RU2024957C1 - Device for demonstration of geocentric position and movement of earth's satellites - Google Patents

Abstract

FIELD: astronomy. SUBSTANCE: device for demonstration of geocentric position can be used for determination of most favorable conditions for visual observation of satellites on preset latitude or, for instance, conditions under which artificial satellite does not go to shadow area. Geocentric wheel with mockups of planets is turned with respect to dial ring with scales of angles of star and sun time till it matches string carrying disc with indicators of planets. Positions of planets are fixed in proper points of rim located in line of ecliptic and aspects-arcs of ecliptic between the Sun, the Moon and planets are calculated. EFFECT: simplified design, reliable efficiency in demonstration of astronomical phenomena. 1 dwg

Description

 The invention relates to devices for demonstrating astronomical phenomena and is used to image in a geocentric system the position and motion of the natural "satellites" of the Earth (the Sun, the Moon and the planets of the Solar system) and artificial satellites during the daily rotation of the celestial sphere at various geographical latitudes.

 The device can be used to determine the most favorable conditions for visual observation of satellites at a given latitude or, for example, conditions under which an artificial satellite does not enter the shadow region.

 A device (analogue) is known, oriented to determining the geocentric position of the sun, moon and planets of the solar system - an improved astrological calendar (UK patent N 2137779, class G 09 D 3/06, 1984).

 The calendar serves to determine at a given point in time (the date of the Gregorian calendar is a new style) the location of the Sun, Moon and planets of the Solar system relative to the zodiac signs of the ecliptic and the place of observation on Earth.

 The calendar is intended for amateur use and is structurally made in two fundamentally no different modifications - in the form of a calendar-calculator and a desktop notebook with a special overlay stencil.

 The calendar calculator has the form of a flat box, on the front panel of which there is a scan on the plane of the cylindrical projection of the equatorial section of the celestial sphere, a closed transverse tape with scales for determining the daily position of the sphere, and two rotating disks, one of which serves to determine the position of the planets among the zodiac signs, and the other, relative to the horizon at latitudes other than tropical. Inside the box there are two coils with a diagram tape, on which the graphic ephemerides of the Sun, Moon and planets of the Solar system are applied.

 The data of these ephemeris - declination and hour angle are read on the rectangular scales of the equatorial portion of the celestial sphere depending on the location of the ephemeris portion in a narrow slit made on the front panel along the ecliptic, depicted on the projection by a sinusoidal line.

 To determine the daily position of the celestial sphere in tropical latitudes, a transverse closed tape with a scale of average (local) solar time is used. The tape is manually moved in the transverse direction relative to the projection of the celestial sphere until the specified time stamp on the tape scale coincides with the vertical passing through the portion of the solar ephemeris, visible through the gap on the ecliptic.

 To determine the position of the planets relative to the horizon at latitudes other than equatorial, a disk that is an orthographic projection of the celestial sphere onto a plane with coordinate lines: declination is the hour angle, rotates relative to another transparent disk on the front panel with the coordinate grid of the horizontal coordinate system: height - azimuth at an angle corresponding to a given value of geographical latitude. According to the magnitude of the declination and the hour angle on the rotating disk for the planet under consideration, the planet’s height relative to the horizon is read on a transparent disk.

The disadvantages of the astrological calendar are:
relatively low accuracy due to the use of a scan of the cylindrical (mercatorial) projection of the equatorial portion of the celestial sphere and reading of the coordinates of the Sun, Moon and planets of the Solar system from the ecliptic, depicted on the projection as a sinusoidal line, while the planes of the orbits of these bodies are inclined to the plane of the ecliptic (before 17 ^o at Pluto); the accuracy of estimates is reduced even more for artificial satellites whose orbital planes can have a significant inclination from the ecliptic plane;
inconvenience associated with the need to replace for each new year, diagrams of rolls (notepad sheets for the second modification of the calendar) with graphic ephemeris;
limited application for astrology due to the difficulty of determining the coordinates of the very important point in astrology of the ecliptic sunrise at a given geographical latitude.

 The closest in functionality and the achieved result to the claimed device is a device - prototype: Astronomical planisphere R.I. Tsvetova (ed. St. N 1554010, class G 09 27/00, 1987).

 The main structural elements of the planisphere are a heliocentric disk with scales of longitude and calendar days and layouts of the Sun, Earth and planets of the solar system placed on its surface, a geocentric disk with an axis passing through the center of the Earth’s layout, and scales of calendar days, zodiac signs and geocentric longitudes a dial disk of stellar and average solar time, as well as a knot for adjusting the planisphere to a given geographical latitude.

