DE1731751U - DEVICE FOR DETERMINING THE ASCENDENCE AND DESCENDENCE VALUES. - Google Patents

Description

BL443205-1 & L

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Johannes Vehlow, Berlin-Wilmersdorf, Koblenzer Strasse 10

New description and protection claims for registering for use

Armillary sphere.

The subject of the present invention relates to an armillary sphere for the determination of HA. (Rekta3cension) and OA. (Obliqua ascendio) at the equator and their corresponding Horizon and meridian intersections on the ecliptic, adjustable for any time and for all polar heights (latitudes) of the earth.

Armillary spheres have already become known which however, although they are also connected with the circles known per se and sometimes with a globe, not for Determination of the values are suitable, which can be determined by the subject matter of the present invention. Mostly they are armillary spheres that are used for object lessons or completely different purposes, e.g. finding star words, their declinations, right ascensions, etc. or nautical Serve purposes. The present invention is more for astrological purposes, that is, for astrological determination Values, especially intended for the jiativity calculations, which are otherwise only possible through lengthy spherical trigonometric angle calculations. First of all, here is the application possibility for all widths from Ifordpol to given to the South Pole, which up to now could not be carried out by any of the known armillary spheres.

The idea of the invention consists in the known per se Circles in connection with the globe through corresponding adjustability to bring them into harmony with one another in such a way that all necessary and different kinds of expertise, the for the nativity calculations are needed in a simple Way to be determined.

An exemplary embodiment of the subject matter of the invention is illustrated in the drawing. Fig. 1 shows the armillary sphere in a diagrammatic representation, Fig. 2 the adjustable manufacture

dian and horizon circles, and Fig. 3. a detail (gripper with screw connection).

The apparatus consists of the following parts: Metallgeateil, consisting of base plate 1, which merges into the equator 3, and rubber buffers 2 as feet. On the base plate is the base 4 with the ^{G-lobua axis 5 firmly embedded at an angle of 23 ° 27 f} . This globe axis holds both the rotatable globe body 6 and the meridian circle?

Bine screw 91 attached to the lower rotary bushing that the setting of the meridian circle 7 at the equator 3 cannot shift.

The equatorial circle has a division of 10 in 24 hours with divisions of 15 and 5 minutes each.

Vi V *

At Q and opposite at 12 of the equator circle, at an angle of 23 ° 27 ^f, the ecliptic circle 11 is embedded in the aquator circle at 11a in such a way that both circles have the same clear width, so that the meridian circle 7 can rotate smoothly within this border . The ecliptic circle 11 is held in its prescribed position by the equator 3 at the points of intersection.

The Skliptikkreia 11 has a division 20 into 360 ° with subdivisions of 30 °, 5 ° and 1 °. Each sector of 30 ° is provided with the associated zodiac symbol 20a. The meridian circle 7 shows a scale 12 in degrees from 0 ° to 90 ° north, on which the latitude or pole height of the relevant location on earth for which the setting is to be made can be fixed. This is done by means of a displaceable mandrel 16 and 17a, which is attached to a gripper 13 and points upwards and downwards. The gripper 13 with screw button 13a is firmly connected to a slide rail 14, which the gripper presses on the outer hand of the meridian circle, holds it on the latter, and lets it slide back and forth by displacement. At the two ends of the slide rail 14, at a distance of 90 ° to the right and left of the shift button 13a, the horizon circle 15 is fixed at a right angle to the slide rail 14.

Round, bo that the horizon circle 15 participates in every shift on the meridian circle 7.

The horizon circle 15 automatically shifts its position Pole height adjustment on the scale 12 of the meridian circle 7. The second horizon circle 15 is on the outer edge with a line of sight 15a Mistake. The slide rail has the same line of sight 14 on her back. The slide rail 14 is at the same time a hollow rail (fT), which prevents slipping off the meridian circle 7 .

The armillary sphere has the following four main circles - equator circle 3
Ecliptic circle 11
Meridian circle 7
Horizon circle 15 ~

Function of the apparatus

About the position of the horizon and meridian axes for any To obtain time and for every place on earth and its fixation on the equator and on the ecliptic, as e.g. in the astrobiological Practice 3 is very much needed, 3ei the practical application is explained using an example shown in Figure 1.

