KR100933505B1 - Solar System Driving Model - Google Patents

Abstract

The present invention relates to a driving model of a solar system, and more particularly, to a driving system of a solar system representing a motion of a solar system planet, the driving shaft being connected to a driving motor and coupled with a spherical model sun, and having a ring shape. A plurality of orbital rings which rotate in concentric circles about the drive shaft, and a drive provided between the orbital ring adjacent to the drive shaft and the drive shaft and between each orbital ring so that the driving force of the drive shaft is transmitted to the orbital portion; It characterized in that it comprises a transmission means, a model planetary portion coupled to the upper portion of each of the raceway ring revolves around the drive shaft and the drive shaft passes through the center and supports the track ring and the drive transmission means, As a result, it is possible to visually check the operation of the solar system. It can be utilized and greater effect can also be used Guro ornaments and fixtures.

Solar system, model, planet, revolution, rotating, orbit, gears, motor, driveshaft

Description

Apparatus for Solar System Model

The present invention relates to a model for driving a solar system, and more particularly, to a model for driving a solar system that can be viewed visually by producing three-dimensionally rotating planets and rotating around the sun.

The solar system is known to rotate while rotating several planets around its rotating sun.

However, the objects not only rotate and rotate but also have very complex driving data because different physical quantities are different from each other, such as radius, distance from the sun, orbit, orbital speed, rotational speed, and rotational axis tilt angle.

Thus, a number of scaled-down solar system models have been proposed that simply implement these movements for educational or decorative purposes.

However, the conventional solar system model was configured to implement only simple orbital or rotating motions, so it could only represent a very rudimentary solar system.

Therefore, the principle of various phenomena (four seasons, day and night, etc.) caused by the planet rotates around the actual sun at different speeds, radiuses, and directions, and at the same time rotates around the tilted axis, There is a need for a replicator of a solar system.

The present invention has been made for the needs as described above, an object of the present invention is to provide a solar system running model apparatus that rotates while rotating a number of planets around the sun.

Another object is to provide a solar system driving model device that can be adjusted so that a plurality of planets have different orbits, orbits, and orbits, and rotate around an axis tilted to one side.

Still another object is to provide a solar system driving model that visually realizes various phenomena of the solar system by generating light from the sun.

In order to achieve the above object, the present invention provides a model for driving a solar system, which represents the operation of a solar system planet, comprising: a driving shaft connected to a driving motor and coupled with a spherical model sun; A revolving portion having a plurality of track rings having a ring shape and rotating in a concentric manner about the driving shaft; Drive transmission means provided between a raceway ring adjacent to the driveshaft and the driveshaft and between each raceway ring so that a driving force of the driveshaft is transmitted to the revolver; A model planetary unit coupled to an upper portion of each track ring to revolve around the drive shaft; And a support plate through which the drive shaft passes through the center and supports the track ring and the drive transmission means.

Preferably, the model sun is disposed at the center of the drive shaft, the idle portion is disposed symmetrically at both ends of the drive shaft with respect to the model sun, the model planet between the orbit ring of the idle portion facing each other Model spheres of the spherical shape and the two sides of the model planet and the track is composed of a wire coupled perpendicularly to each of the raceway ring characterized in that it revolves around the drive shaft.

Preferably, a rotating motor having a motor shaft formed at both ends thereof is inclined so that the model planet rotates, and end portions of the wire are coupled to both sides of the rotating motor to support the rotating motor. Hemispherical planetary cover is characterized in that each rotates to form a sphere.

Preferably, the track ring has a gear tooth formed on the inner and outer circumferential surface, the drive transmission means is composed of a pinion coupled to the drive shaft and one or more gears in contact with the pinion and inscribed in the inner circumferential surface of the track ring adjacent to the drive shaft And a subgear gear train composed of a fish train and one or more gears provided between the track rings adjacent to each other.

Preferably, the main gear train is configured such that the pinion and an even number of gears are connected to each other such that the revolution unit revolves in the same direction as the rotational direction of the model sun. It is characterized by.

Preferably, the upper portion of each gear is characterized in that the support plate is further provided to hold the track ring is not separated.

Preferably, the model is characterized in that the space is formed inside and has a spherical shape penetrating the upper and lower, and the drive shaft is coupled while penetrating and rotates as the drive shaft rotates.

Preferably, the model sun is made of a translucent material, characterized in that the light emitter further provided therein.

