JPH08202292A - Image display device - Google Patents

Abstract

PURPOSE: To provide an image display device by which main light rays radiated from respective color LEDs forming one pixel in a color blend is seen at a short distance. CONSTITUTION: In the image display device performing a color image display making an LED a display element, respective pellets 8, 10 of the LEDs of a red color and a blue color among the LEDs 2, 3, 4 of the red color, a green color, the blue color forming one pixel are provided on the outside of optical axes of resin lenses 5, 7, and the main light rays radiated from respective color LEDs are converged. Then, the main light rays of respective colors are refracted to parallel rays of light with a pitch narrower than the pitch of the LED by a refractive means 11, and are diffused in the horizontal direction by a diffusive means 12.

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 suitable for displaying full-color characters, figures, and other various video information as an image using a light emitting diode element (hereinafter referred to as LED) as a display element. is there.

[0002]

2. Description of the Related Art In recent years, with the increase in brightness of blue LEDs, image display devices have been developed which can display a color image using the blue LEDs, the red LEDs and the green LEDs. Figure 5 shows such red, green and blue LEDs.
Is a conceptual illustration of a display panel portion of an image display device that displays a color image using as a display element. In the image display device 40 shown in this figure, for example, red (R) and green (G ) And blue (B) LEDs are provided. Then, one pixel P is formed by a combination of these red, green, and blue LEDs, and this is arranged in a matrix.

FIG. 6 shows a configuration example of one pixel P of the image display device 40 described above. In this figure, 41 is a green LED that emits green light, 42 is a blue LED that emits blue light, 4
3 indicates red LEDs that emit red light, and green L
ED41 and blue LED42 vertically with a predetermined pitch L
To place. Then, the red LED 43 is replaced by the green LED 4
Green LED 41 and blue L in the middle of 1 and blue LED 42
A configuration is conceivable in which they are arranged at predetermined horizontal positions such that the pitch with the ED 42 is L, respectively.

In this case, for example, green LED 41, blue L
Assuming that the diameters of the ED 42 and the red LED 43 are 3φ, the pitch L of the LEDs forming one pixel described above is at least 4 m in consideration of the tolerance of the diameter of the LED and the mounting error.
m.

In the image display device 40 shown in FIG.
9 (vertical) × 12 (horizontal) = 108 LEDs are provided, but this is merely a conceptual illustration,
Actually, a larger screen is displayed by a larger number of LEDs.

[0006]

By the way, as described above, in the image display device 40, when the diameter of the LED of each color is 3φ, the green LED 41 and the blue LE which form one pixel are formed.
Each pitch L between the D42 and the red LED 43 is at least 4
mm, so as shown in FIG.
The spacing between the chief rays of red, green, and blue emitted from the LED is also 4 mm, which is the same as the pitch L between the LEDs.

Therefore, the green LED 41, the blue LED 42, and the red LED 4 forming one pixel must be separated from the display panel portion of the image display device 40 by about 10 m in the horizontal direction.
There was a defect that the chief rays of No. 3 were mixed and invisible.

The present invention has been made in order to solve such a problem, and is an LED of each color forming one pixel.
An object of the present invention is to provide an image display device in which a chief ray emitted from a device appears to mix colors in a short distance.

[0009]

In order to achieve the above object, in an image display device capable of displaying a color image by using a light emitting diode element as a display element, red light emitted from one pixel arranged in a horizontal direction is arranged. Principal ray focusing means for focusing the red, green, and blue principal rays emitted from the diode element, the green light emitting diode element, and the blue light emitting diode element to substantially one point, and the red and green rays focused by the principal ray focusing means. A refracting means for refracting the blue principal ray into parallel light and a diffusing means for diffusing the principal ray emitted from the refracting means in the horizontal direction are configured.

Further, the chief ray focusing means is provided with the red color,
Among the green and blue light emitting diode elements, at least one light emitting diode element pellet is formed so as to be provided outside the optical axis of the lens of the light emitting diode element. The chief ray focusing means is a convex lens for focusing the chief rays emitted from the red, green and blue light emitting diode elements.

[0011]

According to the present invention, when viewed in the horizontal direction, the intervals between the chief rays of the red, green, and blue LEDs forming one pixel are such that the chief rays emitted from the LEDs of each color are actually different from each other. Since it appears to be narrower than the interval, the color mixing distance in which the chief rays of each color appear to be mixed becomes short.

[0012]

Embodiments of the present invention will be described below. FIG. 1 conceptually shows the structure of an LED of an image display device according to an embodiment of the present invention. The image display device 1 shown in this figure is provided with, for example, red, green and blue LEDs which are light emitting elements. Then, one pixel P is formed by a combination of these LEDs, and this is arranged in a matrix.

