KR100469679B1 - Globe apparatus for showing rotation and revolution - Google Patents

Abstract

A base on which one end of at least one support rod is fixed and one end of the idle shaft is rotatably fixed; A support arm coupled to and fixed to the support rod; A globe having two points facing each other rotatably coupled to the support arm and coupled to rotate at an angle; It is stored inside the globe and combined with the orbital axis and the orbital movement around the two points of the globe, and the globe device that performs the rotation and rotation at the same time including an orbit unit showing the day and night according to the rotation of the globe Is initiated.

Description

Globe apparatus for rotating and revolution at the same time {Globe apparatus for showing rotation and revolution}

The present invention relates to a globe device that performs both rotation and revolution, and more particularly, the rotation unit that rotates around the inclined rotation axis is embedded in the rotating unit indicating the state of the earth's revolution state in a single device to rotate and revolution the earth At the same time Relates to the globe device.

In general, a globe consists of a base, an arched bearing arm fixed to the base, and a hollow sphere slidably coupled to both ends of the bearing arm. The surface of the hollow sphere is characterized by a flat or It is formed three-dimensionally. These globes are simply more decorative and show some longitude and latitude information, making them useful for practical purposes.

A globe proposed by further improving these is proposed in US Pat. No. 6,299,451. Here, the illumination of the sun is embedded inside the globe and interlocked with the clock to express the distinction of day and night more visually.

However, most of the globes are limited to simply showing the rotation of the earth, and it was virtually impossible to simultaneously represent the rotation and revolution of the earth through a single device called the globe. Of course, the rotation of the revolving device centered on the sun can represent the rotation of the earth by a separate driving device, but could not be realized through a single globe.

Moreover, there is no disclosure of the simultaneous implementation of orbits of the sun-centered planets in a single globe device that performs the rotation and orbit of the earth.

Accordingly, it is an object of the present invention to determine the rotation and orbit of the earth through a single globe. The present invention provides a globe device that can be realized.

Another object of the present invention is to provide a globe device capable of representing the revolution of planets centered on the sun on a single globe that simultaneously performs rotation and revolution of the earth.

Other objects of the present invention will be more clearly understood through the embodiments described below.

According to one aspect of the invention, one end of at least one or more support rods are fixed and one end of the idle shaft rotatably fixed; A support arm coupled to and fixed to the support rod; A globe having two points facing each other rotatably coupled to the support arm and coupled to rotate at an angle; It is stored inside the globe and combined with the orbital axis and the orbital movement around the two points of the globe, and the globe device that performs the rotation and rotation at the same time including an orbit unit showing the day and night according to the rotation of the globe Is initiated.

Preferably, the globe rotates in gear engagement with a rotating shaft that is rotated by a drive motor.

In addition, according to the present invention, the center of the base and gear-coupled to the revolving axis of rotation further comprises an orbital orbital device having an earth orbit installed earth model, preferably, the orbital orbital orbital device in the center The model is installed, The Mercury orbit, where the Mercury model is installed, and the Venus orbit, where the Venus model is installed, are installed inside the Earth orbit, and the Mercury orbit, the Venus orbit, and the Earth orbit rotate independently.

Preferably, the display device may further include a display installed on the base and displaying information transmitted from the user computer in relation to the rotation position of the globe and the rotation position of the revolution unit.

According to the present invention, the revolving unit is a disk-shaped main plate divided by a predetermined interval along the inner surface of the globe; A coaxial cylindrical housing integrally formed in the lower part of the main body division plate and having a gear body coupled to the idler gear of the idle shaft; Light sources provided at both sides of the center of the day and night separation plate; And a bearing unit installed at an uppermost lower end of the day and night division plate to press the inner surface of the globe to serve as a center of rotation of the revolving unit.

Preferably, a space for a power line and a control line is formed inside the support arm, and the outer shell of the globe is formed to be double so that a space is provided therein, so that the position display lamp is installed in the space and the power line and the control line extend. .

According to another aspect of the invention, one end of the first support rod and the second support rod that is accommodated the rotating shaft is fixed and one end of the rotating shaft is rotatably fixed; A ring-shaped support arm coupled to and fixed to the first support rod and the second support rod; Two globes facing each other are rotatably coupled to the support arm but coupled to be inclined at an angle, the globe being rotated by a rotation axis; It is stored inside the globe and combined with the orbital axis to make orbit around two points of the globe, and follow the rotation of the globe using a light source. Idle unit showing day and night status on the old book; It is installed at the center of the base, and the solar model is installed at the center, and the orbits of Mercury, where the Mercury model is installed, and the Venus orbit where the Venus model is installed, and the Earth orbits, which are installed with the Earth model, are adjacent to each other Disclosed is a globe device which rotates and orbits simultaneously including an orbital orbital device in which the Venus orbit and the earth orbit rotate independently and the earth orbit is gear coupled to the orbital axis.

