JP2018017974A - Display device and optical body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device capable of displaying a good image on a display screen when display by a display element is not performed.SOLUTION: The display device comprises a display element 201, and an optical body 207 arranged in front of the display element. The optical body has a substrate 202, and a phosphor 206 disposed on the substrate. The phosphor is colorless and transparent under visible light, and emits visible light under near-ultraviolet or ultraviolet light.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a display device and an optical body.

The display screens of conventional television receivers and monitors are black when the power is off, and a good design is not always obtained.
Patent Document 1 proposes a display device in which a front panel is provided on the front surface of a display element. In the cited document 2, a liquid crystal display in which electronic paper is provided on the back surface of the liquid crystal panel is proposed. According to these techniques, it is possible to display some image on the display screen when the display using the display element is not performed.

JP 2004-245976 A JP 2006-139145 A JP 2006-77191 A

Hironori Iwanaga, two others, “Creation of New Transparent Phosphors and Application to Light-Emitting Devices”, Toshiba Review, 2007, Vol. 62, No. 5, p. 32-35

  However, in the related art, when the display using the display element is not performed, a good image cannot always be displayed on the display screen.

  An object of the present invention is to provide a display device capable of displaying a good image on a display screen when display by a display element is not performed.

  According to one aspect of the present invention, there is provided a display element and an optical body disposed on the front surface of the display element, the base body being disposed on the base body, being colorless and transparent under visible light, and near-ultraviolet light. There is provided a display device comprising an optical body having a phosphor that emits visible light under or under ultraviolet light.

  According to another aspect of the present invention, there is provided an optical body for placement on the front surface of a display element, the base body and the base body, which is disposed on the base body, is colorless and transparent under visible light, and is under near ultraviolet light or ultraviolet light. There is provided an optical body comprising a phosphor that emits visible light under light.

  ADVANTAGE OF THE INVENTION According to this invention, when not performing the display by a display element, the display apparatus which can display a favorable image on a display screen can be provided.

It is a front view which shows the display apparatus by 1st Embodiment. It is sectional drawing and the perspective view which show some display apparatuses by 1st Embodiment. It is the block diagram which shows the outline of a structure of the display apparatus by 1st Embodiment, and the graph which shows the characteristic of fluorescent material. It is a figure which shows the photograph of an evaluation result. It is a front view which shows the display apparatus by 2nd Embodiment. It is a front view which shows the display apparatus by 2nd Embodiment. It is a front view which shows the display apparatus by 3rd Embodiment. It is sectional drawing which shows a part of display apparatus by 3rd Embodiment. It is a graph which shows the spectral characteristic of an optical member.

[First Embodiment]
The display device according to the first embodiment will be described with reference to FIGS. FIG. 1 is a front view showing the display device according to the present embodiment. FIG. 1A shows a state in which the power supply of the display device according to the present embodiment is turned on, and FIG. 1B shows a state in which the power supply of the display device according to the present embodiment is turned off.

  Here, a case where the display device 101 according to the present embodiment is a liquid crystal television receiver (LCD-TV) will be described as an example, but the display device 101 is not limited to a liquid crystal television receiver. The present invention can be widely applied to the display device 101 including the display portion 102.

  The display device 101 includes a main body 107 (display unit) and a pedestal 105 that instructs the main body 107. A stand 106 formed integrally with the main body 107 is attached to the pedestal 105. A display unit (display screen) 102 is provided on the main body 107 of the display device 101. For example, a liquid crystal panel is used for the display unit 102. The size of the display unit 102, that is, the size of the display screen is, for example, 32 inches, but the size of the display screen is not limited to 32 inches.

  FIG. 1A shows a state in which the display device 101 is turned on. As shown in FIG. 1A, a television image (image) is displayed on the display unit 102.

