RO123594B1 - Apparatus for demonstrating the earth's and moon's motion around the sun - Google Patents

Abstract

The invention relates to an apparatus for demonstrating the Earth's and Moon's motion around the Sun, which is intended to be used as a teaching material in kindergartens, schools and other education institutions, as an ornament, as a lighting source or for advertizing purposes. According to the invention, the apparatus comprises a geographical globe () which has mounted at its South pole a cylinder-shaped permanent magnet () in which a cylindrical axle () is fixed, while at its North pole it has a parallelepipedal permanent magnet (), the said globe () being positioned on an orbit (); between the permanent magnets (), on a mobile frame (), a motor () is mounted to put into direct rotation motion a lamp shade () representing the Sun, and the mobile frame (), at constant speed, inside some recesses (), around the central axis (), a spherical joint () within the first recess () inclining the rotation axis of the globe () at an angle of 23° 4' , where the globe () representing the Earth describes a revolving motion around the lamp shade () and 365.6 direct rotations - i.e.days - about its own axis, by rolling the cylindrical axle () along the said orbit (), a sphere () representing the Moon describes, together with the geographical globe () the revolving motion around the lamp shade () and 365.6 direct rotations about a rod (), the spherical joint () within the second recess () positioning the rotation axis of the globe () at 0° 0', in this case the globe () representing the planet Mercury and describing the revolving motion around the lamp shade () and an oscillation motion about its own axis, while the spherical joint () positioned within the third recess () inclines the rotation axis of the globe () under an angle of 12° 12', in this point the globe () representing the planet Venus and describing the revolving motion around the lamp shade () and retrograde rotation motions about its own axis, by rolling the cylindrical axle () along the orbit (), the motion ending upon switching the motor () off, from a switch ().

Description

The invention relates to an apparatus for demonstrating the movement of the Earth and the Moon around the Sun, having the purpose of teaching material for kindergartens, schools, or as an ornament for various institutions, as well as as a source of light or advertisements.

In order to demonstrate the movement of the planets around the Sun, an apparatus is known for demonstrating the movement of rotation and revolution of the planets. This device performs rotational movements and at the same time of revolution of several bodies at the same time, being made of permanent magnets, fixed on a movable support and free rotating bodies, each containing a permanently implanted magnet, these being placed in areas of attraction of permanent magnets (positioned on the support) in the position of attraction, and by the movement of permanent magnets (fixed on the support) the free rotating bodies representing the planets, will have a rotational movement around their own axes and at the same time, a revolutionary movement around a bulb representing the sun.

The disadvantages of this device are that it is a complicated construction, involving a large number of rotating bodies and permanent magnets, and the rotational movement is transmitted to each rotating body with a single pair of permanent magnets that does not provide the rotary body stability and uniformity in movement. of rotation, because of this the bodies in their revolutionary movement randomly acquire one of the rotational movements, respectively a direct one, of oscillation, they have retrograde, the planets in a revolutionary movement changing their rotational sense by several or, the axes of rotation of the planets not realizing the required angle of rotation, the planets being in a position not to realize the number of rotations (the number of days) forced in a revolutionary movement, at the same time the planets not allowing the installation of natural satellites around them.

The object of the invention is to constructively simplify and improve the reliability of the device.

The technical problem that the invention solves is the demonstration of the rotational movements, direct, oscillation or retrograde, depending on the angle realized by the axis of rotation of the planet with the plane of orbit.

The apparatus according to the invention eliminates the abovementioned disadvantages, in that it performs rotational and revolutionary movements of three bodies simultaneously, being made up of four permanent magnets, two of them being fixed on a movable frame and two others being fixed in the geographical globe that represents The earth, which is placed in orbit with the axis of rotation inclined at 23 °, 4 'in the area of attraction of permanent magnets positioned on the mobile frame, and by moving the mobile frame, the geographical globe is carried into orbit and makes 365.6 rotations ( of days) around its axis during a revolutionary movement around the lamppost representing the Sun, which in turn rotates around the central axis with the movable frame, and the geographic globe in its rotating motion puts a rotating movement around its a sphere representing the Moon.

The device according to the invention has the following advantages: it is simple to make, suggestive, reliable and economical, it eliminates the consumption of rotating bodies and permanent magnets, it can be dimensioned according to needs, it can be used as a teaching material, lighting source, decorative material , commercials, the device can be operated and tilted.

The following is an example of embodiment of the invention, in connection with the figure which represents a section through the front view.

