JP5687047B2 - Image display device - Google Patents

Description

  The present invention relates to an outdoor type image display apparatus that performs display mainly by causing a large number of light emitting elements to emit light.

  In general, a large-sized image display device is configured by arranging a large number of display units composed of light emitting elements on a plane. Light emitting diodes (LEDs) are used as light emitting elements, and the arrangement and arrangement pitch of the light emitting elements of the three primary colors can be designed arbitrarily. I can do it now. However, large image display devices are often installed outdoors, and the contrast may decrease due to the reflection of sunlight on the surface of the image display device. Therefore, the conventional display device includes a through-hole provided to expose the tip of the light-emitting element, and in order to prevent sunlight from hitting the light-emitting element accommodated in the through-hole, A shade provided with a ridge higher than the height of the tip of the light emitting element in the upper lateral direction is applied to the front surface of the printed circuit board in which a large number of light emitting elements are arranged in a matrix. It is filled around and attached using screws or the like. Moreover, the heel is inclined in the horizontal direction in order to improve drainage and in the forward direction in order to improve the visibility from below. Furthermore, as a method for improving the contrast, there is a method of increasing the amount of sunlight blocked by making the heel tip longer, or by making the shade surface other than the heel tip downward, There is a method of improving the contrast from the front by reflecting the light. However, the method of lengthening the heel tip has the harmful effect of narrowing the viewing angle in the vertical direction of the display device, and when sunlight is irradiated from a low altitude, the sunlight is blocked by the heel tip. It is difficult to prevent a decrease in contrast.

  Therefore, in the image display device of Patent Document 1, a space region in which no light emitting element exists is provided at a position corresponding to the remaining lattice points in a regularly arranged light emitting element group such as a square lattice or a staggered lattice arrangement. A method for improving contrast by reducing the amount of reflected light by external light by providing an opening having a recess when viewed from the display surface in the space area is disclosed.

JP 2009-230096 A

  In the image display device of Patent Document 1, a space area where no light emitting element is present is provided on a substrate on which light emitting elements are arranged, and an opening member having a recess formed in the space area as viewed from the display surface is attached to the space area. The amount of reflected light is reduced. However, in general, the front surface of the light-emitting element substrate is often provided with a resin shade having a ridge to protect the surface and block sunlight, and this shade has a problem that sufficient performance cannot be exhibited. It was.

  The present invention has been made in order to solve the above-described problems. Even in an image display device in which a shade is installed, the amount of light reflected by external light can be greatly reduced, and an image display with high contrast can be obtained. The object is to provide a device.

In order to solve the above-described problems, an image display device according to the present invention includes a light emitting element substrate in which a plurality of light emitting elements are arranged in a lattice pattern and the surface is covered with a resin except for the portion of the light emitting elements, emitting element hole for protruding the tip portion and the capturing hole for capturing is provided outside light Tei Rutotomoni along said light emitting element array between the light emitting element is provided eaves extending in a predetermined direction, and further the resin And a shade disposed on the front surface of the light emitting element substrate with a gap therebetween .

  According to the image display device of the present invention, an image display device capable of improving the contrast by providing a hole for capturing external light in the shade and reducing the amount of reflected light from the shade of external light is obtained. Can do.

1 is a schematic perspective configuration diagram of an image display device according to Embodiment 1 of the present invention. It is the schematic front view and AA part sectional drawing of the image display apparatus in Embodiment 1 of this invention. It is a principal part figure explaining operation | movement of the conventional image display apparatus. It is a principal part figure for demonstrating operation | movement of the image display apparatus in Embodiment 1 of this invention. It is a schematic sectional drawing of the image display apparatus in Embodiment 2 of this invention. FIG. 10 is a main part diagram (part 1) for describing an operation of the image display device according to the second embodiment of the present invention; FIG. 11 is a main part diagram (part 2) for describing an operation of the image display device according to the second embodiment of the present invention; FIG. 11 is a main part diagram (part 3) for explaining the operation of the image display device according to the second embodiment of the present invention; It is a schematic sectional drawing of the image display apparatus in Embodiment 3 of this invention. It is a principal part figure for demonstrating operation | movement of the image display apparatus in Embodiment 3 of this invention. It is a principal part figure for demonstrating operation | movement of the image display apparatus in the other aspect of Embodiment 3 of this invention. It is a principal part figure for demonstrating operation | movement of the image display apparatus in the further another aspect of Embodiment 3 of this invention.

