DE322507C - Astro projection device for teaching purposes - Google Patents

Description

The astro-projection wants the apparent movements of the stars in the sky in one illustrate in a manner appropriate to the earthly point of view of the observer. Means The images of the stars are displayed using a special photographic (projection) device a hemispherical projection screen thrown as a sky (Fig, ι) and by rotation! of the apparatus around the in the direction of the

ίο world axis posed optical axis the movement the stars causes.

The astro projection apparatus (Fig. 2) consists of three main parts:
■ i. the immovable lamp housing A,

2. the condenser housing B and, which can be easily rotated above the lamp housing

3. the lens housing that can be rotated over the condenser housing C.

The condenser housing has a small side extension D, which is used to generate the so-called spring equinox. This creates a small point of light at the celestial equator that moves with the apparatus (Fig. 1). The line pulley E of the condenser housing is connected to a model star time clock divided into 24 hours, which is set in such a way that it shows ο or 24 o'clock when the vernal equinox passes the meridian. The lens housing contains the

Lens, the slide frame, a detachable, tiltable attachment mirror F, a screw G to fix the lens housing against the condenser housing. and a cord pulley H communicating with a model sundial timepiece divided into 12 hours.

An example will now be used to show how this astro projection apparatus is operated. The course of the sun on October 13th is to be followed. When and where does it rise and fall? When and where does it reach its highest level? Where is she at any time of the day? - According to the Nautical Yearbook, their declination is about -8 °, their right ascension about 13! Hours 15 minutes. The whole apparatus is turned by hand until the sidereal time clock shows 1 p.m. 15 minutes (see Fig. 1). Now the lens is lifted off and a sheet metal plate with a small circular hole is placed in the slide frame. The mirror F is placed on it in such a way that the sun image comes to rest on the meridian at the point -8 ° of the division (Fig. 1) and the sundial is turned to 12 o'clock with the apparatus held down; it then shows true solar time. The device is now ready for demonstration. If you turn it around by hand or with a motor, you can answer the above questions experimentally. If the course of the sun is followed through the whole year, the change of the declination can be adjusted with the attachment mirror, the change of the right ascension by "loosening the screw G and turning the condenser housing with the lens housing held. The course of the mean sun can be adjusted in a similar way

on the equator and the mean solar time are demonstrated. For the purpose of demonstrating the Movement of the circumpolar stars, the attachment mirror is lifted and a corresponding one Sheet metal plate with holes inserted into the slide frame; then it takes only one of the stars on the corresponding right ascension J; set by means of the sidereal time clock to become.

The astro-projection apparatus can, when properly connected to a real Sidereal time clockwork for photographic star recording and for the production of the desired ones Slide plates can be used.

Claims (1)

Patent claim: Astro projection device, characterized in that a projection apparatus, whose optical axis is set parallel to the world axis, as a whole or just being Optical system (objective, slide, condenser and attachment reflector) arranged so that it can rotate around the optical axis is, the measure of which by means of suitable transmission organs of clocks and a perpendicular to the optical axis exiting light beam on a hemispherical Screen is displayed. 1 sheet of drawings.