KR20180043534A - Sundial using prism - Google Patents

Abstract

The present invention comprises: a non-permeable main body (110); a plurality of slots (120) formed through the non-permeable main body (110) on the top of the non-permeable main body (110); and a prism (130) installed on the inner circumferential surface of the non-permeable main body (110) by corresponding to a location where the slot (120) is penetrated. Sun light is refracted by the prism such that rainbow colored sun light (14) spread in the non-permeable main body (110) displays a time. Thus, features of the sun light can be learned while displaying a time.

Description

[0001] SUNDIEL USING PRISM WITH PRISM [0002]

The present invention relates to a sundial for displaying time using a prism.

In general, the sundial is a device that measures the time elapsed from the movement of the object shadow by the rotation of the earth. The history of the sundial history of our country was first made in 1437 (Sejong 19) (South Street) and installed it on top of it. It was the first public watch in Korea. It was lost during the Japanese invasion and disappears, and two emblems made after the second and third centuries were designated as souvenirs.

The embankment mentioned above means 'a pot-shaped sundial looking at the sky,' and it can easily be said to be a concave sundial. The structure of the embankment consists of a time lag which receives the shade of the sun, a sun glare that represents the shade of the sun, and a pedestal that firmly fixes the lurch. The conspicuous hemispherical pot shape is represented by 13 season lines from the comet to the lower limb, and the visual line is displayed perpendicularly to the season line, and serves as the floor of the watch, It is inserted obliquely toward the North Pole on the slope and serves as a clock hand to indicate the time and season of the time with a shadow, and the pedestal is formed in a cruciform shape and plays a role of holding the accurate level.

1 is an invention disclosed in Japanese Laid-Open Patent Publication No. 1987-151782 as an example of a conventional sundial. 1, the prior art includes a spherical lens 1 for collecting incident sunlight and a transparent ball 2 whose inner spherical radius is the focal distance of the spherical lens 1, as shown in Fig. The focal point at which sunlight is focused by the axis 3 parallel to the polar axis (N and S directions indicate the direction of the magnet in the drawing) by the spherical lens 1 is the sun's movement, (Indicated by a solid line and a broken line in the figure) by the seasonal change, the arc locus forms the focal plane 10 at the inner spherical surface position of the transparent ball 2 do. In this embodiment, one end face 4a of the optical fibers 4 is arranged on the focal plane 10 toward the center of the spherical lens 1. Since the other end surface 4b of the optical fiber 4a is exposed to the surface of the time display panel 5 on the back surface of the sundialy display panel 5, the same declination time is arranged side by side on the same circumference, (5) above the corresponding time digits.

The sunlight is transmitted through the transparent ball 2 and enters the spherical lens 1 and then focused on the end face 4a of the optical fiber 4 at the declination and time. The focused high-luminance light is transmitted to the side of the visual display panel 5 by the optical fiber 4 and reaches the other end face 4b of the optical fiber 4 to perform time display. And the tip ends 4b of the optical fibers 4 in the same group are arranged side by side on the same circumference so that the optical fibers 4 in the time display Declination and season are indicated by which circle (4b) on the circumference is located.

Conventionally, the sundial system does not need to separate the apparatus for receiving sunlight from the visual display apparatus and install the visual display apparatus in a place with favorable sunshine conditions, and the appearance of the visual display board is not limited.

However, the conventional sundial is complicated in structure using a spherical lens, a transparent ball, an optical fiber, and a visual display panel.

3 and 4 show another embodiment of the prior art disclosed in Japanese Laid-Open Patent Publication No. 2010-256039. 3, the time display mechanism 1 using solar light has a structure in which a plurality of viewing angles are formed in the outer peripheral portion 3 of the non-transmissive cylindrical body 2 by passing through the outer peripheral portion 3 or by projecting the peripheral portion 3 The window 5 for passing through the outer peripheral portion 3 or the window 5 for projecting the outer peripheral portion is formed on the outer peripheral portion 3 opposite to the window. The pattern 4 is, for example, a numeral, a symbol, a design, a motif, or a picture indicating time. Further, a leg portion for positioning the cylindrical body 2 at a predetermined height may be provided, and the cylindrical body 2 may be provided so as to be slantable through each corner portion. The arrangement of the patterns 4 can be determined by obtaining the azimuth of the sun at each time on the earth's latitude at which the time display mechanism 1 using sunlight is installed.