 Before demonstrating astronomical phenomena on the planisphere, the models of the Moon and planets of the Solar system are mounted on the heliocentric disk in the position corresponding to their heliocentric longitudes (according to the astronomical calendar for the selected date), the planisphere is rotated in the spherical hinge of the tuning unit and set to the given geographical latitude of the observation site , then after setting 0 hours of world time for a given date, the planisphere is rotated around a longitudinal axis parallel to the axis of the world, I set in a position corresponding to the specified mean solar time on the dial disk.

 For an approximate determination of the position of the Sun, Moon and planets of the Solar system, the environment of the zodiac signs of the ecliptic on the planisphere mentally draw a line connecting the Earth’s model with the model of the star, and continue it until it intersects with the scale of the zodiac signs.

 In the planisphere, their heliocentric (orbital) longitudes were selected as the main installation coordinates of the luminaries, which to some extent complicates the determination of the position of the luminaries relative to the observation site.

 The planisphere is relatively complex in design, it is a three-dimensional structure, which uses a spatial hinge, an angle meter and a significant number of large ring scales.

 The object of the invention is achieved by the fact that in the known device for demonstrating the geocentric position and motion of the Earth's satellites, including a rotating geocentric circle with models of the zodiac signs, the Sun, the Moon and the planets of the Solar system, the dial of stellar and average solar time, a calendar of calendar dates and geocentric longitudes, the device is equipped with coordinate lines of the equatorial system of celestial coordinates, an ecliptic line in the specified system, made of elastic material and installed with the possibility of a fixed movement relative to the coordinate lines of the circle by pendants of the models of the Sun, Moon, planets of the Solar system and artificial Earth satellites, mounted motionless relative to the circle by a disk made of optically transparent material, with lines of the celestial meridian and the mathematical horizon, a rim mounted on the line of the ecliptic, with indicators of the position of the sun, moon and planets relative to the ecliptic and zodiac signs.

 A clear geocentric picture of the relative position of the Sun, the Moon, the planets of the Solar system and artificial Earth satellites is shown on a geocentric circle, on the frontal plane of which there are discs-symbols of the stars in the equatorial system of celestial coordinates.

 The movement of the bodies during the daily rotation of the celestial sphere is determined relative to the lines of the celestial meridian from the mathematical horizon of a fixed, rigidly connected to the dial ring, transparent disk. At the same time, for example, the conditions for visual observation of an artificial satellite in reflected sunlight at a given latitude are easily found (the Sun is behind the horizon - the hours of morning and evening twilight).

 A search by the applicant for scientific, technical and patent sources of information and a prototype selected from the list of analogues made it possible to identify distinctive features in the claimed technical solution, therefore, the claimed device meets the criteria of the invention of “novelty”, and the applicant conducted an additional search for known technical solutions in order to detect them features similar to those of the distinctive part of the formula of the claimed technical solution, and comparing the properties of the claimed and known technical x solutions due to the presence of these characteristics in them, showed that, firstly, not all the signs of the distinctive part of the formula are found in the known technical solutions, and secondly, a comparative analysis of the properties due to the presence of some distinctive signs in the known solutions and in the claimed technical solution, showed that the claimed technical solution shows properties that do not match the properties shown by the indicated features in the known technical solutions, which determines the achievement of the declared th positive effect, therefore, the claimed technical solution satisfies the criterion of invention "significant difference".

 The drawing shows a diagram of the claimed device to demonstrate the geocentric position and motion of Earth satellites. The following notation is used in the drawing: 1 - geocentric circle, 2 - pointers of coordinate lines of the equatorial system of celestial coordinates (coordinate grid of the starry sky map), 3 - pointer of the ecliptic, 4 - disks - symbols of the zodiac signs, 5 - central bearing sleeve with rings - leads for strings, 6 - axis of rotation of the circle, 7 - disks - symbols of the Sun, Moon, planets of the solar system and artificial satellites of the Earth on strings, 8 - elastic stretch strings of disk-symbols, 9 - string retainers, 10 - rim of the ecliptic line, 11 - movable pointers for a rim with latches, 12 - marker disks-symbols of the Sun, Moon, planets of the Solar system, 13 - a dial ring with scales of hour angles of stellar and average solar time, 14 - bearings of the dial ring, 15 - distance segments of the circle, 16 - plexiglass disk, 17 - lines of the mathematical horizon on the disk, 18 - string for the line of the celestial meridian on the disk, 19 - fasteners of the disk to the dial ring, 20 - zenith disk mark with a latch on the string.

: α= 57^м49^с, δ= 6^о10^l38^ll; Сатурн

: α= 20^ч31,7^м, δ= -19^о10^l; Юпитер

: α= 8^ч24,5^м, δ= 20^о06^l).The device settings in the drawing: Moscow, April 6, 1991, 23 ^h 40 ^m Mosk. v., (φ = 55 ^° 45 ^l , λ = 2 ^h 30 ^m , 2 ^h 40 ^m all, 23 ^h, 10 ^m local

: α = 57 ^m 49 ^s , δ = 6 ^about 10 ^l 38 ^ll ; Saturn

: α = 20 ^h 31.7 ^m , δ = -19 ^o 10 ^l ; Jupiter

: α = 8 ^h 24.5 ^m , δ = 20 ^about 06 ^l ).

