KR19990068615A - Laser Scriptor - Google Patents

Abstract

The present invention relates to a method for generating letters for advertisement using a mirror and a semiconductor laser, and more particularly, a plurality of semiconductor lasers are projected onto a rotating multi-faceted mirror with multiple mirrors, which are reflected by a change in the angle of reflection of the mirror over time. The present invention relates to a method of periodically flashing a semiconductor laser light in accordance with a character or a picture so as to cause an afterimage on the eyes of the viewer.

To this end, the present invention, in the method of displaying a character or a picture on the wall or projection board, the change of the angle of reflection of the mirror with time and the method of flashing the semiconductor laser light incident on the mirror and reflected in accordance with the letter, the mirror It is characteristic of dealing with the form of this multifaceted multifaceted mirror and the method of projecting a semiconductor laser.

The present invention can produce a replacement effect of the neon sign, consumes low power, can change the text or picture content from time to time, can obtain a variety of screens and large screen, can be used on any projection screen or flat wall.

Description

How to generate characters and pictures for advertising using mirrors and semiconductor lasers {Laser Scriptor}

The present invention is a method for generating a character or a picture to be used for advertising on the projection plate or any wall by using the afterimage effect of the eye, more specifically, by projecting a plurality of semiconductor lasers on a rotating mirror with multiple mirrors It is a method to see the characters or pictures by causing the afterimage to the eyes of the viewer by periodically blinking the semiconductor laser light reflected by the change of the reflection angle of the mirror according to the characters or pictures.

In general, billboards using a semiconductor laser rotate the semiconductor laser itself, as in the way that the blades of the fan rotate, thereby flashing the semiconductor laser when the semiconductor laser is positioned in the required position to obtain a screen. However, this type of billboard is a projection surface is formed only around the rotating semiconductor laser is not only to obtain a circular screen but also a problem in obtaining a large rectangular screen.

The present invention projects a laser light from a plurality of semiconductor laser light source to solve the above problems, and deflected from side to side using a change in the angle of reflection of the mirror of the multi-faceted mirror to rotate the projected laser light is a wall or projection away from a certain distance It is an object of the present invention to provide a method for generating characters and pictures for advertising to obtain a large screen that can exhibit a neon sign effect on the plate.

In order to achieve the above object, the present invention provides a method of displaying a character or a picture on a wall or a projection board to change the angle of reflection of a mirror over time and to match a character or a picture of semiconductor laser light reflected after being incident on the mirror. Its features include flashing, mirrors with multiple mirrors, and how to project semiconductor lasers.

1 is a schematic diagram of the character and picture generator for advertising used in the present invention

2 is an explanatory diagram of deflection of semiconductor laser light according to a change in reflection angle;

3 is an explanatory diagram illustrating an example of blinking of laser light for characters appearing on the projection board;

4 to 7 is a method of projecting a semiconductor laser at a different angle of the advertising character and picture generator used in the present invention

8 is a method of adding a laser module of the expansion method of the screen

9 is a method of reflecting by changing the angle of the mirror in the expansion method of the screen

<Description of the symbols for the main parts of the drawings>

10: multi-faceted mirror 11, 12, 13, 14, 15: first to fifth mirror

30: motor 40: semiconductor laser module

41, 42, 43, 44, 45, 46, 47, 48: first to eighth semiconductor lasers

50: switch circuit

60: central processing unit

70: memory

80: projection

Hereinafter, described in detail by the accompanying drawings as follows.

1 is a schematic diagram of a character and picture generating apparatus for advertisement using the multi-faceted mirror 10 and the semiconductor laser module 40. The signal circuit of a character or picture imported from the memory 70 is switched through the central processing unit 60. When exported to 50, each of the semiconductor lasers 41, 42, 43, 44, 45, 46, 47 and 48 of the semiconductor laser module 40 flashes in accordance with the signal, thereby causing laser light. When the light is projected, each of the mirrors 11, 12, 13, 14, and 15 of the multi-faceted mirror 10 rotates to reflect and display characters or pictures on the wall or the projection plate 80.

FIG. 2 is an explanatory view of deflection of semiconductor laser light according to the rotation of the multi-faceted mirror 10 and the change in the reflection position and the reflection angle of the mirror 11, and the light is projected and rotated in the semiconductor laser module 40. When reflected by the (111) point of the mirror (11) of (10), it is projected to the (111 ') point of the projection plate (80). After that, when the mirror mirror 10 is slightly rotated and the laser light is reflected by the (112) point of the mirror 11, the angle of reflection decreases as compared with the reflection by the (111) point. Projected to the point. And the reflection by point (113) of the mirror is further reduced by the angle of reflection to point (113 '), reflection by point (114) to point (114'), and reflection by point (115) to point (115 '). To point 116, reflection by point 116 ', reflection by point 117 to 117', reflection by point 118 to 118 ', The reflection by point is directed to the (119 ') point, and the reflection by the point (120) is directed to the point (120'). After that, if the mirror 12 is brought to the place where the mirror 11 is further rotated, the laser light is repeatedly projected to the point from (111 ') to (120') of the projection panel 80 again. . In addition, the reflections by the mirrors 13, 14, and 15 are similarly repeated and projected like the mirrors 11 and 12.

And if the number of mirrors of the multi-faceted mirror 10 is five and the number of rotations of the multi-faceted mirror per second is three, the reflection of the laser light by each mirror per second is a total of 15 times. Thus, the number of screen configuration frames of the projection panel 80 is 15 times. In other words, the laser beam projects 15 times from the point 111 'to the point 120' of the projection plate 80 per second. And when the distance between the projection plate 80 and the multi-faceted mirror 10 is 50cm, the length of light of the semiconductor laser appearing on the projection plate 80 is 200cm. That is, the length from (111 ') to (120') becomes 200cm.

