of view of the output face 1 Position is clamped with clamping screw 2,

An autocollimation theodolite or gyrotoodolite is installed with an optical micrometer attached to the objective of the telescope at point T located in a plane approximately perpendicular to the reflecting plane of the reflector 8,

The angle A is measured between the normal to the entrance face of the reflecting body 8 and the direction to the distant object, while the micrometer will lurch the initial position. A theodolite tube is visualized for a pentaprism and an optical micrometer measures the distance / 3 between images of embedded grades 10 and 11 in the field of view of the output face of pentaprise No. 1 14.

If you know the distance between the embedded marks 1 or the length of the rod and the value of L, calculate the correction L A according to (}

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LA -,

Entering the calculated correction into the measured angle A, get the desired direction of the oriented line,

Thus, the use of new optical elements makes it possible to exclude the measurement of vertical54 angles, and due to this, the accuracy and efficiency of remote

determine the azimuth of the line.

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Claims (1)

DEVICE FOR DETERMINING THE DIRECTION OF THE LINE by ed. St. '' _ No. 777416, characterized in that, in order to improve accuracy and performance, it is equipped with a rectangular isosceles prism and a pentaprism mounted on the vertical axis of the rod, the cathete faces of the rectangular isosceles prism are made mirrored, its side faces are perpendicular to the plane of the reflector, and the pentaprism , the input face of which is perpendicular to the vertical axis of the rod, 'is located above a rectangular isosceles prism and is configured to move along the vertical axis.