JP2013218014A - Liquid crystal display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent light leakage and reduce the area of a non-display area while preventing damage to a polarizing plate.SOLUTION: A liquid crystal display device comprises a liquid crystal display panel having a polarizing plate stuck to its surface, a display area for carrying out display, a non-display area arranged around the display area, and a frame-shaped bezel arranged in the non-display area. The bezel comprises a front plate part arranged in the front face side of the liquid crystal display panel and side plate parts arranged in the side face sides of the liquid crystal display panel. The front plate part of the bezel has bent parts formed by hemming bending at the edges of the display area. The bent parts are in contact with a surface of the polarizing plate.

Description

  The present invention relates to a liquid crystal display device having a bezel.

  In recent years, the demand for liquid crystal display devices is increasing because they are lightweight, thin, and have low power consumption. As shown in FIGS. 23 and 24, which are cross-sectional views showing the structure of a conventional liquid crystal display device, the liquid crystal display device 100 is disposed on a rectangular plate-like liquid crystal display panel 101 and the back side of the liquid crystal display panel 101. A backlight module 102 as an illuminating device and a rectangular frame-shaped bezel 103 that covers the outer peripheral portion of the liquid crystal display panel 101 from the front side opposite to the backlight module 102 (for example, Patent Document 1 and (See 2nd grade).

  The liquid crystal display panel 101 includes a TFT substrate 105 on which a plurality of TFTs (thin film transistors) are formed, and a counter substrate 106 facing the TFT substrate 105. A polarizing plate 107 is attached to the surface of the counter substrate 106 opposite to the TFT substrate 105. On the other hand, a polarizing plate 108 is attached to the surface of the TFT substrate 105 opposite to the counter substrate 106.

  The backlight module includes a light source 110 such as an LED (light emitting diode), a light guide plate 111 on which light from the light source 110 is incident, and a frame 112 that supports the light source 110 and the light guide plate 111.

  The bezel 103 is generally formed of a metal plate from the viewpoint of ensuring the strength of the liquid crystal display device 100. The bezel 103 has a side plate portion 113 that covers the side surface of the liquid crystal display panel 101 and a front plate portion 114 that covers the periphery of the front surface side of the liquid crystal display panel 101, and has an L-shaped cross section including the side plate portion 113 and the front plate portion 114. Is formed.

JP-A-9-212473 JP 2007-52285 A

  In the liquid crystal display device 100 of Patent Document 1, a light shielding tape 116 is attached to the surface of the TFT substrate 105 on the backlight module 102 side along the outer edge of the TFT substrate 105. However, even if the light shielding tape 116 is provided on the TFT substrate 105, the light of the backlight module 102 is diffusely reflected on the inner surface of the frame 112 or the bezel 103 as indicated by arrows in FIG. There is a risk of leakage from a gap between the counter 114 and the counter substrate 106. As a result, there is a problem that light leakage occurs in the display area of the liquid crystal display panel.

  On the other hand, as shown in FIG. 24, in the liquid crystal display device 100 of Patent Document 2, an antireflection tape 117 is attached to the inner surface of the bezel 103 to prevent light leakage to the display area. However, in this case, since it is necessary to newly provide an antireflection tape 117, there is a problem that the number of parts of the liquid crystal display device 100 increases.

  Further, in the liquid crystal display device 100 of Patent Document 1, since the end portion of the front plate portion 114 of the bezel 103 is disposed outside the polarizing plate 107 so as not to overlap the polarizing plate 107, the frame-like non-frame It is difficult to reduce the area of the display area.

  On the other hand, in the liquid crystal display device 100 of Patent Document 2 above, the stepped portion 118 formed on the front plate portion 114 is disposed so as to face the polarizing plate 107 of the counter substrate 106, so that the area of the non-display region is reduced. It becomes possible. However, burrs may occur at the tip of the stepped portion 118 (that is, the opening end of the bezel) at the stage of metal processing. Therefore, there is a possibility that the polarizing plate 107 is damaged by the burrs and the display quality is lowered.

  The present invention has been made in view of such various points, and its object is to suppress light leakage in the display area and prevent damage to the polarizing plate attached to the liquid crystal display panel. Also, the area of the non-display area is reduced.

  In order to achieve the above object, in the present invention, the end of the bezel on the display area side is hemmed and bent.

  Specifically, the first invention is a liquid crystal display panel that is arranged to overlap a backlight module that is a lighting device and has a polarizing plate attached to both sides thereof, and a display area in which display is performed by the liquid crystal display panel. And a non-display area provided around the display area where no display is performed, and a frame-shaped bezel provided in the non-display area and covering the outer periphery of the liquid crystal display panel. It is targeted. The bezel has a front plate portion disposed on a front side opposite to the backlight module in the liquid crystal display panel, and the front plate portion of the bezel is at an end portion on the display area side. The bent portion has a hemming bent portion, and the bent portion is in contact with the surface of the polarizing plate attached to the front side of the liquid crystal display panel.

  According to the first invention, in the region where the bent portion of the bezel and the polarizing plate of the liquid crystal display panel are in contact with each other, no gap is formed between the bezel and the liquid crystal display panel. Light leakage can be suppressed.

