JP2016118655A - Curve surface display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a curve surface display device including an optical sheet arranged so as to be curved along the rear surface of an LCD panel, with a simple and reliable structure.SOLUTION: By performing adhesion with adhesive on the rear surface of an LCD panel 2 at a plurality of vertical and horizontal points P inside an outer edge region 21 outside a display region 20 of the LCD panel 2, along the curve surface of the rear surface of the LCD panel 2, an optical sheet group 3 is fixed to the LCD panel 2 so as to be laminated on the rear surface of the LCD panel 2. Here, a point P where the optical sheet group 3 adheres to the rear surface of the LCD panel 2 is set so as to avoid the periphery of a connection place of a COF (Chip On Flexible) 22 and the LCD panel 2. Also, as adhesive, used is flexible adhesive becoming an elastic body after hardening.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a curved display device having a curved display surface.

  The curved display device having a curved display surface includes a curved LCD panel (liquid crystal panel), a diffusion sheet, a transparent back plate having a curved shape along the rear surface of the LCD panel, and a backlight device. A curved display device is known (for example, Patent Document 1).

Here, in this curved display device, the LCD panel, the diffusion sheet, the back plate, and the backlight device are arranged in this order from the front surface to the rear surface, and the light emitted from the backlight device is the back plate, the diffusion sheet. The LCD panel is illuminated from the rear through the screen.
Further, in this curved display device, the diffusion sheet is fixed by being sandwiched between the LCD panel and the back plate, so that the diffusion sheet is curved along the rear surface of the LCD panel.

JP 2009-63701

  According to the curved display device having the curved LCD panel, the diffusion sheet, the back plate, and the backlight described above, it is necessary to manufacture a dedicated back plate for each liquid crystal display device having a different curvature and size of the LCD panel. Occurs. Further, the luminance of the display is lowered due to the attenuation of the illumination light due to the passage through the back plate.

  On the other hand, the diffusion sheet itself may be formed in a curved shape along the rear surface of the LCD panel and placed behind the LCD panel. In this case, however, the curvature and size of the LCD panel are limited. For each different liquid crystal display device, it is necessary to manufacture a dedicated diffusion sheet using a dedicated mold or the like.

  It is also conceivable that the diffusion sheet is curved along the rear surface of the LCD panel by attaching the diffusion sheet to the rear surface of the LCD panel. Due to the difference, stress is applied to the LCD panel, and there is a possibility that a malfunction occurs in the function and operation of the LCD panel, so that it is difficult to ensure sufficient reliability.

  Therefore, an object of the present invention is to realize a curved display device having an optical sheet that is curved along the rear surface of an LCD panel, with a simple and highly reliable structure.

  In order to achieve the above object, the present invention provides a curved display device having a curved display surface, and is placed on the rear surface of the LCD, which is composed of a curved LCD panel and one or more optical sheets. The optical sheet group and a backlight device that is disposed behind the optical sheet group and emits light toward the front. However, the LCD panel has an outer edge region around a display region for displaying an image, and the optical sheet group overlaps the rear surface of the LCD panel along the curved surface of the rear surface. At a position in the outer edge region, the LCD panel is adhered to the rear surface using an adhesive that becomes an elastic body after curing.

  According to such a curved display device, the optical sheet group is simply bonded to the rear surface of the LCD panel with an adhesive, and no special processing of the optical sheet group or a special member other than the optical sheet group is required. Depending on the structure, the optical sheet can be arranged curved along the rear surface of the LCD panel.

Further, since an adhesive that becomes an elastic body after curing is used as the adhesive, the difference in the degree of deformation between the LCD panel and the diffusion sheet caused by the difference in thermal expansion coefficient can be absorbed by the deformation of the adhesive. .
Therefore, the stress applied to the LCD panel due to the difference in thermal expansion coefficient between the LCD panel and the diffusion sheet can be suppressed.
Here, in such a curved display device, the optical sheet group is bonded to the rear surface of the LCD panel using the adhesive only at a plurality of positions spaced apart from each other in the outer edge region of the LCD panel. It is preferable to do.
By doing so, the flexibility of the connecting portion between the optical sheet group and the LCD panel by the adhesive is increased, and the difference in the degree of deformation between the LCD panel and the diffusion sheet is more greatly absorbed by the deformation of the adhesive. Will be able to.
In the curved display device described above, when the LCD panel is connected to a COF (Chip On Flexible) on which an IC for driving the LCD panel is connected, the connection between the LCD panel and the COF is connected. It is preferable that the optical sheet group does not adhere to the LCD panel in the vicinity of the position. By doing so, the force applied to the connection point between the COF and the LCD panel of the COF having a relatively low resistance to the force applied from the outside. Can be effectively prevented.