  FIG. 2A is a cross-sectional view showing a part of the display device 101 according to the present embodiment. In FIG. 2A, a display element 201 disposed on the display unit 102 and an optical body (front plate) 207 disposed on the front side of the display element 201 are extracted. The left side in FIG. 2A is the front side of the display device 101, that is, the side on which the user who views the display unit 102 is located. The right side of the right side in FIG. 2A is the back side of the display device 101. As the display element 201, for example, a liquid crystal panel is used.

  The optical body 207 has a base body 202. An acrylic plate is used as the substrate 202. The thickness of the substrate is, for example, about 5 mm, but is not limited thereto. A phosphor (transparent phosphor material) 206 is applied to one of the two main surfaces 203, 204 of the substrate 202, that is, the main surface 203 facing the display element 201. The phosphor 206 is, for example, transparent in the visible light range, that is, colorless and transparent under visible light. Further, the phosphor 206 absorbs near-ultraviolet light or ultraviolet light under near-ultraviolet light or ultraviolet light, and emits visible light such as red or green. The phosphor 206 is applied to the substrate 202 by, for example, a printing method using polymethyl methacrylate (PMMA) as a binder.

  A desired design pattern (design, picture) or the like is formed by the phosphor 206. Here, a case where the four-leaf clover pattern 103b and the ladybug pattern 103a are formed by the phosphor 206 will be described as an example. However, the pattern formed by the phosphor 206 is limited to this. It is not a thing. The reason why the phosphor 206 is arranged on the main surface 203 on the back side of the base body 202 instead of the main surface 204 on the front side of the base body 202 is to prevent a human hand or the like from touching the phosphor 206. It is.

  FIG. 2B is a perspective view showing a part of the display device 101 according to the present embodiment. In FIG. 2B, the optical body 207 and the light source 205 are extracted. The front side of FIG. 2B corresponds to the front side of the display device 101, that is, the side on which the user viewing the display unit 102 is located, and the back side of FIG. Corresponds to the side.

  As shown in FIG. 2B, the light source 205 is built in the main body 107 of the display device 101. The light source 205 emits near ultraviolet light or ultraviolet light. As the light source 205, for example, an LED (light emitting diode) that emits near ultraviolet light or ultraviolet light is used. The emission wavelength of the light source 205 is, for example, about 365 nm, but is not limited to this. The light source 205 is disposed in the main body 107 so as to be positioned on the end face of the optical body 207 attached to the display unit 102. Here, a case where the light source 205 is positioned on the right end surface of the horizontally long optical body 207 will be described as an example, but the present invention is not limited to this. Here, four light sources 205 are arranged, but the number of light sources 205 is not limited to four. Here, the light source 205 is arranged on the right side in FIG. 2B, but the position where the light source 205 is arranged is not limited to this.

  FIG. 3A is a block diagram schematically illustrating the configuration of the display device 101 according to the present embodiment. The control unit 310 controls the overall operation of the display device 101 according to the present embodiment. A signal from the operation unit 311 is input to the control unit 310. Examples of the operation unit 311 include a power button. When the user turns on the power button, a signal indicating that is input from the operation unit 311 to the control unit 310. Further, when the user turns off the power button, a signal indicating that is input from the operation unit 311 to the control unit 310. The drive unit 312 drives the light source 205 based on a control signal from the control unit 310.

  When the user turns on the power button, the control unit 310 turns on the display element 201 to start displaying the television image on the display unit 102 and turns off the light source 205. The drive unit 312 is controlled. On the other hand, when the user turns off the power button, the control unit 310 ends the display of the television image on the display unit 102 by turning off the display element 201 and turns on the light source 205. Thus, the drive unit 312 is controlled. As described above, in the present embodiment, the light source 205 is turned on / off in conjunction with the power-off / on of the display device 101.