  Moreover, since the bent portion is formed by hemming the front plate portion of the bezel, damage to the polarizing plate can be prevented even if the bent portion is brought into contact with the polarizing plate. Therefore, since the front plate portion of the bezel can be placed on the polarizing plate of the liquid crystal display panel, the area of the non-display area in the liquid crystal display device can be reduced.

  A second invention is characterized in that, in the first invention, the bent portion of the bezel is provided over the entire inner peripheral edge of the bezel.

  According to the second invention, it is possible to reliably prevent light leakage of the backlight module over the entire inner periphery of the bezel.

  According to a third invention, in the first or second invention, the backlight module includes a light guide plate on which light from a light source is incident, and a frame that supports the light guide plate. A side plate disposed on a side of the liquid crystal display panel, and having a bottom portion disposed on the opposite side of the liquid crystal display panel in the light plate and a side wall disposed on a side of the liquid crystal display panel. And the side plate portion of the bezel is locked and fixed to the side wall portion of the frame.

  According to the third aspect of the invention, the liquid crystal display panel is held between the bezel bending portion and the frame bottom portion, so that the displacement of the liquid crystal display panel can be suppressed. Furthermore, since the side part of the liquid crystal display panel can be supported by the side wall part of the frame, it is possible to more reliably prevent the liquid crystal display panel from being displaced.

  According to a fourth invention, in the first or second invention, the backlight module includes a light guide plate on which light from a light source is incident, and a frame that supports the light guide plate. The optical plate has a bottom portion disposed on the opposite side of the liquid crystal display panel, the bezel has a side plate portion disposed on a side of the liquid crystal display panel, and the side plate portion of the bezel is a bottom portion of the frame. It is locked to.

  According to the fourth aspect of the invention, even if the frame does not have a side wall portion, the liquid crystal display panel is held between the bent portion of the bezel and the bottom portion of the frame, so that the displacement of the liquid crystal display panel can be suppressed. In addition, since the frame does not have a side wall, the area of the non-display area of the liquid crystal display device can be further reduced.

  According to a fifth aspect of the invention, in any one of the first to fourth aspects of the invention, the bent portion is such that an end portion of the front plate portion is hemmed and bent to the side opposite to the liquid crystal display panel. And

  According to the fifth aspect of the invention, the front plate portion projects to the opposite side of the liquid crystal display panel at the bent portion, but the surface of the front plate portion on the liquid crystal display panel side can maintain flatness. Therefore, in a region other than the bent portion in the front plate portion, the gap between the front plate portion and the liquid crystal display panel can be reduced to avoid an increase in the thickness of the liquid crystal display device.

  According to a sixth aspect of the invention, in any one of the first to fourth aspects of the invention, the bent portion is such that an end portion of the front plate portion is hemmed and bent toward the liquid crystal display panel. .

  According to the sixth aspect of the invention, although the front plate portion protrudes toward the liquid crystal display panel at the bent portion, the surface of the front plate portion on the side opposite to the liquid crystal display panel can maintain flatness. Therefore, it becomes possible to arrange the convex shape of the bent portion on the back side of the bezel so that the appearance of the bezel looks good.

  According to a seventh invention, in the first or second invention, the bezel has a rear plate portion disposed on a rear surface side which is the backlight module side in the liquid crystal display panel, and the rear plate of the bezel The bent portion of the display area side is hemmed and bent, and the bent portion of the rear plate portion contacts the surface of the polarizing plate attached to the rear surface side of the liquid crystal display panel. It is characterized by touching.

  According to the seventh invention, since the bezel covers the liquid crystal display panel without holding the backlight module, the liquid crystal display device can be used in combination with backlight modules having various configurations. . Further, since the bent portion of the rear plate portion is in contact with the polarizing plate, it becomes difficult for the light of the backlight module to enter the inside of the bezel. Accordingly, light leakage to the display area can be further suppressed.

  According to the present invention, a bent portion that is hemmed and bent is formed at the display region side end portion of the bezel, and the bent portion is brought into contact with the surface of the polarizing plate attached to the liquid crystal display panel. In addition to suppressing light leakage in the display region, it is possible to reduce the area of the non-display region while preventing damage to the polarizing plate.