Preferably, a guide groove is formed on one side of the track ring so that the track ring does not swing in the support plate, and a guide rail inserted into the guide groove is protruded concentrically on one side of the support plate.

Preferably, the fixed cover made of a transparent cover of the cylindrical ring so that the inside and the fixed cover that the track ring, the drive transmission means and the support plate disposed on both ends of the drive shaft, the support rod connecting the two fixed cover, and the inside visible It is characterized in that the outer cylinder is further coupled with.

Preferably, the outer cylinder is filled with a liquid or gel material.

The present invention with the above configuration provides the following effects.

Since the solar system rotates while the planet revolves around the sun, it can be used as a science education textbook because it can visually check the operation of the solar system.

In addition, it is possible to check the various phenomena of the solar system by adding lighting to the model sun, and also to use it as an ornament or a lighting fixture.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a perspective view showing a solar system running model device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the solar system running model device shown in Figure 1, Figure 3 is a cross-sectional view of the solar system running model device shown in FIG. 4 is a sectional view showing an internal configuration of a model embodiment of the present invention, and FIG. 5 is a sectional view showing an internal configuration of a model planetary unit of the present invention.

The present invention is largely composed of a drive shaft 100, revolving portion 200, drive transmission means 300, model planetary portion 400, the support plate 500.

First, the driving shaft 100 will be described.

The drive shaft 100 is a hollow shaft that is rotated by the drive motor 10 and has a circular rod shape, the hollow shaft is preferably empty so that the wire 60 to be described later passes.

The drive motor 10 may be a general motor, and the lower end of the drive shaft 100 is connected to the flexible power transmission cable 130 so that the drive shaft 100 rotates by the driving force of the drive motor 10.

However, the model sun 20 is provided at the center of the drive shaft 100.

The model sun 20 has a spherical shape and has an empty shape inside, and is preferably composed of upper and lower hemispheres to be fitted together or screwed together.

A hole is formed above and below the model sun 20, and the driving shaft 100 is inserted through the hole. Preferably, as shown in FIG. 4, the locking nut 50 is coupled to the driving shaft 100. The model sun 20 supports up and down so that the model sun 20 does not flow down the drive shaft 100.

Thus, the model sun 20 is not coupled to the drive shaft 100 and thus remains stationary regardless of the rotation of the drive shaft 100.

If the model sun 20 and the driving shaft are fixedly coupled, the model sun 20 also rotates together.

By the way, it is possible to further install a light emitter 30 to the light inside the model sun (20).

In more detail, the light emitting body 40 is fixed to the inside of the model sun 20 horizontally, both sides are fixed to the model sun 20, and the driving shaft 100 penetrates in the center thereof. One or more light emitters 30 are installed in the 40.

The light emitter 30 may use a small lamp, and a wire is connected to the end of the light emitter 30 so that a current is supplied. The wire 60 extends downward through the inside of the drive shaft 100 to supply power. Is connected to the battery 110.

However, since the extended wire 60 rotates together when the drive shaft 100 rotates, it is preferable to add a known slip ring 70 to supply a current without twisting.

The structure in which the slip ring 70 is installed will be described in detail later.

On the other hand, the model sun 20 is preferably made of a transparent or translucent material so that the light of the light emitting body 30 passes outside, it is more preferable if the material is yellow or red.

Next, the idler 200 will be described with reference to FIGS. 2, 3, and 5.

As shown in FIG. 2, the revolving part 200 has a circular ring shape and includes a plurality of track rings 210 having different radii.

The orbital ring 210 represents the orbit of the planet, and gear teeth are formed on inner and outer circumferential surfaces, and a plurality of track rings 210 are formed concentrically around the drive shaft 100.

At this time, the track ring 210 is disposed to be symmetrical to each other, that is, both upper and lower ends of the drive shaft (100). That is, two track rings 210 having the same radius are disposed facing each other at both ends of the drive shaft 100.

Since the radius of each orbital ring 210 represents the orbital radius of the planet, each of the orbital rings 210 is determined to have the same ratio as the orbital radius of the actual planet or is appropriately adjusted.

A guide groove 212 is formed along the circumference of the track ring 210, as shown in FIG. 5, below the track ring 210. This is where the guide rail 510 of the support plate 500 to be described below is inserted.

Next, the drive transmission means 300 will be described with reference to FIGS. 2, 3 and 5.