Next, a method of time display using the sunlight-using time display mechanism 1 will be described with reference to Fig. The time display mechanism 1 using the sunlight is installed in a place irradiated with sunlight with the window 5 facing the north and the time display mechanism 1 The display body 13 is provided with an interval therebetween. The display body 13 is not limited to being newly provided, and may be different from the conventional one, for example, if the image 14 of the pattern 4 is projected. In this state, when sunlight passes through one of the patterns 4 and passes through the window 5 and reaches the display body 13 provided outside the cylindrical body 2, the pattern (4 Is projected on the display body 13 so that the image 14 is illuminated and the time is displayed by the image 14. [ When the installation position of the cylindrical body 2 and the cylindrical body 2 can be inclined in advance in accordance with the sunlight so that the image 14 is projected at a proper position of the display body 13, the inclination angle is appropriately adjusted .

However, the sundial disclosed in Fig. 3 is complicated in construction because the ophthalmic cylindrical body 2 and the display body 13 are required.

Japanese Patent Application Laid-Open No. 2010-256039 Japanese Laid-Open Patent Publication No. 1987-151782

A problem to be solved by the present invention is to provide a sundial using a prism having a simple structure that can learn about the properties of sunlight.

The present invention includes a non-transmissive body 110; A plurality of slots 120 formed on the top surface of the non-transmitting body 110 through the non-transmitting body 110; And a prism (130) provided on an inner circumferential surface of the non-transmissive main body (110) in correspondence with a position where the slot (120) is penetrated.

In addition, the present invention provides a display device including a pedestal 150; A column 160 having one end fixed to the upper surface of the pedestal 150; And an angle adjusting unit 170 installed at the other end of the column 160. The angle adjusting unit 170 is fixedly connected to the non-transmitting main body 110, and the non- And adjusts the angle with the ground.

 Further, the present invention is characterized in that the non-transmissive main body 110 or the pedestal 150 further includes a compass 210.

In the present invention, when viewed in the axial direction of the non-transmissive main body 110, the difference between the maximum angle and the minimum angle formed by the straight line passing through the cross section of each slot 120 with the ground becomes a multiple of 15 degrees.

Further, the present invention is characterized in that the number of the slots 120 is formed on one of three, six, or twelve on the top surface of the non-transmissive body 110, and the maximum angle of the straight line in the slot 120, So that the difference between the minimum angles of the straight lines in the slots 120 adjacent to each other is zero.

The present invention includes a non-transmissive body 110; A plurality of slots 120 formed on the top surface of the non-transmitting body 110 through the non-transmitting body 110; And a prism 130 provided on an inner circumferential surface of the non-transmissive main body 110 in correspondence to a position where the slot 120 is penetrated, so that sunlight is refracted by the prism and dispersed in the non-transmissive main body 110 The time is displayed by the rainbow colored sunlight 140, and the time can be displayed while learning about the nature of the sunlight.

In addition, the present invention provides a display device including a pedestal 150; A column 160 having one end fixed to the upper surface of the pedestal 150; And an angle adjusting unit 170 installed at the other end of the column 160. The angle adjusting unit 170 is fixedly connected to the non-transmitting main body 110, and the non- So that the sunlight 140 refracted and dispersed by the prism is adjusted to the inside of the non-transmissive main body 110 in accordance with the sun's declination according to the seasonal change.

 Further, the present invention may further include a compass 210 on the non-transparent main body 110 or the pedestal 150 so that the direction of the sundial of the present invention can be accurately arranged in the NS direction using the compass 210 .