FIG. 1 is a front view showing the liquid crystal display device according to the first embodiment. 2 is a cross-sectional view taken along line II-II in FIG. 3 is a cross-sectional view taken along line III-III in FIG. FIG. 4 is a front view showing the frame in the first embodiment. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a side view showing the frame in the first embodiment. FIG. 7 is a development view showing the bezel before bending in the first embodiment. FIG. 8 is an enlarged front view showing a slit formed in a corner portion of the bezel opening. FIG. 9 is an enlarged front view showing the joint hole formed at the end of the slit. FIG. 10 is a front view showing the liquid crystal display device according to the second embodiment. 11 is a cross-sectional view taken along line XI-XI in FIG. 12 is a cross-sectional view taken along line XII-XII in FIG. FIG. 13 is a front view showing a frame according to the second embodiment. 14 is a cross-sectional view taken along line XIV-XIV in FIG. FIG. 15 is a side view showing a frame according to the second embodiment. FIG. 16 is a cross-sectional view corresponding to FIG. 3 showing a liquid crystal display device in which a bent portion according to the third embodiment is formed. FIG. 17 is a cross-sectional view corresponding to FIG. 12 illustrating a liquid crystal display device in which a bent portion according to the third embodiment is formed. FIG. 18 is a development view showing the bezel before bending in the fourth embodiment. FIG. 19 is a front view showing the bezel after bending in the fourth embodiment. FIG. 20 is an enlarged front view showing a slit formed in a corner portion of the bezel opening. FIG. 21 is a cross-sectional view showing a liquid crystal display device according to the fifth embodiment. FIG. 22 is a cross-sectional view showing the liquid crystal display device according to the sixth embodiment. FIG. 23 is a cross-sectional view showing the structure of a conventional liquid crystal display device. FIG. 24 is a cross-sectional view showing the structure of a conventional liquid crystal display device.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention is not limited to the following embodiment.

Embodiment 1 of the Invention
1 to 9 show Embodiment 1 of the present invention.

  FIG. 1 is a front view showing a liquid crystal display device 1 according to the first embodiment. 2 is a cross-sectional view taken along line II-II in FIG. 3 is a cross-sectional view taken along line III-III in FIG. FIG. 4 is a front view showing the frame 30 according to the first embodiment. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a side view showing the frame 30 according to the first embodiment.

  FIG. 7 is a development view showing the bezel 16 before bending in the first embodiment. FIG. 8 is an enlarged front view showing the slit 41 formed in the corner portion of the opening 40 of the bezel 16. FIG. 9 is an enlarged front view showing the joint hole 42 formed at the end of the slit 41.

  As shown in FIGS. 1 to 3, the liquid crystal display device 1 according to the first embodiment includes a liquid crystal display panel 11 having a rectangular plate shape, and a backlight module 12 that is an illuminating device disposed on the liquid crystal display panel 11. It has. The liquid crystal display device 1 includes a display area 14 where display is performed by the liquid crystal display panel 11 and a non-display area 15 which is provided in a frame shape around the display area 14 and where no display is performed. Furthermore, the liquid crystal display device 1 includes a frame-like bezel 16 that is provided in the non-display area 15 and covers the outer periphery of the liquid crystal display panel 11.

<LCD panel>
The liquid crystal display panel 11 includes a TFT substrate 21 that is a first substrate and a counter substrate 22 that is a second substrate facing the TFT substrate 21. A liquid crystal layer (not shown) is sealed between the TFT substrate 21 and the counter substrate 22 by a rectangular frame-shaped seal member (not shown). The TFT substrate 21 and the counter substrate 22 are each formed in a rectangular plate shape. As shown in FIGS. 1 and 3, the TFT substrate 21 is formed with a terminal region that does not overlap the counter substrate 22, and an IC driver 23 and an FPC (flexible printed circuit board) 24 are connected to the terminal region. .

  Although not shown, the TFT substrate 21 is formed with a plurality of pixel electrodes and a plurality of TFTs (thin film transistors). A polarizing plate 25 is attached to the surface of the TFT substrate 21 opposite to the counter substrate 22.

  Although not shown, the counter substrate 22 is formed with a common electrode, a color filter, and the like that are provided in common to the plurality of pixel electrodes. A polarizing plate 26 is attached to the surface of the counter substrate 22 opposite to the TFT substrate 21. That is, the polarizing plates are attached to both surfaces of the liquid crystal display panel 11.

<Backlight module>
The backlight module 12 includes a light source (not shown) such as an LED (light emitting diode), a light guide plate 28 on which light from the light source is incident, and a frame 30 that supports the light source and the light guide plate 28. An optical sheet (not shown) is provided between the light guide plate 28 and the liquid crystal display panel 11. The light source is not limited to the LED, and may be another light source such as a CCFT tube.

  The frame 30 is made of, for example, resin, and as shown in FIGS. 4 to 6, the frame 30 is formed in a rectangular plate shape and has a rectangular concave portion 31 formed in the approximate center thereof. That is, the frame 30 has a rectangular plate-shaped bottom portion 32 disposed on the light guide plate 28 on the opposite side of the liquid crystal display panel 11 and a side wall portion 33 disposed on the side of the liquid crystal display panel 11. The side wall portion 33 is formed integrally with the bottom portion 32 at the outer peripheral portion of the bottom portion 32. Thus, the concave portion 31 is constituted by the bottom surface of the bottom portion 32 and the inner surface of the side wall portion 33, and the light guide plate 28 and the like are accommodated in the concave portion 31. A rectangular frame-shaped double-sided tape 29 is attached to the outer peripheral portion of the front surface of the light guide plate 28. The double-sided tape 29 is for sticking and fixing the light guide plate 28 and the liquid crystal display panel 11 to each other. Further, a reflection plate (not shown) is interposed between the light guide plate 28 and the bottom portion 32.