The drive transmission means 300 is a means for transmitting the rotational force of the drive shaft 100 to each of the track rings 210 between the first track ring 210 immediately adjacent to the drive shaft 100 and the drive shaft 100. Consists of a main gear train 310 provided in the sub-gear train 320 provided between the first track ring 210 and the subsequent track ring 210.

The periodic array 310 includes a pinion 312 coupled to the drive shaft 100 and one or more gear trains that rotate in contact with the pinion 312 and inscribe the first track ring 210.

And the sub-gear train 320 can be seen that consists of one or more gear trains that circumscribe each of the track ring 210 and inscribed in the track ring 210 that follows.

At this time, each of the gears 314 are fixed by the fixing pin 330, the fixing pin 330 is penetrated through the support plate 500 to be described later is coupled to the fixing nut 340 in the rear.

By the way, the drive transmission means 300 may not only transmit a driving force but also adjust the rotation direction, the rotation speed and the rotation radius of the track ring 210.

In other words, the rotational direction is changed by adjusting the number of gears of the main gear train 310 and the auxiliary gear train 320, and the rotation speed and the radius of rotation are determined by adjusting the specifications of the gears.

For example, referring to FIG. 3, when the pinion 312 rotates in the counterclockwise direction in the periodic array 310, if two or even gears 314 are connected to each other, the first connection is made. The second track ring 210 also rotates counterclockwise. If the number of gears 314 is an odd number, such as one or three, the track ring 210 will rotate clockwise.

Similarly, it can be seen that the rotational direction of the auxiliary gear train 320 is determined according to the number of the gears 322.

In addition, it can be easily seen that the rotation speed and the radius of rotation can be adjusted according to the size of each gear (diameter or number of gear teeth).

This means that the orbital direction and orbital velocity and orbital radius of the solar system can be matched to the actual planets to realize the motion of the real planet. The orbital ring ( It is apparent to those skilled in the art that the 210 and the drive transmission means 300 are selected and manufactured.

Preferably, the main gear train 310 and the subsidiary gear train 320 may be provided with more than one by one, so that the rotation force of the drive shaft 100 may be better transmitted and stable motion may be realized. .

Next, the model planet 400 will be described with reference to FIGS. 2, 3, and 5.

The model planetary unit 400 is a component that is coupled to the orbital ring 210 and represents a planet that rotates and orbits around the drive shaft 100 together with the orbital ring 210.

The configuration consists of a spherical model planet 410 and a rod-shaped wire 420 connected to the upper and lower sides of the model planet 410.

Both ends of the wire 420 are coupled to the track rings 210 facing each other, and the track rings 210 facing each other are symmetric up and down and have a radius equal to each other. .

However, the wire 420 is inserted through the guide groove 212 on the surface of the track ring 210 and is fixed with a nut as shown in FIG. 5 so as not to swing up and down.

Since the track ring 210 facing each other rotates about the drive shaft 100 at the same speed and the model planet 410 coupled thereto also rotates with the track ring 210 while the drive shaft ( 100 is orbit around the model sun (20).

Preferably, in order to implement an effect of rotating while the model planet 410 rotates, an additional configuration may be provided as shown in FIG. 5. First, the model planet 410 may include two rotating motors 430. It consists of a planet cover (412).

The rotating motor 430 is suitable for a small motor so as to be installed in the model planet 410, and the motor shaft 432 protrudes long at both ends as shown.

The motor shaft 432 corresponds to a rotating shaft. In general, since the rotating shaft of a planet such as the earth is inclined, the rotating motor 430 is also inclined to one side.

The planetary covers 412 having a hemispherical shape are fixedly coupled to the motor shafts 432 at both ends thereof, so that the two planetary covers 412 rotate by the rotation of the motor shafts 432.

In this case, the wires 420 are coupled to both sides of the rotating motor 430. As shown in FIG. 5, the wires 420 extending above and below the model planet 410 are respectively covered by the planet cover 412. Be spaced slightly apart from and coupled to the rotating motor 430 through a gap formed between the planetary covers 412.

Since the rotating motor 430 is to be supplied with a current, the wire 420 preferably has a hollow shape with an empty inside, and the wire 60 is connected to the inside of the guide groove 212 through the inside thereof. ) Is connected to the small battery 110 provided on one side.

Of course, since the guide rail 510 is inserted into the guide groove 212 to perform relative movement, an appropriate space is formed at one side of the guide groove 212 in order to avoid collision with the small battery 110, and the compact It is feasible in such a way that the battery 110 is inserted.

Next, the support plate 500 will be described with reference to FIGS. 2 and 3.

