DE3701634A1 - Celestial globe - Google Patents

Abstract

The celestial globe has a hollow sphere (1) representing the celestial sphere, which is mounted on a frame (4) in a manner such that it is rotatable about its north-south axis and can be pivoted by that axis relative to the horizontal so that the celestial sphere can be set to the observer's respective degree of latitude and to a desired point in time. In order that the depictions which are present on the celestial sphere can be observed in a manner faithful to nature, the hollow sphere (1) consists of a transparent material and is half filled with a coloured liquid (2) which represents the horizon (Fig. 1). <IMAGE>

Description

The invention relates to a celestial globe according to the waiter Concept of claim 1.

Celestial globes have been known since the 16th century. Such globes usually have a celestial sphere representing hollow sphere, on which stars, constellations, Koor dinaten systems and the like are shown. The hollow globes of the well-known celestial globes consist of an un clear material, so that on the celestial sphere the existing images are to be viewed from the outside. Also if a celestial globe is constructed so that the star images appear correctly, since it has the disadvantage that his illustrations are always from the wrong perspective to be sought.

There is also an old celestial globe known Hollow ball rotatable around the north-south axis and with this axis is pivotable relative to the horizontal. The hollow sphere is arranged within a table in such a way that half up over the surrounding tabletop protrudes. This globe is on the respective latitudes degree of a viewer adjustable by the north-south axis is pivoted accordingly, so that the of this Latitude visible half of the top of the sky half of the table top that represents the horizon. By rotating the celestial sphere around its north-south axis the visible half of a given date and can be set at a specific time. This globe has the disadvantage that its table edge horizon is not  is true to nature because it lies outside the globe.

The present invention is based on the object to continue to enter a celestial globe of the kind under consideration wrap that the pictures on it naturge can be viewed faithfully, like this in a planetarium the case is.

This object is achieved by the in the license plate of claim 1 specified features solved. Advantage adhesive developments of the invention are in the Unteran sayings marked.

In the celestial globe according to the invention, it enables hollow ball made of transparent material a Be seeker visually into the celestial globe set so that the viewer as it were the constellations ascend and descend above themselves on the horizon and their ent can see speaking orbits. The horizon is itself also within the hollow sphere, so that the half of the celestial sphere that is visible is practically full come is depicted naturalistically. This applies in particular then when the stars, constellations etc. from the inside the hollow sphere viewed from the right side are.

The liquid should be colored so that it is always horizontally adjusting horizon is clearly visible. A a suitable liquid is isopropyl alcohol.

It is proposed with great advantage that the hollow ball with a coaxial to its north-south axis  Neck is provided. This neck facilitates a suitable one Holder of the rotatable and pivotable hollow orb and makes it easier to open up the celestial globe set the north-south direction to compare the To enable images with the real starry sky.

So that the hollow sphere can be adjusted so that the half visible at a given point in time half of the horizon, the hollow neck is with a date scale and an hour scale. The The date scale is firmly attached to the neck during the Hour scale can be attached to a ring that grips the neck in a light press fit so that the Hour scale can be set and then in this Setting remains immovable on the hollow ball neck. The starting point of the date scale is the so-called Aries point at which the ecliptic intersects the celestial equator. This ram point gives the position on the date scale of March 21st. Starting from this point, that is the Scale containing circumference of the hollow ball neck in twelve divided into equal sections that represent the months of the year represent, with the months further divided into days could be.

Located in the range of the date scale and the hour scale a scale indicator. When the celestial globe hits you at a certain point in time, after being in the manner described below the desired degree of latitude is swung, so its North-South axis rotated that the desired day is the date The scale is opposite the fixed scale indicator. Then the hour scale is set to 12 o'clock,  since this time belongs to the set rotary position. Now the globe can be rotated to the desired time of day be that by means of the rotating with the hollow ball Hour scale can be set.

The hollow ball is advantageously ge from a frame hold one in a base plate around its longitudinal axis has rotatably held stand. Rotatable about this The celestial globe can be held by a fixed stand Base plate set to the north-south direction will.

The frame also has a holder for the hollow sphere, the one with the upper end portion of the stand by one hori zonal axis is pivotally connected. The horizontal Axis can be at the center of a scale that is the respective pivot angle of the bracket and thus the pivot angle of the hollow sphere. The scale is so ge stalten that the displayed swivel angle the respective Corresponds to the latitude of the earth from which the half of the celestial sphere to be considered.

