SU939939A1 - Sighting mirror lens telescope - Google Patents

Description

one

The invention relates to technical physics, namely to topographic devices and can be used in geodetic and surveying instrumentation to create laser theodolites with mirror-lens pipes.

Known laser theodolite DKM-2A company Kern, containing a sighting tube with a prism - a cube, placed in the focal plane of the lens of the tube on the grid, which is fed with fiber optics laser beam, projected by the optical system of the tube on the object and the eye on the grid of threads specified prism - cube 1.

The disadvantage of this device is that the laser source is connected to the ocular part of the sighting tube, which creates a darkening of the net itself and inconvenience in handling the device during the measurement. In addition, the pipe does not have

device for automatic compensation of the tilt of its axis of rotation.

Also known is a mirror-lens sight tube, comprising an objective lens, a horizontal axis of rotation, a fixed mirror with a central hole, a movable mirror, a grid of filaments, and an eyepiece p 2.

The disadvantage of this device is the inability to produce

10 laser indication of a target along a line of sight, located in a stabilized vertical plane, free from the inclination of the axis of rotation of the pipe.

15

The purpose of the invention is to improve the accuracy and performance of measurements by performing a light indication of the observation point with a laser beam, while at the same time observing the correctness of its marking.

Claims (2)

The goal has been achieved by introducing a beam splitter 3 cube and laser source into the mirror-lens sighting tube, the horizontal axis of rotation is hollow, with a fixed mirror with a central opening at an angle of 45 to the line of sight, a movable mirror perpendicular to horizontal axis of rotation on half the focal length of the lens in the hollow axis of rotation, the beam splitting prism — the cube is placed in the central hole of the fixed mirror, the optical center to torogo displacements cos point of intersection with the line of sight and the axis of its rotation, and laser lights are mounted for slewing the radiation into the hollow axis of rotation of the tube. Such a mutual arrangement of the optical elements of the mirror-lens tube and the laser radiation source makes it possible to simultaneously observe both the point and its light indication by a laser beam with the marking of the specified point located in the vertical collimation plane of the sight. FIG. 1 shows a pipe in a position prepared for operation, top view; in fig. 2 - laser radiation source assembly, longitudinal section. The target tube consists of a housing 1 fixed on a hollow axis 2 of its rotation, a lens 3, a fixed mirror 4 located in the housing 1 at an angle kS to the line of sight and provided with a central hole coaxially aligned with the hollow axis 2, a mirror 5 of a capacitor freely suspended from with a damper 6, enclosed in a movable block 7 at one end of axis 2, and simultaneously playing the role of a compensator for tilting the axis of rotation of the tube and the focusing element, the beam-splitting prism of the cube 8 installed in the central hole of the mirror and the prisms At the end of the hollow axis 2, opposite to block 7, a column 11 is installed, containing a prism 12 and a diverging lens 13 enclosed in a common frame with the possibility of two-sided tilt for alignment, the reflecting prism 12 being located in the focal plane of the objective of the sighting tube, and the light guide f connected to the lens 15 attached to the axis of the light flux coming from the laser radiation source 16, inside the theodolite column or outside it, for example on a tripod. The device works as follows. When the axis of rotation of the tube is horizontal, the light flux from the object after passing through the lens 3 falls on a fixed mirror and reflects it onto the compensator mirror 5, reflecting from which it is directed through the central hole k of the mirror to the prism - cube 8, and from there, after changing its direction by 90, is directed through the prism wrapping system 9 onto the filament grid viewed by the eyepiece 10. In the case of inclination of the axis of rotation of the pipe 2, the suspension mirror 5 of the compensator remains vertical and shifts to the vertical filament the grid is the point of the image of the object that corresponds to the vertical collimation plane of the device. For the light indication of this point of the object, the laser radiation source 16 is switched on and the light flux, focused by the lens 15, is guided by the light guide T and the prism 12 to the diffusing lens 13 and the prism - cube 8, then to the compensator mirror 5 and having reflected from it and the mirror is guided through lens 3 to the object of sight. Due to the presence in the optical system of a single focusing element, for example, a movable mirror 5 on a grid of filaments of a pipe viewed by an ocular 10, an image of an object indicated by a focused laser beam is obtained. The use of the proposed device will make it possible, along with observing the object with a sighting tube, free from tilting its axis of rotation, to simultaneously light the target and control its marking in the vertical collimation plane of the tube, which is especially important when surveying the installation of building structures. maintaining tunneling machines and other works, allows to increase their quality and efficiency. Claims: Mirror-lens telescope tube containing lens, horizontal axis of rotation, fixed mirror with a central hole, movable mirror, reticle, eye lp, characterized in that, in order to improve the accuracy and performance of measurements by performing a light indication of the observation point a laser beam with simultaneous observations of correct marking, a beam splitter is inserted into the mirror-lens sighting tube, a prism is a cube and a laser radiation source, the horizontal axis of rotation is A hollow mirror, with a fixed mirror with a central hole located at an angle kS to the line of sight, a movable mirror located perpendicular to the horizontal axis of rotation at half the focal length of the lens in a hollow axis of rotation, the beam splitting prism — a cube located in the central hole of the fixed mirror The optical center of which is aligned with the intersection point of the sighting axis and the axis of its rotation, and the laser illumination is installed with the possibility of summing the radiation into the hollow axis of rotation of the tube. Sources of information taken into account in the examination 1. Zatsarny AV Automation of high-precision engineering and geodetic measurements, 1976, Nedra, p. I. 2. Authors certificate of the USSR N 136897, cl. G 01 C 1 / 02.06.07.60 (.prototype). / x  ./g