  A plurality of locking claws 34 are formed on the outer surface of the side wall 33 of the frame 30. The locking claw 34 is for locking the bezel 16. Further, the side wall 33 of the frame 30 is formed with a notch 33 a for extending the other end of the FPC 24 having one end connected to the liquid crystal display panel 11 to the outside of the frame 30.

<Bezel>
As shown in FIG. 1, the bezel 16 is formed in a rectangular frame shape having a rectangular opening 40. The bezel 16 is formed of a metal plate made of, for example, stainless steel (SUS) or the like, and is disposed on the front surface side opposite to the backlight module 12 in the liquid crystal display panel 11, as shown in FIGS. It has a front plate portion 35 and a side plate portion 36 disposed on the side of the liquid crystal display panel 11.

  The bezel 16 can be formed of other metal materials such as silver top (galvanized steel plate) and tinplate (SPTE, SPTH) other than stainless steel.

  As shown in FIG. 1, the front plate portion 35 of the bezel 16 covers the outer peripheral portion on the front side of the liquid crystal display panel 11. The side plate portion 36 is formed integrally with the front plate portion 35 at the outer peripheral portion of the front plate portion 35, and extends along the side wall portion 33 of the frame 30 from the outer peripheral portion of the front plate portion 35. That is, the bezel 16 is formed in an L-shaped cross section including the front plate portion 35 and the side plate portion 36. Thus, the side plate portion 36 of the bezel 16 is locked and fixed to the side wall portion 33 of the frame 30 by the locking claws 34 of the frame 30.

  As shown in FIGS. 1 to 3, the front plate portion 35 of the bezel 16 has a bent portion 38 that is hemmed and bent at an end portion on the display region 14 side. The bent portion 38 is formed by hemming the end portion of the front plate portion 35 to the side opposite to the liquid crystal display panel 11. Therefore, the bending part 38 has a smooth convex curved surface. As shown in FIG. 1, the bent portion 38 is provided over the entire inner periphery of the bezel 16 on the display region 14 side. That is, the opening 40 of the bezel 16 is partitioned by the four bent portions 38.

  The bent portion 38 is disposed so as to overlap the polarizing plate 26 attached to the counter substrate 22. That is, the opening 40 of the bezel 16 is disposed inside the outer edge of the polarizing plate 26. The bent portion 38 is in contact with the surface of the polarizing plate 26 attached to the front side of the liquid crystal display panel 11. Therefore, there is no gap between the bezel 16 and the liquid crystal display panel 11.

<Manufacturing method>
The liquid crystal display device 1 is manufactured by fitting the bezel 16 to the frame 30 from the liquid crystal display panel 11 side after housing the liquid crystal display panel 11 in the frame 30 of the backlight module 12.

  When manufacturing the bezel 16, a rectangular metal plate made of stainless steel or the like is formed by punching an opening 40a at the center as shown in FIG. At this time, as shown in an enlarged view in FIG. 8, linear slits 41 are formed at the four corners of the opening 40a. The angle of the slit 41 with respect to the side defining the opening 40a is, for example, 135 °. As a result, the angles of the left and right ends of the bent portion 38 viewed from the front side can be set to 45 ° as shown in FIG. Note that the angle of the slit 41 may be other than 135 °.

  When the thickness of the metal plate used as the bezel 16 is, for example, 0.2 mm, the opening end width of the slit 41 is preferably about 0.6 mm. The length of the slit 41 (that is, the length of hemming bending) is, for example, about 1.5 mm.

  Further, as shown in FIG. 9, a joint hole 42 may be formed at the end of the slit 41. By forming the seam hole 42, the end portion of the slit 41 can be prevented from being damaged when the bent portion 38 is formed. The radius of the joint hole 42 is preferably 0.5 mm or more, for example. The radius of the seam hole 42 is not limited to 0.5 mm.

  Furthermore, as shown in FIG. 7, the side plate part 36 is formed in the outer peripheral part of a metal plate by notching the four corners of a metal plate. In addition, a notch portion 36a is formed in the side plate portion 36 on one side of the metal plate. The notch 36a is for pulling out the FPC 24 from the bezel 16 to the outside.

  And the bending part 38 is formed by carrying out the hemming bending of the bending area | region 44 pinched | interposed by the slit 41 around the opening part 40a, for example in FIG. When performing hemming bending, first, the bending region 44 is bent 90 ° toward the front. Next, the bending region 44 is bent at an angle of 135 ° from the initial position by a punch having an inclined surface (not shown). Further, it is flattened by a flat punch (not shown), and the bending region 44 is bent at an angle of 180 ° from the initial position.

  Further, the side plate portion 36 and the front plate portion 35 are formed by bending the side plate portion 36 formed on the outer peripheral portion of the metal plate at an angle of 90 ° to the back side in FIG. In this way, the bezel 16 is manufactured.

-Effect of Embodiment 1-
Therefore, according to the first embodiment, the bent portion 38 that is hemmed and bent is formed at the end of the bezel 16 on the display region 14 side, and the bent portion 38 is attached to the liquid crystal display panel 11. Since the surface is in contact with the surface, no gap is formed between the bezel 16 and the liquid crystal display panel 11 in the region where the bent portion 38 and the polarizing plate 26 are in contact with each other. Light leakage of the module 12 can be suppressed. As a result, the display quality of the liquid crystal display device 1 can be improved.