 Geocentric circle 1 (drawing 1) with plotted coordinate lines 2 of the equatorial coordinate system using the central sleeve 5 with ring-leads for strings, mounted on the axis of rotation 6. Along the line of the ecliptic 3 on the circle fixed at the points with the corresponding longitudes miniature discs-symbols 4 zodiac signs. Strings are attached to the lead rings of the strings of the central bushing, elastic stretch marks 8 of which, using the clamps 9, are mounted on the rim of the circle 1. On the stretched strings there are disks-symbols 7 of the Sun, Moon, planets of the Solar system and artificial Earth satellites moving relative to the strings. The design of the fastenings of the disks 7 to the strings, the clamps 9 to the circle rim and the strings of the strings to the central hub 5 makes it possible to precisely set the symbol disks 7 in the equatorial system of celestial coordinates of circle 1 to the positions determined by the declination and right ascension values at the considered time (according to data of the astronomical reference book).

 On the rim 10, mounted on the ecliptic line 3 of circle 1, there are indicators 11 movable relative to the rim with latches for marker disks 12 with symbols of the sun, moon and planets of the solar system.

 On the fixed supports 14, a dial ring 13 is fixed with scales of hour angles, stellar and average solar time. Remote segments 15 of the circle 1 provide a smooth backlash-free rotation of the circle relative to the ring 13.

 A plexiglass disk 16 is fixed on the ring 13 (fastener 19), on which the lines of the mathematical horizon 17 for various geographical latitudes of the observation site are plotted, and the line of the celestial meridian 18 with a string along which the disk is "centered" relative to the 12-hour mark on the dial ring 13. the string of the celestial meridian has a movable zenith marker disk 20 with a latch whose position corresponds to the zenith at a given geographical latitude.

 The claimed device operates as follows (for example, for the natural "satellites" of the Earth - the sun, moon and planets of the solar system).

 For a given discrete start time of an event, universal time (GMT) is determined, taking into account the time zone, and local average solar time by the geographical longitude of the observation site. From the tables of the ephemeris of the astronomical handbook compiled for the year and date of the event, the equatorial celestial coordinates are found to be δ-declination and α-right ascension for the Sun, Moon and planets of the Solar system at 0 hours of universal time. For the moon, the equatorial coordinates are interpolated at the time the event begins.

 According to the found ephemeris values, δ and α set the disks on the geocentric circle in the corresponding positions - the symbols of the Sun, Moon and planets of the Solar system, then the circle is rotated relative to the dial ring until the string on which the Sun symbol disk is fixed, with a mark on the dial corresponding to the average solar time event start. At the same time, the location of the Sun, the Moon and the planets of the Solar system is observed relative to the zodiac signs, the ecliptic, the equator, the line of the mathematical horizon, the celestial meridian and the zenith for the visible (relative to the horizon) parts of the celestial sphere at a given moment in time for the geographical latitude of the event.

 The indicated location of the stars is fixed at the corresponding points of the rim mounted on the ecliptic line, using pointers with marker disks, symbols of the Sun, Moon and planets of the Solar system. Further, if, for example, the task of astrological analysis is posed, the so-called aspects of the ecliptic arcs between the Sun, the Moon, planets of the solar system, zodiac signs, the celestial meridian and the ecliptic sunrise point in the eastern part of the line of the mathematical horizon are calculated.

Claims (1)

 DEVICE FOR DEMONSTRATING THE GEOCENTRIC POSITION AND MOTION OF THE SATELLITES OF THE EARTH, including a rotating geocentric circle with models of zodiac signs, the Sun, the Moon and planets of the Solar system, dials of stellar and average solar time, a scale of calendar dates and geocentric design with longitude, , increasing the accuracy of interpretation and obtaining a clear geocentric picture of the position and movement of the Sun, Moon, planets of the Solar system and artificial Earth satellites relative equator, ecliptic, horizon, celestial meridian and zenith, the device is equipped with pointers of coordinate lines of the equatorial system of celestial coordinates, a pointer to the line of the ecliptic in the specified system, made of elastic material and installed with the possibility of fixed movement relative to the coordinate lines of the circle by pendants of the models of the Sun, Moon, planets of the Solar system and artificial satellites of the Earth, while a disk made of optically transparent material with l niyami celestial meridian and mathematical horizon, and on the index line of the ecliptic disc set with pointers position of the sun, moon and planets in relation to the ecliptic and zodiac signs.

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