DE3828413A1 - Optical system of a refractor having short focal length - Google Patents

Abstract

The invention is in the field of optics and relates to shortening the focal length of refractometers (refractive telescopes, spectives) while maintaining the quality of the imagining compared to conventional spectives. The focal length was shortened by inserting a pinhole diaphragm on the optical axis at a correspondingly effective optical distance from the objective as well as a Barlow lens arranged behind the pinhole diaphragm. A precision achromat was used as objective, with a diameter of 102 mm, a pinhole diaphragm having an outer diameter of 20 mm, inner diameter of 8.5 mm. A Barlow lens having a diameter of 20 mm and a magnification factor of 3 is arranged behind the pinhole diaphragm on the optical axis and is arranged at a distance of 27 mm with respect to the pinhole diaphragm. The pinhole diaphragm itself is located at a distance of 303 mm with respect to the objective. The finder (view-finder) objective can be used in variable ways. For the model NGC 205 a finder objective having 30 mm diameter and a finder eye-piece having a focal length of 12 mm was selected. By arranging the pinhole diaphragm at a distance of 303 mm with respect to the objective and, arranged behind it, a Barlow lens at a distance of a further 27 mm, the focal length could be shortened to 495 mm for a resolution of 1.45 seconds of arc in the case of the weakest star 11. This corresponds to the focal length being shortened by more than 50% with respect to comparable refractometers, for example the refractometer Tasko model 10K. Regarding the arrangement ... Original abstract incomplete.

Description

Information on the genus:

The invention relates to a pinhole, the one in front of a Barlow lens in a spotting scope or refractometer to avoid the edge rays of the lens is set, whereby the spotting scope or Re fractometer shorter, lighter and trans becomes more portable with the same performance conventional spotting scopes or refractomes tern.

State of the art:

Conventional spotting scopes or refractometers are characterized by a large Brennwei For example, the 80th mm refractor from Tasko Model 10 K die Focal length 1200 mm with a resolution of 1.5 ″ with the weakest star 11.3 (according to Tasko).

A shortening of the focal length could can only be achieved so far that one redirects the incident Lich Perform within the refractor te, what about the development of Spiegelelte copen led.

Critique of the state of the art:

According to the current state of knowledge an optimal resolution can only be achieved chen by either at a refracto meters of conventional type a large burning widely accepted, what to led to such refractometers very much are long or a shortening of the "Tube" was brought about by the fact that redirected the incoming light rays were about mirrors, what about development of the mirror telescope. Latter Mirror telescopes are being manufactured very complex and correspondingly expensive.  

Task:

The invention was based on the object using the same lens, which is the case with conventional refractometers was used to shorten the Bring focal length under equal ensuring the quality of the Magnification, especially resolution as well as the recognizability of the weakest Sterns, in order to achieve that a Shortening conventional refractometers takes place to a considerable extent, the resemble such a shortening of the Tu bus of a refractometer can be reached can without relying on the use of Mirror or deflect prisms must be fen.

The task was carried out by the Performance of the Tasko 80 mm refractor - Model 10 K - assuming which egg has a focal length of 1200 mm Resolution of 1.5 ″ with a weakest Star of 11.3 (according to the manufacturer lers).

Solution:

The object was achieved by the construction of a short focal length Refractor solved that as in conventional refractometers a precision sionsachomat was used with a Diameter of 102 mm and a Barlow lens with a diameter of 20 mm and 3x magnification, before which at a distance of 27 mm in the direction of the lens on the optical axis a pinhole with an outer diameter water of 20 mm and an inner diameter of 8.5 mm and the Pinhole at a distance of 303 mm is arranged to the lens.

The refractometer can also be used with a variable viewfinder lens be equipped. For the "Model NGC 205" a searcher eyepiece with an egg is recommended 9 mm eyepiece (magnification  132 ×), 25 mm (magnification 47 ×) and 37 mm (magnification 32 ×).

By placing the Barlow lens in front of the opti axis at a distance of 27 mm a pinhole in the dimensions mentioned was set, in one Distance of 303 mm to the eyepiece could once shortened the focal length compared to conventional refractometers from e.g. B. 1200 mm to 495 mm can be achieved where the resolution is 1.45 for egg a weakest star of 11 and one 120 times magnification. The insertion the pinhole and the Barlow lens not only a significant shortening the focal length, but also a stop the distracting edges of the object tivs, which improves the quality of the illustration or magnification is identical to that Image quality and magnification of a refractometer with a focus 1200 mm, comparable to the 80th mm refractor from Tasko - model 10 K -.

achievable advantages:

The advantages achieved with the invention consist of a considerable shortening the focal length and thus the "tube" of the Refractometers with the same performance and Quality compared to conventional ones Refractometers. The cost of the use of the pinhole and Barlowlin It is extremely low in comparison to the cost of manufacturing a tube of a conventional refracto meters with a focal length of 1200 mm. Add to that a shortening of the tube - as already mentioned - only through the construction of a mirror tele skopes is possible. Mirror telescopes are very expensive to manufacture he and secondly also in maintenance, as the mirrors periodically need to be re-steamed to as flawless a picture as possible guarantee.

Claims (2)

Generic term: Optical system of a short burn wide refractor with in the reverse arrangement of the optical axis the pinhole and Barlow lens, Characteristic part: characterized in that a pinhole is mounted in the tube of a refractometer on the optical axis behind a precision somatic machine at a correspondingly optically effective distance (depending on the diameter of the lens) behind the at a correspondingly optically effective distance (depending on the diameter of the lens ) a Barlow lens is mounted, which causes a reduction in the focal length compared to conventional refractometers with the same resolution, magnification and recognizability of the weakest star.