DE2531767A1 - GRID FOR ASTRONOMIC TELESCOPES - Google Patents

Description

JENOPTiK JENA GmbH

29 · 10th 1974

Lattice body for astronomical telescopes

The invention relates to a grid body for astronomical telescopes with a central part and two outer parts, which are each arranged on one side of the middle part and connected to it by means of stable rods, each of which two attached to each part at a fastening point, the fastening points on the parts at regular intervals arranged and the fastening points on the outer parts opposite the fastening atelles on the middle part by half the angular division are offset.

As is known, astronomical telescopes are designed as tubular and lattice bodies. The tubes are generally called viewed as more stable and more favorable in terms of lighting technology than grid bodies. But they have the lack of greater weight and the poor temperature control, which leads to air currents in the pipes that negatively influence the image quality. Lattice body can be lighter, thermally cheaper and largely without Suction effect can be produced because an exchange of air can take place in almost all places and in all directions, they are less β ti for the same weight! if as pipes.

The cross-section of the known astronomical telescopes can have the shape of a circle or a square. These Cross-sectional shapes are due to their rotationally symmetrical or rectangular shape technologically and statically easy to manufacture and manageable. It has been shown, however, that the round or square shape of the cross section taking into account

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the mostly large masses does not guarantee an exactly stable tubular body or that the structural and material requirements, taking into account the high level of accuracy to be achieved Expenses are very high. Despite the high effort, deformations occur on and in the Pernrohrkörper, which in the Use of the telescope are often very annoying.

It is therefore the object of the invention to design a grid body for astronomical telescopes so that one as possible g.roSe rigidity and .accuracy at the lowest possible constructive and material costs is achieved.

This object is achieved according to the invention in that the same odd number on the middle part and on the spring outer part of fastening parts, preferably three, is provided and that at least the central part has the shape of a polygon in cross section at right angles to the geometric axis of the lattice body with an odd number of corners, preferably in the shape of a triangle. The middle part is advantageous in the essentially designed as a versatile pyramid with a rectangular base, between the larger triangular lateral surfaces of the middle part, which intersect the geometrical axis of the grid body, a continuous recess arranged and a rigid connection to a carrier is provided on the rectangular base. By using a polygonal construction with an odd number of corners, in particular a triangle, the stability is significantly increased and the design effort is significantly reduced.

Two exemplary embodiments of the invention are given below

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explained in more detail on the basis of the schematic drawing. Show it: Fig. 1 shows a grid body in elevation, Pig. 2 the same grid body in the side elevation, Pig. 3 the same lattice body in plan, Pig. 4 shows a section through the same grid body

along line A-A in Pig. 1, Pig. 5 a second grid body in side elevation, Pig, 6 the second lattice body in plan. In the pig. 1 to 4 are two outer parts 1; 2 each with six rods 3 to 8 or 9 to 14 firmly connected to a central part 15. The connection happens in the Way that always two rods on the same part 1 or 2 or 15 have the same fastening point (same node) 16 or 17 or 18; 19; 20 and that the nodes of the rods 3 to 8 and 9 to 14 on the central part 15 in lie on the same plane.

The shape of the middle part 15 is similar to a straight, rectangular, transverse pyramid, in which several Corners and the tip are cut off appropriately. That Central part 15 (like the outer parts 1; 2) has a cylindrical opening, the geometric axis of which coincides with the optical Axis 0-0 of the telescope essentially coincides and a deflecting mirror coaxially with it on a holding cross 22 is arranged. Bas very stiff middle section 15 is in a corresponding recess 24 with a likewise as rigid as possible, protruding declination axis 25 firmly screwed.

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The outer part 1 is designed with a larger number of corners (e.g. twelve-sided or circular) for aesthetic reasons carries in its cylindrical opening a retaining cross 26 with a counter mirror 27 arranged coaxially to the optical axis 0-0 (or in the case of other optical systems of the telescope a cassette device or other radiation receiver).

The main mirror 28 of the telescope is mounted in the outer part 2, which corresponds to the outer part 1 in outline, which, together with the counter mirror 27 and the deflecting mirror, the astronomical object in question tn the declination axis maps

The force-absorbing pieces of the outer parts 1 or 2 or the middle part 15 are dimensioned so that the ring pieces between the three respective nodes 16 or, 17 or, 18} 19; 20 behave like stiff bars from truss associations. As a result, the entire lattice body is designed as a stable, extremely light space framework structure consisting only of triangles, which with suitable dimensioning of the rods 3 to and 9 bt «14 harmful deflections of the telescope practically completely ruled out allowed

In FIGS. 5 and 6, a lattice body door building on the five-o'clock is sketched. There are two outer parts 29 and 30 each connected to a middle part 33 with the help of five belt bars 31 and 32 as longitudinal force-transmitting members while the outer parts 29 and 30 are used to accommodate and support the main mirror 34 and the counter mirror 35 , the middle part 33 is rigid in a recess 36 with

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connected to a not shown Γeklinationsachseflansch. The transmission and forwarding of transverse forces that act on the grid body is controlled by the diagonal bars 37; 38; 39; 40; 41; 42 taken over. Mutual support the chord bars 31 are used by the two intermediate levels 43 (cross braces); make this possible through a suitable choice of their spacing, that the diagonal bars, all of which are biased to increase the rigidity of the grid body on train must cross at a statically favorable angle.

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Claims (1)

- 6 claim Lattice body for bxI ronomic telescopes with a central part and two outer parts, each of which lies on one side of the central part and is connected to it by means of stable rods, with two rods attached to each part at a fastening point, the fastening points on the parts at regular intervals arranged and the fastening points on the outer parts are offset from the fastening points on the central part by half an angular division, characterized in that the same odd number of fastening points, preferably three, is provided on the central part and on each outer part and that at least the central part is at right angles to the cross-section geometrical axis of the mesh body, the shape of a polygon with an odd number van corners, preferably in the form of a triangle, has. 2978 G 3517 609821/0239 Blank page