DE351831C - Tellurium - Google Patents

Description

Tellurium. The invention relates to the model of a cerebral hollow sphere (Tellurium), which each local horizon as a plane so to the ecliptic plane and brings to the sun in all positions and movements, as this in nature in the course of the year happens.

An exemplary embodiment is shown in the drawing in FIGS. 1 to 3 and should be described here.

A circular map section E or is used Greubel's horizon disc (D. R. G. 1I. 65051: 2) with a diameter of about 10 cm the relevant place of residence or observation in the -Titte. The disk E consists made of sheet metal, cardboard or wood (plywood). It is set up to turn in a circle that when it rotates it always forms the angle which it - with regard to the position of the place of residence on earth to the axis of the earth, z. B. for Haßfurt 50 ° (Fig. 3). The angle corresponds to (learn the latitude of each observation site. The whole Circular disk E therefore has a semicircular disk in the middle of its back as a carrier P (Fig. 3). This is arranged at right angles to it in the direction of the north-south line and - contains the radial holes for attaching the carrier to the vertical -Axis G according to the latitude. The stand D of the disk E has a circular one Dial with a diameter of 16 cm, for example, to read the time (a4 Sttin (len) al) and determine sunrise and sunset for any place on earth to can. The whole facility serves to track the course of the year around the earth around the sun and their daily rotation on their own horizon (instead of only with the i globe and at most with a very small horizon marked on it) also with a large local horizon measuring 10 to 40 cm in diameter, which is called complete map is designed to represent. In nature there are many for The appearance of the comparison is spatially and temporally separated so far from each other that a comparison is not possible. Consider e.g. B. four positions of the horizon of a place at sunrise at the beginning of the four seasons in such a way that four horizons can be set up at the same time and remain visible. As an illustration The twelve pillars or months are particularly useful for these differences, which in Fig. i with the numbers i to 12 and in Fig. 2 with the numbers 6 to 12 are. Simply carrying the horizon around in a circle around one in the middle of the Schulzimmer's imagined sun could never be executed correctly, even less would thereby arouses correct ideas. Quite correct situation of the horizon plane in contrast to the ecliptic and even directions to the sun that can be read off in degrees by turning the above-described horizon support on the twelve named pillars i to -i2. From the floor plan in Fig. 2, the installation distances and are off the elevation of the columns can be seen in the elevation in Fig. 2. The connection of the column ends a line results in an angle of 231 /. ° with the base line accordingly the obliqueness of the ecliptic.

Such a model can e.g. B. have the following shapes and dimensions. The Telluriuin is in its central part (slightly more than the space between the both tropics) on a table surface in the position with a vertical celestial axis and horizontal equator, e.g. B. with .40 cm largest diameter and 2-311.-. cm height Marked only by a few parts in the middle so that the whole remains transparent. The inclined plane B of the ecliptic shown in Fig. 2 rests in its middle Part on a central post A with an oblique section of 231 °, ° inclination from north to the south. The plane of the ecliptic is formed by twelve supports BI-BI 'of disks outside of the pillar circle (Fig. i) through the corresponding constellations of the zodiac indicated on the inside, while on the outside on the same discs the names of the twelve Months are appropriate. The ecliptic plane can also be created by the so-called guide rays the sun (r2 radii to the center of each animal circle image) by means of wooden strips and their circumference shown as a wooden hoop or with plywood in the shape of an ellipse - between Center and edge may be cut out - marked. The sun C (Fig. 2) is either a light or a gold-plated nail head.

A globe I (Fig. 2) with a diameter of 10 cm and also the above-mentioned horizon disc map E with its Carrier D (Fig. 2 and 3) - summer position - in all main positions of the zodiac set up and rotated in a circle. The different high twelve are used for this Columns i to 12, which are arranged in a circle, as Fig. I shows. These pillars are screwed into openings of a floor board so that they stand in place. The edge corners are based on the twelve radii of the ecliptic plane (monthly positions of the horizon carrier).

Of course, ingredients or improvements can still be added be e.g. B. electric light as the sun for a precise illustration of the lighting conditions on the globe during the described hike or a pointer and guide beam (wire or thread) running from the sun in the center of the ecliptic plane to the center of the horizon plane aims and at the edge of the circle the number of degrees of morning and evening distance, Starting from east and west points, counting allowed, finally the addition of the 14londes to explain its light forms, etc. Furthermore, the idea can also be in the greatest Scale in specially constructed buildings.

Claims (1)

PATENT CLAIMS Tellurium with an ecliptic inclined at an angle of 231 °, characterized in that a number of columns of different heights (i to i2, Fig. i) around a column (A) marking the sun (C) and the plane of the ecliptic (B) in a circle are arranged around, so that a globe embodying the earth (1) or just the home horizon representing rotatable map disc (E) for the purpose of illustration the earth position can be placed on it at different times of the year.