According to another aspect of the invention, one end of the at least one support rod is fixed and one end of the idle shaft rotatably fixed; A ring-shaped support arm coupled to and fixed to the support rod; A globe that rotates to be coupled to the south pole and the north pole opposite to each other so as to be rotatably coupled to the support arm to be inclined at an angle; An orbit unit, which is housed inside the globe and coupled with the orbital axis to orbit around two points of the globe, and shows day and night conditions on the globe according to the rotation of the globe using a light source; And a globe device which simultaneously rotates and revolves, including a drive device coupled to the globe at an arctic point of the globe and having a motor shaft of a driving motor embedded therein, coupled to only the north pole of the globe.

According to another aspect of the invention, one end of the at least one support rod is fixed and one end of the idle shaft rotatably fixed; A support arm coupled to and fixed to the support rod; A globe having two points facing each other rotatably coupled to the support arm and coupled to rotate at an angle; It is stored inside the globe and is combined with the orbital axis to make a circular motion around two points of the globe. Idle unit to show separately; And an orbital orbital orbital device having an earth orbit installed in the center of the base, gear-coupled to the orbital axis, and equipped with an earth model. The orbital axis is separated from the gear trains of the earth orbit, and the earth orbit is rotated. Is placed on a specific date marked along the earth's orbit, and then the combined orbital axis is combined with the earth's orbit, thereby providing a globe device that simultaneously rotates and orbits the globe to produce the same situation as the overall situation on a particular date. .

Preferably, the orbital orbital orbital device is installed in the center of the earth orbit so that the solar model is installed in the center, and the orbit of Mercury where the aqueous model is installed and the Venus orbit where the Venus model is installed independently rotate around the solar model. Yearly dates, days of the week, seasons, and orbits are orbited along the orbit, and based on the orbits, the position of Mercury and Venus may change over Earth's date.

In addition, a light source is provided inside the solar model, the aqueous model, the Venus model, and the Earth model to emit light at night.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 is a perspective view showing a globe device according to an embodiment of the present invention.

The globe device includes a base 200 in which a driving unit and a power supply unit are built, and various supporting rods or driving shafts are supported, a rotating globe 500, and a support arm 700 rotatably supporting the globe 500. , Made of a revolution unit 600 installed inside the globe (500).

1 and 2, the support plate 100 may be rotatably coupled to the lower portion of the base 200 so as to rotate the globe device itself. Since the base 200 is rotatable with respect to the support plate 100, the fixed globe device can be observed in various directions.

On the surface of the base 200, a display 202 and various function switches 206 are installed, and a light emitting lamp 204 indicating a driving and operating state of the globe device is installed. The role of each function switch 206 will be described later. In addition, although not illustrated in detail, passages for inputting and outputting various power lines or control lines are formed on the side surfaces of the base 200.

In the base 200, the power supply unit 208 and the control interface unit 210 are partitioned and installed, and a space in which one end of the rotation shaft 810 and the idle shaft 850 is located is formed. The rotating shaft drive motor 216 is accommodated in the space 222, and the rotating shaft 850 is attached to the base 200 to be rotatable by a fixing screw 850a attached to the rotating shaft weight 850b at one end thereof. do.

The power supply unit 208 includes a driving motor 216 fixed to one end of the rotating shaft 208, a lamp of the revolving unit 600 described later, a position indicating lamp installed on the surface of the globe 500, and each planet. The power is applied to the light emitting lamp 204. In addition, the control interface unit 210 is connected to an external computer system that can be connected to the Internet to receive a variety of information related to the earth to perform the current rotation and revolution to display on the display 202.

On the screen of the display 202, various data such as the current time of each country, month, day, day of the week, temperature, humidity, time of tidal wave, change of 24 seasons, various information of the earth and the position of the constellation on each planet and celestial body Is displayed. That is, it is usually used as a digital clock, and it is possible to know where the earth is located with respect to the sun at the present time by flashing a luminous lamp of a corresponding region, and when other information is needed, the function switchings 206 can be used. As a result, information may be obtained from a user computer connected to the control interface unit 210 through the Internet and displayed, or information may be output through the voice output device 220.

Referring to FIG. 2, the support arm 700 rotatably supporting the globe 500 at a predetermined distance from the surface of the globe 500 is formed by a combination of the lower support arm 704 and the upper support arm 706. Each of the support arms 704 and 706 is coupled at both ends by a fixing nut 708 to form a circular support arm 700.

The fixing nut 708 located at the lower side is connected to the first support leg 702 having one end fixed to the base 200, and receives the rotation shaft 810 and the second support leg 702 having one end fixed to the base 200. The other end of) supports the support arm 700 at another position.

The interior of the support arm 700 and the support leg 702 is formed in a hollow state and used as a passage for various control lines or power lines, and in particular, the support arm 700 may be provided with various scales or various subsidiary units. Can be.

