KR200322358Y1 - An apparatus of learning apparent motion - Google Patents

Abstract

The present invention relates to a device for learning the motion, and its purpose is to provide a device for learning the motion of the planet in three-dimensional observation in a realistic situation.

Thus, the present invention is provided with a light emitting body inside the dark room is composed of a lower case and a cover, and fixed a plurality of durable body around the light emitting body to form a lunar succession trajectory, a plurality of outer endurance trajectory Fixing the outer sphere to form the outer lunar trajectory, the cover is characterized in that the periscope is installed freely between the inner and outer lunar trajectory, and the switch is provided with a switch for turning on / off the light emitter to the outside of the dark room. .

Therefore, unlike the prior art, since the understanding and the memory is made easily, the learning effect can be significantly improved, and students have the effect of inducing self-motivated learning motivation.

Description

An apparatus of learning apparent motion

The present invention relates to a time movement learning apparatus, and more particularly, to a time movement learning apparatus for effectively learning the planetary motion in a realistic situation.

In general, the planets in the solar system revolve around the sun in elliptical or parabolic orbits, and are divided into inward orbiting outer planets and orbiting outwards.

At this time, since the earth itself revolves around the sun along an elliptical orbit, when viewed from the earth, the apparent motion of the planet is very complicated, which is called the apparent motion of the planet.

The above-described poetry movement of the planet is indispensable in the science curriculum of middle and high school, and in the past, education has been made through photographs or pictures in textbooks without additional learning tools. Due to the nature of the task to understand the shape of the shadow changed by the problem was not easily understood and remembered by the students, accordingly there was a problem that the learning effect is reduced because the students do not feel the interest in learning.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the present invention is to provide a vision motion learning apparatus that allows to observe the three-dimensional motion of the planet in a realistic situation.

Another object of the present invention is to provide a visual motion learning device that can set the direction to observe quickly and accurately.

Still another object of the present invention is to provide an apparatus for learning a time movement so that multiple people can learn simultaneously with one learning device by connecting an external device.

In order to achieve the above object, the present invention is provided with a light emitting body in a dark room separated by a lower case and a cover, fixing a plurality of durable bodies around the light emitting body to form an orbital orbit, and the orbital orbit Fixing a plurality of outer spheres to the outer periphery of the orbit to form an orbital orbit, the cover is provided with a periscope freely rotated between the inner and outer orbits of the orbit, and is provided with a switch to turn on / off the light emitter to the outside of the dark room It is characterized by one.

Figure 1a, b shows a first embodiment of the present invention,

1A is an exploded perspective view.

1B is a cross sectional view of the combination;

2a and b are according to FIG. 1b,

2A is an enlarged view of a portion A;

2B is a cross-sectional view taken along line B-B.

Figure 3 is a partially cut perspective view showing a second embodiment of the present invention.

※ Explanation of codes for main parts of drawing

10: darkroom

11: lower case 12: cover

20: light emitting body 21: switch

30: durable 31: orbital orbit

40: outer body 41: outer orbit

50: periscope

51: baseline 52: protrusion

60: display unit 61: leader

70: guide sphere 71: locking groove

80: video camera

81: switch 82: connection terminal

90: bearing

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Figures 1a, b is a first embodiment of the present invention, Figure 1a is an exploded perspective view, Figure 1b is a combined cross-sectional view. As shown, the subject innovation includes a light emitting body 20 in the dark chamber 10 is composed of a lower case 11 and the cover 12, a plurality of durable body (mainly around the light emitting body 20) 30 to fix the orbital orbital orbit 31, and fix the plurality of outer bodies 40 to the outer side of the orbital orbital orbit 31 to form an orbital orbital orbit 41 and the cover 12. The periscope 50 is installed freely between the inner and outer space orbits 31 and 41, and has a switch 21 for turning on / off the light emitting body 20 to the outside of the dark room 10. It is characterized by.

At this time, the light emitting body 20 serves as a solar body of the celestial body is used a conventional light bulb, the inner and outer spheres 30, 40 are each of the elliptical inner and outer space orbits formed around the sun to drive In order to perform the role of inner and outer, white spheres having a smooth surface are used to easily observe the shadows generated by the light emitted from the light emitting body 20, and each is positioned on the same horizontal plane as the support. It is fixed to the bottom surface of the lower case (11).

