KR101204600B1 - Method of amplifying sunlight - Google Patents

Abstract

The present invention relates to a molding system and a molding method using the feedback of the sunlight, in particular to a molding system and a molding method using the feedback of the sunlight to amplify the sunlight by the method of photographing, irradiating and again photographing the irradiated sunlight It is about.
Forming system using the feedback of the sunlight of the present invention, the structure having a hole having a diameter of 1.8 cm or more and 2.2 cm or less on the back; An image photographing apparatus provided in the structure to photograph sunlight emitted through the hole; And at least one image projector for projecting the image photographed by the image photographing apparatus onto the structure in which the hole is located.

Description

Method of amplifying sunlight

The present invention relates to a modeling system and a modeling method. More particularly, the present invention relates to a molding system and a molding method using feedback of sunlight.

Recently, due to the limitation on the screen size of the existing television, the development of a large-screen, ultra-thin display is active, and the development of a projection display device is prominent. Development of a projector using display elements such as cathode ray tube (CRT), liquid crystal display (LCD), liquid crystal on silicon (LCoS), digital light processing (DLP), micro scanner, etc. The prevalence is rapidly increasing, which is not only universally used for displaying the output screen of a personal computer on a screen during presentations in schools, corporations, and public offices, but also for home-theater at home. It is used for.

On the other hand, research on a modeling system or a modeling method for amplifying sunlight to display a particular letter is ongoing, and there is no known method for efficiently amplifying sunlight more than several times.

The present invention is to solve the conventional problems as described above, to provide a molding system and a molding method using the feedback of the sunlight to amplify the sunlight by the method of photographing the irradiated sunlight, and irradiated again. The purpose.

In order to achieve the above object, the present invention is a structure having a hole having a diameter of 1.8 cm or more and 2.2 cm or less on the back; An image photographing apparatus provided in the structure to photograph sunlight emitted through the hole; And at least one image projector for projecting the image photographed by the image photographing apparatus onto the structure in which the hole is located.

Furthermore, the diameter of the hole is preferably 2cm.

The vertical angle and the horizontal angle formed by the direction in which the image photographing apparatus is directed and the horizontal extension line of the hole are 1 ° or more and 5 ° or less.

In addition, it is preferable that the vertical angle and the horizontal angle formed by the direction in which the image projection apparatus faces and the horizontal extension line of the hole are 1 ° or more and 5 ° or less.

In addition, the hole is provided with a plurality, it is characterized in that a plurality of holes are combined to form a letter 'light'.

Furthermore, the hole is preferably formed at a height of 1.5m from the bottom of the back of the structure.

The distance between the hole and the image capturing apparatus and the distance between the hole and the image projector are 5 m.

On the other hand, the molding method using the feedback of the sunlight according to the present invention, the step of irradiating sunlight into the structure through the hole (S10); Photographing the sunlight emitted through the hole with the image capturing apparatus (S20); Transmitting the captured image to the image projector (S30); And projecting the transmitted image onto the structure in which the hole is located (S40).

Furthermore, the diameter of the hole is preferably 2cm.

The vertical angle and the horizontal angle formed by the direction in which the image photographing apparatus is directed and the horizontal extension line of the hole are 1 ° or more and 5 ° or less.

Further, it is preferable that the vertical angle and the horizontal angle formed by the direction in which the image projection apparatus faces and the horizontal extension line of the hole are 1 ° or more and 5 ° or less.

In addition, the hole is provided with a plurality, it is characterized in that a plurality of holes are combined to form a letter 'light'.

Furthermore, the hole is preferably formed at a height of 1.5m from the bottom of the back of the structure.

The distance between the hole and the image capturing apparatus and the distance between the hole and the image projecting apparatus are 5 m.

The molding system and the molding method using the feedback of the sunlight of the present invention provide an effect of amplifying sunlight by photographing the irradiated sunlight, and irradiating and re-photographing the irradiated sunlight.

1 to 3 are front views illustrating a molding system using feedback of sunlight according to the present invention;
4 is a side view illustrating a molding system using feedback of sunlight according to the present invention;
5 is a plan view showing a molding system using feedback of sunlight according to the present invention; And,
6 is a flowchart illustrating a molding method using feedback of sunlight according to the present invention.