The globe 500 is rotatably coupled to the support arm 700. Referring to FIG. 4, a method of coupling the globe to the support arm is described.

That is, by applying a hinge 720 to one end where the lower support arm 704 and the upper support arm 706 meet, the other end is separated from the upper and lower support arms 706 and 704 around the hinge 720 and then the globe 500 ) Can be inserted and combined. In addition, there may be a method of completely separating both ends where the lower support arm 704 and the upper support arm 706 meet and inserting the globe 500 to fix both ends with the fixing nut 708.

In this case, coupling grooves / coupling protrusions 704a and 706a are formed at both ends of the upper and lower support arms 706 and 704, respectively, and are primarily coupled by the fixing nuts 708.

5 is an exploded cross-sectional view showing a globe applied to the present invention.

As shown, the globe 500 is separated into a southern hemisphere 500a and a northern hemisphere 500b based on the equator 5a, and are combined with the uneven groove 510 for coupling to each of the southern hemisphere 500a and the northern hemisphere 500b. , 512 is formed by matching the male and female, and since the rotational force is transmitted from one side to the other, it needs to be firmly coupled.

A cylindrical protrusion 506 is formed at the south pole of the southern hemisphere 500a so as to be rotatably contacted with the support arm 700, and the rotating shaft 810 and the revolving shaft 850 may be inserted at the same time inside the cylindrical protrusion 216. The through hole is formed to have a diameter of the margin and communicate with the inside of the globe 500, the side wall of the through hole is formed with a gear train (506a) is in gear gear coupling with the rotary gear coupled to the end of the rotating shaft (810).

In addition, a map is formed on the outer surface of the globe 500, and a location display lamp 514 for indicating a location on the map is provided, and a diagram for applying power to the location display lamp 514 is provided. Converter 516 is formed inside the globe. To this end, the outer shell of the globe 500 may be made to have a constant thickness or double, and the conductive path may be freely disposed by applying an optical fiber line or a plastic conductor for laser using these. This will be described later.

In addition, a pair of guides 522 for supporting and guiding one side of the revolving unit, which will be described later, centering on the south pole and the north pole are formed to protrude on the inner surface of the globe 500. This prevents the main unit of the idle unit from deviating from the defined trajectory when rotating around the south pole or the north pole.

In addition, at the top end of the upper support arm 706 is an accessory connection 123, as shown in Figure 20, the moon and solar system 300 can be combined.

Meanwhile, a pivot unit 508 is installed at the arctic point of the northern hemisphere so that the globe 500 and the support arm 700 are rotatably coupled.

Referring to FIG. 8, the pivot unit 508 includes a support bolt 814 that is screwed into the north pole position display hole 706b of the upper support arm 706. The end of the support bolt 814 is in contact with the receiving projection 520 protruding at the corresponding position of the globe 500 in a pointed needle shape. Since the force applied by the support bolt 814 to the globe 500 must be constant, the horizontal and vertical fixing pins 706c which prevent the rotation of the support bolt to maintain it after setting the pressing force of the support bolt are supported by the support bolt 814. ) And the support arm 706 in the vertical and horizontal directions.

On the other hand, around the receiving projection 520 formed in the globe 500 inside the globe 500 A plurality of heat dissipation holes 522 for dissipating heat generated from a lamp or the like are formed.

FIG. 6 is a perspective view illustrating a coupling state between a rotating shaft and a rotating shaft and a support arm, and FIG. 7 is a detailed perspective view of the rotating shaft.

As shown in the figure, a cylindrical ring 506 formed at the south pole of the southern hemisphere 500a is fitted with a rotary ring 750 having a ball bearing therein, and the rotary ring 750 is a support holder formed at the lower support arm 704. 704b). Thus, it rotates at an inclination of 23.5 degrees with respect to the vertical axis, thereby smoothing the driving of the globe with its load acting eccentrically. In addition, the bottom of the support holder 704b is formed with a through hole through which the rotating shaft 810, the revolving shaft 850 and the conductive rod 950 described later are formed. The line 980a and the conductive rod 950 are connected to each other.

In addition, the magnetic gear 816 is fixed to the upper end of the rotating shaft 810 by a screw 818. The magnetic gear 816 transmits the rotational force of the magnetic gear 816 to the globe by engaging a gear with the gear train 506a inside the cylindrical protrusion 506 formed at the south pole of the globe 500.

The magnetic gear 816 is rotated by the rotating shaft drive motor 216 and is controlled to rotate once a day by a driving motor controller (not shown). For example, the motor 216 is interlocked with a timer system. Can be driven.

FIG. 6 illustrates a case in which a rotating shaft and a rotating shaft are installed together as shown in FIG. 2. However, as shown in FIG. 3, the rotating shaft may be manually operated by only installing the rotating shaft without the rotating shaft.