FIG. 3 is an explanatory diagram illustrating the blinking of laser light for characters appearing on the projection plate. In the method of deflecting the semiconductor laser light of FIG. 2, the mirror 11 is reflected from the point 111 to the point immediately before 113. It is explanatory drawing using. When the mirror 11 comes to the point 111 at the same time, the semiconductor lasers 41, 42, 43, 44, 45, 46, 47 and 48 are simultaneously flashed so that 111 '). Then, it comes out to the projection board as shown in (811) of FIG. After that, when the mirror 11 rotates slightly, only the semiconductor laser 48 is turned on. After four flashing times, the projection panel 80 appears as shown in the screens 812, 813, 814, and 815. FIG. After that, the semiconductor laser 48 is turned off. When the 112 point of the mirror comes again, the semiconductor lasers 44, 45, 46, 47, and 48 are simultaneously flashed to come out as shown in 816 of FIG. If the mirror 11 rotates a little more, the semiconductor lasers 43 and 45 are simultaneously flashed to come out as (817), and if it is rotated slightly further, the 42 and 45 are simultaneously blinked to come out as (818) and more Rotate (41) and (45) simultaneously to rotate out as (819) and rotate further to (42) and (45) to flash out simultaneously (820) and rotate further to (43) and (45) simultaneously Flashing to come out as (821) and turn further to flash (44) (45) (46) (47) (48) at the same time to come out as (822) and turn all of the semiconductor lasers as (824) Turn off to finish the character composition by the mirror (11). After that, if the mirror (10) is further rotated to come to the place where the mirror 12 was the mirror 11, the above process is repeated and the mirror (13) (14) (15) is also repeated as well. Then the laser light will only blink every hour on the projection board, but it will blink repeatedly several times in the form of the letter "LA" for a short time.

In addition, in order to give the effect of the letter "LA" to move to the side, the character is displayed by the mirror (11), and after the mirror 12, the semiconductor laser is rotated slightly after turning slightly rather than the same position as that of the mirror (11). When blinking, the letter "LA" moves. If the number of semiconductor lasers is 8, the uppercase and lowercase letters can be displayed. If the number of semiconductor lasers is 13, all English characters can be displayed.

That is, if only 13 semiconductor lasers are needed, all English letters, Korean characters, and numbers can be displayed. Pictures can also be displayed using the method described above.

4 through 7 illustrate a method of cross-projection of semiconductor lasers 41, 42, 43, 44, 45, 46, 47, 48. Cross-projection of the semiconductor laser is used when the height of the multi-faceted mirror 10 is smaller than that of the semiconductor laser module 40 so that the semiconductor laser light cannot all be reflected to the mirror during parallel projection as shown in FIG. 2.

As shown in FIG. 4, when the semiconductor lasers 41, 42, 43, 44, 45, 46, 47, and 48 are projected to focus at a certain point, they are gathered at the focus 100 and the interval thereafter is opened. In the projection panel 80, only the order of the laser light is changed as when projecting in parallel as in FIG. 2 (48 ', 47', 46 ', 45', 44 ', 43'). 42 'and 41'. However, even if the order of the laser light is changed, it does not matter because the order of the semiconductor lasers can be changed and blinked when the switch signal is sent by the program.

5 shows the same effect as the parallel projection when the multi-face mirror 10 is placed at the focal point 100 of FIG. 4 and projected onto the projection plate 80. In addition, not only to make a focus when crossing the semiconductor laser, but also to make a different shape as shown in Fig. 6 can have the same effect on the projection plate, it is also possible to use a combination of parallel and cross-incidence as shown in FIG.

FIG. 8 is an explanatory view of a method of obtaining a doubled screen on the projection plate 80 while the size of the multi-faceted mirror 10 is the same. One semiconductor laser module 40 is incident in parallel and another semiconductor laser module 420 is used. ) Gives you a certain angle to get a doubled screen on the projection board.

9 is an explanatory diagram showing a method of obtaining a doubled screen on the projection panel 80 using one semiconductor laser module 40. The mirrors 21, 23, 25 of the multi-faceted mirror 20 are laser Placed perpendicular to the module 40, the mirrors 22, 24 and 26 are inclined at an angle so that the laser light is reflected by the mirrors 21, 23 and 25 by the 41 ') (42') (43 ') (44') (45 ') 46' (47 ') 48' and projected by mirror (22) (24) (26) Projected to the points 411 ', 412', 413 ', 414', 415 ', 416', 417 'and 418' of the plate 80, the screen is doubled.

As described above, the present invention is a 3000 volt like a neon tube for neon signs by a method of generating a character or a picture on the projection panel which can change the reflection angle of the rotating mirror and a neon sign effect using a semiconductor laser. The same effect can be achieved without consuming very large power of 1 to 15000 volts. By using highly efficient semiconductor lasers with only 5 milliwatts of power consumption per unit, the power consumption can be greatly reduced, and the contents of letters and pictures can be read using pre-programmed programs instead of fixed letters or pictures like neon signs. Not only can it be changed from time to time, but its contents can be obtained by moving up, down, left and right and changing its size. Also, because it is a method of projecting laser light, it can be used on any flat wall as well as a projection board.

Claims (1)

A method of generating letters or pictures for advertisement on projection screens or any wall using the afterimage effect of the eyes. The reflection angle of the mirror changes with time by projecting multiple semiconductor lasers onto a rotating mirror with multiple mirrors. Repeatedly flashes the semiconductor laser light reflected by the flashes on the projection board or any wall to cause afterimages in the eyes of the viewer so that the characters or pictures can be seen.