Hereinafter, an embodiment of a molding system and a molding method using feedback of sunlight according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are front views illustrating a molding system using feedback of sunlight according to the present invention. First, referring to FIG. 1, a molding system using feedback of sunlight according to the present invention includes a structure 10, an image photographing apparatus 20, and an image projection apparatus 30 provided in the structure 10. . The structure 10 may be provided as a space of a rectangular parallelepiped having upper, lower, left and right surfaces 11, 12, 13, and 14, but the shape is not limited thereto. That is, it is a three-dimensional shape that can block the sun's external light, it is sufficient if the structure formed on one side of the wall flat, such as the rear surface (15). In addition, the rear surface 15 of the structure is preferably formed with a hole 40 having a predetermined diameter and positioned at a predetermined height.

The image capturing apparatus 20 is configured to capture an image like a digital camcorder, and is provided toward one side wall 15 of the structure 10 in which the hole 40 is formed. The image projector 30 may be configured to project a moving image like a beam projector, and is preferably provided toward one side wall 15 of the structure 10 in which the hole 40 is formed.

Although not shown in the drawing, the image capturing apparatus 20 and the image projecting apparatus 30 are electrically connected to each other, so that an image captured by the image capturing apparatus 20 may be transmitted to the image projecting apparatus 30. In addition, it is preferable that a storage medium (not shown) is provided for storing the captured image between these components.

The hole 40 formed in the side wall 15 of the structure 10 preferably has a diameter of 1.8 cm or more and 2.2 cm or less, and most preferably 2.0 cm. When the diameter of the hole 40 is less than 1.8cm, sunlight irradiated through the hole 40 may cause diffraction, and when the diameter of the hole 40 exceeds 2.2cm, the hole 40 This is because the image of the sun light may be incorrectly photographed as the sun light scattered through the light scatters. On the other hand, the hole 40 is preferably formed at a height of 1.5m from the bottom of the back surface 15 of the structure (10).

In addition, the distance between the hole 40 and the image photographing device 20 and the distance between the hole 40 and the image projector 30 are preferably about 5 m. When the two distances are maintained at 5 m, the sunlight can be photographed in a state in which the sunlight is not spread or extinguished, and the image projected by the image projector 30 is also projected on the rear surface 15 without being spread or extinguished. Because it can be.

In the molding system using the feedback of the sunlight according to the present invention having such a configuration, the image photographing apparatus 20 photographs the sunlight emitted through the hole 40, and the photographed image is photographed by the image projection apparatus 30. After transmitting to the back) it is projected back to the back (15) of the structure 10 is provided with a hole (40). At this time, the projected sunlight needs to be accurately projected to the position of the hole 40 again, and then the sun light captured by the image photographing apparatus 20 is initially photographed by the amount of light projected by the image projecting apparatus 30. It is brighter than one sun. As described above, the image of the sunlight photographed brighter in the image photographing apparatus 20 is repeatedly transmitted to the image projection apparatus 30 and then transmitted again to the rear surface 15, and the sunlight gradually becomes brighter. As a result, the molding system using the feedback of sunlight according to the present invention can provide an effect of amplifying sunlight. That is, the molding system using the feedback of the sunlight according to the present invention serves to amplify the natural light while adding artificial light (light irradiated from the image projection apparatus) to the natural light.

Meanwhile, FIG. 2 is a view showing another embodiment of a molding system using feedback of sunlight according to the present invention, in which not only a plurality of holes 40 are provided but also a plurality of holes 40 are 'light' 'Shows the formation of a specific letter'. As such, even when the holes 40 are formed in a relatively large area instead of one, if the image capturing apparatus 20 and the image projection apparatus 10 are precisely directed to the plurality of holes 40, a specific portion of 'light' is used. This can provide the effect of the brightness of the text being continuously amplified.

3 is a view showing another embodiment of a molding system using feedback of sunlight according to the present invention, showing an embodiment in which two image projection apparatuses 32 and 34 are provided. Even in this case, the two image projectors 32 and 34 need to precisely face the rear surface 15 on which the holes 40 are formed. In this way, when the two image projectors 32 and 34 are used, the speed of light amplification is increased. Is doubled (relative to the embodiment shown in FIG. 1). That is, since the image captured by the image capturing apparatus 20 is projected through the two image projectors 32 and 34, the image is amplified by (natural light + artificial light * 2).