Referring to Figure 7, the idle shaft 850, as described above, one end is fixed to the base 200 by a fixing screw 850a, the idle shaft weight 850b is installed at the bottom Maintain a stable rotation. The rotation of the idle shaft 850 is substantially manual because it is inefficient and inefficient to configure one revolution automatically for a period of one year.

A cylindrical knob 856 is used to rotate the idle shaft 850, and is inserted into the idle shaft 850. To this end, the stage 850c, 850d, and 850e are formed in multiple stages on the idle shaft 850. Gears are formed on the outer surface of the knob 856, the fixing nut 858 is inserted into the idle shaft 850 and coupled to the stepped screw 850e to fix the position of the knob 856. In order to prevent the knob 856 from turning, a screw may be formed in each stepped portion of the idle shaft in the axial direction, and a screw may also be formed inside the corresponding knob 856 to be screwed together.

The other end of the idle shaft 850 is inserted into the globe 500 is installed a revolution shaft revolution gear 850f for rotating the day and night separation plate of the revolution unit.

In addition, when idle is performed by motor drive, the gear train formed in the outer surface of the knob 856, the gear train of the idle shaft revolving gear 850f, the earth track gear train 860c coupled with the gear train of the knob, and the day and night division The standing gear trains of the plates should be set in consideration of the rotation radius, the size of the gear train, and the number of gear trains so that one rotation per year is performed in the same way.

In addition, the top of the idle shaft 850 to apply power to the idle unit Power supply terminals 850g and 850h are installed to be connected to a power line extending through the through hole inside the idle shaft 850.

As such, the idle shaft rotates once a year so that the user may not frequently use it, but may use it frequently for educational purposes. At this time, the earth and the earth on the planetary orbit should be coincident with each other at a certain time point such as each day of the year or 24 seasons. That is, the fixing nut 858 may be loosened, and the knob 856 may be manually lifted up to separate it from the interlocking earth orbit gear train 860c, and the revolving shaft 850 may be arbitrarily adjusted and then recombined.

On the other hand, in the case of rotating the globe by the power as shown in Figure 2, both the rotation axis 810 and the revolution axis 850 does not coincide with the center line of the globe, that is, the center line connecting the south pole and the north pole. This is because the rotation axis of the globe is secured at the Antarctic point, and the rotation axis 810 and the rotation axis 850 are inserted in the space, and the rotation axis center line 812 should be arranged in parallel with the earth center line. Centerline 852 should be located towards earth center point 504.

However, as shown in FIG. 3, when the vehicle is manually operated, only the revolution axis 850 is installed. In this case, since the revolution axis center line 812 coincides with the earth center point 504, the revolution axis center line 504 is also installed to coincide with the rotation axis center line 812.

9 is a cross-sectional view illustrating a case where a driving device for rotating a globe is installed at an arctic point.

When the rotation of the globe is powered by the rotation axis, the rotation axis 810 and the rotation axis 850 Because it is installed together occupies a large area of the Antarctic branch of the globe 500, it is difficult to explain the Antarctic region to students educationally, and users who live in the southern hemisphere region of the global village rotate the globe upside down Antarctica It may be used upwards. In this case, by placing the driving device for the rotation at the North Pole, it is possible to reduce the installation area on the map occupied by the South Pole so that both the Antarctic and the North Pole can be marked.

First, the bracket 520 installed at the north pole of the globe 500 is positioned to coincide with the through-hole 706b formed in the upper support arm 706 and the center line, and the bracket 520 and the upper support are made using the temporary fixing ring 712. Join arm 706.

Subsequently, the driving motor 820 is accommodated, the driving shaft protrudes, and a rotating chuck 820a is installed at an end thereof, and a case 822 having a flow preventing ring 826 installed at an inlet to prevent the flow of the driving motor is rotated 820a. After positioning to be coupled to the bracket 520, the case fixing ring 714 is turned to couple to the upper support arm 706, and then the temporary fixing ring 712 is separated.

Therefore, the globe 500 is rotated by receiving the rotational force of the driving motor 820 by the bracket 520 through the rotation chuck 820a.

In this case, the driving motor 820 is supplied with power by a conductive line 824 extending into the case 822, and the conductor extending into the connector and the upper support arm 706 formed at the end of the conductive line 824. Connectors formed at the ends of the line are electrically connected by being joined at the interface.

10 to 13 show a revolving unit applied to the present invention, Figure 10 is a cross-sectional detail view of the day and night separation plate, Figure 10a is a view showing another embodiment of the power supply structure of the revolving unit, Figure 11 and Figure 12 is a side and front perspective view of the main plate.

The day and night separation plate 602 proposed in the present invention is intended to produce the inside of the globe that the Earth revolves around the sun once a year, and the shape of the globe in the shape of a disc slightly smaller than the inner diameter of the globe 500. It rotates at a small interval from the inner diameter.

