The present disclosure relates to a display device, for example, to a display device in which a display is configured in an arc-shaped display by a large number of light emitting diodes (LEDs).
In the related art, there are three dimensional display technologies in which a stereoscopic image is displayed on a flat display used in a television receiver or the like. For example, in the three-dimensional display technologies, there is a technology in which parallax of left and right eyes of a human watching a display is used. Specifically, for example, stereoscopic vision may be realized such that only an image for a left eye is watched by the left eye and only an image for a right eye is watched by the right eye by alternately displaying the image for the left eye and the image for the right eye on a flat display and using a polarization filter and the like
In contrast, many omnidirectional stereoscopic image display devices have been proposed in which a plurality of images of different perspectives, which are captured from a plurality of perspectives provided on the circumference around a subject (an object to be displayed) (or, are generated assuming a state in which the object is seen by computer graphics from all directions), are used, and a display may be performed such that the object may be stereoscopically visually recognized when seen from any arbitrary direction among all of the directions (for example, refer to Japanese Laid-Open Patent Publication Nos. 2004-177709 and 2005-114771).
Such an omnidirectional stereoscopic image display device has a configuration in which a housing is formed in a cylindrical shape, a display having an arc shape configured by disposing a large number of small light emitting diodes (LEDs) is provided in the inside of the housing, and slits are disposed on the side surface of the housing so that images of the display may be visually recognized from the outside of the housing through the slits. Then, the housing is rotated at high speed by a motor, and thus, when a side surface of the housing having the cylindrical shape is seen from a certain direction by a user, the object to be displayed on the display may be stereoscopically visually recognized.
When a display having an arc shape is configured by disposing a large number of LEDs, it is desirable to prevent degradation of an image (such as occurrence of streaks, etc.) due to arrangement intervals of LEDs to thus improve productivity and enable LEDs to be replaced.
In consideration of the above situation, in the present disclosure, a display having an arc shape is configured by disposing a large number of LEDs to enable degradation of an image due to arrangement intervals of LEDs to be prevented and thus improve productivity and enable LEDs to be replaced.
According to an embodiment of the present disclosure, a display device may be configured such that a light-emitting element package in which a plurality of light-emitting elements emitting light of different colors are arranged vertically and horizontally, and the light-emitting element package is disposed on a base substrate having a plane shape in a vertical direction and an arc shape in a horizontal direction.
The display device may be configured such that a vertical arrangement interval d1 is different from a horizontal arrangement interval d2 in the light-emitting element package that is disposed on the base substrate before bending into the arc shape.
The display device may be configured such that the vertical arrangement interval d1 and the horizontal arrangement interval d2 satisfy d2>d1.
The display device may be configured such that the vertical arrangement interval d1 and the horizontal arrangement interval d2 satisfy d2<d1.
The display device may be configured such that a mounting part is disposed on a rear surface of the base substrate on which the light-emitting element package is disposed, and the base substrate is bent at a position at which the mounting part is not disposed.
According to an embodiment of the present disclosure, when a display having an arc shape is configured by disposing a large number of LEDs, it is possible to prevent degradation of an image due to arrangement intervals of LEDs to thus improve productivity and enable LEDs to be replaced.
Hereinafter, preferred embodiments of the present disclosure will be described in detail with reference to the appended drawings.
[Configuration Example of Omnidirectional Stereoscopic Image Display Device]
In the omnidirectional stereoscopic image display device 10, an object that may be stereoscopically visible to a user watching the rotating unit 12 that rotates at high speed from any direction appears (is displayed) on an inside center of the rotating unit 12.
The fixing unit 11 has a sufficient weight that the omnidirectional stereoscopic image display device 10 does not move even when the rotating unit 12 rotates at high speed. A plurality of slits 13 are provided on the cylindrical side of the rotating unit 12, and displays 21 are provided on the inside of the rotating unit 12 in the same number as the slits 13. In this embodiment, three of the slits 13 and the displays 21 are provided, but the numbers are not limited thereto.
Displays 21-1 to 21-3 formed on an arc around the rotating axis 22 are provided on the inside of the rotating unit 12. A large number of small LEDs are disposed on a display surface of each display 21. Images of the displays 21-i (i=1, 2, 3) are visible from an outside of the rotating unit 12 through the slits 13-i.
In addition, the LEDs disposed on the display surface of each display 21 are disposed in units of LED packages in which LEDs having a predetermined primary color are disposed at predetermined positions and configured to have predetermined numbers, rather than as single LEDs. When the LEDs are disposed as LED package units, productivity of the display 21 is improved and replacement of products when there are defective products or failure in LEDs is easy, in comparison to the LEDs being disposed as single LEDs.
[Configuration of LED Package]
In addition, based on the LED package 30 of
In addition, the arrangement of respective colors in the LED package 30 is not limited to the example in
[Arrangement of LED Package in Display]
The horizontal arrangement interval d2 of the LED package 30 in the display 20 will be described in detail.
d2: the horizontal arrangement interval d2 (a value when the base substrate is not bent)
n: numbers of LEDs of the LED package 30 in the horizontal direction (in this case, n=3)
P: a mounting interval of the LED 31
R1: a bending radius of the base substrate
R2: a radius of a bending surface on which a light-emitting surface of the LED is formed.
θ: an angle of a line drawn in the bent portion of the base substrate from the center of the bending of the base substrate
As described above, it is possible to prevent degradation of the image, for example, in which vertical streaks are generated from the image of the display, by determining the horizontal arrangement interval d2 of the LED package 30.
The LED package may be configured of four LEDs in a 2×2 array.
In the present embodiment, the LED package is disposed on the inside of the base substrate having an arc shape, but the disclosure may be applied to a case in which the LED package is disposed on the outside of the base substrate having the arc shape. However, in this case, it is necessary to satisfy d2<d1, in contrast to the embodiment described above.
For example,
In addition, for example,
Additionally, although the stereoscopic 3D image is displayed from all directions in this embodiment, it is also possible to display a 2D image from all directions. Alternatively, all of the directions may be divided into a plurality of numbers, and information (time, news, an advertisement, a guide, or the like) having the different divided numbers may be displayed at the same time.
The embodiments of the present disclosure are not intended to be limited to those described above, and various modifications can be made without departing from the spirit and scope of the present disclosure
The present disclosure contains subject matter related to that disclosed in Japanese Priority Patent Application JP 2011-147908 filed in the Japan Patent Office on Jul. 4, 2011, the entire content of which is hereby incorporated by reference.
Number | Date | Country | Kind |
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2011-147908 | Jul 2011 | JP | national |
Number | Name | Date | Kind |
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7498933 | Pederson | Mar 2009 | B2 |
Number | Date | Country |
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2004-177709 | Jun 2004 | JP |
2005-114771 | Apr 2005 | JP |
Number | Date | Country | |
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20130010462 A1 | Jan 2013 | US |