  In the above curved display device, the optical sheet group may include one or a plurality of diffusion sheets.

  As described above, according to the present invention, a curved display device including an optical sheet that is curved along the rear surface of an LCD panel can be realized with a simple and highly reliable structure.

It is a figure which shows the structure of the curved display apparatus which concerns on embodiment of this invention. It is a figure which shows the structure of the LCD panel which concerns on embodiment of this invention, an optical sheet group, and a backlight apparatus. It is a figure which shows the fixing structure of the optical sheet which concerns on embodiment of this invention. It is a figure which shows the fixing structure of the optical sheet which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 shows a configuration of a curved display device according to the present embodiment.
Here, in FIG. 1, FIG. 1a is a front view of the curved display device, FIG. 1b is a top view of the curved display device, and FIG. 1c is a side view of the curved display device.
FIG. 1d shows a cross section of the curved display device along line AA in FIG. 1a, and FIG. 1e shows a cross section of the curved display device along line BB in FIG. 1a.
As shown in the figure, the curved display device includes a housing 1, an LCD panel 2 curved in a concave shape when viewed from the front, an optical sheet group 3, a backlight device 4, and a control board 5.
The LCD panel 2, the optical sheet group 3, the backlight device 4, and the control board 5 are accommodated in the housing 1 in this order from the front to the rear.
Here, as schematically shown in FIG. 2, the optical sheet group 3 includes one or a plurality of optical sheets 31. Each optical sheet 31 is a sheet-like optical member having a thickness of about several tenths of a millimeter and has flexibility. The optical sheet group 3 is arranged in a form laminated on the rear surface of the LCD panel 2 along the curved surface of the rear surface of the LCD panel 2.

Further, as the optical sheet 31, a diffusion sheet that diffuses light so as to form a more uniform surface light source, a prism sheet that condenses light in the forward direction, various brightness enhancement sheets, and the like can be used. .
As the optical sheet group 3, a single diffusion sheet, a plurality of diffusion sheets, a combination of one or a plurality of diffusion sheets, a prism sheet, and a brightness enhancement sheet can be used.
Next, the backlight device 4 includes a light guide plate 41, a reflection plate 42 disposed so as to overlap the rear surface of the light guide plate 41, and a light source device 43 that emits light into the light guide plate 41 from the side surface of the light guide plate 41. Is done.
In such a configuration, the light emitted from the light source device 43 becomes illumination light directed forward by the light guide plate 41 and the reflection plate 42, passes through the optical sheet group 3, and illuminates the LCD panel 2 from the rear surface side. . Then, an image is formed by controlling the transmittance of each pixel of the LCD panel 2.

Hereinafter, a structure for fixing the optical sheet 31 of such a curved display device will be described.
FIG. 3A shows the LCD panel 2 and the optical sheet group 3 as viewed from the rear side.
Here, 20 area | region in a figure is a display area where the LCD panel 2 displays an image. Further, the area of the LCD panel 2 outside the display area 20 of the LCD panel 2 is referred to as an outer edge area 21, and the outer edge area 21 is a bezel portion of the housing 1 (a portion denoted by reference numeral 11 in FIGS. 1d and e). ) Is an area that is covered by

  Next, reference numeral 22 in the figure denotes a COF (Chip On Flexible) on which a driver IC for the LCD panel 2 is mounted. : Anisotropic conductive film). The COF 22 is also connected to the control board 5 described above, and the driver IC of the COF 22 operates according to control from the control board 5.