Basically, a light source is installed at both sides of the day and night separation plate 602, and the uppermost point and the lowermost point rotate in contact with the inner surface of the globe to form a constant circle around the north and south pole points. Accordingly, when viewed from the outside of the globe, it is possible to bring the effect that the night and day intersect at regular intervals by the inner light source.

Day and night separation plate 602 is a disk-like spaced apart from the inner surface of the globe 500 at minute intervals, as shown in Figure 11, bent along the edge so that light from the light source 620 installed on both sides does not come out from each other ( 602a) and a black cloth, brush, or sponge may be attached to absorb light.

Cylindrical ball joints 604 are formed at the upper and lower ends of the main and division plate 602, respectively, and elastic members 604c, magnets 604b, and ball bearings 604a, such as springs, are stacked in this order. Therefore, the ball bearing 604a is pressed by the elastic member 604c to press the inside of the globe 500, and the above-mentioned guy A circular motion is made along the edge 522.

In addition, a coaxial cylindrical housing 610 is integrally formed at the lower end of the day and night separation plate 602 to serve as a center of gravity so that the plate can be stably rotated and to transmit driving force for the circular motion of the plate. .

As shown in FIG. 12, the housing 610 is coaxially cylindrical and protrudes on both sides around the main and night separation plate 602, and a gear body 610d having a gear train formed on an outer surface thereof is integrally formed therein. A passage is formed between the side wall of the housing 610 and the gear body 610d therein. In addition, a gear case 610c having a gear train formed therein is rotatably fitted inside the side wall of the housing 610. Accordingly, as described below, an idler gear 850f and a gear body installed on the idle shaft 850 are provided. Even if the gear train of 610d is coupled and rotated, the gear case 610c rotates in the opposite direction. That is, the gear case 610c allows the day and night separation plate 602 to stand stably despite the rotation.

Therefore, in contrast to the above structure, the gear body 610d rotates, and the gear case 610c is fixed to the side wall of the housing so that the idler gear 850f engages with the gear train of the gear case 610c. Bring it.

Importantly, the size of the gear train and the number of gear trains of the gear body 610d and the idler gear 850f depend on the rotation radius of the gear train of the knob 856 and the earth orbit gear train 860c of the idle shaft. As a result, one turn is made per year by a constant proportion such as mutual proportion or inverse proportion. This will be described later in more detail.

In addition, both surfaces of the day and night separation plate 602 may be coated with reflective materials of different properties or colors for efficient illumination, and the housing 610 may have a daytime side 610a so that light from the light source 620 is not blocked. ) Is formed to be transparent and the night side 610b is preferably formed to be translucent or opaque.

In addition, a light source 620 for illumination is installed in the center of both sides of the day and night separation plate 602, the light source 620 is fixed to the socket 620a and the reflection cover 620b is installed in the direction of light emission, the outside The illumination emitted by the light source may be uniformly changed by using a timer sensor or the like to vary the illuminance or color of the light source 620 in response to a morning dawn, an evening, or a nighttime sleep.

In addition, the ecliptic display lamp 680 may be installed on the outside by being fixed to the reflective cover 620b. When the ecliptic display lamp 680 is rotated when the globe 500 is viewed from the outside, any part of the earth may be the first in the sun. By indicating the proximity of the zodiacal display lamp 680 by the brightness, it is possible to always know the change of the ecliptic with the tilt of the earth axis.

In the revolving unit 600 having such a structure, when the user manually rotates the knob 856 of the revolving shaft 850, the revolving gear 850f installed at the end of the revolving shaft 850 has the gear body 610d of the housing 610. Rotated). Accordingly, the housing 610 and the day and night separation plate 602 makes a circular motion about one rotation per year about the north pole and the south pole. In addition, by applying power to the light source 620 to emit light, it is possible to produce a state that changes day and night in each region by the rotation of the globe 500 itself.

The shape of the housing 610 may be variously modified. For example, when applied to a small globe, as shown in FIG. 13, the size of the housing 610 is reduced as well as the shape thereof. The size of is also finely implemented.

13 to 15 show various power supply methods.

In the present invention, the portion to be supplied with power is the light source 620 of the revolving unit 600, the position display lamp 514 installed on the outer shell of the globe, the ecliptic display lamp 680, the drive motor for rotating the globe ( 216 and 820, a light emitting lamp 204 indicating an operating state, a control interface 210, and the like.

To this end, as described above, basically the outer shell of the globe, the support arm, and the axis of rotation and the axis of revolution are used as passages for various power lines or control lines.