The support plate 500 has a circular plate shape, but a hole having a diameter slightly larger than the diameter of the drive shaft 100 is formed in the center so that the drive shaft 100 is inserted therethrough, and the concentric circle is formed around the hole. The guide rails 510 having different diameters are formed to protrude.

The guide rail 510 is inserted into the guide groove 212 formed in the track ring 210 to allow the track ring 210 to rotate stably without swinging or deviating from side to side.

The support plate 500 is horizontally divided into two at the upper and lower ends of the driving shaft 100, and the support plate 500 is disposed above the guide rail 510 to face downward, and then sequentially rotates the track ring 210. Inserted and assembled and positioned at the bottom is arranged so that the guide rail 510 is facing upwards, the track ring 210 is assembled in sequence, and the drive transmission means 300 between each of the track ring 210 It is installed and completed.

However, as described above, since the drive transmission means 300 is a gear train, the track ring 210 assembled to the support plate 500 positioned at the upper side of the drive ring is dropped and assembled to the support plate 500 positioned at the lower side thereof. Since the track ring 210 can be moved upward while driving, the support plate 220 having a quadrangular shape is further attached to the gears 314 and 322 so that the track ring 210 is not separated.

The support plate 220 is made of a plate as shown in an enlarged view in FIG. 3 and is simultaneously fixed by two fixing pins 330 while simultaneously covering two gears 314 and 322, and the support plate 220. Since both sides of the track ring 210 supports a part of the track ring 210 is not separated as shown.

At this time, both sides of the support plate 220 supports the track ring 210 so as not to overlap with the wire 420 while having a curved surface of the same curvature of the adjacent track ring 210, which is the track ring This is to prevent the collision of the wire 420 and the support plate 220 fixed to rotate together when the rotation.

Further description will be made of the slip ring 70 used when supplying current to the light emitter 30 in the model sun 20, which has already been described with reference to FIG.

The slip ring 70 is a known device that is a contactor attached to a rotor shaft so that electric current flows from the outside to a rotor of an electric motor or a motor and rotates and maintains electrical contact with the non-rotating outside so that currents flow through each other. It is a ring made.

The wire 60 extending from the light emitter 30 extends through the drive shaft 100 and the drive shaft 100 is inserted through the support plate 500, so that the wire 60 is also supported by the support plate. 500 extends to the bottom.

The electric wire 60 thus extended is connected to the slip ring 70 and the slip ring 70 is connected to the battery 110 for supplying current, so that the wire 60 when the drive shaft 100 rotates. ) Also rotates but does not twist.

The worm wheel 90 is coupled to the lower end of the drive shaft 100, the worm 80 is connected to the worm wheel 90, and the worm 80 is connected to the drive motor 10. ) Rotates.

It is preferable that the bearings 120 are connected to upper and lower ends of the driving shaft 100 to reduce friction.

Meanwhile, referring to FIG. 1, the fixing cover 600 in which the raceway ring 210, the drive transmission means 300, and the support plate 500 may be placed on the upper and lower ends of the driving shaft 100. 2) are further provided, and two or more support rods 610 are installed to support the connection between the fixing cover 600, the outer cylinder 620 is coupled between the fixing cover 600 to surround the entire wrap (620) It may be further provided.

The fixing cover 600 has a shape such as a cylindrical container whose one end is open and empty inside, the support plate 500 is seated and fixed first, and the track ring 210 and the drive transmission means on the support plate 500. 300 is disposed and the drive shaft 100 is coupled while passing through the center of the support plate.

And the outer cylinder 620 is coupled to each edge of the fixing cover 600, the material is suitable for transparent acrylic or plastic or glass so that the inside can be observed.

In addition, a proper airtightness is maintained between the outer cylinder 620 and the fixed cover 600, and a low viscosity liquid or gel material may be put therein to implement a cosmic appearance or various lighting effects, such as alcohol. It is also possible to add liquids with color or small particles.

For reference, in one embodiment of the present invention, only some planets such as Mercury, Venus, and Earth close to the sun are shown and described in the drawings, but it is natural that all eight planets belonging to the actual solar system can be installed and displayed.

Although the present invention described above has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent implementations are possible from this, and the true technical features of the present invention. The scope of protection should be construed based on the appended claims.

1 is a perspective view showing a solar system running model according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of the solar system running model device shown in FIG.

3 is a cross-sectional view of the solar system running model device shown in FIG.