The machine can be dimensioned according to preferences and according to the embodiment it is composed of a body 1, of dimensions 0 250x6x80 mm, made of plastic, in which a disk 2 is mounted, of dimensions 0 233 x 4 mm, of sheet metal. steel, by means of 3, 0 8 mm steel brackets, positioned at 120 ° and screws 4, in number four, steel, orbit 5, which is a circular crown made of non-metallic material, respectively glass, plastic, or aluminum, having the dimensions R = 270 mm, r = 230 mm, and the thickness of 5 mm, and are fixed on the supports 3, using screws 6, of steel, and an engine 7 is mounted on the disc 2, with some screws 8 in number two, of steel, together with a corner 9, of aluminum, of dimensions 10x10 x 58 mm, respectively, a threaded rod 10, of steel, of dimensions 0 4 x 95 mm, which is mounted

RO 123594 Β1 in the corner 9, with some nuts 11, in number two, of steel, and a button 12, with the dimensions1

10x15 mm, made of plastic, is fixed to the threaded rod by soldering, and a gear tooth 13 of aluminum is fixed on a motor shaft 14, with a screw 15 of steel, and a central shaft 16, also of steel, 3 is mounted on the disc 2, with a steel nut 17, on the central axis 16, introduces a gear wheel 18, made of aluminum, with intermediate adjustment, and a plastic cover 19 is mounted in 5 body 1, by tightening adjustment, and a movable frame 20, square type 8 x 8 x 800 mm, of steel, is fixed laterally to a hub 18 of the gear, with two steel screws, respectively, a socket 21, 7 which is screwed into the central shaft 16, and a bulb 22 is screwed into the lug 21.

A lampshade 23, made of transparent plastic, with dimensions 0 150x2 mm, is mounted, in 9 hub 18, by tightening adjustment, and a permanent cylindrical magnet 24, of size 0 15 x 6 mm, is mounted by soldering on a support 25 , made of aluminum of size 0 3 x 35 mm, which 11 is mounted on a movable frame 20, with a screw 26, made of steel, and a geographical globe 27, made of plastic or cardboard with size 0 100 mm, represents the planet Earth , and fixing 13 by gluing to its south pole, respectively, a permanent magnet 28 of cylindrical tube type, with the dimensions R = 8 mm, r = 4 mm, h = 10 mm, and a cylindrical shaft 29, of plastic, having an end 15 with dimensions 0 8x10 mm, it is mounted in the permanent magnet 28, by tightening adjustment, and the second end having the calculated diameter (d) x 5 mm, with which the planet makes the number of 17 rotations (number of days) N , on orbit 5, with diameter D [mm]. The calculation of the cylindrical axis for the planet Earth is as follows: d = D / N [mm], N = D [mm] / d [mm]; N = 500 [mm] / 1.3676 [mm], 19

N = 365,600, where: D = 500 [mm] and N - 365.6 days / year, d = 1,3676 [mm], L = orbit roll length, L = nd [mm], L = 4,292 [mm], therefore, the geographic globe 27 travels in 21 orbit 4,292 [mm], to make a rotation motion = 1 day = 24 h, and at the north pole of the planet a permanent magnet 30, of parallelepiped shape, with dimensions 5x5x20 mm 23 by welding, respectively, a spherical nut 31, of aluminum, is positioned freely on the movable frame 20, and a rod 32, with dimensions 0 3x55 mm, of aluminum, is fixed to the spherical nut 31, by soldering, 25 and a permanent magnet 33, also parallelepipedic, of dimensions 5x5x20 mm, is fixed to the rod 32, by soldering, and an arm 34, of spring steel, of dimensions 01,5x67 mm, is fixed to another 27 permanent magnet 33, parallelepipedic, by gluing, of a sphere 35, of plastic, with the dimensions 0 25 mm, representing the Moon, which is fixed in the arm 34, by gluing, and some switches and 29 l ₂ is mounted on the body 1, and the motor 7 and the bulb 22 are connected to the 220 V electrical network, the grounding being connected to the disk 2, and a cover 36, plastic is mounted in the body 1, through 31 tightening adjustments. .