Although not shown, it is also possible to install three or more image projection apparatuses 32 and 34, as well as to install two or more image photographing apparatuses 20.

4 is a side view illustrating a molding system using feedback of sunlight according to the present invention. Referring to FIG. 4, the vertical angle α formed between the horizontal extension line D of the hole 40 and the direction C toward the image photographing apparatus 20 in the structure 10 and the horizontal extension line of the hole 40 ( It is preferable that the vertical angle β between D) and the direction B toward which the image projection apparatus 30 faces is 1 ° or more and 5 ° or less.

When the angles α and β are 1 ° or less, the positions of the image capturing apparatus 20 and the image projection apparatus 30 overlap with each other in the structure 10 so that the two components 20 and 30 are disposed within the structure 10. When the angles α and β become 5 degrees or more, the brightness of the sunlight taken by the image capturing apparatus 20 becomes weak or the brightness of the image projected by the image projector 30 becomes weak. This is because the amplification effect of sunlight is significantly reduced.

FIG. 5 is a plan view showing a molding system using feedback of sunlight according to the present invention. Referring to FIG. 4, the horizontal extension line D of the hole 40 and the image photographing apparatus 20 in the structure 10. The horizontal angle γ formed by the direction C toward the side and the horizontal extension line D of the hole 40 and the horizontal angle δ formed by the direction B toward which the image projector 30 is directed are also 1 ° to 5 °. It is preferable that it is the following.

Similar to the vertical angle in FIG. 4, when the horizontal angles γ and δ are 1 ° or less, the positions of the image capturing apparatus 20 and the image projector 30 overlap with each other in the structure 10. When the horizontal angles γ and δ are 5 ° or more, it is difficult to install the 20 and 30 in the structure 10, and the brightness of the sunlight photographed by the image capturing apparatus 20 is weakened or the image projection apparatus is reduced. This is because the brightness of the image projected at 30 is weakened, so that the amplification effect of sunlight is significantly reduced.

6 is a flowchart illustrating a molding method using feedback of sunlight according to the present invention. Referring to Figure 6, the molding method using the feedback of sunlight according to the present invention, the step of irradiating sunlight into the structure 10 through the hole (40), irradiated through the hole 40 Step (S20) of photographing the sunlight with the image capturing apparatus 20, the step of transmitting the photographed image to the image projection apparatus 30 (S30) and the structure 10 in which the hole 40 is located And projecting to (S40).

By repeating the steps of irradiating, photographing, and projecting sunlight according to the above steps, it is possible to provide an effect of amplifying simple sunlight or letter-shaped sunlight.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. Of the present invention.

10 structure 11: upper surface
12: lower side 13: left side
14: right side 15: back side
20: video recording device 30: video projection device
40: hall

Claims (14)

As a method of amplifying sunlight using an amplification system,
The amplification system
A structure having a hole having a diameter of 1.8 cm or more and 2.2 cm or less on a rear surface thereof;
An image photographing apparatus provided in the structure to photograph sunlight emitted through the hole; And
At least one image projector for projecting the image photographed by the image photographing apparatus with respect to the structure in which the hole is located;
The amplification method
Irradiating sunlight into the structure through the hole (S10);
Photographing the sunlight emitted through the hole with the image capturing apparatus (S20);
Transmitting the captured image to the image projector (S30); And
Projecting the transmitted image to the structure in which the hole is located (S40),
The image of the hole included in the transmitted image is exactly overlapped with the hole provided in the structure,
An angle formed by a straight line connecting the image photographing apparatus and the hole and a straight line perpendicular to the rear surface provided with the hole starting from the hole is 1 ° or more and 5 ° or less,
And an angle formed by a straight line connecting the image projector and the hole and a straight line perpendicular to the rear surface provided with the hole is 1 ° or more and 5 ° or less. The method of claim 1,
Amplification method of the sunlight, characterized in that the diameter of the hole is 2cm. The method of claim 1,
The hole is amplification method of the sunlight, characterized in that formed at a height of 1.5m from the bottom of the bottom of the structure. The method of claim 1,
And a distance between the hole and the image capturing apparatus and a distance between the hole and the image projecting apparatus is 5 m. delete delete delete delete delete delete delete delete delete delete

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