  FIG. 1B shows a state in which the display device 101 according to the present embodiment is turned off. When the power of the display device 101 is turned off by the user, as described above, the display device 101 according to the present embodiment turns on the light source 205. As a result, near ultraviolet light or ultraviolet light emitted from the light source 205 reaches the phosphor 206, and visible light such as red or green is emitted from the phosphor 206. For example, a fluorescent material that emits green visible light is used for the four-leaf clover pattern 103b. For example, a fluorescent material that emits red visible light is used for the ladybug pattern 103a. Therefore, good design patterns 103 a and 103 b in which a green four-leaf clover and a red ladybug are combined are displayed on the display unit 102.

  FIG. 3B is a graph showing the characteristics of the fluorescent material. The horizontal axis indicates the wavelength, and the vertical axis indicates the emission intensity or the absorption intensity. Reference numeral 301 denotes an absorption spectrum of a triazole-based fluorescent material having a molecular weight of 376.45, which is a fluorescent material that emits visible light in blue, and reference numeral 304 denotes an emission spectrum of the fluorescent material. Reference numeral 302 indicates an absorption spectrum of an Oxadiaze fluorescent material having a molecular weight of 345.35, which is a fluorescent material that emits green visible light. Reference numeral 305 indicates an emission spectrum of the fluorescent material. Reference numeral 303 denotes an absorption spectrum of an Oxadiaze fluorescent material having a molecular weight of 373.40, which is a fluorescent material that emits red visible light. Reference numeral 306 denotes an emission spectrum of the fluorescent material.

  Various colors can be expressed by appropriately using red, blue, and green fluorescent materials. Therefore, it is possible to obtain patterns 103a and 103b having desired color patterns by appropriately using three color fluorescent materials and performing printing by, for example, an ink jet method.

  In this embodiment, the case where the display device 101 is a liquid crystal television receiver has been described as an example. However, the present invention is not limited to this. For example, the display device 101 may be an organic EL television receiver or the like.

  In this embodiment, the case where an acrylic plate is used for the base body 202 has been described as an example. However, the present invention is not limited to this. For example, a plate that is substantially transparent in the visible light region, such as a polycarbonate plate or a glass plate, may be used as the substrate 202.

  The optical body 207 may be detachable from the display unit 102. In this case, the user can enjoy by attaching the optical body 207 in which the favorite patterns 103 a and 103 b are expressed by the phosphor 206 to the display unit 102.

  The fluorescent material is not limited to the above. The following polymer fluorescent materials can also be used as appropriate. Examples of the fluorescent material that emits blue light include poly (p-phenylene) derivatives and polyfluorene derivatives. Examples of the fluorescent material that emits green light include poly (p-phenylene vinylene). Examples of fluorescent materials that emit red light include poly (thiophene) derivatives and europium complex derivatives.

(Evaluation results)
FIG. 4 is a diagram showing a photograph of the evaluation result. A sample 401 corresponds to the optical body 207 according to the present embodiment. As the substrate 202, a transparent acrylic plate was used. As the phosphor 206, the fluorescent material described above with reference to FIG. FIG. 4A shows a photograph taken in a bright room, and FIG. 4B shows a photograph taken in a dark room. When the photograph shown in FIG. 4B was taken, ultraviolet light was emitted from the light source 205 disposed on the end face of the optical body 207.

  FIG. 4A corresponds to the case where the power source of the display device 101 is on. As can be seen from FIG. 4A, the phosphor 206 is colorless and transparent. From this, it can be seen that the phosphor 206 does not adversely affect the image quality of the display unit 102 when enjoying television images.

  FIG. 4B corresponds to the case where the power source of the display device 101 is in an off state. As can be seen from FIG. 4B, the phosphor 206 emits visible light, and the pattern 402 drawn by the phosphor 206 can be recognized. From this, it can be seen that when the power of the display device 101 is turned off, the patterns 103a and 103b expressed by the phosphors 206 can be satisfactorily displayed on the display unit 102.

