DE1147785B - Device for visualizing the position and movement of planets and their satellites relative to one another - Google Patents

Description

Device for illustrating the position and movement of planets and their satellites relative to each other Dir, invention relates to a device to illustrate the position and movement of planets and their satellites relative to each other, consisting of a housing with a transparent screen, onto which the light sources representing the celestial bodies can be projected.

The invention aims to provide a device in which the positions and relative dimensions of the individual planets, the asteroid belt and the sun each other are vividly represented, with the apparent dimensions of the planets can be changed for teaching purposes. The device according to the invention also shows in clearly the nature of the one stretching between the planets Mars and Jupiter Asteroid belt. It is still possible to trace the orbits of the various comets and other celestial objects in relation to the orbits of the various celestial bodies within the solar system.

It is known per se, light sources for representing celestial objects to be provided. However, this is stationary on one along a rack movable, hemispheric dome mounted showing navigation stars Lamps observed from an exercise facility designed as an aircraft can be. In such a planetarium there is a special one on a framework erected and the construction of a roofed building intended for this purpose Required training facility required. A tracking of relative movements the planets to each other is not intended.

It is also a free-standing, i. H. No static (purely mechanical) display device having a housing known, in which the movements of the individual planets and the earth around the sun and the moon around the earth are imitated. The celestial objects, however, are thereby lit by not represented on rods mounted balls, which are rotatable with the exception of the moon reproducing ball about a common axis, while the moon ball rotates around the axis of the earth, which is coupled with the sun axle. However, such a device is neither intended nor suitable for demonstrating the relative speed at which the planets orbit the sun.

It is known in and of itself in planetariums to have see-through housings to be provided. Each of these is a globe-like glass or celluloid housing, which is rotated by means of gears and balanced by means of a counterweight is so that the housing can perform a pivoting movement. All celestial objects are represented by disc-shaped, more closely marked, non-luminous bodies and are operated by gears with cranks attached to them.

Finally, to study astronomy there is one in the shape of a lantern trained apparatus known, but its task is only one Celestial atlas to replace a celestial globe and a planisphere and at the same time to be used as a lantern. Here should be on the sides of the square lantern Adjustable, transparent sky maps can be used based on appropriate observation data having, manually rotatable glass panels are attached. This is supposed to Students are only allowed to put the stars on the map exactly in the same place relative position, as shown in the sky, to be found by the names of the Stars, their degree, their constellation can be recognized when the student, his Changing position, turning to another sky field. There is only one Artificial light source provided, the task of which is exhausted in night use to enable the apparatus. Such a device with a flat housing is therefore only used for static reproduction of relative positions of celestial objects. In contrast The invention allows the actual relationships in mutual movement relationship in the case of celestial objects, particularly precisely in a particularly ingenious and simple manner to imitate and to perform like on the screen of a television set.

The invention consists in that the light sources representing the celestial bodies can be rotated by a common drive on prescribed paths at different speeds around the light source representing the sun and that each of the light sources can be switched on separately and its light intensity can be regulated.

An embodiment of the invention is shown in the drawings. 1 shows a perspective view of the device according to the invention, FIG. 2 a view in cross section along line 2-2 of FIG. 1, FIG. 3 a rear view of the device, FIG section, showing the kind used in the device light sources, Fig. 5 is a front view of the device in its use to the web of different comet display, Fig. 6 shows a cross section along line 6-6 of Fig. 5 and Fig. 7 a view similar to FIG. 4 of a modified light source which can be used in the planetarium shown.

The device 10 consists of a housing 12 with a transparent screen 14 arranged in front of it. A hollow central axis 16 extends at right angles from the center of the screen 14 to the rear side 18 of the housing 12. Dir, axis 16 is in the screen 14 and the rear wall 18 stored. A plurality of concentric sleeves 20 or 20 'are rotatably arranged on the axis 16 . These sleeves 20 or 20 'have different lengths and fit one above the other and on the axle 16 in such a way that their ends are exposed and separated from one another. A sprocket 22 is attached to one end of each of these sleeves 20 and 20 'at the rear 18 respectively. The sprockets 22 are connected by drive chains 24 to other sprockets 26 which are mounted on shafts 28 and 28' which in turn are nearby of the bottom 30 of the housing 12 are arranged. The shafts 28 and 28 ' are driven by a motor 32 via a reduction gear 34.