In addition, since the difference between the maximum angle and the minimum angle formed by the straight line passing through the cross section of each of the slots 120 to the ground becomes a multiple of 15 degrees when viewed in the axial direction of the non-transmissive main body 110, The time passing through the one slot 120 is divided by an integral multiple of one time according to the sunlight 140 refracted and dispersed by the prism in the non-transmissive main body 110, .

In addition, the present invention is characterized in that the number of the slots 120 is one of 3, 6, 12 on the upper surface of the non-transmissive body 110, 120 so that the difference between the maximum angle of the straight line in the slot 120 and the minimum angle of the straight line in the clockwise neighboring slot 120 is zero so as to pass through only one of the slots 120 of the sunlight, So that it is possible to distinguish the time according to the sunlight 140 which is refracted and dispersed by the prism in the optical body 110.

1 is a perspective view of a conventional sundial.
2 is a perspective view of another conventional sundial.
FIG. 3 is an explanatory diagram for displaying time using sunlight in another conventional sundial. FIG.
4 is a perspective view of a temporary example of the present invention.
5 is a plan view of a non-transmissive body in a temporal example of the present invention.
6 is a sectional view taken along the line AA in Fig.
Figure 7 is a front view of a non-transmissive body in a temporal example of the present invention
Figure 8 is another embodiment of the non-transmissive body of the present invention.

Hereinafter, a sundial according to an embodiment of the present invention will be described in detail with reference to FIGS.

As shown in FIG. 4, the present invention includes a non-transmissive main body 110; A plurality of slots 120 formed on the top surface of the non-transmitting body 110 through the non-transmitting body 110; And a prism 130 installed on an inner circumferential surface of the non-transmissive body 110 in correspondence with a position where the slot 120 is penetrated.

The non-transmissive main body 110 is made of a material that does not allow sunlight to pass through, and has a cylindrical shape in cross section. However, as shown in Fig. 8, the outer peripheral surface may be formed in a wavy shape, and the cross section may be formed in an elliptical shape or a square shape.

The slots 120 are formed on the upper surface of the non-transmissive body 110 through the non-transmissive body 110. As shown in FIG. 5, when viewed from the outside of the non-transmissive body 110, the slot preferably has a rectangular shape, but may have various shapes such as a circle, a number, and a pattern.

The prism 130 is installed on the inner circumferential surface of the non-transmissive body 110 in correspondence with the position where the slot 120 is penetrated in the non-transmissive body 110. Although the prism 130 is disclosed in the form of a right triangle, a prism having a different cross-sectional shape is possible, and each slot 120 may correspond to another prism shape.

4, the sunlight passes through the slit 120 of the non-transmissive main body 110 and reaches the prism 130. When the sunlight is refracted by the prism 130 and the non-transmissive main body 110 And displays the time by displaying the time with the rainbow-colored sunlight 140 dispersed in the inside of the rainbow-colored sunlight 140 to learn about the properties of the sunlight.

In addition, the present invention provides a display device including a pedestal 150; A column 160 having one end fixed to the upper surface of the pedestal 150; And an angle adjusting unit 170 installed at the other end of the column 160. The angle adjusting unit 170 connects the column 160 and the non-transmitting main body 110 with each other.

The pedestal 150 is formed in a rectangular parallelepiped shape and one end of the column 160 is fixed to the upper surface of the pedestal 150 and the other end thereof is connected to the angle adjusting portion 170. In addition, although the column 160 is in the form of a cylindrical column, various types of maneuvering can be performed.

The angle adjusting part 170 is preferably formed with a number of angles (not shown) on its side surface, and a protrusion is formed on the outer circumferential surface of the angle adjusting part 170 to facilitate rotation of the angle adjusting part 170. When the angle adjusting unit 170 is rotated, the non-transmitting body 110 fixed to the angle adjusting unit 170 is rotated. Therefore, there is an effect that the sunlight 140 refracted and dispersed by the prism in accordance with the rotation of the angle adjusting unit 170 is directed to the inside of the non-transmitting main body 110 according to the sun's declination according to the season change .

