SU1679455A1 - Multichannel surveying device - Google Patents

Abstract

The invention relates to optical instrumentation and can be used in multi-functional optical devices when sighting an object. The goal is to improve the accuracy of matching the optical axes of the channels. The multichannel device contains several observation channels containing objectives 6 and a luminous mark formation channel containing a radiation source 1 and a collimator 2. A reflector 5 in the form of a prism and an optical wedge 4 located between the translucent mirror 3 and the reflector are placed in the observation channel, corresponding to half the aperture of the reflector. 1 il.

Description

The invention relates to optical instrumentation and can be used in multi-functional optical devices when sighting an object.

The aim of the invention is to improve the accuracy of matching the optical axes of the channels.

The drawing shows the proposed device.

It contains the radiation source 1, the collimator 2, mounted coaxially with the radiation source, the objective 3, whose optical axis is located at an angle of 90 ° to the optical axis of the collimator. At the intersection point of the optical axes of the collimator 2 and lens 3, a semi-transparent mirror 4 is installed at an angle of 45 ° with respect to the optical axes. On the optical axis of lens 3 behind the semi-transparent mirror 4 there is a reflector 5, and between the latter and

translucent mirror 4 - additional optical wedge 6, overlapping part of the aperture of the reflector 5.

The device works as follows. The collimator 2, which is coaxial with the radiation source 1, forms a parallel beam of rays 7 and 8. which are partially reflected from the flat transparent mirror 4 and pass through the reflector 5. Moreover, the rays 8 after passing through the reflector 5 fall on the optical wedge 6 and the deflection them by the angle / relative to the optical axis. Next, the beams 8 pass through the semi-transparent mirror 4 and the lens 3 which forms the image 9 of the source 1 in the analysis plane 10 in which the receiving device is located. At the same time, the beams 7 are deflected by an optical wedge b by an angle f} relative to the optical axis and, PASSING THEN

About vj

About 4 SL SL

through the reflector 5, the translucent mirror 4 and the lens 3, form the image 11 of the source 1 in the plane of analysis 10 of the receiving device. Thus, the position of the optical axis of the channel containing the radiation source and the objective is defined as the midpoint of the segment between two images 9 and 11. x

At the same time, the rays 12, reflected from the object of sight, reflected from the semi-transparent mirror 4 and the passage through the lens 3, build the image 13 of the object being sighted in the analysis plane 10 receive-. device. The image 13 constructed by the rays 12 determines the position of the optical axis of the lens 3. The coupling of the optical axes of the collimator 2 and lens 3 occurs when the image 13 is aligned with the middle of the segment between two images 9 and 11 by moving, for example, lens 2.

Claims (1)

In this way, the axes of the channel forming a light brand are combined with any of the observation channels. Invention Formula A multichannel observation device containing several channels, including a lens, a receiving device, a translucent mirror and a reflective element, characterized in that, in order to improve the accuracy of matching the optical axes of the channels, a channel for the formation of a light mark containing the source of radiation is additionally introduced a collimator optically coupled to a receiver; in this case, an optical wedge between the translucent mirror and the reflector and having dimensions corresponding to half the aperture of the reflector, and the reflector is made in the form of a prism,