One pixel P of the image display device 1 shown in FIG.
An example of the configuration will be shown. In this figure, 2 is a red LED that emits red light, 3 is a green LED that emits green light, and 4 is a blue LED that emits blue light. The blue LEDs 4 are respectively arranged to form one pixel P. In addition, each of these LEDs has a radiation characteristic of, for example, a diameter of 3φ and a narrow directional angle.

Red LED 2, green LED 3, and green L
The pitch l between the ED3 and the blue LED 4 is, for example, L of each color.
If the diameter of the ED is 3φ, it is set to about 4 mm in consideration of the tolerance of the diameter of the LED and the mounting error.

The image display device 1 of this embodiment shown in FIG. 1 is provided with 12 (vertical) × 12 (horizontal) = 144 LEDs, but this is merely a conceptual illustration. However, in reality, by providing a larger number of LEDs, it is possible to display on a large screen.

FIG. 3 is an enlarged view of a part of the cross-sectional view of the image display device 1 of this embodiment, schematically showing the light emitted from the LED. In this figure, 5 to 7 are red LE
A resin lens made of, for example, an epoxy resin provided on the front surface of the D2, the green LED 3, and the blue LED 4 is shown, which has a substantially hemispherical axisymmetric lens type shape and has a predetermined narrow directivity angle characteristic. Is formed.

Reference numeral 8 denotes a pellet provided inside the red LED 2, which is formed at a position outside the optical axis k which is the central axis of the resin lens 5. Reference numeral 9 denotes a pellet provided inside the green LED 3, which is formed on the optical axis of the resin lens 6. 10 is blue LE
The pellet provided inside D4 is shown, and is formed at a position outside the optical axis k of the resin lens 7.

That is, in one pixel P formed by the red LED 2, the green LED 3 and the blue LED 4,
Red LEDs 2 arranged in the left and right direction from the center of the pixel,
And the pellets 8 and 10 of the blue LED 4 are L
It is formed outside the optical axis k of the resin lenses 5 and 7 of the ED.

Reference numeral 11 denotes a cylindrical concave lens in which one surface is a flat surface and the other is a concave surface, and an LED is incident on the flat surface portion of the cylindrical concave lens 11.
The light is refracted by the concave portion and emitted. Reference numeral 12 denotes, for example, a lenticular lens in the shape of a kamaboko, which mainly disperses and emits light in the horizontal direction, so that the viewing angle in the horizontal direction can be widened.

With such a configuration, the red and blue chief rays emitted from the pellet 8 of the red LED 2 and the pellet 10 of the blue LED 4 travel toward the center of the pixel, and the pellet 9 of the green LED 3 is emitted. The light is focused at a predetermined focusing point O with the green principal ray emitted from.

Here, for example, the cylindrical concave lens 11 is arranged at a position where the focal length substantially matches the focal point O. As a result, the red, green, and blue chief rays incident on the cylindrical concave lens 11 are refracted by passing through the cylindrical concave lens 11, and become a parallel chief ray whose pitch is narrower than the actual LED pitch. It will be emitted.

That is, when the image display device 1 is viewed from the horizontal direction, the red LED 2 and the green LED forming one pixel
3, the pitch of the blue LEDs 4 seems to be arranged narrower than the actual pitch l, and as a result, L of each color is
The color mixing distance where the red, green, and blue chief rays emitted from the EDs 2, 3, and 4 appear to be mixed becomes short.

Specifically, as described above, each color LED
If the pitch l of 2, 3, and 4 is, for example, 4 mm, it appears that LEDs of each color are arranged at a pitch of 2 mm from the horizontal direction, and the color mixing distance in which the chief rays of each color are mixed is It is possible to reduce the conventional length from about 10 m to half, about 5 m.

Further, for example, since the lenticular lens 12 is provided in the vicinity of the focusing point O where the chief rays emitted from the LEDs of each color are focused, the rays emitted from the cylindrical concave lens 11 are mainly in the horizontal field of view. Since the corners are widened, an image display device that is easier to see can be realized.

FIG. 4 is an enlarged view of a part of a sectional view of an image display apparatus according to a second embodiment of the present invention, schematically showing light emitted from an LED. In addition, L of the present embodiment
The arrangement of the EDs is the same as that shown in FIG. In this figure, 21 is red L that emits red light.
ED, 22 is a green LED that emits green light, and 23 is a blue LED that emits blue light. 24-26 is red L
A resin lens provided on the ED 21, the green LED 22, and the blue LED 23, which has a substantially hemispherical axisymmetric lens type shape and has a predetermined narrow directivity angle characteristic.

Reference numeral 27 is a pellet provided inside the red LED 21, 28 is a pellet provided inside the green LED 22, and 29 is a pellet provided inside the blue LED 23.
It is formed on the optical axis of 26. Reference numeral 30 denotes a convex lens whose surface shape is convex, and the convex surface portion refracts incident light to emit focused light.

