JPH10222099A - Picture display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve a small and easy-to-see picture display device. SOLUTION: A moving body 2, on which three rows of red, green, and blue light emitting elements R0-R7, G0-G7, and B0-B7 are arranged, is moved in a direction orthogonal to a direction of the array. A column pitch P of the light emitting elements is made as a value of a multiple of a display pitch S plus S/3. A position sensor 12 to detect a position of the moving body 2, and a picture is displayed by making the light emitting elements emit light at each display pitch S of the moving body 2, detected by the position sensor 12. Moreover, each light emitting element is controlled to emit light at shorter intervals than moving the display pitch S/N.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image display device for displaying an image of a character, a numeral, a figure, or the like by emitting light from a light emitting element.

[0002]

2. Description of the Related Art Conventionally, there has been known an image display apparatus which displays an image in space by utilizing the afterimage phenomenon of the human eye.
In such an image display device, for example, Japanese Patent Application Laid-Open No. 4-65
No. 86, a plurality of light emitting elements are arranged on the surface of a rotating belt in a direction substantially perpendicular to the moving direction, and the light emitting elements are turned on and off in accordance with the amount of movement of the belt to form an image in space. Was reproduced and displayed.

[0003]

However, in such a conventional device, for example, as shown in FIG. 5, when the number "3" is displayed, the light-emitting elements are continuously turned on between several display pitches S. In this case, since the light is continuously emitted, there is a problem that the display is difficult to see.

In the case of color display, the light emitting elements are arranged in three rows of red, green, and blue, and the light emitting elements of three rows emit light at the same time. There is a problem that the number of light emitting elements to be controlled is tripled, and the circuit configuration is correspondingly enlarged.

It is an object of the present invention to provide an image display device which is small and easily displayed.

[0006]

In order to achieve the above object, the present invention takes the following means to solve the problem. That is, while moving a moving body in which a plurality of light emitting elements are arranged in a direction orthogonal to the arrangement direction, a position sensor for detecting a position of the moving body is provided, and for each display pitch of the moving body detected by the position sensor. An image display device that displays an image by causing the light emitting elements to emit light based on a record in a storage unit, further comprising a control unit that controls light emission of the light emitting elements at intervals shorter than the movement of the display pitch. That is the image display device.

In addition, a moving body provided with an N array of light emitting elements is moved and a position sensor for detecting the position of the moving body is provided. For each display pitch S of the moving body detected by the position sensor. In an image display device for displaying an image by causing the light emitting elements to emit light based on a record in a storage means, a column interval P of the light emitting elements is obtained by adding the display pitch S / the N columns to an integral multiple of the display pitch S. An image display device comprising a control unit for controlling the light emission of each of the light emitting elements at a shorter interval than the display pitch S / the N columns is moved. Further, the rows of the luminous bodies may be three rows of red, green and blue.

[0008]

Embodiments of the present invention will be described below in detail with reference to the drawings. As shown in FIG.
7 is a red light emitting element, G0 to G7 are green light emitting elements, and B0 to B7 are blue light emitting elements. Light emitting diodes or the like are used as the light emitting elements R0 to R7, G0 to G7, and B0 to B7, and light emitting elements R0 to R7 in three rows are used.
G0 to G7 and B0 to B7 are arranged on the surface of the moving body 2 in three vertical rows at a line interval P.

The row spacing P is arranged so as to satisfy the following equation. P = S × D + S / N where S is the light emitting elements R0 to R7, G0 to G7, B0
In order to display an image by blinking .about.B7, the display pitch is obtained by dividing the circumference at equal intervals, D is a positive integer including 0 (D is 1 in this embodiment), and N is a light emitting element. R0 ~
R7 is the number of columns of G0 to G7 and B0 to B7, and N is 3 in this embodiment.