4 is a cross-sectional view showing an internal configuration of a model embodiment of the present invention.

5 is a cross-sectional view showing the internal configuration of the model planetary unit of the present invention.

<< Explanation of symbols for main part of drawing >>

10: drive motor 20: model sun

30: light emitting body 40: light emitting frame

50: jam nut 60: wire

70: slip ring 80: worm

90: worm wheel 100: drive shaft

110: battery 120: bearing

130: power transmission cable

200: Slip 210: Orbit ring

212: guide groove 220: support plate

300: drive transmission means 310: cycle gear train

312: pinion 314: gear

320: boogie gear row 322: gear

330: fixing pin 340: fixing nut

400: model planet 410: model planet

412: planet cover 420: wire

430: rotating motor 432: motor shaft

500: support plate 510: guide rail

600: fixing cover 610: support rod

620: outer cylinder

Claims (11)

In the solar system operation model showing the movement of the solar system planets, A drive shaft 100 connected to the drive motor 10 to rotate and to which a spherical model sun 20 is coupled; A plurality of orbiting rings having a ring shape (210) is rotated in a concentric circle around the drive shaft (100); Drive transmission provided between the track ring 210 adjacent to the drive shaft 100 and the drive shaft 100 and between each track ring 210 so that the driving force of the drive shaft 100 is transmitted to the idle portion 200. Means 300; A model planetary unit 400 coupled to an upper portion of each of the track rings 210 to revolve around the drive shaft 100; And a driving plate (100) passing through the center and supporting the track ring (210) and the drive transmission means (300). The method of claim 1, The model sun 20 is disposed in the center of the drive shaft 100, The revolving part 200 is disposed symmetrically at both ends of the drive shaft 100 about the model sun 20, the model planet 400 is the orbit ring of the revolving part 200 facing each other ( A model planet 410 having a spherical shape disposed between 210 and wires 420 vertically coupled to both sides of the model planet 410 and the track ring 210, respectively, is formed around the driving shaft 100. Solar system running model apparatus, characterized in that orbiting. The method of claim 2, Rotating motor 430 having a motor shaft 432 formed at both ends is inclined so that the model planet 410 rotates, and end portions of the wire 420 are coupled to both sides of the rotating motor 430, respectively. Supporting a rotating motor 430, the solar system running model device, characterized in that the hemispherical planet cover 412 is coupled to both motor shafts 432, respectively, to rotate in a spherical shape. The method of claim 2, The track ring 210 has a gear is formed on the inner and outer circumferential surface, The drive transmission means 300 is connected to the pinion 312 and the pinion 312 coupled to the drive shaft 100 and at least one gear (in contact with the inner peripheral surface of the raceway ring 210 adjacent to the drive shaft 100 ( 314) and a subgear train (320) consisting of one or more gears (322) provided between each of the orbiting ring (210) adjacent to each other. The method of claim 4, wherein The main train sequence 310 is configured such that the pinion 312 and an even number of gears 314 are connected to each other such that the revolving portion 200 revolves in the same direction as the rotational direction of the model sun 20. Gear train 320 is a model for driving a solar system, characterized in that the even number of gears (322) is configured to connect with each other. The method of claim 5, wherein Solar gear operating model device, characterized in that the support plate 220 is further provided on the top of each gear (314,322) to hold the track ring 210 is not separated. The method of claim 2, The model sun 20, Solar system running model device characterized in that the space is formed inside and has a spherical shape through which the upper and lower penetrates, the drive shaft 100 is coupled to penetrate and rotate according to the rotation of the drive shaft (100). The method of claim 7, wherein The model sun 20 is made of a semi-transparent material, the solar system running model device, characterized in that the light emitter 30 is further provided therein. The method of claim 2, A guide groove 212 is formed at one side of the track ring 210 so that the track ring 210 does not swing in the support plate 500, and is inserted into the guide groove 212 at one side of the support plate 500. Guide rail 510 is a solar system running model device, characterized in that formed concentrically protruding. The method according to any one of claims 2 to 9, A fixed cover 600 on which the track ring 210, the drive transmission means 300, and the support plate 500 are disposed, and the support rods connecting the both fixed covers 600, respectively; 610 and a solar system running model device, characterized in that the outer cylinder 620 is made of a transparent transparent material made of a cylindrical shape so as to be seen therein is further provided. The method of claim 10, Solar system operation model device, characterized in that the liquid or gel material is filled in the outer cylinder (620).

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