SU1764019A1 - Reflector telescope - Google Patents

Abstract

The invention relates to optical instrumentation and can be used primarily in reflector telescopes of the Newton and Cassegrain systems. The aim of the invention is to accelerate the search for an object, eliminate parallax and simplify the design. In the reflector telescope, the seeker lens is mounted on the axis of the main mirror in the zone shielded by the auxiliary mirror, the auxiliary mirror being installed with the possibility of rotation and fixation in two positions, in one of which the image in the field of view of the ocular is created by the seeker lens, and friend - the main mirror. Search and monitoring are performed through one eye. The proposed reflecting telescope makes it possible to eliminate the pipe and the eye of the finder, eliminate parallax and reduce the time spent on alignment of the optical system. 1 il.

Description

The invention relates to optical instrumentation and can be used primarily in reflector telescopes of the Newton and Cassegrain systems,

Newton's system-reflecting telescopes are known, having a tube, a main and auxiliary mirror, a telescope eye and a finder or sight device mounted on the tube. For example, a telescope-reflector type Alcor. (one).

A disadvantage of the known reflecting telescopes is that the search and observation of objects is carried out through two autonomous optical systems, which leads to inconvenience and loss of time during observation, the appearance of parallax, and also the excessive cost of manufacturing and adjusting reflector telescopes,

The closest in technical essence is the Misar telescope (2).

The prototype reflector telescope has a tube, the main and auxiliary mirrors installed in it, the seeker lens, the telescope's eye and the seeker's eye.

The disadvantage of the prototype is the disadvantage of use, the complexity of the design and the possibility of parallax due to the presence of two autonomous optical systems - the main telescopic for observation and the additional one - a finder with a large field angle to search for the object of observation.

The aim of the invention is to accelerate the search for an object, eliminate parallax and simplify the design.

The goal is achieved by the fact that in a reflecting telescope containing a main and auxiliary mirror, an eyepiece and a finder lens, the finder lens is mounted on the axis of the main mirror in the zone shielded by the auxiliary mirror, and the auxiliary mirror is installed with the possibility of rotation and fixation in two positions , in one of which an image in the field of view of the ocular is created

WITH

with

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lens seeker, and in the other - the main mirror.

New in the proposed is:

- placement of the seeker lens on the axis of the main mirror in the area shielded by the auxiliary mirror;

- the auxiliary mirror is rotatable with fixation in two positions, in one of which the image in the telescope's eye is created by the seeker lens, and in the second - by the main mirror.

The drawing shows an embodiment of the optical scheme of the proposed reflector telescope based on the Newtonian system.

The reflecting telescope consists of a tube 1, closed at one end, embedded inside the tube at its closed end of the main mirror 2, an auxiliary mirror 3 fixed on axis 4, which provides rotation of the auxiliary mirror relative to its original position at 90e. The auxiliary mirror is fixed in the initial position of the P-search and H-observation after turning through 90. Perpendicular to the optical axis of the main mirror in the zone shielded by the auxiliary mirror, a finder lens 5 is mounted on the side of the open end of the tube. An eyepiece 6 is mounted on the side surface of the tube.

Telescope reflector works as follows.

Before conducting observations, the open end of pipe 1 is directed towards the object of observation. At the same time, a beam of light from the object of observation passes through the lens of the searcher 5 and hits the reflecting surface of the auxiliary mirror 3, fixed in the P-search position, reflected from which it hits the eyepiece 6, where it is considered to accurately point the reflecting telescope at the object of observation.

After the accurate guidance has been completed, the sub-mirror 3 rotates to the H-position. In this case, the beam of light from the object of observation falls on the main mirror 2, reflected from which, falls on the reflecting

the surface of the auxiliary mirror 3, which directs the beam of light into the ocular 6. The presence of the rotary auxiliary mirror allows searching and observing the object through one eye. With

The position of the auxiliary mirror 3, the proposed set of structural elements of the reflecting telescope, forms the optical system of the searcher with an increased several times as compared with

telescope angle of view. With the position H of the auxiliary mirror 3, a telescope is formed with a low viewing angle.

The proposed design improves operability and reduces time wasted on observations. The search and observation is performed through one eyepiece, which will make it possible to exclude the pipe and the eye of the seeker, eliminate parallax and reduce the time spent on adjusting the circuit

The proposed technical solution is universal and can be used in optical schemes of telescopes-reflectors of the systems of Newton, Cassegrain and others.

Claims (1)

Claims of the invention A reflecting telescope comprising an eyepiece, a main and auxiliary mirror and a seeker lens, characterized in that that, in order to accelerate the search for an object, eliminate parallax and simplify the construction, the searcher lens, auxiliary and main mirrors are mounted on the same axis, while the searcher's lens is located in front of the auxiliary mirror, and the auxiliary mirror is installed with the possibility of its rotation so that The positions of the image are formed in the field of view by the eyeglass with the seeker lens, and in the other by the main mirror.