  Hereinafter, an image display apparatus according to an embodiment of the present invention will be described with reference to FIGS.

Embodiment 1 FIG.
FIG. 1 is a schematic perspective configuration diagram of the image display device according to the first embodiment, and FIG. 2 is a schematic front view of the image display device and a cross-sectional view taken along line AA.

  As shown in FIG. 1 and FIG. 2, the image display apparatus 1 covers a light emitting element substrate 3 in which a plurality of light emitting elements 2 are arranged in a grid pattern and a surface of the light emitting element substrate 3 except for the portions of the light emitting elements 2. The light emitting element hole 5 a that is disposed on the front surface of the light emitting element substrate 3 and protrudes from the tip of the light emitting element 2, the capturing hole 5 b that has a rectangular opening for capturing external light, and the light emitting element 2. The shade 5 having the flange 5d extending in a predetermined direction along the element 2 row, the case 6 for accommodating the light emitting element substrate 3, the wiring 7 taken out from the light emitting element substrate 3, and the wiring 7 are taken out to the outside. The wiring hole 8 is provided in the case 6.

Next, operations and effects of the image display apparatus according to Embodiment 1 will be described. FIG. 3 is a main part diagram for explaining the operation of the conventional image display device (the light emitting element portion is omitted). When sunlight is reflected by the shade 15 disposed in front of the image display device, the reflected light 12 enters the eyes 13 of the person viewing the image display device, making it difficult to visually recognize the image information displayed on the light emitting element. Let The reflected light 12 is a major factor that lowers the contrast of the image display device. For this reason, the shade 15 is provided with a flange 15d so that the reflected light 12 does not enter the eye 13 as much as possible. When the incident light 11 of the sunlight 10 enters at an incident angle α or more determined by the height and pitch of the ridge 5d, the incident light 11 is blocked by the ridge 15d, and the reflected light 12 reflected from the shade 15 passes through the image display device. Although it does not enter the eye 13 of the viewer and the contrast does not decrease, when the incident light 11 of the sunlight 10 enters at an incident angle α or less, it is reflected by the surface of the flat portion 15 c of the shade 15. The reflected light 12 enters the eyes 13 of the person viewing the image display device. Therefore, although it depends on the position of the person viewing the image display device and the solar altitude, generally, the sun 15d is effective when the solar altitude is high, but a sufficient effect cannot be expected when the solar altitude is low. . If the height of the ridge 15d is increased, light emitted from the light emitting element (not displayed) is also blocked, and the vertical viewing angle is narrowed. Therefore, the height of the ridge 15d cannot be increased too much.
In Patent Document 1, it is proposed to attach an opening member in which a recess is formed in a portion of the wiring board where there is no light emitting element. However, in many cases, a shade is installed on the front surface of the wiring board for protection. Has no effect.

The contrast Cr of the image display device is determined by the following equation.

Cr = Lh / Ld (1)

Here, Lh is the surface luminance (bright luminance) during display, Ld is the surface luminance (dark luminance) during non-display, the surface luminance Lh during display is represented by L + Ld, and L is the display luminance of the light emitting element. , Ld is the amount of light reflected by sunlight.
Therefore, it can be seen from this formula that, in order to improve the contrast Cr, the reflection by sunlight, which is external light, should be reduced if the display luminance L of the light emitting elements is the same. For this reason, generally, measures are taken to provide ridges on the shade. However, with only the shade of the shade, the effect of improving the contrast is limited when viewing the image display device with the sun behind.