The moving body 2 is connected to the rotating shaft 6 of the motor 4, and includes a plurality of light emitting elements R0 to R7, G0 to G7, B
0 to B7 are arranged in parallel with the rotation center of the rotating shaft 6 so that the moving body 2 rotates in a direction orthogonal to the arrangement direction. Further, a detection plate 10 that is rotated by the rotation shaft 6 is provided, and a position sensor 12 that detects a slit formed in the detection plate 10 and outputs a signal corresponding to a rotation angle.
Is provided. The moving body 2 is not limited to a rotating body, but may be a linearly reciprocating one. In such a case, the position sensor outputs a signal corresponding to a linear displacement of the moving body. I just need.

A connecting mechanism 14 for exchanging signals between the light emitting elements R0 to R7, G0 to G7, B0 to B7 and the outside of the moving body 2 is provided coaxially with the center of rotation of the moving body 2.
The connection mechanism 14 is known to use a rotary transformer, a brush, a mercury contact, or the like.

Further, the light emitting elements R0 to R7, G0 to G7,
B0 to B7, the motor 4, and the position sensor 12 are connected to the electronic control circuit 20. The electronic control circuit 20 uses a well-known C
The PU 22, the ROM 24, and the RAM 26 as storage means are configured as the center of a logical operation circuit, and an input / output circuit 28 for performing input / output with the outside is mutually connected via a common bus 30.

The CPU 22 inputs signals from the position sensor 12 through an input / output circuit 28, and based on these signals and the recording in the ROM 24 and the RAM 26 and a control program stored in advance, the CPU 22 causes the light emitting element R to emit light.
0 to R7, G0 to G7, B0 to B7 have input / output circuits 28,
A drive signal is output to the motor 4 via the drive circuit 34 and the connection mechanism 14 via the input / output circuit 28 and the motor drive circuit 36.

On the other hand, as shown in FIG.
The light emitting elements R0 to R7, G0 to G7, B0 to B7 are connected in a matrix,
Receives a signal from the driving circuit 34 and outputs a signal for selectively driving the light emitting elements R0 to R7, G0 to G7, B0 to B7 in the column direction. , The light emitting elements R0 to R0 in the row direction are received.
A signal for driving R7, G0 to G7, and B0 to B7 is output.

Next, the operation of the image display device according to the present embodiment will be described. First, a driving signal is output to the motor 4 via the input / output circuit 28 and the motor driving circuit 36 to rotate the moving body 2 around the center of rotation. Then, as shown in FIG. 3, for example, a row of red light emitting elements R0 to R7 is
When the position sensor 12 detects that the point has been reached, only the row of the red light emitting elements R0 to R7 is controlled to emit light.

For example, when point B is reached, the light emitting element R0 emits light (T1). When the moving body 2 is rotated and the row of the light emitting elements R0 to R7 advances by the display pitch S / 3 (T2), the row of the red light emitting elements R0 to R7 is turned off. At this time, the row of the green light emitting elements G0 to G7 has reached point C, and only the row of the green light emitting elements G0 to G7 is controlled to emit light. For example, when the light reaches the point C, the light emitting element G0 emits light (T3).

With the green light emitting element G0 emitting light,
When the moving body 2 continues to rotate and advances the display pitch S / 3 (T4), the row of the green light emitting elements G0 to G7 is turned off. At that time, the row of blue light emitting elements B0 to B7 has reached point D, and only the row of blue light emitting elements B0 to B7 is controlled to emit light. For example, when the point D is reached, the light emitting element B
0 is emitted (T5).

With the blue light emitting element B0 emitting light,
When the moving body 2 continues to rotate and advances the display pitch S / 3 (T6), the row of the blue light emitting elements B0 to B7 is turned off. At that time, the row of red light emitting elements R0 to R7 has reached point A, and only the row of red light emitting elements R0 to R7 is controlled to emit light. For example, when point A is reached, the light emitting element R
0 is emitted (T7).