  Thus, in this embodiment, the optical body 207 is arranged on the front surface of the display element 201. The optical body 207 is colorless and transparent under visible light, and a pattern or the like is formed by the phosphor 206 that emits visible light under near ultraviolet light or ultraviolet light. When the power of the display device 101 is turned off, near ultraviolet light or ultraviolet light is emitted from the light source 205, and the phosphor 206 emits light. For this reason, according to the present embodiment, such a pattern or the like can be displayed on the display screen when the power of the display device 101 is turned off. For this reason, according to this embodiment, rich design property and interior property can be obtained. In addition, since the phosphor 206 is colorless and transparent when a television image or the like is displayed on the display unit 102, the display image quality is not adversely affected.

[Second Embodiment]
A display device according to the second embodiment will be described with reference to FIGS. The same components as those of the display device according to the first embodiment shown in FIG. 1 to FIG.

  FIG. 5A is a front view showing an example of the display device according to the present embodiment. In the example shown in FIG. 5A, the light source 205 is arranged in the main body 107 so that the light source 205 is positioned on the lower end surface of the horizontally long optical body 207. The light source 205 may be arranged as shown in FIG.

  FIG. 5B is a front view showing another example of the display device according to the present embodiment. In the example shown in FIG. 5B, the light source 205 is arranged at the corner of the bezel 501 of the display device 101. The light source 205 may be arranged as shown in FIG.

  FIG. 6 is a front view showing still another example of the display device according to the present embodiment. In the example shown in FIG. 6, a spot light source 601 separate from the display device 101 main body is used. The spot light source 601 includes a light source 602 that emits near-ultraviolet light or ultraviolet light, and a support portion 603 that supports the light source 602 so as to be movable.

  In the case of the example shown in FIG. 5B or the example shown in FIG. 6, the substrate 202 may be a film instead of a plate. The thickness of such a film can be, for example, about 100 μm, but is not limited thereto.

[Third Embodiment]
A display device according to the third embodiment will be described with reference to FIGS. FIG. 7 is a front view showing the display device according to the present embodiment. The same components as those of the display device according to the first or second embodiment shown in FIG. 1 to FIG.

  Here, a case where the display device 101 according to the present embodiment is an organic electroluminescence (EL) television receiver (OLED-TV) will be described as an example, but the display device 101 receives an organic electroluminescence (EL) television reception. It is not limited to the machine. The size of the display unit 102, that is, the size of the display screen is, for example, 65 inches, but the size of the display screen is not limited to 65 inches.

  FIG. 7A shows a state in which the display device 101 is turned on. As shown in FIG. 7A, a television image is displayed on the display unit 102.

  FIG. 8 is a cross-sectional view showing a part of the display device 101 according to the present embodiment. In FIG. 8, the display element 201 disposed in the display unit 102 and the optical body 207 disposed on the front side of the display element 201 are extracted. The left side in FIG. 8 is the front side of the display device 101, that is, the side on which the user viewing the display unit 102 is located. The right side of the right side in FIG. 8 is the back side of the display device 101. As the display element 201, for example, an organic electroluminescence panel is used.

  The optical body 207 has a base body 202. For example, a polycarbonate plate is used as the substrate 202. The thickness of the substrate is, for example, about 2 mm, but is not limited thereto. A phosphor 206 is applied to one of the two main surfaces 203 and 204 of the base 202, that is, the main surface 203 on the side facing the display element 201 by, for example, a printing method.

  A desired design pattern (design, picture) or the like is formed by the phosphor 206. Here, a case where the sunflower pattern 103c is formed by the phosphor 206 will be described as an example, but the pattern formed by the phosphor 206 is not limited thereto.

  In the present embodiment, ultraviolet shielding means 801 and 802 are provided so as to sandwich the base body 202. As the ultraviolet shielding means 801, 802, for example, a film having an ultraviolet cut function is used. The ultraviolet shielding means 802 is disposed on the main surface 204 on the front surface side of the base body 202. The ultraviolet shielding means 801 is disposed on the main surface 203 on the back side of the base body 202. The reason for providing such an ultraviolet shielding means 801 is to eliminate ultraviolet light that does not enter the phosphor 206 and leaks outside the substrate 202. As the ultraviolet shielding means 802, for example, a PET film having transmission spectral characteristics as shown in FIG. 9A is used. The horizontal axis of Fig.9 (a) has shown the wavelength, and the vertical axis | shaft of Fig.9 (a) has shown the transmittance | permeability. As the ultraviolet shielding means 801, for example, a circularly polarizing film having transmission spectral characteristics as shown in FIG. 9B is used.