  As shown in the drawing, the optical sheet group 3 is bonded to the rear surface of the LCD panel 2 at a plurality of points P on the inside, outside, left and right inside the outer edge region 21 by using an adhesive. The panel 2 is fixed to the LCD panel 2 so as to be laminated on the rear surface of the LCD panel 2 along the curved surface of the rear surface of the panel 2. Here, the point P at which the optical sheet group 3 is adhered to the rear surface of the LCD panel 2 is set to avoid the periphery of the connection portion between the COF 22 and the LCD panel 2. The interval between the points P where the optical sheet group 3 is bonded to the rear surface of the LCD panel 2 is, for example, about 10 cm.

  Here, as the adhesive, a flexible adhesive that becomes an elastic body after curing is used. Examples of the flexible adhesive that becomes an elastic body after curing include a silicone resin adhesive, a modified silicone resin adhesive, an epoxy modified silicone resin adhesive, and a silylated urethane resin adhesive. .

  When a plurality of optical sheets 31 are used as the optical sheet group 3, the front surface of the frontmost optical sheet 31 is bonded to the rear surface of the LCD panel 2 at a plurality of points P inside the outer edge region 21. The optical sheet 31 is fixed to the LCD panel 2 by adhering to a plurality of points P inside the outer edge region 21 on the rear surface of the front optical sheet 31.

However, in the case where a plurality of optical sheets 31 are used as the optical sheet group 3, as shown in FIG. 3b, each optical sheet 31 is directly bonded to the rear surface of the LCD panel 2 to be a flexible adhesive that becomes an elastic body after curing. You may make it adhere | attach using an agent.
That is, in this case, as shown in an enlarged view of the rear surface side near one corner of the LCD panel 2 in FIG. 3B, the size of the area where each optical sheet 31 covers the rear surface of the LCD panel 2 The front optical sheet 31 is set to be smaller. However, the size of the area where the foremost optical sheet 31 a covers the rear surface of the LCD panel 2 is set to cover the display area 20 and part of the outer edge area 21. Then, the front optical sheet 31a is adhered to the rear surface of the LCD panel 2 at a plurality of points P on the inner side of the outer edge region 21 on the upper, lower, left, and right sides using an adhesive. Then, the other optical sheets 31 b and 31 c are bonded to the rear surface of the LCD panel 2 at a plurality of points P inside the outer edge region 21 and outside the previous optical sheet 31 using an adhesive.

3A and 3B, when the optical sheet group 3 is fixed, the LCD panel 2 and the optical sheet 31 are not bonded to each other and the optical sheets 31 are not bonded to each other inside the display area 20. To do.
The embodiment of the present invention has been described above.
As described above, according to the present embodiment, a special member other than the optical sheet group 3 that merely bonds the optical sheet group 3 to the rear surface of the LCD panel 2 with an adhesive is not required. The optical sheet 31 can be arranged by being curved along the rear surface of the LCD panel 2 with a simple structure that does not require the above processing.

  In addition, since a flexible adhesive that becomes an elastic body after curing is used as the adhesive, the difference in the degree of deformation between the LCD panel and the diffusion sheet caused by the difference in thermal expansion coefficient is absorbed by the deformation of the adhesive. can do. Therefore, the stress applied to the LCD panel due to the difference in thermal expansion coefficient between the LCD panel and the diffusion sheet can be suppressed.

  Furthermore, since the optical sheet group 3 is adhered to the rear surface of the LCD panel 2 only at a plurality of positions P spaced apart from each other, the flexibility of each cured adhesive is greatly ensured. Even a large difference in the degree of deformation of the diffusion sheet can be absorbed.

In addition, according to the present embodiment, since the bonding is not performed around the connection portion between the COF 22 and the LCD panel 2, a force is applied to the COF 22 and the ACF that have a relatively low resistance to a force applied from the outside. Can be effectively prevented.
Incidentally, the bonding of the optical sheet group 3 to the rear surface of the LCD panel 2 in the embodiment described above is performed along the edge of the optical sheet group 3 in the outer edge region 21 as indicated by L in FIG. The optical sheet group 3 may be adhered to the rear surface of the LCD panel 2 using a flexible adhesive that becomes an elastic body after curing. However, in this case as well, it is preferable not to perform bonding around the connection portion between the COF 22 and the LCD panel 2 as shown in the figure.