The mode of use consists in connecting the appliance to the 220 V voltage, at which point 33 the bulb 22 lights up, from the switch Ι _υ to illuminate the lamp 23, and the geographical globe 27 is positioned in orbit 5, attracted by permanent magnets 24 and 33, mounted on the mobile frame 20. The engine 7 starts, from the switch l ₂ , which sets in motion of direct rotation around the central axis y-y ', the lamp 23, representing the Sun, and the movable frame 20. The spherical nut 37 31 is positioned manually and during movement in the seats: A, B and C, see figure. The spherical nut 31, positioned in the seat A, inclines the axis of rotation of the geographical globe 27, at an angle of 23 °, 4 '. 39

The geographical globe 27 represents the Earth and performs a revolutionary movement around the lampshaft 23 and, respectively, 365,6 rotations (of days) directly around its axis. Sphere 35 represents the Moon, 41 realizes with the geographical globe 27 the movement of revolution around the lamp 23 and 365,6 of direct rotations around the rod 32. The spherical nut 31 moves from the housing A, to the housing B, so that 43 the axis of rotation of geographic globe 27 achieves 0 °, 0 '. Geographic globe 27, in this case represents the planet Mercury (it does not have natural satellites), making a revolution movement around 45 of the shade 23 and a movement of oscillation around its axis. The spherical nut 31 moves from the slot B to the slot C, so that the axis of rotation of the geographical globe 27 inclines at an angle of 12 °, 12 '. 47

RO 123594 Β1

Geographic globe 27, at this point, represents the planet Venus (it has no natural satellites), making a revolutionary movement around the lamppost 23 and retrograde rotational movements around its axis.

The movement stops if the motor 7 is switched off from the switch b. The device also operates manually if the gear 12, gear 13 and gear 18 are switched off manually.

20 moving constantly around the central axis y-y ', the movement being generated with the free hand.

The rotation motion of the geographical globe 27 is achieved due to the friction that occurs between the cylindrical axis 29 and the orbit 5.

Using the device, the following can be simulated:

1. with one planet realizes the movement of direct rotation, oscillation and retrograde;

2. the planet performs the corresponding number of rotations (days) in a revolutionary movement;

3. The planet maintains its axis of rotation corresponding to the imposed angle, which can be: 23 °, 4 '\

0 °, 0 'and 12 °, 12';

4. the planet forms the four seasons (the device inclining at 33 ° to the horizontal);

5. the rotation motion of the Sun;

6. formation of the eclipse of the Sun and of the Moon;

7. the rotational motion of the Moon around the Earth;

8. accelerating and decelerating the planet's rotational motion (the device inclining at 33 °);

9. the formation of day and night;

10. Earth's rotational motion (the device inclining at 33 °).

Claims (1)

Claim 1 Apparatus for demonstrating the movement of the Earth and the Moon around the Sun, 3 characterized by the fact that a geographical globe (27) has mounted at the south pole a permanent magnet (28) in the form of a cylindrical tube, in which another cylindrical axis is fixed (29). ) with the diameter (d) 5 calculated, and at the north pole a permanent magnet (30) of parallelepiped type is mounted, the geographical globe (27) positioning itself on an orbit (5) between permanent magnets (24), cylindrical type 7 and (33), respectively, of a parallelepiped type, mounted on a movable frame (20), and an engine (7) directly drives a lamp (23), representing the Sun, and a movable frame (20) in direct rotation. , with 9 constant speed around the central axis yy, and a spherical nut (31) is positioned manually and during movement in the seats A, B, and C, by positioning the spherical nut (31) in the seat (A), it inclines 11 axis of rotation of the geographical globe (27) at an angle of 23 °, 4 ', situation in which e the geographical globe (27) represents the planet Earth carrying out a revolutionary movement around the lamp (23) 13 and 365,6 (rotations) of direct rotations around its axis, by rolling a cylindrical axis (29) on a orbit (5), and a sphere (35), representing the Moon, performs, along with the geographical globe 15 (27), a revolution movement around the lamp (23) and 365,6 direct rotations around a rod (32) , and the spherical nut (31) positioned in the slot (B) determines the position of the axis of rotation of the geographical globe 17 (27) at 0 °, 0 ', a situation in which the geographical globe (27) represents the planet Mercury, making a revolutionary movement in around the lamp (23) and a movement of oscillation around its axis, and the positioning of the spherical nut (31) in the slot C determines the inclination of the axis of rotation of the geographical globe (27) at an angle of 12 °, 12 ', situation in which the geographical globe (27) represents the planet Venus, 21 making a movement of revolution around the lamp (23), respectively, rotational movements retrograde around its axis by rolling the cylindrical axis (29) on the orbit (5), the movement stopping if the engine (7) stops at a switch (l ₂ ), the device also works manually if the gear (12) is disengaged by a gear (13) by a gear (18), and a movable frame (20), the movement being carried out at a constant speed around the axis central y-y ', the movement being realized with the free hand. 27