  Moreover, since the bent portion 38 is formed by hemming the front plate portion 35 of the bezel 16, damage to the polarizing plate 26 can be prevented even if the bent portion 38 is brought into contact with the polarizing plate 26. Therefore, since the front plate portion 35 of the bezel 16 can be disposed so as to overlap the polarizing plate 26 of the liquid crystal display panel 11, the area of the non-display region 15 in the liquid crystal display device 1 can be reduced.

  Furthermore, since the bent portion 38 is provided over the entire inner peripheral edge of the bezel 16, a gap is not generated between the bezel 16 and the liquid crystal display panel 11 over the entire inner peripheral edge of the bezel 16. Can do. Therefore, the light leakage of the backlight module 12 can be reliably prevented.

  Furthermore, since the frame 30 has the bottom portion 32 and the side wall portion 33, and the side plate portion 36 of the bezel 16 is locked and fixed to the side wall portion 33, the bent portion 38 of the bezel 16 and the bottom portion 32 of the frame 30 are fixed. Thus, the liquid crystal display panel 11 can be held and the positional deviation of the liquid crystal display panel 11 can be suppressed. Furthermore, since the side part of the liquid crystal display panel 11 can be supported by the side wall part 33 of the frame 30, it is possible to more reliably prevent the positional deviation of the liquid crystal display panel 11.

  In addition, since the end portion of the front plate portion 35 in the bezel 16 is hemmed and bent to the opposite side to the liquid crystal display panel 11 to form the bent portion 38, the front plate portion 35 is opposite to the liquid crystal display panel 11 at the bent portion 38. Although it protrudes to the side, the surface of the front plate portion 35 on the liquid crystal display panel 11 side can maintain flatness. Therefore, in a region other than the bent portion 38 in the front plate portion 35, the gap between the front plate portion 35 and the liquid crystal display panel 11 can be reduced to avoid an increase in the thickness of the liquid crystal display device 1.

<< Embodiment 2 of the Invention >>
10 to 15 show Embodiment 2 of the present invention. In the following embodiments, the same portions as those in FIGS. 1 to 9 are denoted by the same reference numerals, and detailed description thereof is omitted.

  FIG. 10 is a front view showing the liquid crystal display device 1 according to the second embodiment. 11 is a cross-sectional view taken along line XI-XI in FIG. 12 is a cross-sectional view taken along line XII-XII in FIG. FIG. 13 is a front view showing the frame 30 according to the second embodiment. 14 is a cross-sectional view taken along line XIV-XIV in FIG. FIG. 15 is a side view showing the frame 30 according to the second embodiment.

  The second embodiment is obtained by changing the configuration of the frame 30 in the first embodiment. That is, the frame 30 in the first embodiment has the bottom 32 and the side wall 33, whereas the frame 30 in the second embodiment has the bottom 32, but does not have the side wall 33.

  As shown in FIGS. 10 to 12, the liquid crystal display device 1 includes a liquid crystal display panel 11 and a backlight module 12 that is disposed so as to overlap the liquid crystal display panel 11. The backlight module 12 includes a light source (not shown) such as an LED, a light guide plate 28 on which light from the light source is incident, and a frame 30 that supports the light source and the light guide plate 28.

  The frame 30 is made of resin, for example, and has a rectangular plate-shaped bottom 32 disposed on the light guide plate 28 on the opposite side of the liquid crystal display panel 11 as shown in FIGS. 13 to 15. The surface of the bottom 32 on the liquid crystal display panel 11 side is slightly larger than the liquid crystal display panel 11. A locking claw 46 for locking the bezel 16 is formed on the side surface of the bottom portion 32.

  Similar to the first embodiment, the bezel 16 includes a front plate portion 35 in which a bent portion 38 is formed by hemming bending, and a side plate portion 36. The side plate portion 36 is integrally formed with the front plate portion 35 at the outer peripheral portion of the front plate portion 35, and extends along the side surface of the liquid crystal display panel 11 and the side surface of the bottom portion 32 of the frame 30 from the outer peripheral portion of the front plate portion 35. ing. The side plate portion 36 of the bezel 16 is locked and fixed to the bottom portion 32 of the frame 30 by a locking claw 46 of the frame 30.

  Similar to the first embodiment, the bent portion 38 is in contact with the surface of the polarizing plate 26 attached to the counter substrate 22. Therefore, there is no gap between the bezel 16 and the liquid crystal display panel 11.

-Effect of Embodiment 2-
Therefore, according to the second embodiment, as in the first embodiment, since the bent portion 38 is in contact with the polarizing plate 26, no gap is formed between the bezel 16 and the liquid crystal display panel 11, and the display area is displayed. The light leakage of the backlight module 12 to 14 can be suppressed. Moreover, since the bent portion 38 is formed by hemming bending, damage to the polarizing plate 26 can be prevented even if the bent portion 38 is brought into contact with the polarizing plate 26. Therefore, since the front plate portion 35 of the bezel 16 can be disposed so as to overlap the polarizing plate 26 of the liquid crystal display panel 11, the area of the non-display region 15 can be reduced.