The ends of the sleeves 20 facing the screen carry elongated radial arms 36, on the ends of which tubes 38 are attached. These tubes 38 terminate in the vicinity of the screen 14. The arms 36 and the tubes 38 are of different lengths so that they do not interfere with one another as they rotate.

A light source 40 representing the sun is mounted inside the device within a sleeve 42 held by the axis 1.6. It extends into a colored protruding part 44 provided in the middle. The sleeve 20 ′, which is located at the fifth position of the screen, carries a plurality of arms 36, while each of the remaining sleeves 20 only carries a single arm 36. The arms 36 assigned to the sleeve 20 'carry a light box 46 with a surface 48 located directly behind the screen 14. This box 46 contains light sources 47 and sockets 48 a. The surface 48 is provided with a number of openings 49, each of which represents an asteroid. The openings 49 in the light box 46 represent the asteroid belt of our solar system. These openings 49 are preferably covered with colored filters corresponding to the color of the asteroids shown.

Each of the tubes 38 attached to the other sleeves 20 carries a socket 50. Each of these sockets carries a light source 52. The tubes 38 carry a small lens 54 towards the screen so as to direct light from the corresponding light sources 52 against the side of the screen 14 within of the housing 12 to conduct. If desired, the lenses 54 can be colored, or the individual light sources can be colored so as to show the colors of the bodies of the solar system which they represent.

The device has a plurality of circuits using common wires 58 which conduct current to light sources 40, 47 and 52. Each of these circuits includes a switch 60 and a variable resistor 62 for regulating the amperage. Rods 64 are attached to the screen 14 so that they extend parallel to the tubes 38 and are located between the tracks of these tubes. These rods 64 some of the wires are routed 58 abut the other end at the slip rings 66 of the sleeves 20 and 20 'which are disposed on non-conductive rings 68th Spring-like sections 70 of the wires 58 are provided so that the wires are resiliently supported against the slip rings 68 and thus establish electrical contact. The individual slip rings 68 are in turn connected to the individual light sources 40, 47, 52 . The light source 40 representing the sun is directly connected to a switch 60 and a variable resistor 62 by means of lines extending through the axis 16.

Using the device is relatively easy. For this purpose, the engine 32 is first started. When this motor is running, the tubular sleeves 20 are caused to rotate as a result of the aforementioned propulsion means at different speeds corresponding to the speeds at which the planets of the solar system and the asteroid belt rotate around the sun. The light sources 52 can be switched on by actuating suitable switches 60.

The strength of the light transmitted onto the screen 14 through the lenses 54 can be regulated at any time by the resistors 62. Typically, these resistors 62 are set so that the light sources 52 behind the lenses 54 emit sufficient light to illuminate a small area (a) of the screen 14, as shown in Figure 4 of the drawings. However, the variable resistors 42 can be adjusted to illuminate a larger area (b). In any case, the area should correspond to the size of the planet represented by the light source. The "shine" of the asteroid belt represented by the light box 46 or of the light source 40 can be regulated in the same way by setting the associated resistor 62.

When the device is used in this way it is possible to see the relative movements of part of our solar system through the screen 14 and the movements of the various individual planets and the asteroid belt independently of the movement of various other parts of the solar system by operating the switches 60 to study in an appropriate manner.

Often it is desired to give the orbits of comets or other objects in relation to the orbits of various planets in our solar system. For this purpose, a transparent roof cover can be indicated 5 and 6 are provided as shown in Fig.. This cover 74 is supported by a frame 76 which can be attached to the housing 12 by means of retaining screws 78 . The coating 74 can be provided with indications 80 which indicate the orbits and positions of well-known comets or other objects or bodies at different times.

Although it is possible to make such indications so that they are visible at all times, it is preferred to employ ultraviolet light sources and to provide the indications 80 in a normally invisible phosphor composition. If appropriate material is used it is normally invisible, but when the ultraviolet light sources are turned on the indications 80 become visible so that the orbits and / or positions of various comets or the like can be studied in relation to the rest of the solar system .