According to a further proposal of the invention Bracket essentially from a first arm that with an end section articulated to the stand is, with a projecting beyond the horizontal axis Part can be designed as an indicator for the scale, and the other end portion of which has a ring which a bolt connected to the hollow ball neck rotatable stores and keeps immovable in the axial direction. From this first arm one can attach itself to it second arm essentially parallel to the hollow ball neck  extend and roller bearings at its end portion point on which the hollow sphere rests. The one with the Hollow ball neck connected bolt can be fixed with a knurl nut for rotating the hollow sphere around its north-south axis be connected.

Of course, the hollow ball with the hollow ball neck tightly closed, so that the one representing the horizon Liquid cannot escape, which is why the hollow ball neck can be gripped by a rubber sleeve.

Further features, advantages and details of the invention result from the following description of a be preferred embodiment and with reference to the drawing. Show:

Fig. 1 is a perspective view of the celestial globe according to the Invention;

Fig. 2 is a schematic representation of the hollow sphere of the celestial globe with marked therein earth;

Fig. 3 is a partially sectioned side view of the pivot bearing of the stand and

Fig. 4 is a partially sectioned illustration of the storage and sealing of the hollow ball.

The celestial globe shown in Fig. 1 contains a hollow sphere 1 , which consists of a transparent material, for example glass and half-filled with a liquid speed 2 , which represents the horizon in any position of the hollow sphere. Above the horizon you can see the half of the celestial sphere with its stars, constellations etc. visible in the set position of the celestial globe.

The hollow sphere 1 is provided with a neck 3 which can be seen better in FIGS. 2 and 4 and is held by a frame 4 in such a way that it can rotate about the longitudinal axis of a stand 5 , with its north-south axis passing through the axis of the hollow ball neck 3 runs, can be pivoted with respect to the horizontal and can be rotated about its north-south axis. The stand 5 is rotatably held in a circular bottom plate 6 , which has such a large weight that the celestial globe has a safe stand.

At the upper end of the stand 5 , a dial 7 is attached, which indicates the pivoting angle of a holder 8 supporting the hollow ball 1 . This swivel angle corresponds to the latitude of the earth from which the corresponding half of the celestial sphere is to be viewed.

Referring now to FIG. 2. The hollow ball neck 3 is provided with a date scale 9 , which can, for example, be etched into the neck. A fixed point on this scale is the so-called ram point 10 , in which the celestial equator 11 intersects with the ecliptic 12 on March 21. Another fixed point is the so-called Libra point 13 , where the celestial equator 11 and the ecliptic intersect on September 23. Starting from one of these fixed points, the date scale 9 is evenly divided into twelve parts over the circumference of the hollow ball neck 3 represent the months of the year, whereby a further subdivision into the individual days of the month is advisable.

Inside the hollow sphere 1 , the earth 14 is shown schematically, the north-south axis 15 of which coincides with the north-south axis of the celestial sphere. If the celestial globe is to be set so that the half of the celestial sphere visible from the north pole of the earth should appear above the horizon formed by the liquid 3 , then the north-south axis 16 must be set vertically.

In addition to the date scale 9 there is an hour scale 17 , which is attached to a ring 18 which includes the hollow ball neck 3 in a slight press fit, so that it can be rotated on the neck.

Fig. 3 shows the rotary bearing of the stand 5 in the bottom plate 6th The stand 5 is fixed to a circular plate 17 by brazing, which extends through an annular plate 19 with a central shoulder 18 , which rests on a ball bearing 20 Ku. The central projection 18 extends almost up to the base plate 6 and by a bottom plate 6 by cross bolt 21 is held in the axial direction.

The storage and sealing of the hollow ball 1 is shown in Fig. 4. With the hollow ball neck 3 , a bolt 22 is firmly connected, which in turn has a knurled nut 23 and a lock nut 24 . The hollow ball neck 3 is sealed by an outer rubber sleeve 25 and a rubber sealing ring 26 so that the liquid 2 cannot escape.

In Fig. 4, the scale disc 7 is also shown, which is attached to the upper end of the stand 5 and on which the bracket 8 is pivotable about a horizontal axis 27 be fastened. A wing nut 28 is provided for setting a specific swivel position, with which the holder 8 can be immovably attached to the dial 7 .