  Further, even if the frame 30 does not have the side wall portion 33, the liquid crystal display panel 11 can be held between the bent portion 38 of the bezel 16 and the bottom portion 32 of the frame 30, so that the displacement of the liquid crystal display panel 11 can be suppressed. In addition, since the frame 30 does not have the side wall portion 33, the area of the non-display region 15 of the liquid crystal display device 1 can be further reduced.

<< Embodiment 3 of the Invention >>
16 and 17 show Embodiment 3 of the present invention.

  FIG. 16 is a cross-sectional view corresponding to FIG. 3 showing the liquid crystal display device 1 in which the bent portion 38 according to the third embodiment is formed. FIG. 17 is a cross-sectional view corresponding to FIG. 12 showing the liquid crystal display device 1 in which the bent portion 38 in the third embodiment is formed.

  In the first and second embodiments, the bent portion 38 of the bezel 16 is hemmed and bent to the side opposite to the liquid crystal display panel 11 in the front plate portion 35, whereas in the third embodiment, the bent portion 38 is the front plate portion. 35 in that hemming is bent toward the liquid crystal display panel 11 side.

  The liquid crystal display device 1 shown in FIGS. 16 and 17 includes a liquid crystal display panel 11 and a backlight module 12 disposed so as to overlap the liquid crystal display panel 11. The backlight module 12 of the liquid crystal display device 1 shown in FIG. 16 includes a frame 30 having a bottom 32 and a side wall 33. On the other hand, the backlight module 12 of the liquid crystal display device 1 shown in FIG. 17 has the bottom 32 but does not have the side wall 33.

  16 and 17, the bezel 16 has a front plate portion 35 and a side plate portion 36. The front plate portion 35 of the bezel 16 is formed with a bent portion 38 in which the end portion of the front plate portion 35 is hemmed and bent toward the liquid crystal display panel 11 side. The bent portion 38 is in contact with the surface of the polarizing plate 26 attached to the counter substrate 22. Therefore, there is no gap between the bezel 16 and the liquid crystal display panel 11.

  The bezel 16 in FIG. 16 is locked and fixed by a locking claw 34 formed on the side wall 33 of the frame 30. On the other hand, the bezel 16 in FIG. 17 is locked and fixed by a locking claw 46 formed on the side surface of the bottom 32 of the frame 30.

-Effect of Embodiment 3-
Therefore, according to the third embodiment, since the bent portion 38 is in contact with the polarizing plate 26, no gap is formed between the bezel 16 and the liquid crystal display panel 11, and the backlight module 12 to the display region 14 is not formed. Light leakage can be suppressed. Moreover, since the bent portion 38 is formed by hemming bending, damage to the polarizing plate 26 can be prevented even if the bent portion 38 is brought into contact with the polarizing plate 26. Therefore, since the front plate portion 35 of the bezel 16 can be disposed so as to overlap the polarizing plate 26 of the liquid crystal display panel 11, the area of the non-display region 15 can be reduced.

  Further, although the front plate portion 35 protrudes toward the liquid crystal display panel 11 at the bent portion 38, the surface of the front plate portion 35 opposite to the liquid crystal display panel 11 can maintain flatness. Therefore, the convex shape of the bent portion 38 can be arranged on the back side of the bezel 16 so that the appearance of the bezel 16 can be improved.

<< Embodiment 4 of the Invention >>
18 to 20 show Embodiment 4 of the present invention.

  FIG. 18 is a development view showing the bezel before bending in the fourth embodiment. FIG. 19 is a front view showing the bezel after bending in the fourth embodiment. FIG. 20 is an enlarged front view showing the slit 41 formed at the corner of the bezel opening.

  The bezel 16 in the fourth embodiment has a rectangular opening 40, and the front plate portion 35 of the bezel 16 that defines the long side portion of the opening 40 has a bent portion 38 over the entire long side. Is formed. On the other hand, a bent portion 38 is formed only on the center side of the short side of the front plate portion 35 of the bezel 16 that defines the short side portion of the opening 40.

  In the first embodiment, the linear slits 41 are formed at the four corners of the opening 40a in the metal plate constituting the bezel 16, whereas in the fourth embodiment, the L-shape bent at the four corners of the opening 40a. A slit 41 is formed.

  That is, when manufacturing the bezel 16, a rectangular metal plate made of stainless steel or the like is formed by punching the opening 40a at the center as shown in FIG. At that time, as shown in an enlarged view in FIG. 20, L-shaped slits 41 are formed at the four corners of the opening 40a. The slit 41 extends from the corner of the opening 40a in the long side direction of the opening 40a and bends and extends at a right angle on the tip side.

  When the thickness of the metal plate used as the bezel 16 is 0.2 mm, for example, the opening width of the slit 41 is preferably about 0.6 mm. Moreover, the length of each linear part in the L-shaped slit 41 shall be about 1.5 mm, for example.

  Although illustration is omitted, a seam hole may be formed at the end of the slit 41. As a result, the end portion of the slit 41 can be prevented from being damaged when the bent portion 38 is formed.