The device according to the invention can also be modified so that it shows different moons which revolve around individual planets. For this purpose, the tubes are modified in the manner shown in Fig. 7 manner 38th The tube 38 shown in this figure serves to rotatably support another single tube 84 in such a manner that this tube 84 can be rotated about the tube 38. Such rotation can be caused by a small electric motor 88 attached to tube 38 . This electric motor 88 has a shaft 90 with a gear 92 which meshes with a gear 96 attached to the tube 84.

The interior of the tube 84 is preferably designed as in FIG. 4 of the drawing and therefore does not need to be described further. On the outside of the tube 84, a further tube 98 is attached, which is constructed in the same way so that a light source (not shown) represents a moon which is located around a planet represented by the tube 84. Power is supplied to the light sources in tubes 84 and 98 via a brush 100 attached to tube 38 . This brush is attached to a wire 58 carried by the tube 36 . The brush 100 engages a small slip ring 102 on the tube 84. This slip ring 102 is in turn connected to these light sources by other wires 58 . Any number of tubes such as tubes 98 required can be used to represent the actual number of moons about any particular planet.

Claims (2)

PATENT CLAIMS: 1. Device for illustrating the position and movement of planets and their satellites relative to one another, consisting of a housing with a transparent screen onto which the light sources representing the celestial bodies can be projected, characterized in that the light sources representing the celestial bodies (47 , 52) can be rotated by a common drive on prescribed tracks at different speeds around the light source (40) which is arranged in the center and represents the sun and that each of the light sources can be switched on separately and its light intensity can be regulated. 2. Apparatus according to claim 1, characterized in that the same is housed in a housing (12) with a transparent screen (14) arranged in front of it in the manner of such a television set, one of which is at right angles from the center at one end to the screen (14) and with its other end on the housing rear wall (18) mounted central hollow axle (16) on which several concentric, differently long sleeves (20, 20 ') are arranged rotatably independently of each other, the differently long radial arms (36) carry, on whose ends tubes (38) of different lengths are attached, which end near the screen (14) and at their ends each have a socket (50) with the light source (47, 52) and one each for the screen (14) facing lens (54) wear. 3. Apparatus according to claims 1 and 2, characterized in that the light sources (47, 52 ) can be driven individually by an electric motor (32) also housed inside the housing with the interposition of a reduction gear (34) via chain drives (22, 24, 26). 4. Apparatus according to Claims 1 and 2, characterized in that the arms (i6) associated with the sleeve (20 ') each have a light box (46) receiving the light source (47) and having a surface immediately behind the screen (14) ( 48), which have a number of openings (49) representing the asteroid belts of the solar system, optionally with colored filters covered according to the color of the asteroid shown. 5. Apparatus according to claims 1 to 4, characterized in that around one or more of the tubes (38) another single tube (84) provided with a light source is rotatably arranged, around which a further, possibly also a light source, is received Tube (98) is rotatably arranged. 6. Apparatus according to Claims 1 to 5, characterized in that an electric motor (88) with a gear transmission (92, 96) is provided for rotating the tube (84) on the tube (38). 7. An apparatus according to claims 1 to 6, characterized in that the current to the about the moons constituting light sources in the tubes (84, 98) via a respective fixed to the tube (38) brush (100) can be supplied, which in a by the tube (38) carried line (58) and comes into engagement with a small sliding ring (102) provided on the tube (84), which in turn can be connected to the light sources through other lines. 8. Apparatus according to claims 1 to 7, characterized in that on the screen (14) a transparent screen cover (74) with information (80) for reproduction at different times of orbits and positions of the known comets or other objects or bodies can be attached . 9. Apparatus according to spoke 8, characterized in that the information (80) is provided on a normally invisible base and can be illuminated to make visible ultraviolet light sources. Documents considered: German Patent No. 15 543; French Patent Specification No. 687,451. British Patent No. 572,569; USA. Patent No. 1,469,664. "Umschau", No. 15/1958, p. 465.