Accordingly, the operation of the present invention will be described on the assumption that an image of an image display device installed outdoors is viewed. As shown in FIGS. 1 and 2, in the image display device 1 according to the first embodiment, in addition to the shade 5 d in the shade 5, the capture hole 5 b that captures sunlight (external light) 10 is a flat portion 5 c without the light emitting element 2. Is provided. As a result, as shown in the main part diagram for explaining the operation of the image display device in the first embodiment of FIG. 4, a part of the incident light 11 of the sunlight 10 is captured by the capturing hole 5b, and the amount of reflected light is reduced. By reducing, the contrast Cr can be improved. That is, if the incident angle is a solar altitude equal to or greater than the incident angle β1 (= tan ⁻¹ (d / 2t) ≦ α) determined by the thickness t of the shade 5 and the vertical length d of the capturing hole 5b, the sunlight 10 Is captured by the capture hole 5b and does not enter the eyes 13 of the person viewing the image display device 1, and the contrast Cr can be improved. Here, the direction perpendicular to the ground is referred to as vertical. Further, at a low solar altitude with an incident angle of β1 or less, incident light 11 entering the trapping hole 5b is reflected by the surface 4c of the silicone resin 4 covering the surface of the light emitting element substrate 3, and taken out to the outside. Since the light entering the eye 13 is attenuated by scattering and light absorption on the surface 4c, the decrease in contrast Cr is small compared to the reflection at the flat portion 5c of the shade 5. Accordingly, since the angle β1 of the incident angle 11 reflected by the capture hole 5b and entering the eye 13 is smaller than the angle α, the contrast is improved as compared with the case where the incident angle at which the solar altitude is lower than α is β1. It is also effective, and contrast Cr is low because the reflection at the surface 4c of the silicone resin 4 is less than the reflection at the surface of the flat portion 5c of the shade 5 even at an incident angle at a low solar altitude of β1 or less. Can be improved.

  Forming unevenness on the surface 4c of the silicone resin 4 and forming unevenness on the surface of the flat portion 5c of the shade 5 at the portion without the capture hole 5b can also prevent unnecessary reflection. This is effective for improving the contrast.

  As described above, in the image display device according to the first embodiment, the amount of reflected light can be reduced by providing a capture hole in a flat portion of a shade without a light emitting element and capturing a part of sunlight. There is a remarkable effect that the contrast can be improved even at a solar altitude lower than the conventional one.

Embodiment 2. FIG.
FIG. 5 is a schematic cross-sectional view of the image display device according to the second embodiment. FIG. 6 is a main part diagram (part 1) for explaining the operation of the image display device according to the second embodiment. FIG. 8 is a main part diagram for explaining the operation of the image display apparatus in the second embodiment (part 2), and FIG. 8 is a main part diagram for explaining the operation of the image display apparatus in the second embodiment (part 3). is there.

  As shown in FIG. 5, the image display device in the second embodiment is different from the image display device in the first embodiment shown in FIG. 2 in that a gap 9 is provided between the light emitting element substrate 3 and the shade 5. Therefore, the other constituent elements are the same as those in the first embodiment, and the description thereof will be omitted.

Next, the operation and effect of the image display apparatus according to the second embodiment will be described with reference to a main part diagram (No. 1) for explaining the operation of the image display apparatus in FIG. By providing the gap 9 between the light emitting element substrate 3 and the shade 5, the distance between the flat portion 5 c of the shade 5 and the surface 4 c of the silicone resin 4 can be increased. The incident angle β2 reflected by the surface 4c and taken out to the outside is smaller than the incident angle β1, and the amount of reflected light can be suppressed even for the incident light 11 having a smaller incident angle than in the first embodiment. The contrast can be improved even at low solar altitudes. When the thickness t of the shade 5, the vertical length d of the capturing hole 5 b and the gap s are given, the incident angle β 2 is represented by β 2 = tan ⁻¹ (d / 2 (t + s)).

  The effect of improving the contrast by the capture hole 5b is proportional to the total area of the capture hole 5b. Therefore, it is preferable to increase the number of the capture holes 5b as shown in a main part diagram (No. 2) for explaining the operation of the image display device of FIG. In particular, since the region reflected from the surface 4c of the silicone resin 4 becomes smaller as the vertical length d of the capture hole 5b is smaller, it is effective to provide a large number of capture holes 5b having a smaller vertical length d. Here, when the number of the capture holes 5b is increased between the flanges 5d and 5d, the external light incident on the upper capture holes 5b is multiplexed between the back surface of the shade 5 and the surface 4c of the silicone resin 4 by the gap 9. Although it may be reflected and taken out from the lower capturing hole 5b, it is dimmed by multiple reflection, so its influence on the contrast is small (necessary for explaining the operation of the image display device in FIG. 8). (See Part 3).