Time : September 12 (any year) 9:56 p.m. 2iin . Place ; Berlin (= pole height 52 ° 3O ^r + Br.)

1. First set the polar height of Berlin with the setting button 13 on the scale of the meridian circle 12 at 52 ° 3O *.

2. Now calculate in the known way the "culmination point at the equator for the above time (9/12/54, 21 ^h 56 ^m , Berlin). This gives; 21 ^h 14a.

3. Set the line of sight 14 of the meridian circle at this time 7 at equator 3 and tighten the locking screw at the bottom so that no shift can occur.

4. All 7/inches have now been formed automatically and the points of intersection can be read off both at the equator 3 "and at the ecliptic 11, as finished results. It shows the line of sight of the upper meridian at equator 3 with the culmination point 19

Claims (3)

PA443206 * -ae.5S. At the ecliptic circle 11, the line of sight 14 of the meridian circle 7 at arrow 20 intersects the ecliptic 11 at the 16th degree of the zodiac sign Aquarius (as) and here forms the so-called zenith point, while the lower meridian at 16 ° Leo (Q), i.e. in the opposite one Degree and sign of the ecliptic Ii shows the level of Il ad ir. The horizon circle 15 with its line of sight 15a at the equator 3 shows the obliqua ascensio of the eastern horizon 17 with 3 14a, while the line of sight of the Eorisontkreisea 15a at arrow 18 intersects the ecliptic in 250IO * of the zodiac sign Gemini, al3 of the ascending degree of the eastern horizon Ecliptic, the so-called carrion sender. Opposite to the ecliptic 11, the horizon circle 15 intersects with its line of sight 15a the zodiac sign Sagittarius Cm *) at 230IO 'and forms the so-called descendant, the descending degree on the western horizon. The point of intersection of the horizon circle at the western equator shows the corresponding ascending oblique of the descendant. These values can therefore be obtained in next to no time by simply reading them off. For locations in southern latitudes, the southern pole height of the location can also be set in the northern hemisphere. In such cases, the calculated culmination point should be increased by 12 hours - and the upper meridian should be set to this equatorial value. The obtained mountain circle symbol values at the ecliptic then only have to be reversed into the counter-symbols - and the results sought for southern latitudes are obtained. Protection claims 1. armillary sphere, characterized in that using known astronomical circles to the Brdglobus the mutual displacement of the circles is such that the Meridian circle (7) rotatable around the globe axis (5,8) within of the equatorial circle (3) and the ecliptic (ll) on the hour scale of the equator (10) can be set for any time of the day or night. 2. Armillary sphere according to claim 1, characterized in that the horizon circle (15, 15a) is formed by a circle on the meridian (7) attached, displaceable and adjustable device, for example consisting of a gripper '(13) with a mandrel (16,16a) and a slide rail (14) which spans the meridian circle (7) to 90 ° to the right and left of the gripper (13) and its two ends hold the horizon circle (15) and is firmly connected to it at the right angle, 30 that when the gripper is set to the width or pole height of the desired location on the globe, the horizon circle is simultaneously in the correct position (sum place ), which then, by means of its line of sight (15a) attached to the bench, enables reading of the intersection points that are forming both on the equator (17) and on the ecliptic (18), while the line of sight of the meridian circle (14), on the other hand, the corresponding intersection point on the equator (19) shows and the point of intersection (20) is formed at the ecliptic and the degree of the zenith point within the zodiac sign can be recognized. 3. Arraillarphere according to claim 1 and 2, characterized in that the globe (6) with its axis (5) and the rotatable Meridian circle (7) together with its displacement device (13> 14) and the horizon circle (15) attached to it in this way within the two rigid circles equator (3) and ecliptic (11) let that ring system turn on the scales of both Circles for; every time and place can be set and the finished results, i.e. ascendant and deasendent, that is the eastern and western point of rise and fall of the stars on the horizon, as well as the upper and lower meridional intersection point on the ecliptic (zenith and iTaäir) can be read.