When the moving body 2 is rotated to advance the row of the light emitting elements R0 to R7 by the display pitch S / 3 (T8), the row of the red light emitting elements R0 to R7 is turned off. At this time, the row of green light emitting elements G0 to G7 has reached point B, and only the row of green light emitting elements G0 to G7 is controlled to emit light. For example, when point B is reached, the light emitting element G0 emits light (T9).

With the green light emitting element G0 emitting light,
When the moving body 2 continues to rotate and advances the display pitch S / 3 (T10), the green light emitting elements G0 to G7 are turned off. At that time, the row of the blue light emitting elements B0 to B7 has reached point C, and only the row of the blue light emitting elements B0 to B7 is controlled to emit light. For example, when point C is reached, the light emitting element B0 emits light (T11).

With the blue light emitting element B0 emitting light,
When the moving body 2 continues to rotate and advances the display pitch S / 3 (T12), the blue light emitting elements B0 to B7 are turned off. By repeatedly performing this, in the case described above, T
Red light and green light are emitted at point B by 2 and T10, and a color in which the light is superimposed is displayed.

As described above, in the above-described image display device of the present embodiment, the light emitting elements R0 to R7, G0 to G7, and B0 to B7 each time the display pitch S / 3 is shorter than the display pitch S.
, And the light is once turned off during that time. For example, as shown in FIG. 4, when the number "3" is displayed, the display becomes easy to see.

When displaying in three colors,
At the same time, the light emission is controlled by three rows of light emitting elements R0 to R7.
, G0 to G7, B0 to B7, and three rows of light emitting elements R0 to R7, G0 while the display pitch S advances.
Since G7 and B0 to B7 are time-divisionally controlled, the circuit configuration can be downsized.

As described above, the present invention is not limited to such an embodiment, and can be implemented in various modes without departing from the gist of the present invention.

[0025]

As described in detail above, the image display device of the present invention controls the light emission of the light emitting elements at intervals shorter than the display pitch S, and thus has an effect of making the display easier to see.
Further, when there are a plurality of rows of light-emitting elements, the light-emitting elements in N rows are time-divisionally controlled while the display pitch S advances, so that the circuit configuration is downsized.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of an image display device as one embodiment of the present invention.

FIG. 2 is an explanatory diagram showing an arrangement of light emitting elements of the present embodiment.

FIG. 3 is an explanatory diagram showing a light emitting order of the light emitting device of the present embodiment.

FIG. 4 is an explanatory diagram showing a display example by light emission of the light emitting element of the embodiment.

FIG. 5 is an explanatory diagram showing a display example by light emission of a conventional light emitting element.

[Explanation of symbols]

 2 Moving body 12 Position sensor 20 Electronic control circuit 36 Motor drive circuit 40 Light emitting color selection driver 42 Light emitting element driving driver B0 to B7 Blue light emitting elements G0 to G7 Green light emitting elements R0 to R7 Red light emitting element P: Row spacing S: Display pitch

Claims (3)

[Claims] 1. A moving body on which a plurality of light emitting elements are arranged is moved in a direction orthogonal to the arrangement direction and a position sensor for detecting a position of the moving body is provided, and a display of the moving body detected by the position sensor is provided. In an image display apparatus for displaying an image by causing the light emitting elements to emit light based on the record of the storage means for each pitch, a control means for controlling light emission of each light emitting element at intervals shorter than the movement of the display pitch is provided. An image display device characterized by the above-mentioned. 2. A moving body provided with N rows of light emitting elements is provided, and a position sensor for detecting a position of the moving body is provided, and each of the display pitches S of the moving body detected by the position sensor is provided. In an image display apparatus for displaying an image by causing the light emitting elements to emit light based on a record in a storage unit, a column interval P of the light emitting elements is obtained by adding the display pitch S / the N columns to an integral multiple of the display pitch S. An image display device comprising: a control unit that controls light emission of each of the light emitting elements at a shorter interval than when the display pitch S / the N columns are moved. 3. The image display device according to claim 2, wherein the rows of the light emitters are three rows of red, green, and blue.