SU24139A1 - Theodolite - Google Patents

Description

Known theodolites, located on the carriage, movable along large-scale rulers, which in turn move along the rails fastened to the edge of the scale board, in order to be able to install the tool in any position.

The proposed theodolite aims to measure inclination angles and distances between points on the ground with the help of a vertical divider disk attached to the alidad circle, which is attached to a pointer attached to the pipe.

In FIG. Figure 1 shows a theodolite view from above with a pipe removed; FIG. 2 - its vertical section.

On the scale board 1, two parallel scale bars 2 are strengthened, between which a carriage moves, which is a frame with two parallel scale bars 3 connected by strips 4, in the middle of which there is a nonus 5. On lines 3 the second carriage b moves, along the edges of which there are (in the middle) nonius 7, and in the center there is a hole, above which a ring 8 is fixed (similar to theodolite limb) divided by degrees. In ring 8, an alidade circle 9 moves, having a semicircular notch 10 inside, and a plate 11 along the bottom side, which reaches the surface of the template; boards 1. Circle 9 is attached with a limb, using a ring 12 with a fork 13, a screw 14. In the fork 13 there is a micrometer screw 15 and a spring 16 (as in theodolites). Circle 9 is attached perpendicularly to the disk 17, which has indicator divisions, which serve to determine the distance along the diameter of the circle 9. At the back of the disk 17, the ruler 18 has a plane, having on the upper real-toothed bar 19. One end of the ruler passing under the disk 17, It has a curved end, in which a pinning pin 20 is installed. A tangent 18 is attached to the other end of the ruler 18. The ruler 18 moves under the action of the roller 21 and drives the gear 22 with the shoulder 23 and the nonius 24, which reads the dial on the disk 17, from the comb. On the circle 9 on the racks 25 a pipe 26 is fixed, on the axis of which there is a shoulder 27 with the nonius 28, moving in degrees around the divisions on the disk 17. The entire system is mounted on three lifting screws 29 on the head of an ordinary tripod 30 existing scales.

By moving the carriages and scale rulers of the scale board, it is possible to determine the coordinates of points. With the help of the movement; and the Circle (alidade) of the rotating center of the carriages, the azimuths of the lines are determined to one minute, the distance between the natural points is determined mechanically by moving the ruler with a pin, which due to the tangent curve at the end turns the angle depending on a specific horizontal rail specially made for this purpose, and gives a reading from the indicator divisions. With the help of the vertical circle of the pipe, the inclination angles are determined, thus it is possible to determine the excess of one natural point over another. Vernier reports are generated using loops. Bringing menzuly-theodolite in a horizontal position about is exhausted by levels.

The subject matter of the invention.

1. A theodolite, the telescope of which is mounted on racks fastened in an alidade circle, rotating in a limb, laid on a carriage, moving along two sections provided with divisions. rulers connected to each other and

moving, in turn, in a direction perpendicular to the movement of the carriage with a level along rulers, reinforced along the edges of the face board, characterized in that the alidade circle 9 has a semicircular notch 10. carries a disk 17 perpendicularly attached to it, having degrees of division along which the fastened with a pipe 26, a shoulder 27 with a nonius 28, used to measure inclination angles. 2. When using a theodolite according to claim 1, use of a device for determining horizontal refraction, characterized in that the back of the disk 17 is reinforced by means of a rack 19, which is mobile by means of a crutch of 21, the tangent bearing pin 20 at one end and the tangent attached to it a ruler 18 interposed between the micrometer screw 15 and the spring 16 and serving to rotate the alidade when it is guided to a horizontal rail in order to determine the distances to the terrain, also marked by the divisions of the disk 17 by means of the nonius 24, y mounted on the shoulder 23, fastened to the gear 22, which is coupled with the toothed rack 19.