  Furthermore, as shown in FIG. 18, the side plate part 36 is formed in the outer peripheral part of a metal plate by notching the four corners of a metal plate. In addition, a notch portion 36a is formed in the side plate portion 36 on one side of the metal plate. And the bending part 38 is formed by carrying out the hemming bending of the bending area | region 44 pinched | interposed by the slit 41 around the opening part 40a, for example in FIG. Note that the bending region 44 may be hemmed and bent to the back side in FIG.

  Further, the side plate portion 36 and the front plate portion 35 are formed by bending the side plate portion 36 formed on the outer peripheral portion of the metal plate at an angle of 90 ° to the back side in FIG. In this way, the bezel 16 is manufactured.

  Therefore, also in the fourth embodiment, as in the first embodiment, the bent portion 38 abuts on the polarizing plate 26, so that no gap is formed between the bezel 16 and the liquid crystal display panel 11. Light leakage of the backlight module 12 can be suppressed. Moreover, since the bent portion 38 is formed by hemming bending, damage to the polarizing plate 26 can be prevented even if the bent portion 38 is brought into contact with the polarizing plate 26. Therefore, since the front plate portion 35 of the bezel 16 can be disposed so as to overlap the polarizing plate 26 of the liquid crystal display panel 11, the area of the non-display region 15 can be reduced.

  Further, by forming the slit 41 in an L shape, the bent portion 38 has a rectangular shape as shown in FIG. 19, so that it can be easily hemmed as compared with the case where the slit 41 is linear. .

  In addition to this, for the side that leaks light from the backlight module 12 out of the long side and the short side that define the opening 40 of the bezel 16, the bent portion 38 is provided on the entire side to increase the efficiency. Light leakage can be suppressed well.

<< Embodiment 5 of the Invention >>
FIG. 21 shows Embodiment 5 of the present invention. FIG. 21 is a cross-sectional view showing the liquid crystal display device 1 according to the fifth embodiment.

  In the first to fourth embodiments described above, the example in which the liquid crystal display device 1 includes the backlight module 12 has been described. Applicable.

  That is, the liquid crystal display device 1 according to the fifth embodiment includes a liquid crystal display panel 11 that is disposed so as to overlap the backlight module 12 as shown in FIG. Further, the bezel 16 in the present embodiment includes a first bezel 16a and a second bezel 16b. The liquid crystal display panel 11 is sandwiched between the first bezel 16a and the second bezel 16b.

  As in the first and second embodiments, the first bezel 16a is formed in a rectangular frame shape having a rectangular opening 40, and is disposed on the front surface side opposite to the backlight module 12 in the liquid crystal display panel 11. The front plate portion 35 and the side plate portion 36 disposed on the side of the liquid crystal display panel 11 are provided.

  The front plate portion 35 covers the outer peripheral portion on the front side of the liquid crystal display panel 11. The side plate portion 36 is formed integrally with the front plate portion 35 at the outer peripheral portion of the front plate portion 35 and extends rearward from the outer peripheral portion of the front plate portion 35. That is, the first bezel 16 a is formed in an L-shaped cross section including the front plate portion 35 and the side plate portion 36.

  The front plate portion 35 of the first bezel 16a is formed with a bent portion 38 that is hemmed and bent as in the first and second embodiments. The bent portion 38 is in contact with the polarizing plate 26. A rectangular opening 40 is formed inside the bent portion 38.

  On the other hand, the second bezel 16b is formed in a rectangular frame shape having a rectangular opening 50, and a rear plate portion 51 disposed on the rear surface side that is the backlight module 12 side in the liquid crystal display panel 11, and a liquid crystal display panel 11 and the side plate part 52 arrange | positioned at the side.

  The rear plate portion 51 covers the outer peripheral portion on the rear surface side of the liquid crystal display panel 11. The side plate portion 52 is formed integrally with the front plate portion 35 at the outer peripheral portion of the front plate portion 35 and extends forward from the outer peripheral portion of the rear plate portion 51. That is, the second bezel 16 b is formed in an L-shaped cross section including the rear plate portion 51 and the side plate portion 52.

  The side plate portion 52 is disposed inside the side plate portion 36 of the first bezel 16a, and a cutout portion 52a is formed in a region facing the cutout portion 36a of the first bezel 16a. As a result, the FPC 24 extends from the inside of the bezel 16 to the outside of the bezel 16 through the notches 36a and 52a. Further, a locking claw 53 is formed on the outer surface of the side plate portion 52, and the inner surface of the side plate portion 36 of the first bezel 16 a is locked to the locking claw 53.

  A bent portion is not formed in the rear plate portion 51 of the second bezel 16b, and a rectangular opening 50 is formed. The light from the backlight module 12 is incident on the liquid crystal display panel 11 through the opening 50.

  Therefore, according to the fifth embodiment, as in the first embodiment, the bent portion 38 that is hemmed and bent is in contact with the polarizing plate 26, so that the back to the display area 14 is prevented while preventing the polarizing plate 26 from being damaged. Light leakage of the light module 12 can be suppressed. Therefore, since the front plate portion 35 of the first bezel 16a can be disposed so as to overlap the polarizing plate 26 of the liquid crystal display panel 11, the area of the non-display region 15 can be reduced.