  The optical body 207 may be detachable from the display unit 102 as in the first embodiment. In this case, the user can enjoy by attaching the optical body 207 in which the desired pattern, picture, photograph, etc. are expressed by the phosphor 206 to the display unit 102.

[Modified Embodiment]
The present invention is not limited to the above embodiment, and various modifications are possible.

For example, in the above embodiment, the case where the display device 101 is a television receiver has been described as an example. The present invention can be widely applied to electronic devices having a display screen. For example, the display device 101 may be a display device of a personal computer. The display device 101 may be a display device of a video game device. Thus, the present invention can be applied to any display screen.
In the above-described embodiment, the case where the pattern 104 is displayed has been described as an example.

DESCRIPTION OF SYMBOLS 101 ... Display apparatus 102 ... Display part 103a-103c ... Pattern 201 ... Display element 202 ... Base | substrate 205 ... Light source 206 ... Phosphor 207 ... Optical body 801,802 ... Ultraviolet shielding means

Claims (20)

A display element;
An optical body disposed in front of the display element, the base body and the phosphor disposed on the base body, which is colorless and transparent under visible light and emits visible light under near ultraviolet light or ultraviolet light A display device comprising: an optical body including:   The display device according to claim 1, further comprising a light source that is provided on at least one end face of the optical body and emits near-ultraviolet light or ultraviolet light.   The display device according to claim 2, wherein the light source is a light emitting diode.   The light source does not emit the near-ultraviolet light or the ultraviolet light when the display element is displaying information, and the near-ultraviolet light or the ultraviolet light when the display element is not displaying information. The display device according to claim 2, wherein the display device emits light.   The display device according to claim 1, wherein the optical body is detachable.   The optical body further includes first ultraviolet shielding means disposed at least on a second main surface opposite to the first main surface which is a surface facing the display element of the base. The display device according to claim 1, wherein the display device is a display device.   The display device according to claim 6, wherein the first ultraviolet shielding means is in the form of a film.   The display device according to claim 6, wherein the optical body further includes second ultraviolet shielding means disposed on the first main surface of the base body.   The display device according to claim 8, wherein the second ultraviolet shielding means is in a film form.   The display device according to claim 1, wherein the base is in a film form.   The phosphor includes a first fluorescent material that emits light in a first color and a second fluorescent material that emits light in a second color different from the first color. The display device according to any one of 1 to 10.   The display device according to claim 11, wherein the phosphor further includes a third fluorescent material that emits light in a third color different from any of the first color and the second color.   The display device according to claim 1, wherein the display element is a liquid crystal display element or an organic electroluminescence element.   The display device according to claim 1, wherein the base is colorless and transparent. An optical body for disposing on the front surface of the display element,
A substrate;
An optical body, comprising: a phosphor that is disposed on the substrate and is colorless and transparent under visible light and emits visible light under near-ultraviolet light or ultraviolet light.   16. The optical body according to claim 15, further comprising first ultraviolet shielding means disposed on the first main surface of the substrate.   The optical body according to claim 16, further comprising second ultraviolet shielding means disposed on a second main surface opposite to the first main surface of the base.   The optical body according to claim 15, wherein the base is in a film form.   16. The phosphor includes a first fluorescent material that emits light in a first color and a second fluorescent material that emits light in a second color different from the first color. The optical body according to any one of 1 to 18.   The optical body according to claim 19, wherein the phosphor further includes a third phosphor material that emits light in a third color different from any of the first color and the second color.

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