SU877458A1 - Two-channel optical device - Google Patents

Description

The invention relates to the class of devices intended for optical observation and research of various kinds of objects, in particular astronomical.

Two-channel optical devices are known, the channels in which are made as independent structural units with parallel optical axes.

A two-channel optical device (telescope) is also known that contains the main and secondary mirrors of the first channel and the main mirror with the optical system of the second channel sequentially located on the optical axis.

A disadvantage of the known two-channel optical devices is their complexity, due to the fact that the channels are structurally made as independent nodes, each of which has its own optical elements. The difficulty is also associated with the inconvenience of parallelizing the optical axis of the channels and maintaining this parallelism under the conditions of changing external influences (wind loads, temperature, etc.). Violation of parallelism ultimately leads to a decrease in the accuracy of the device.

The purpose of the invention is to simplify the design of the device.

The goal is achieved in that in a two-channel optical device containing the main and secondary mirrors of the first channel · * · la and the main mirror with the optical system of the second channel, sequentially located on the optical axis, the main mirror of the second channel is made on the back side of the secondary mirror of the first channel.

In addition, in order to operate the channels in different spectra, the opposite sides of the secondary mirror of the first channel are made with coatings for different spectral ranges.

The drawing schematically shows the proposed device.

The main mirror 2 of the first channel is fixed in the housing 1, the optical system of which is made, for example, according to the Cassegrain scheme. In the focal plane of the optical system there is a receiver 3 of radiant energy of the first channel. On the optical axis there is a secondary mirror 4, facing the mirror side 5 to the mirror 2. The opposite side 6 of this mirror 4 is made as the main mirror of the optical system of the second channel. The coating of the sides 5 and 6 of the mirror 4 may have different working spectral ranges. The optical system of the second channel is made, for example, according to Newton’s scheme with a flat mirror 7. In the focal plane of the optical system of the second channel, a radiation detector 8 is located. The receivers 3 and 8 can be in the form of photographic materials or eyepieces, and, therefore, the proposed two-channel optical device can be used for photographing or visual observation.

The device operates as follows.

The optical axis is aimed at the object under study (not shown) .With the help of mirrors2,4 and 7, images of the object are simultaneously formed on the radiant energy receivers 3 and 8 of the first and second channels (the path of the rays in the first and second channels is shown in the drawing). In this case, the spectrum of the received radiation can lie in different spectral ranges of 5.

The proposed technical solution allows to simplify the device ·, since it does not contain a separate structural unit. In addition, the participation of 10 of the same mirror in the formation of images of both the first and second channels simplifies the alignment and maintenance of the parallelism of their optical axes and increases the accuracy of the device. .

Claims (2)

The invention relates to a class of devices intended for optical observation and investigation of various kinds of objects, in particular astronomical objects. Two-channel optical devices are known, the channels in which are made as independent structural units with parallel optical axes. Two-channel optical channels are also known. device (telescope), co. Main and secondary mirrors of the first channel, which are consistently located on the optical axis, and the main mirror with the optical system of the second channel. A disadvantage of the known two-channel optical devices is their complexity, due to the fact that the channels are structurally designed as independent nodes, each of them. These have their own optical elements. The complexity is also associated with the inconvenience of parallelizing the optical axes of the channels and maintaining this parallelism under conditions of varying real effects (wind loads, temperature, etc.). Violation of parallelism, ultimately, leads to a decrease in the accuracy of the device. The purpose of the invention is to simplify the design of the device. The goal is achieved by the fact that in a two-channel optical device containing sequentially located on the optical axis of the first channel and the main mirror with the optical system of the second channel, the main mirror of the second channel is made on the reverse side of the secondary mirror of the first channel . In addition, in order to operate the channels in different spectra, the opposite sides of the secondary mirror of the first channel are made with coatings for different spectral ranges. The drawing schematically shows the proposed device. The main mirror 2 of the first channel is fixed in the housing I; In the outer plane of the optical system there is a receiver 3 of the radiant energy of the first channel. On the optical axis is located: BUT the secondary mirror 4, which is turned by the mirror side 5 to the mirror 2. The opposite side 6 of this 4 is made as the main mirror of the optical system of the second channel. Coating the sides 5 and 6 of the mirror 4 I can have different working spectral ranges. The optical system of the second channel is made, for example, according to the Newton scheme with a plane mirror 7. In the focal plane of the optical system of the second channel there is a receiver 8 of radiant energy. Receivers 3 and 8 can be in the form of photographic materials or oculars, and, therefore, the proposed two-channel optical device can be used for photographing or visual observation. The device works as follows. The optical axis is pointed at the object under study (not shown). With mirrors. 2.4 and 7 images of the volume are simultaneously formed on receptions 3 and 8 of the radiant energy of the first AND second channels (the course of the rays in the first and second channels is shown in the drawing). In this case, the received radiation can lie in different spectral ranges. The proposed technical solution allows to simplify the device, since it does not contain a separate structural unit. In addition, the participation of the same mirror in the formation of images of both the first and second channels simplifies exposing and maintaining the parallelism of their optical axes and improves the accuracy of the device. . Claim 1. A two-channel optical device containing successively on the optical axis the main and secondary mirrors of the first channel and the main mirror with the optical system of the second channel, characterized in that, in order to control the device, the main mirror of the second channel is plotted on the basis of the secondary mirror of the first channel. 2. The device according to claim 1, characterized by the fact that, in order to operate the channels in different spectra, the opposite sides of the secondary mirror of the first channel are made with coatings for different spectral ranges.