JP5921481B2 - Double-sided display device - Google Patents

Description

  The present invention relates to a double-sided display device.

  Patent Document 1 discloses a double-sided light emitting organic light emitting display device in which a front light emitting region and a back light emitting region are formed on a pixel of a substrate. According to this, by forming the front light emitting region and the rear light emitting region in one pixel of any one substrate without forming all of the front light emitting substrate and the rear light emitting substrate as complete bodies, it is possible to simplify the process. A thin double-sided organic light-emitting display device can be manufactured by the manufacturing process.

JP 2012-94489 A

  The above structure has a problem in that a high-definition image cannot be displayed because a front light-emitting region and a rear light-emitting region coexist.

  An object of the present invention is to provide a double-sided display device capable of displaying a high-definition image.

  (1) A double-sided display device according to the present invention includes an organic electroluminescence display panel having a surface on which an image is displayed and a back surface opposite to the front surface, and a liquid crystal display panel overlaid on the back surface of the organic electroluminescence display panel. The organic electroluminescence display panel emits light on the surface to display the image, and is disposed around the first light emitting region. A bottom emission type second light emitting region that emits light on the back surface, and the second light emitting region is a light source of a backlight of the liquid crystal display panel. According to the present invention, since the second light emitting area is located around the first light emitting area, the front light emitting area and the back light emitting area are not mixed and a high-definition image can be displayed.

  (2) In the double-sided display device described in (1), the backlight includes a light guide plate disposed between the organic electroluminescence display panel and the liquid crystal display panel, and light from the second light emitting region. May be incident from an end of one surface of the light guide plate, and may be emitted toward the liquid crystal display panel with an emission area larger than the incidence area.

It is a top view of the double-sided display apparatus which concerns on embodiment of this invention. FIG. 2 is an exploded side view of the double-sided display device shown in FIG. 1. It is sectional drawing of an organic electroluminescent display panel.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a plan view of a double-sided display device according to an embodiment of the present invention. FIG. 2 is an exploded side view of the double-sided display device shown in FIG.

  The double-sided display device has an organic electroluminescence display panel 14 having a front surface 10 on which an image is displayed and a back surface 12 opposite to the front surface 10. The organic electroluminescence display panel 14 has a top emission type first light emitting region 16 for emitting light to the surface 10 to display an image. The organic electroluminescence display panel 14 includes a bottom emission type second light emitting region 18 that is located around the first light emitting region 16 and emits light to the back surface 12. FIG. 1 shows a plurality of second light emitting regions 18 arranged along the sides of the rectangular outer shape of the organic electroluminescence display panel 14.

  FIG. 3 is a cross-sectional view of the organic electroluminescence display panel 14. The organic electroluminescence display panel 14 has a light-transmitting substrate 20 made of glass or the like. In the first light emitting region 16, a first pixel electrode 22 (for example, an anode) is provided on the substrate 20. The first pixel electrode 22 is configured to reflect light. For example, the first pixel electrode 22 is formed from a reflective film made of a light reflecting material such as metal, or by laminating a transparent conductive film made of an oxide semiconductor or the like thereon.

  In the second light emitting region 18, a second pixel electrode 24 (for example, an anode) is provided on the substrate 20. The second pixel electrode 24 is configured to transmit light. For example, the second pixel electrode 24 is formed from a transparent conductive film such as an oxide semiconductor.

  A bank 26 is provided from an insulator such as a resin so as to surround at least a part of each of the first pixel electrode 22 and the second pixel electrode 24. An organic electroluminescence layer 28 is formed on the first pixel electrode 22 and the second pixel electrode 24 surrounded by the bank 26. A part of the organic electroluminescence layer 28 is also placed on the bank 26.

  The organic electroluminescence layer 28 includes at least a light emitting layer, and further includes at least one of an electron transport layer, a hole transport layer, an electron injection layer, and a hole injection layer. At least one layer constituting the organic electroluminescence layer 28 is made of an organic material. The organic electroluminescence layer 28 is formed by vapor deposition or sputtering.

  A light transmissive common electrode 30 (for example, a cathode) is formed from the organic electroluminescence layer 28 to the bank 26. An organic electroluminescence layer 28 is disposed between the first pixel electrode 22 and the second pixel electrode 24 and the common electrode 30. Holes and electrons are injected into the organic electroluminescence layer 28 by applying a voltage between the first pixel electrode 22 and the second pixel electrode 24 and the common electrode 30. The injected holes and electrons combine in the light emitting layer to emit light.

  Since the first pixel electrode 22 reflects light, in the first light emitting region 16, the light is emitted in a direction opposite to the first pixel electrode 22 (upward in FIG. 3) and does not pass through the substrate 20. On the other hand, since the second pixel electrode 24 transmits light, in the second light emitting region 18, the light travels in the direction passing through the substrate 20 through the second pixel electrode 24 (downward in FIG. 3).

  As shown in FIG. 2, the double-sided display device includes a liquid crystal display panel 32 that is superimposed on the back surface 12 of the organic electroluminescence display panel 14. The second light emitting region 18 of the organic electroluminescence display panel 14 is a light source of the backlight 34 of the liquid crystal display panel 32. The backlight 34 includes a light guide plate 36 disposed between the organic electroluminescence display panel 14 and the liquid crystal display panel 32. The light from the second light emitting area 18 enters from the end of one surface of the light guide plate 36, the emission area becomes larger than the incident area, and is emitted toward the liquid crystal display panel 32.

  According to the present embodiment, since the second light emitting region 18 is located around the first light emitting region 16, the front light emitting region and the back light emitting region are not mixed and a high-definition image can be displayed.

  The present invention is not limited to the above-described embodiments, and various modifications can be made. For example, the configuration described in the embodiment can be replaced with substantially the same configuration, a configuration that exhibits the same operational effects, or a configuration that can achieve the same purpose.

  DESCRIPTION OF SYMBOLS 10 Front surface, 12 Back surface, 14 Organic electroluminescent display panel, 16 1st light emission area | region, 18 2nd light emission area | region, 20 Substrate, 22 1st pixel electrode, 24 2nd pixel electrode, 26 banks, 28 Organic electroluminescence layer, 30 Common electrode, 32 liquid crystal display panel, 34 backlight, 36 light guide plate.

Claims (2)

An organic electroluminescence display panel having a front surface on which an image is displayed and a back surface opposite to the front surface;
A liquid crystal display panel overlaid on the back surface of the organic electroluminescence display panel;
Have
The organic electroluminescence display panel includes a first emission type first light emitting region for emitting light on the front surface to display the image, and a bottom located around the first light emitting region and emitting light on the back surface. An emission type second light emitting region,
The double-sided display device, wherein the second light emitting region is a light source of a backlight of the liquid crystal display panel. The double-sided display device according to claim 1,
The backlight includes a light guide plate disposed between the organic electroluminescence display panel and the liquid crystal display panel,
The light from the second light emitting area is incident from an end of one surface of the light guide plate, and the light emitting area is larger than the incident area and is emitted toward the liquid crystal display panel. Display device.

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