JP3148834U - Age display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a three-dimensional moon age display device for teaching astronomy knowledge in an easy-to-understand manner mainly in elementary school students and other science learning. SOLUTION: A substrate (103), a light source (105) fixed on the substrate (103) via a first support (105a), and a second support (107a) on the substrate (103). And the globe (107) installed rotatably around the axis of the second support column (107a), and the third support column on the substrate (103) via the third support column (109a). A lunar sphere (109) that is rotatably installed around the axis of (107a) and is rotatable around the globe (107) in parallel with the plane of the substrate (103) along the revolution path (1091). And a moon age display device that makes it possible to three-dimensionally determine the age of the moon as viewed from the earth by simulating each rotation of the globe (107) and moon (109) with the actual movement on the celestial body. Figure 1

Description

  The present invention relates to an apparatus that enables three-dimensional display of the age as viewed from the earth.

Patent Document 1 discloses a device that can display the age at an arbitrary time using a flat observation board.
Japanese Utility Model Publication No. 63-168471

In the observation board of the above-mentioned Patent Document 1, it is possible to display the age at an arbitrary time point, but astronomically, what kind of earth, moon, sun, and such a moon age It was difficult to understand the principle.
In particular, if the direction of the moon is visible and you are asked how long it will look like that, if you ask for the shape of any of the rotating moons, the direction of the current moon is shown, It was difficult to provide an answer, such as when asked about the position of the moon several hours later,
An object of the present invention is to provide a three-dimensional age display device for teaching astronomy knowledge in an easy-to-understand manner, such as for elementary school students in science learning.

In the present invention, in order to solve the above problems,
A substrate (103);
A light source (105) fixed on the substrate (103) via a first column (105a);
A globe (107) installed on the substrate (103) via the second support column (107a) so as to be rotatable around the axis of the second support column (107a);
The substrate (103) is rotatably installed around the axis of the third support column (107a) via the third support column (109a), and is along the revolution path (1091). A moon (109) rotatable about the globe (107) in parallel with the (103) plane;
With
A moon age display device that enables three-dimensional grasp of the moon age viewed from the earth by simulating the rotation of the globe (107) and the moon globe (109) by the actual movement on the celestial body,
I will provide a.

According to the present invention, it is possible to provide a three-dimensional age display device for teaching astronomical knowledge in an easy-to-understand manner in science learning for elementary school students.
In particular, if the direction of the moon is visible and you are asked how long it will look like that, if you ask for the shape of any of the rotating moons, the direction of the current moon is shown, If you are asked about the position of the moon several hours later, you can easily give answers by using the age display device according to the present invention, and also explain the astronomical basis easily. it can.

FIG. 1 is a perspective view of an embodiment of an age display device according to the present invention.
The present moon age display device includes a substrate (103), a globe (107), a moon (109), and a simulated solar light source (105) installed on the substrate (103) as main components.
The globe (107), moon (109), and pseudo solar light source (105) are supported on the substrate (103) by support columns (107a, 109a, 105a), respectively.

  Furthermore, the globe (107) can rotate counterclockwise as viewed from the North Pole (arrow 1A) so as to simulate rotation. The moon (109) can be rotated counterclockwise as viewed from the North Pole to simulate rotation (arrow 1C), and further around the globe (107) to simulate revolution around the earth. Can be rotated counterclockwise (arrow 1B and revolution path (1091)).

In FIG. 1, daylight (107D, 109N) and night (107D, 109N) are generated on the globe (107) and moon (109) by light from a light source (105) that simulates sunlight. To do.
The moon rotation (1C) reflects the globe (107) and the moon to reflect that the moon revolution (1B) is rotating (1C) so that the back of the moon cannot be seen from the earth. By rotating the rod (109), the positional relationship between the sun, the earth, and the moon and the relationship between the day and night of the earth and the moon can be grasped in a three-dimensional manner.

  The operation of rotation (1A) and revolution (1C, 1B) of these globes (107) and moons (109) is performed, for example, on the lower part of the substrate (103) in FIG. 1 on the gears (bicycle gears or pulleys). It can be realized automatically by installing a force transmission mechanism consisting of a mechanism, etc., and driving it with a motor, etc. It may be driven by human power given.

  FIG. 2 is an enlarged perspective view of the globe, which is a component of the age display device of FIG. A doll (107b) for observing the moon is preferably installed on the globe (107). Further, a direction indicating plate (201) indicating the east, west, north, and south directions can be fixed at a predetermined position on the earth (for example, Japan). Note that 2A is the normal direction of the point where the doll (107b) is standing.

  FIG. 3 is a top view of the age display apparatus of FIG. A time display sheet (301) can be placed on the surface of the substrate (103). The “12 o'clock” portion of the time display sheet (301) is set in the direction of simulated sunlight (105).

  Next, how to use the age display device according to the embodiment of the present invention will be described.

  As shown in FIG. 3, with the time display sheet (301) placed, for example, the position of the globe (107) in FIG. 1 is rotated, for example, in the 18 o'clock direction in FIG. Also, the rotation and revolution of the moon (109) are rotated in a state that matches the actual astronomical movement (for example, the state of FIG. 3).

  Then, at 18 o'clock in Japan, it can be easily understood that the moon age seen from the doll (107b) in FIG. 3 is a crescent moon. At this time, if the orientation support plate in FIG. 2 is referred to, it can be easily grasped in which direction of the east, west, south and north the moon can be seen. Further, by sequentially moving the positional relationship between the earth and the moon, it is possible to grasp in three dimensions what kind of astronomical relationship the moon's age will be at an arbitrary time. Furthermore, it is possible to explain clearly why the back side of the moon is not visible.

  The present invention can be used as teaching materials for teaching astronomical knowledge in an easy-to-understand manner in science learning for elementary school students.

It is a perspective view of one Example of the age display apparatus which concerns on this invention. FIG. 2 is an enlarged perspective view of a globe that is a component of the age display device of FIG. 1. It is a top view of the age display apparatus of FIG.

Explanation of symbols

103 Substrate 105 Simulated solar light source 107 Globe 109 Moon globe 201 Direction indicator 301 Time display sheet

Claims (1)

A substrate (103);
A light source (105) fixed on the substrate (103) via a first column (105a);
A globe (107) installed on the substrate (103) via the second support column (107a) so as to be rotatable around the axis of the second support column (107a);
The substrate (103) is rotatably installed around the axis of the third support column (107a) via the third support column (109a), and is along the revolution path (1091). A moon (109) rotatable about the globe (107) in parallel with the (103) plane;
With
A moon age display device that enables three-dimensional grasp of the moon age viewed from the earth by simulating the rotation of the globe (107) and the moon globe (109) by the actual movement on the celestial body.

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