  Furthermore, since the liquid crystal display device 1 in the present embodiment has a configuration in which the bezel 16 holds the liquid crystal display panel 11 without holding the backlight module 12, the liquid crystal display device 1 can be configured as backlight modules having various configurations. 12 can be used in combination.

Embodiment 6 of the Invention
FIG. 22 shows Embodiment 6 of the present invention. FIG. 22 is a cross-sectional view showing the liquid crystal display device 1 according to the sixth embodiment.

  In the liquid crystal display device 1 according to the sixth embodiment, a bent portion 54 is provided not only in the first bezel 16a but also in the second bezel 16 in the fifth embodiment.

  That is, the second bezel 16b in the present embodiment has a bent portion 54 that is hemmed and bent to the rear plate portion 51, as shown in FIG. The bent portion 54 is in contact with the surface of the polarizing plate 25 attached to the rear surface side of the liquid crystal display panel 11. A rectangular opening 50 is formed inside the bent portion 54.

  Therefore, the same effects as those of the fifth embodiment can be obtained by the sixth embodiment. Furthermore, since the bent portion 54 of the second bezel 16 b is in contact with the polarizing plate 25, it is possible to make it difficult for light from the backlight module 12 to enter the inside of the bezel 16. Therefore, light leakage to the display area 14 can be further suppressed.

<< Other Embodiments >>
In addition, this invention is not limited to the said Embodiment 1-4, The structure which combined these Embodiments 1-4 suitably is contained in this invention. For example, the straight slit 41 or the L-shaped slit 41 can be formed in the bezel 16 having the bent portion 38 in which the front plate portion 35 is hemmed and bent toward the liquid crystal display panel 11 side. Further, the straight slit 41 or the L-shaped slit 41 can be formed also for the bezel 16 having the bent portion 38 in which the front plate portion 35 is hemmed and bent on the opposite side of the liquid crystal display panel 11. Further, the direction of hemming bending in the bezel 16 may be any of the front and rear directions.

  As described above, the present invention is useful for a liquid crystal display device having a bezel.

1 Liquid crystal display device
11 LCD panel
12 Backlight module
14 Display area
15 Non-display area
16 Bezel
26 Polarizing plate
28 Light guide plate
30 frames
32 Bottom
33 Side wall
34 Locking claw
35 Front plate
36 Side plate
38 Bending part
46 Locking claw

Claims (7)

A liquid crystal display panel that is placed over a backlight module that is a lighting device and has polarizing plates attached to both sides;
A display area where display is performed by the liquid crystal display panel;
A non-display area that is provided around the display area and is not displayed;
A frame-shaped bezel provided in the non-display area and covering the outer periphery of the liquid crystal display panel;
The bezel has a front plate portion disposed on the front surface side opposite to the backlight module in the liquid crystal display panel,
The front plate portion of the bezel has a bent portion that is hemmed and bent at an end portion on the display area side,
The liquid crystal display device, wherein the bent portion is in contact with the surface of the polarizing plate attached to the front side of the liquid crystal display panel. The liquid crystal display device according to claim 1,
The liquid crystal display device according to claim 1, wherein the bent portion of the bezel is provided over the entire inner peripheral edge of the bezel. The liquid crystal display device according to claim 1 or 2,
The backlight module includes a light guide plate on which light from a light source is incident, and a frame that supports the light guide plate.
The frame has a bottom portion disposed on the side of the light guide plate opposite to the liquid crystal display panel, and a side wall portion disposed on the side of the liquid crystal display panel,
The bezel has a side plate portion disposed on the side of the liquid crystal display panel,
The liquid crystal display device according to claim 1, wherein a side plate portion of the bezel is locked and fixed to a side wall portion of the frame. The liquid crystal display device according to claim 1 or 2,
The backlight module includes a light guide plate on which light from a light source is incident, and a frame that supports the light guide plate.
The frame has a bottom portion disposed on the opposite side of the light guide plate from the liquid crystal display panel,
The bezel has a side plate portion disposed on the side of the liquid crystal display panel,
The liquid crystal display device, wherein a side plate portion of the bezel is locked and fixed to a bottom portion of the frame. The liquid crystal display device according to any one of claims 1 to 4,
The liquid crystal display device according to claim 1, wherein the bent portion has a hemming bent at an end of the front plate portion on the opposite side to the liquid crystal display panel. The liquid crystal display device according to any one of claims 1 to 4,
The liquid crystal display device according to claim 1, wherein the bent portion has an end portion of the front plate portion hemmed and bent toward the liquid crystal display panel. The liquid crystal display device according to claim 1 or 2,
The bezel has a rear plate portion disposed on a rear surface side that is the backlight module side in the liquid crystal display panel,
The rear plate portion of the bezel has a bent portion that is hemmed and bent at an end portion on the display area side,
The liquid crystal display device, wherein the bent portion of the rear plate portion is in contact with the surface of the polarizing plate attached to the rear surface side of the liquid crystal display panel.

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