Referring to FIG. 13, a power supply and a control line, etc., which extend into the inner passage of the idle shaft 850 are connected to the connectors 850g and 850h formed at the ends of the idle shaft 850, and the connectors 850g and 850h are connected to each other. In contact with the conductive films 620c and 620d formed along the bottom and sidewalls of the passage 610 of the housing 610, the light sources 620c and 630c of FIG. 11 are transferred to the light source 620 or the position display lamp 630, respectively. .

As a method of supplying power to the position display lamp 514, as shown in FIGS. 11 and 12, the elastic member 630a is inserted into the support 630 connected to the conductive path 630c and the elastic member A contact pad 630b is installed at 630a so that the contact pad 630b contacts the conductive path 516 of FIG. 5 formed inside the globe 500, and thus the position display lamp 516 is connected to the conductive path 516. 514 is made to emit light. The conductive path 516 is constant along a certain latitude. Since the overall width is formed, when the switch is turned on, the position display lamp 514 installed at the latitude emits light.

Alternatively, as shown in FIG. 6, the conductive rod 950 is fixed to the support holder 704b integrally formed with the lower support arm 704 by using the fixing nut 980, and the lower support arm 704 of the lower support arm 704 is fixed. Power and control lines 980a extending through the inside are connected to the connectors 952 and 954 made of an elastic member. When the connectors 952 and 954 are connected to the contact pads 524a and 524b formed on the inner wall of the cylindrical protrusion 506 of the globe as shown in FIGS. 14 and 15, a power supply and a control line embedded in the outer shell of the globe 500 are provided. Power is applied to the position display lamp 514 through the equator boundary portion 526 through 524.

In another method, as shown in FIGS. 14 and 15, the outer surface of the globe 500 may be formed to have a constant thickness, or may be formed in a double manner so that a predetermined space is secured therein, thereby forming a plastic conductor or a plastic circuit board in the inner space or the secured space. By using the 530 or the like to form a light emitting unit or by emitting a laser by the optical fiber can be confirmed a constant position.

As such, by displaying the location on the globe, it is possible to check the location of the area where they live, especially at night. In addition, the zodiacal display lamp 680 can also determine which position the sun is relatively.

FIG. 15 is the same as the above method, but different conductive rods 950a and 950b are provided for each of the position display lamps 514, and only the revolution shaft 850 is installed in the globe shown in FIG. That is, it may be used when the rotating shaft 810 is not installed.

16 to 19 show an orbital unit of each planet by the solar system.

The orbital orbital orbital device 218 includes a solar orbit 868 and an orbit 866, which are orbits corresponding to orbits of the sun model 2a, the aqueous model 2b, the venus model 2c, and the earth model 2d. ), Venus orbit 864, fixed on the Earth orbit 860 and moves in accordance with the rotation of the orbit, adjacent to each orbit orbit Mercury cycle scale (866a), Venus cycle scale (864a), Earth cycle scale (860a) This indicates the current position of each rotating planet. Among them, Mercury has an orbit that is remarkably ellipsoidal compared to other planets, and the revolution rotates in a circular shape, but the revolution period scale is expressed as an ellipse so that it is produced in the same manner as the natural phenomenon, so as to help the user's education.

In the orbital period display of the planets in Fig. 18, the orbital period of Mercury is 87.97 days in earth time, so the 88-day scale is marked, and since Venus is 224.7 days, it is calculated as 225 days and divided into 32 spaces a week (7 days). The scale is marked with the earth, and the earth is marked with December, but due to the limited size of the drawings, the actual product may be labeled weekly or differently.

In addition, a gear train 860c is formed on an outer surface of the earth orbit 860 so as to be geared with the knob 856 of the idle shaft 850 so that the earth orbit 860 rotates according to the rotation of the knob. In addition, on the base 200 outside the earth's orbit 860, each day of the year and 24 seasons are marked to indicate the relationship between the sun, the planets, and the position of the earth. The same appears in the bone 500.

It is important here that the specification of the orbital orbital orbit of the earth orbit is equal to, or in proportion to or in proportion to the size of the gear train of the gear body 610d in the housing 610 of the orbiting unit installed inside the globe. That is, in order to make one rotation of the day and night division plate 602 in the same manner as the revolution of the earth, which makes one revolution per year, the size of the gear train and the number of gear trains are applied according to a certain ratio according to the size of the rotation radius of each device. It is losing. Therefore, the size and magnification of the earth orbit gear train 860c and the gear train 856 of the knob of the idle shaft which are rotated in combination with each other are the same as the size and the magnification of the gear train of the gear body 610c and the idler revolution gear 850f. If one side is enlarged or decreased, it should be increased or decreased according to the ratio so that both meet the conditions of one turn per year.

In addition, a fluorescent material is applied to each orbit and a light emitting device is installed inside the planet, so that its position can be known at night with the position display lamp 514 of the globe 500. In addition, the rotation method may be manually moved, although not shown, a driving device may be installed in the free space of the base 200 to be automatically operated and rotated.