In this case, the red LED 21 and the green LED 2
2 and the blue LED 23 radiate a chief ray that is the same as and parallel to the pitch 1 of each LED. And
The parallel principal ray is incident on the convex lens 30, and is refracted into a convergent ray that is focused on a predetermined focusing point O and emitted.

Here, for example, the cylindrical concave lens 11 is arranged at a position where the focal point substantially coincides with the focal point O. As a result, the red, green, and blue chief rays incident on the cylindrical concave lens 11 are refracted by passing through the cylindrical concave lens 11,
It becomes narrower than the pitch l of the actual chief ray.

That is, when the image display apparatus of this embodiment is viewed from the horizontal direction, the pitch of the red LED 21, the green LED 22 and the blue LED 23 forming one pixel is the actual L
The EDs appear to be arranged narrowly with respect to the pitch l, and as a result, the color mixing distance in which the principal rays of the respective colors emitted from the LEDs 21, 22, 23 of the respective colors are mixed is shortened.

Further, for example, since the lenticular lens 12 is provided in the vicinity of the focusing point O where the chief rays of the LEDs of each color are focused, the cylindrical concave lens 11 is provided.
The light beam emitted from the device has a wide viewing angle mainly in the horizontal direction, so that the image display device can be more easily viewed.

In this embodiment, one pixel is composed of red, green,
A case has been described in which LEDs that emit light of a single color, such as blue LEDs, are formed in combination, but it is possible to emit light of two colors by providing pellets of two colors of red, green, and blue LEDs in one element. And a two-color LED,
It may be combined with an LED that emits light of another color. Also, of the red, green, and blue LEDs, the red LED
It is also possible to provide only the pellets of the above from the optical axis of the lens of the LED so as to focus only the green principal ray and the red principal ray.

[0032]

As described above, in the image display device of the present invention, the principal rays of the red, blue and green light emitting diode elements forming one pixel are focused and the focused light is refracted into parallel rays. Therefore, when the image display device of the present invention is viewed from the horizontal direction, the pitch of the light emitting diode elements looks narrower than the pitch actually arranged, and the pitch of red, green, and blue is It becomes possible to shorten the color mixing distance in which the chief rays appear to be mixed.

Further, since the diffusing means for diffusing the light in the horizontal direction is provided, the viewing angle in the horizontal direction is widened, and the diffusing means serves as a protective plate, thereby improving reliability. There is an advantage that it can be done.

Further, since the light emitting diode element pellets are provided outside the optical axis of the lens to obtain the focused light, it is possible to focus the principal ray without tilting the light emitting diode element during mounting, There is also an advantage that the light emitting diode element can be easily mounted.

[Brief description of drawings]

FIG. 1 is a diagram showing an array of LEDs of an image display device that is an embodiment of the present invention.

FIG. 2 is a diagram showing an example of a configuration of one pixel of the image display device which is the embodiment of the present invention.

FIG. 3 is a diagram schematically showing a part of the cross-sectional view of the image display device of the present embodiment and schematically showing the light emitted from the LED.

FIG. 4 is a diagram schematically showing a light emitted from an LED by enlarging a part of a sectional view of an image display device according to a second embodiment of the present invention.

FIG. 5 is a diagram conceptually showing the structure of an LED of a conventional image display device.

FIG. 6 is a diagram showing a configuration example of one pixel of a conventional image display device.

FIG. 7 is a diagram showing a chief ray emitted from each LED forming one conventional pixel.

[Explanation of symbols]

 1 Image display device 2, 21 Red LED 3, 22 Green LED 4, 23 Blue LED 5, 6, 7, 24, 25, 26 Resin lens 8, 9, 10, 27, 28, 29 Pellet 11 Cylindrical concave lens 12 Lenticular lens 30 convex lens k optical axis P 1 pixel

Claims (3)

[Claims] 1. An image display device capable of displaying a color image using a light emitting diode element as a display element, comprising: a red light emitting diode element, a green light emitting diode element, and a blue light emitting diode element which are arranged in parallel in a horizontal direction to form one pixel. Principal ray focusing means for focusing the red, green, and blue principal rays emitted from the light-emitting diode element at substantially one point, and refracting the red, green, and blue principal rays focused by the principal ray focusing means into parallel rays. An image display device comprising: a refracting means; and a diffusing means for diffusing a principal ray emitted from the refracting means in a horizontal direction. 2. The principal ray focusing means is formed by providing at least one pellet of at least one light emitting diode element among the red, green and blue light emitting diode elements outside the optical axis of the lens of the light emitting diode element. The image display device according to claim 1, wherein the image display device is provided. 3. The chief ray focusing means is a convex lens for focusing the chief rays emitted from the red, green and blue light emitting diode elements.
The image display device according to.