 The compass 210 is also mounted on the non-transmissive body 110 or the pedestal 150. When the sundial is installed, the direction of the sundial of the present invention is accurately arranged in the N-S direction using the compass 210, and the compass is always stored.

6, the maximum angle a2 between a straight line passing through the cross section of each of the slots 120 and the ground surface, as viewed in the axial direction of the non-transmissive main body 110, The slit 120 is formed so that the difference of the angle a1 is a multiple of 15 degrees.

Therefore, the time required for the sunlight to pass through one slot 120 becomes an integral multiple of one hour, and the time difference between the sunlight 140 that is refracted and dispersed by the prism in the non- As shown in FIG.

For example, when the difference between the maximum angle a2 and the minimum angle a1 in the slit 120 is 60, 30, and 15 degrees, the sunlight 140 refracted and dispersed by the prism passing through each slot Time intervals of 4 hours, 2 hours, and 1 hour, respectively.

6, the present invention is characterized in that the number of the slots 120 is one of three, six, twelve on the top surface of the non-transmissive body 110, The difference between the maximum angle a2 of the straight line in the slot 120 and the minimum angle a1 'of the straight line in the clockwise neighboring slot 120' Allowing the sunlight to pass through only one of the slots 120 and 120 'so that the time can be distinguished in accordance with the sunlight 140 refracted and dispersed inside the non-transmissive main body 110 by the prism.

That is, as soon as the sunlight passes through the slot 120 for a certain period of time, the sunlight passes through the neighboring slot 120 ', so that the sunlight is refracted by the corresponding prism in the non- 140).

As shown in FIG. 7, a number indicating a time can be displayed on the front surface of the non-transmitting main body 110. In FIG. 7, the intervals are equally displayed, but the sunlight differs depending on the shape of the prism, so time is displayed at an appropriate position in the front surface of the non-transparent body 110.

Further, the present invention is characterized in that a plurality of the slots 120 are formed on an upper portion of the non-transmissive body 110 so as to be inclined in the axial direction of the non-transmissive body 110 when viewed from the upper direction of the non- So that the time can be distinguished in accordance with the sunlight 140 refracted and dispersed by the prism in the non-transmissive main body 110.

Although the preferred embodiments of the present invention have been described in detail above, it should be understood that the scope of the present invention is not limited thereto. These embodiments are also within the scope of the present invention.

110: non-transmissive body
120, 120 ': Slot
130: prism
140: sunlight refracted and dispersed by a prism
150: Stand
160: Column
170:
210: compass

Claims (5)

A non-transmissive body 110;
A plurality of slots 120 formed on the top surface of the non-transmitting body 110 through the non-transmitting body 110;
And a prism (130) provided on an inner circumferential surface of the non-transparent body (110) corresponding to a position where the slot (120) penetrates the sundial The apparatus of claim 1, further comprising: a pedestal (150);
A column 160 having one end fixed to the upper surface of the pedestal 150;
And an angle adjusting unit 170 installed at the other end of the column 160,
The angular adjustment unit 170 may adjust the angle of the sundial using the prism fixedly connected to the non- 3. The apparatus according to claim 2, further comprising a compass (210) on the non-transmissive main body (110) or the pedestal (150) The non-transmissive main body (110) according to claim 1, characterized in that a difference between a maximum angle and a minimum angle formed by a straight line passing through a cross section of each of the slots (120) to the ground surface is a multiple of 15 degrees Sundial The non-transmissive main body (110) according to claim 3, wherein the number of the slots (120) is one of three, six, or twelve on the top surface of the non-transmissive body (110) Wherein the difference between the maximum angle of the straight line in the slot (120) and the minimum angle of the straight line in the clockwise neighboring slot (120 ') is zero

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