As shown in FIG. 19, each orbit is separated by a ball bearing 868 on adjacent sidewalls and a bottom surface so as to rotate smoothly separately, and light emitting lamps installed inside each planet 2a, 2b, 2c, and 2d. The power supply to the furnace is transmitted through the connectors (2ab, 860b, 864b, 866b) formed on the bottom of each track, the power supplied from the base 200.

Referring to FIG. 20, the pad type solar system 300 includes a support arm 700 of a globe 500. It is supported by the support rod 130 connected to the auxiliary device connecting portion 123 of the coupled to the ball joint is configured to rotate in any direction and passing through the interior of the auxiliary device connecting portion 123 and the support rod 130 Power and control lines are supplied to the solar system and delivered to the actuators and luminous lamps of each planet and constellations.

In addition, a time scale ring 730 is installed along the equator between the outer shell of the globe 500 and the support arm 700, and the time scale ring 730 is formed by a male and female groove formed at both ends by a pair of male and female. It is coupled through the time scale ring coupling portion 732 installed on the arm 700.

In addition, the lower end of the time scale ring 730 is formed with a gear train, the end of the rotation bolt 734 integrally installed with the coupling portion 732 to the support arm 700 is coupled to the gear train rotation bolt ( Rotating 734 moves the time scale ring 730. Therefore, by using this to match the reference scale of the day and night separation plate 602 and the time division ring 732 installed in the inside of the globe 500. That is, the east end of the left and right both ends of the day and night separation plate 602 is always rising time and the west end is always rising time, so the rising time indicated in the time division ring 732 is east of the day and night separation plate 602. If the coincides with the stage, the globe 500 can rotate and know the time of all regions on the globe.

In addition, if the time scale ring 730 is installed in accordance with the latitude of the region other than the equator, the light from the location indicator lamp 514 of the region is identified even at night by the fluorescent or luminous material of the time scale ring 730. Time difference with other regions Can be distinguished more easily.

As described above, the present invention has been described, but various descriptions and applications using the present invention in addition to the description is within the scope of the spirit of the present invention as a person skilled in the art.

For example, a distance measuring device facing the sun at right angles to the day and night plate using the accessory coupling on the top of the globe is installed at the same scale as the scale of the globe, so that the distance of the region from the sun is changed every hour of the day. You can measure your losing distance. This application method is also possible only by the auxiliary device coupling unit and the day and night separation plate and the position indicator lamp proposed in the present invention, and thus various applications using the present globe are possible.

As described above, by rotating and orbiting a single globe at the same time, changes in day and night, local time differences, seasons and seasons, changes in the position and distance of the sun and the earth, and the solar system The relationship of the change of position according to the revolution between each planet by the same can be produced as the reality.

In addition, a variety of information transmitted from a user's computer connected to a remote server via the Internet, such as date, time, climate, tides, the appearance time of each planet and satellite, and other details are displayed on the display. Prize the present situation It informs in detail, provides more detailed information on the user's computer, supplements educationally, and all situations of celestial objects by voice output devices can be provided, suggesting optimal conditions for students' educational effect.

In addition, by directing all the conditions of the universe on the same globe as a phenomenon that occurs in nature, it can be useful in everyday life as well as educational effects.

1 is a perspective view of a globe apparatus according to the present invention.

2 is a main cross-sectional view of a globe apparatus according to an embodiment of the present invention.

3 is a main cross-sectional view of a globe apparatus according to another embodiment of the present invention.

4 is an explanatory diagram illustrating a method of coupling a globe to a support arm.

5 is an exploded cross-sectional view showing a globe of the present invention.

6 is an explanatory diagram showing a state in which the lower side coupling relationship between the support arm and the globe and the rotation axis and the revolution axis pass through the support arm.

7 is an exploded perspective view showing the structure of a revolution shaft.

8 is a perspective view showing an upper coupling relationship between the support arm and the globe.

9 is a cross-sectional view showing a driving device for driving a globe at a globe north pole.

10 is a cross-sectional view showing a idle unit according to an embodiment of the present invention.

10A is a cross-sectional view illustrating a revolving unit according to another embodiment of the present invention.

11 is a side perspective view showing an idle unit.

12 is a bottom perspective view of the idle unit.

13 is a cross-sectional view showing a modification of the housing of the idle unit.

14 is an explanatory diagram for explaining a power supply method according to an embodiment of the present invention.

15 is an explanatory diagram illustrating a power supply method according to another embodiment of the present invention.

16 is a perspective view showing an orbital trajectory according to an embodiment of the present invention.

17 is a perspective view showing an orbital trajectory according to another embodiment of the present invention.

18 is a top view of FIG. 17.

19 is a sectional view of an orbital trajectory.

20 is a perspective view showing a solar system connected to the globe of the present invention.