  Further, when the vertical gap p between the capture holes 5b is narrow with respect to the gap 9 between the back surface of the shade 5 and the silicone resin 4, the sunlight 10 incident from the upper capture holes 5b is reflected on the silicone resin 4 surface 4c. Then, the light is emitted forward through the lower capturing hole 5b. For this reason, it is preferable to set the interval p between the capture holes 5b to be twice or more (p ≧ 2s) of the gap 9 between the back surface of the shade 5 and the surface 4c of the silicone resin 4.

As described above, in the image display device according to Embodiment 2, the surface of the shade and the surface of the silicone resin are formed by providing the capture hole in the flat portion of the shade without the light emitting element and providing the gap between the shade and the light emitting element substrate. The amount of reflected light can be reduced by increasing the distance and capturing part of the sunlight, so that the contrast can be improved even at a lower solar altitude than in the first embodiment. There is a remarkable effect.

Embodiment 3 FIG.
FIG. 9 is a cross-sectional view of the image display apparatus according to the third embodiment, FIG. 10 is a main part diagram for explaining the operation of the image display apparatus according to the second embodiment, and FIG. FIG. 12 is a main part diagram for explaining the operation of the image display device in another embodiment, and FIG. 12 is a main part diagram for explaining the operation of the image display device in still another embodiment of the second embodiment.

  As shown in FIG. 9, the image display device in the third embodiment is different from the image display device in the second embodiment shown in FIG. 5 in that a recess 4b is provided in the silicone resin 4 at a position corresponding to the capture hole 5b. Since other components are the same as those in the second embodiment, the description thereof is omitted.

Next, the operation and effect of the image display device according to the third embodiment will be described with reference to a main part diagram for explaining the operation of the image display device in FIG. By providing the gap 9 between the light emitting element substrate 3 and the shade 5 and providing the recess 4b in the silicone resin 4, the distance between the flat portion 5c of the shade 5 and the surface 4c of the silicone resin 4 can be further increased. The sunlight 10 is reflected by the concave portion 4b of the silicone resin 4 at the back, and the incident angle β3 taken out to the outside is further smaller than the incident angle β1, and the incident angle is larger than those of the first and second embodiments. The amount of reflected light can be suppressed even for incident light 11 having a small size, and the contrast can be improved even at a lower solar altitude. When the thickness t of the shade 5, the vertical length d of the capture hole 5 b, the gap g, and the recess depth s, the incident angle β 3 is expressed by β 3 = tan ⁻¹ (d / 2 (t + g + s)). Further, by making the deepest part of the concave part 4b hemispherical, the incident light 11 is reflected at various angles, so that local reflection by the concave surface of the silicone resin 4 is also reduced.

  Next, another aspect of the second embodiment will be described with reference to FIG. 11, the surface of the concave portion 4b of the silicone resin 4 is roughened, and the incident light 11 is diffused and reflected on the surface of the concave portion 4b as shown in the main part diagram for explaining the operation of the image display device of FIG. By being absorbed inside the resin 4, reflection can be prevented, the amount of light taken out to the outside is reduced, and the contrast can be improved.

  Further, still another aspect of the second embodiment will be described with reference to FIG. As shown in the main part diagram for explaining the operation of the image display apparatus of FIG. 12, the through hole 3a is provided in the light emitting element substrate 3, and the recess 4b reaching the light emitting element substrate 3 is formed, thereby further reducing the recess. The incident angle of the incident light 11 can be further reduced, and the contrast can be improved even at a low solar altitude. 3b is an extension part for protecting the through hole 3a. Not only the case where the through hole 3a is provided in the light emitting element substrate 3, but also the case where the concave portion is provided in the light emitting element substrate 3, and the depth of the concave portion may be determined as necessary.