In addition, the periscope 50 serves as the earth where the observer is located, and is freely installed by the bearing 90 so that the user rotates the periscope 50 by the light emitted from the light emitter 20. Since the shadows formed on each of the inner and outer spheres 30 and 40 can be observed in a realistic situation, unlike the conventional art, the visual motion of the planet can be effectively learned.

In this case, the upper surface of the cover 12 is provided with a display unit 60 formed with a leader line 61 corresponding to the positions of the inner and outer bodies 30 and 40 around the periscope 50, and the periscope 50. Guide sphere 70 is inserted into the unexpected side is fixed, which will be described later.

2A, 2B and 2B are enlarged views of part A, and FIG. 2B is a cross-sectional view taken along line B-B. As shown, the upper surface of the cover 12 is provided with a display unit 60 around the periscope 50, the surface of the display unit 60 of the inner and outer bodies 30, 40 shown in Figure 1a A leader line 61 corresponding to each position is formed, and a reference line 51 corresponding to the leader line 61 is formed on an outer surface of the periscope 50.

Accordingly, in the process of rotating the periscope 50, the user matches the reference line 51 with the indicator line 61 indicating the direction to be observed, thereby quickly and quickly finding the sphere to be observed in the inner and outer spheres. You can set it correctly.

In addition, the upper surface of the cover 12 is provided with a guide (70) formed around the outer surface of the periscope 50 and the engaging groove 71 corresponding to the position of the inner and outer bodies on the inner peripheral surface, the periscope ( The outer surface of the 50 is formed with a projection 52 is inserted into the engaging groove 71, the projection 52 is located on the front center line of the periscope 50, similar to the reference line 51.

Accordingly, since the position of the periscope can be temporarily fixed in each observation direction when the periscope 50 is rotated, the user can easily and quickly set the direction to be observed.

3 is a partially cutaway perspective view showing a second embodiment of the present invention. As shown, the visual motion learning apparatus according to the present embodiment includes all of the configuration of the first embodiment, and attach a small video camera 80 to the lower portion of the periscope 50, the outside of the dark room 10 It is characterized in that it comprises a switch 81 for turning on / off the video camera 80 and a connection terminal 82 for connecting the captured video signal to an external device.

Accordingly, since the user can connect and use an external display device such as a monitor to the connection terminal 82, several people can learn simultaneously with one learning device through an image captured by a video camera.

As described above, the present invention is configured to observe the three-dimensional visual movement of the planet in a realistic situation, unlike the prior art is easily understood and remembered, it is possible to significantly improve the learning effect, It has the effect of inducing self-motivated learning motivation.

In addition, since the direction to be observed can be set quickly and accurately, it is convenient to use and has the effect of preventing the possibility of malfunction.

In addition, by using a video camera that can be connected to an external device, because a single learning device can be learned by multiple people at the same time, it has the effect of improving the learning efficiency and economics.

Claims (4)

A light emitter 20 is provided inside the dark room 10 that is divided into a lower case 11 and a cover 12. A plurality of durable bodies 30 are fixed around the light emitting body 20 to form an orbital orbital orbit 31. Fixing a plurality of outer spheres (40) to the outside of the orbital orbit 31 to form an orbital orbit 41, The periphery of the periscope 50 is freely installed on the cover 12 between the inner and outer space orbits 31 and 41, Vision motion learning device characterized in that it comprises a switch 21 for turning on / off the light emitting body 20 to the outside of the dark room (10). The method of claim 1, The upper surface of the cover 12 is provided with a display unit 60 having a leader line 61 corresponding to the positions of the inner and outer bodies 30 and 40 around the periscope 50, and the periscope 50. The eye movement learning apparatus, characterized in that the reference line 51 corresponding to the leader line 61 is formed on the outer surface of the. The method of claim 2, The periscope 50 is inserted into a central portion of the upper surface of the cover 12 and a guide hole 70 having a locking groove 71 corresponding to the positions of the inner and outer bodies 30 and 40 is fixed to an inner circumferential surface thereof. The eye movement learning device, characterized in that the projection 52 is formed on the outer surface of the periscope 50 is inserted into the locking groove (71). The method according to any one of claims 1 to 3, The small video camera 80 is attached to the lower part of the periscope 50, and the switch 81 for turning on / off the video camera 80 on the outside of the dark room 10 and the captured image signal with an external device. Vision motion learning device characterized in that it comprises a connection terminal 82 for connecting.