Claims (12)

A base on which one end of at least one support rod is fixed and one end of the idle shaft is rotatably fixed; A support arm coupled to and fixed to the support rod; A globe having two points facing each other rotatably coupled to the support arm and coupled to rotate at an angle; Rotating and revolving, characterized in that it comprises a revolving unit accommodated in the globe and coupled to the revolving shaft and the circular movement around the two points of the globe, and distinguishing day and night according to the rotation of the globe Globe device running simultaneously. The globe apparatus of claim 1, wherein the globe is rotated by gear coupling with a rotating shaft rotated by a driving motor. The apparatus of claim 1, further comprising an orbital orbital orbital device having an earth orbit installed in the center of the base and gear-coupled to the orbital axis and rotated to form an earth model. Globe device for rotating and orbiting simultaneously characterized in that it comprises. The orbital orbital orbital apparatus of claim 3, wherein a solar model is installed at the center, and an aqueous orbit with a Mercury model installed around the sun and a Venus orbit with a Venus model installed inside the Earth orbit. The Venus orbit and the Earth orbit are rotated independently, characterized in that the globe device to perform both rotation and revolution at the same time. The system of claim 1, further comprising a display installed on the base to display information transmitted from a user computer in relation to the rotating position of the globe and the rotating position of the revolving unit. Globe device running simultaneously. According to claim 1, wherein the idle unit is Day and night partition plate spaced apart at regular intervals along the inner surface of the globe; An electric gear of the idle shaft and formed integrally with the lower part of the main plate; A coaxial cylindrical housing having a gear body coupled therewith; Light sources provided at both sides of the center of the day and night separation plate; And And a bearing unit installed at an uppermost lower end of the main division plate and configured to press the inner surface of the globe to serve as a center of rotation of the revolving unit. According to claim 1, wherein the support arm has a space for the power line and the control line is formed, the outer shell of the globe is formed so as to provide a space therein, the position indicator lamp is installed in the space and the power line And a globe device which simultaneously performs rotation and revolution, characterized in that the control line is extended. A base on which one end of the first support rod and the second support rod on which the rotation shaft is accommodated is fixed and one end of the revolution shaft is rotatably fixed; A ring-shaped support arm coupled to and fixed to the first support rod and the second support rod; A globe that is rotatably coupled to the support arm by two points facing each other so as to be inclined at an angle and rotated by the rotation axis; It is stored inside the globe and is coupled to the orbital axis to orbit around the two points of the globe, and rotates the globe using a light source. An idle unit showing the day and night state on the globe; It is installed in the center of the base, the solar model is installed in the center, the Mercury orbit with the Mercury model is installed around the sun, the Venus orbit with the Venus model and the Earth orbit with the Earth model are formed adjacent to each other, the aqueous The orbit, the Venus orbit and the earth orbit rotates independently, and the earth orbit is a globe device that performs both rotation and revolution at the same time, characterized in that it comprises an orbital orbital device which is rotated in gear coupling to the orbital axis. A base on which one end of at least one support rod is fixed and one end of the idle shaft is rotatably fixed; A ring-shaped support arm coupled to and fixed to the support rod; A globe that rotates while being coupled to the south pole and the north pole facing each other so as to be rotatably coupled to the support arm to be inclined at an angle; An orbiting unit housed in the globe and coupled to the orbital axis to orbit around two points of the globe and showing a day and night state on the globe according to the rotation of the globe using a light source; And And a driving device coupled to the globe at an arctic point of the globe and including a driving device in which a motor shaft of a driving motor embedded therein is coupled to only the north pole of the globe. A base on which one end of at least one support rod is fixed and one end of the idle shaft is rotatably fixed; A support arm coupled to and fixed to the support rod; A globe having two points facing each other rotatably coupled to the support arm and coupled to rotate at an angle; A revolving unit housed in the globe and coupled with the revolving shaft to perform circular motion around two points of the globe, and showing day and night according to the rotation of the globe; And It is installed in the center of the base and gear-coupled to the orbital axis and rotated, including an orbital orbital device having an earth orbit installed earth model, Separating the orbital axis from the gear trains of the earth orbit, rotating the earth orbit and positioning the earth model at a specific date marked along the orbit, and then combining the separated orbital axis with the earth orbit, thereby A globe device that performs both rotation and revolution at the same time, characterized in that to produce the same as the overall situation corresponding to the specific date. The orbital orbital orbiter of claim 10, wherein a solar model is installed at the center. The inner orbit is rotated so that the orbit of Mercury and the Venus orbit where Venus is installed are rotated around the solar model independently. The base displays the date, day of the week, seasons and idle days in the year along the earth's orbit, so that the position change of the Mercury and Venus according to the date of the earth based on the idle days can be known. Globe device that performs both rotation and revolution at the same time. The globe apparatus of claim 11, wherein a light source is provided inside the solar model, the aqueous model, the venus model, and the earth model to emit light at night.