  The silicone resin 4 in the back of the capture hole 5b reflects the light when it receives sunlight 10, but the vertical length d of the capture hole 5b is from the surface of the flat part 5c of the shade 5 to the concave part. It is preferable that the distance r to the deepest part is ½ or less of the distance r, that is, d ≦ r / 2. Under this condition, the sunlight 12 directly reflected by the silicone resin 4 does not enter the eyes 13 even at low solar daytime altitudes in winter. That is, when looking up at the image display device 1, the sunlight 10 is not reflected from the capture hole 5 b during the daytime when the solar altitude is high throughout the year, and looks black due to the drilling effect, thereby improving the contrast. it can. As an actual size example, the vertical interval of the light emitting elements is 8 mm, the horizontal interval is about 16 mm, the shade thickness t is about 2 mm, the distance r to the deepest part is about 4 mm, and the vertical length of the capture hole is The length d (vertical direction) is about 2 mm.

  As described above, in the image display device according to the third embodiment, the capture hole is provided in the flat portion of the shade without the light emitting element, the gap is provided between the shade and the light emitting element substrate, and the silicone resin or the light emitting element substrate is provided. By providing a recess in the surface, the distance between the shade surface and the deepest part of the recess is increased, and by capturing a part of sunlight, the amount of reflected light can be further reduced. As compared with the second aspect, there is a remarkable effect that the contrast can be improved even at a lower solar altitude.

  In the above embodiment, the effect of improving the contrast when the image display device is installed outdoors has been described. However, when the image display device is installed indoors, it is possible to improve the contrast with respect to external light such as illumination. Needless to say.

  In the above embodiment, the case where one light emitting element array is arranged between the ridges has been described. However, a plurality of light emitting element arrays may be arranged, and the contrast is improved by the capturing holes. Can be expected.

  Moreover, although the case where the shape of the capture hole is rectangular has been described in the above embodiment, the same effect can be expected even when the shape is other shapes such as a circle and an ellipse.

  In the above embodiment, an example in which the position of the trapping hole is provided in the middle between the light emitting elements has been described. However, it is not particularly limited as long as the flat portion of the shade does not affect the arrangement of the light emitting elements.

  Moreover, in the said embodiment, although the size of the recessed part was not mentioned, it should just be larger than the size of the capture hole.

  Moreover, in the said embodiment, although resin which coat | covers a light emitting element substrate was demonstrated as silicone resin, another resin may be sufficient.

  Moreover, in the figure, the same code | symbol shows the same or an equivalent part.

DESCRIPTION OF SYMBOLS 1 Image display apparatus 2 Light emitting element 3 Light emitting element board | substrate 4 Silicone resin 4b Recessed part 4c Surface 5 Shade 5a Light emitting element hole 5b Capture hole 5c Flat part 5d ９ 9 Gap 10 Sunlight 11 Incident light 12 Reflected light 13th

Claims (6)

A plurality of light emitting elements arranged in a lattice pattern, and a light emitting element substrate whose surface is covered with a resin except for the portion of the light emitting elements;
Wherein between trapping holes and is provided Tei Rutotomoni the light emitting element to project the tip of the light emitting element to capture the light emitting element hole and the external light along the light-emitting element array is provided eaves extending in a predetermined direction, further A shade disposed on the front surface of the light emitting element substrate with a gap between the resin ,
An image display device comprising:   The image display apparatus according to claim 1, wherein unevenness is formed on a surface of the flat portion of the shade. The image display apparatus according to claim 1 , wherein unevenness is formed on a surface of the resin. Wherein the resin is an image of claim 1, wherein the recesses in the surface of that at a position corresponding to the trapping holes or wherein the concave portion until the portion reaches the surface of the light emitting element substrate is formed Display device. The length of the trapping holes with respect to the direction perpendicular to the eaves, to claim 4, characterized in that it is set to 1/2 or less of the distance to the deepest portion of the said recess from a surface of the flat portion of the shade The image display device described. Interval of the trapping holes with respect to the direction perpendicular to the eaves, the image display apparatus according to claim 1, characterized in that it is set to more than twice the gap.

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