CS214260B1 - Dependent Centering Device - Google Patents

Abstract

The invention belongs to the field of engineering and industrial geodesy and solves the problem of dependent centration of the theodolite and the target for different lengths of the targets and measuring their horizontal directions and elevation angles. The essence of the invention is that a threaded seat is formed in a sleeve mounted freely and rotatably on the end of the telescope lens and provided with a locking screw. A signal carrier consisting of a ring with arms in a cross is inserted in this, in the center of which target signals are glued on both sides. The device consists of two theodolites with mounted target targets and consists of the aforementioned sleeve.

Description

1 214260

The present invention relates to a device-dependent centering with mounting intentional targets for the intent.

When solving tasks in the field of engineering-geodesy, the directions and angles of the microscopes are often measured at very short intervals of 10 - 1.5 m. One of the factors for further increasing the accuracy of the measured directions and angles in the microwaves is to ensure the dependency of the dependent theodolite and intentional target. Up to now, the device of dependent centering ensures that when theodolite is replaced by a target, the vertical axis of the targeted target takes up the position it had in the theodolite and vice versa. If an inverted target is used, which can be set in two positions, the effect of the center-to-center eccentricity on the target from the vertical and horizontal axis of the target is eliminated. The disadvantage of the hitherto used dependent centering devices is that the influence of the eccentricity of the center of the intentional target signal from the zero point of the theodolite is not eliminated (the zero point is the intersection of the vertical and horizontal axes of theodolite and is the vertex of vertical and horizontal angles measured at the two positions of theodolite) on the measured directions and angles with very short intentions with such precision that would correspond to the accuracy of secondary theodolites. With very precise measurement of directions and angles with very short intentions, it is possible to use collimations in the mutual targeting of two theodolites. The disadvantage of this procedure, however, is that it is only suitable for theodolites with lens-mirrored glasses that need to be adjusted to autoclaves.

The aforementioned drawbacks are eliminated by the center-dependent device according to the invention formed by two theodolites with insertion target targets consisting of a sleeve in which a signal carrier is mounted and the principle is that a loose and rotatable telescope objective and a locking screw is provided in the sleeve. a threaded shoulder in which a signal carrier consisting of an annular ring is raised into a cross, in which side-by-side intentional signals are glued.

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It is advisable to solve the targeting target by varying the size signals depending on the length of the project. The influence of the eccentricity of the center of the theodolite target point signal on the measured directions and angles is eliminated by measuring the directions and angles in the two positions of the telescopes of theodolites with the targeted targeting targets while simultaneously targeting them.

Contrary to other solutions that do not use the modified telescope of theodolite to autocollimator, the measurement procedure eliminates the influence of the eccentricity of the center of the signal of the target theodolite point on the measured directions and angles.

In contrast to the solutions that utilize the modified theodolite to the autocollimator, the proposed solution offers the following advantages: the design of the intent target is simpler than modifying the theodolite to autocollimator, the targeting target suitable for all types of theodolites; .

In the accompanying drawing, one example of an embodiment of a center-dependent device is shown, in which: Fig. 1 is an elevational view of the engagement target and Fig. 2 is a sectional exploded deployed target target in section A-A.

Claims (2)

Dependent centering device consisting of court theodolites with push-on intentional targets consisting of a sleeve in which a signal carrier is mounted, characterized in that a threaded shoulder is provided in the sleeve (1) fitted free and rotatable at the end of the telescope lens and provided with a locking screw (4). in which a signal carrier (2) consisting of a ring with arms is embedded into a cross, in the middle of which the intentional signals (3) are glued on both sides.