The bracket 8 consists essentially of a first arm 29 , on the lower end of which in the figure a pointer 30 is formed, and a second arm 30 . The upper end of the first arm 29 in FIG. 1 is provided with a ring 31 on which a three-part thrust bearing 32 is welded. In this ring 31 with the hollow ball neck 3 firmly connected pin 22 is rotatably supported by a ball bearing 33 . A sleeve 34 placed on the bolt 22 ensures that the hollow ball 1 is held axially immovably in the ring 31 . The knurled nut 23 serves to rotate the hollow ball 1 .

The second arm 30 of the bracket 8 contains at its free end two roller bearings 35 in the form of ge on ball bearings plastic nubs which are spaced apart ( Fig. 1). The hollow ball 1 rests on these roller bearings 35 .

Furthermore, a ring 36 is attached to the arm 30 , which surrounds the hollow ball neck 3 at a distance. A hole 37 is used to attach the scale indicator, not shown.

Claims (18)

1. Celestial globe with a hollow sphere representing the celestial sphere, on which stars, constellations, right ascension, declination, celestial equator, ecliptic etc. are shown and which is held so that it can be rotated about its north-south axis and with its north-south -Axle is pivotable against the horizontal, further with a horizon-representing device that delimits the visible half in each position of the celestial sphere, characterized in that the hollow sphere ( 1 ) consists of a transparent material and that the device representing the horizon is a liquid ( 2 ) with which the hollow sphere is half filled in wesent union. 2. celestial globe according to claim 1, characterized in that the stars, constellations, etc. viewed from the inside of the hollow sphere ( 1 ) from the right side. 3. celestial globe according to claim 1 or 2, characterized in that the liquid ( 2 ) is colored. 4. celestial globe according to claim 3, characterized in that the liquid ( 2 ) is isopropyl alcohol. 5. celestial globe according to one of claims 1 to 4, characterized in that the hollow sphere ( 1 ) is made of glass. 6. celestial globe according to one of claims 1 to 5, characterized in that the hollow sphere ( 1 ) with a coaxial to its north-south axis ( 16 ) extending neck ( 3 ) is provided. 7. celestial globe according to claim 6, characterized in that the hollow ball neck ( 3 ) with a date scale ( 9 ) and an hour scale ( 17 ) is seen ver. 8. celestial globe according to claim 7, characterized in that the date scale ( 9 ) is fixed to the hollow ball neck ( 3 ). 9. celestial globe according to claim 7, characterized in that the hour scale ( 17 ) is attached to a ring ( 18 ) which comprises the hollow ball neck ( 3 ) in a light press fit. 10. celestial globe according to one of claims 1 to 9, characterized in that the hollow sphere ( 1 ) is held by a frame ( 4 ). 11. celestial globe according to claim 10, characterized in that the frame ( 4 ) has a stand ( 5 ) rotatably held in a base plate ( 6 ) about its longitudinal axis. 12. celestial globe according to claim 10 or 11, characterized in that the frame ( 4 ) further comprises a holder ( 8 ) for the hollow sphere ( 1 ), the holder with the upper end portion of the stand ( 5 ) about a horizontal axis ( 27 ) is pivotally connected. 13. celestial globe according to claim 12, characterized in that there is a scale ( 7 ) in the connection area of the holder ( 8 ) and the stand ( 5 ), which indicates the pivoting angle of the holder and thus the hollow sphere ( 1 ). 14. celestial globe according to claim 13, characterized in that the pivot angle to the respective latitude of the earth from which the associated half of the celestial sphere should be considered.   15. celestial globe according to one of claims 12 to 14, characterized in that the holder ( 8 ) in wesent union from a first arm ( 29 ) which is articulated with one end portion with the stand ( 5 ) and the other end portion one Ring ( 31 ) which rotatably supports a pin ( 22 ) connected to the hollow ball neck ( 3 ) and keeps it in the axial direction immovably, and that a second arm ( 30 ) is essentially parallel to the first arm ( 29 ) Neck ( 3 ) extends, at the end portion roller bearings ( 35 ) are fixed, on which the hollow ball rests. 16. celestial globe according to claim 15, characterized in that in the region of the upper end section of the second arm ( 30 ) a scale indicator is further arranged, the date scale ( 9 ) and the hour scale ( 17 ) on the hollow ball neck ( 3 ) is essentially opposite. 17. celestial globe according to claim 15 or 16, characterized in that with the bolt ( 22 ) a knurled nut ( 23 ) for rotating the hollow sphere ( 1 ) about its north-south axis ( 16 ) is fixedly connected. 18. Celestial globe according to one of claims 1 to 17, characterized in that the hollow ball neck ( 3 ) is sealed with a rubber sleeve ( 25 ).