RU2029382C1 - Celestial globe - Google Patents

Abstract

FIELD: sea and navy fleet. SUBSTANCE: azimuthal circle is made in form of transparent belt of horizons. Scales of horizons (visible, civil and navigation) are marked onto the belt. There are time scale and mark(arc) of route. Ecliptic is marked out according to dates taking coordinates of real Sun onto account. All the construction is mounted onto hinge support provided with a rod. EFFECT: widened functional capabilities; improved safety. 2 dwg

Description

 The invention relates to navigational instruments and can be used on ships and ships of the navy and navy, in marine educational institutions. The idea of a stellar globe (ZG) has been known for over 2000 years. At the present time, ships and ships use MH, made on the model of the globe of the English fleet of the late 19th century. The functional capabilities of the modern ZG are limited, and working with it is complicated by the need to use the tables of the Astronomical Yearbook and the inconvenience of work. All this led to the fact that the navigator turned to him less and less, losing the possibility of orientation in the environment and qualifications.

ZG is known, consisting of the celestial sphere, observer meridian, azimuth circle and vertical cross. In order to increase the accuracy of reading the heights of the bodies, it is equipped with a special ring of latitudes. This globe is not informative enough, it requires working with the Astronomical Yearbook, and increasing accuracy to 0.1 ^{o is} unnecessary against the background of the general accuracy of the globe -0.5 ^o .

 A well-known demonstration globe, consisting of a sphere and special contours on it, the observer meridian and risers of the horizontal circle, giving an idea of geomagnetic time. Viewing analogues shows that the closest prototype can only be a Star Globe (ZG OM 1.1 KB 2514006 PS). The stellar globe consists of a celestial sphere with a grid of equatorial coordinates, a meridian ring, an azimuth circle made in the form of a box with a metal ring and a vertical cross. MH solves the problems of identification and compilation of the ephemeris of the stars. An astronomical yearbook is required to work with it. Its installation is complicated by various metal nodes, and the relative complexity of solving problems reduces its practical value.

 The purpose of the invention is the expansion of the functionality of the stellar globe, simplicity and ease of use.

 The essence of the invention lies in the fact that the azimuthal circle is made in the form of a transparent belt of horizons, on which the scale of horizons and time are plotted. The ecliptic is broken up by dates so that they correspond to the positions of the true Sun. For ease of use, it is mounted on a hinge with a bar. The horizon belt is supplemented by a special course indicator. The globe differs markedly from the adopted prototype in terms of device and information content.

 The globe consists (Fig. 1,2) of a hinge 1 with a rod 2, an installation system 3 made in the form of a half ring with a bulge and a groove, a transparent horizon belt 4, encircled the installation system and fastened with it, time scales 5, azimuth scales 6 , a moving mark (arc) of course 7, the celestial sphere 8, on which the ecliptic 9 is applied, a meridian ring 10 with a latitude scale, axes 11, adjustment and fixing screws 12.

 Work with the globe is performed in the following order. The meridian ring 10 together with the sphere 8 is set in latitude by rotating it in the installation groove 3 to count the latitude of the place along the slice of the horizon horizon 4, then rotate the sphere 8 so that the date on the ecliptic 9 coincides with the stroke of the visible or other horizon 5. The celestial sphere at This will display the view of the starry sky at this physical moment. If you need to know the view of the starry sky some time after sunset, it is enough to rotate the sphere inside the meridian ring by an angle equal to the countdown. From the time scales, you can take the time of sunrise (sunset) of the Sun and the duration of twilight. To determine the positions of the stars relative to the ship’s course, you must set the mark (arc) of heading 7 on the heading of the course on the azimuth scale 6 and turn the entire globe in hinge 1 in the given direction — heading. In this case, the starry sky is displayed relative to the movement of the vessel at a given moment.

 Technical and economic indicators of the stellar globe are characterized by simplicity and ease of working with it. So, for installation in the working state of the prototype, 10-15 minutes are required, and the installation of the proposed one is 2-3 minutes, which in conditions of a lack of attention of the navigator on the watch is essential. Additional functionality - determining the time of sunrise (set), twilight time, setting the course of the ship - give the star globe invaluable properties for operational indicative control over the operation of complex navigation systems and the prevention of possible emergency situations. For the manufacture of a star globe, cheaper modern materials can be used instead of non-ferrous metals and wood, which reduces its comparative cost by 1.5-2 times.

Claims (1)

 STAR GLOBE containing a celestial sphere with an ecliptic and a grid of equatorial coordinates, a meridian ring and an azimuthal circle, characterized in that the azimuthal circle consists of a transparent horizon belt with the scales of time and horizon plotted on it and an ecliptic breakdown associated with the belt according to dates, it is made taking into account the coordinates of the true Sun, and the sphere is mounted on a hinged support with a rod.

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