  When a plurality of optical sheets 31 are used as the optical sheet group 3, the front surface of the frontmost optical sheet 31 is on the rear surface of the LCD panel 2, inside the outer edge region 21, and along the edge of the optical sheet 31. Each optical sheet 31 is fixed to the LCD panel 2 by bonding along the edge of the optical sheet 31 inside the outer edge region 21 on the rear surface of the optical sheet 31 on the front side. Like that.

  However, in the case where a plurality of optical sheets 31 are used as the optical sheet group 3, as shown in FIG. 4b, the size of the area where each optical sheet 31 covers the rear surface of the LCD panel 2, The front optical sheet 31a is set to be smaller, and the other optical sheet 31b is bonded to the rear surface of the LCD panel 2 along the edge of the optical sheet 31a inside the outer edge region 21 with an adhesive. 31c, a flexible adhesive that becomes an elastic body after curing is applied to the rear surface of the LCD panel 2 along the edge of the optical sheet 31 inside the outer edge region 21 and outside the previous optical sheet 31. You may make it adhere | attach.

Even if the optical sheet group 3 is bonded to the LCD panel 2 as shown in FIG. 4, the force generated by the difference in thermal expansion coefficient between the optical sheet 31 and the LCD panel 2 is absorbed to some extent by the flexibility of the adhesive, Application of strong stress to the LCD panel 2, the COF 22, and the ACF can be suppressed.
In the above embodiment, the curved display device using the LCD panel 2 curved in a concave shape when viewed from the front has been described. However, the technique of fixing the optical sheet group 3 to the LCD panel 2 according to this embodiment is as follows. The present invention can be similarly applied to a curved display device using the LCD panel 2 curved in a convex shape when viewed from the front.

  In the above embodiment, the curved display device in which the driver IC or the like is mounted on the COF 22 and connected to the LCD panel 2 has been described. However, the optical sheet group 3 of the present embodiment can be fixed by bonding to the LCD panel 2. The technology can be similarly applied to a curved display device in which a driver IC or the like is mounted on a glass substrate of the LCD panel 2 by COG (Chip On Glass). In this case, an optical sheet is disposed around the connection portion of the wiring member such as an FPC connected to the LCD panel 2 for connection between the LCD panel 2 and the control board 5 with the LCD panel 2. It is preferable not to bond the group 3 and the LCD panel 2 together.

  DESCRIPTION OF SYMBOLS 1 ... Case, 2 ... LCD panel, 3 ... Optical sheet group, 4 ... Backlight device, 5 ... Control board, 20 ... Display area, 21 ... Outer edge area, 22 ... COF, 31 ... Optical sheet, 41 ... Light guide plate 42 ... Reflector plate 43 ... Light source device.

Claims (4)

A curved display device having a curved display surface,
An LCD panel having a curved shape;
An optical sheet group composed of one or a plurality of optical sheets and arranged on the rear surface of the LCD;
A backlight device arranged behind the optical sheet group and emitting light toward the front,
The LCD panel has an outer edge area around a display area for displaying an image,
The optical sheet group is an adhesive that becomes an elastic body after curing on the rear surface of the LCD panel at a position in the outer edge region of the LCD panel so as to overlap the rear surface of the LCD panel along the curved surface of the rear surface. A curved surface display device characterized by being bonded by using. The curved display device according to claim 1,
The curved display device, wherein the optical sheet group is adhered to the rear surface of the LCD panel only at a plurality of positions spaced apart from each other in the outer edge region of the LCD panel. . A curved display device according to claim 1 or 2,
The LCD panel is connected to a COF (Chip On Flexible) on which an IC for driving the LCD panel is mounted.
The curved surface display device, wherein the optical sheet group is not bonded to the LCD panel around a connection position between the LCD panel and the COF. The curved display device according to claim 1, 2, or 3,
The curved sheet display device, wherein the optical sheet group includes one or a plurality of diffusion sheets.