JP2008107701A - Liquid crystal display - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance mechanical strength of a liquid crystal display while reducing its thickness. <P>SOLUTION: The liquid crystal display is provided with outside frames 11 and 12 made of a metal material and an intermediate frame 15 provided between a liquid crystal display panel 10 and a backlight unit 13 and made of a metal material. The intermediate frame 15 and one of the outside frames 11 and 12 forms a frame structural body 40 by bonding a side part of the intermediate frame 15 and a side part of one of the outside frames 11 and 12 to each other. In at least part of the side part of the frame structural body 40, a sectional surface in the normal direction of the liquid crystal display panel 10 is formed in a U-shape. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a liquid crystal display device, and more particularly to a structure of a thin liquid crystal display device.

  In recent years, liquid crystal display devices have been applied to various products taking advantage of the characteristics of thin display devices. In particular, there is a strong demand for further thinning of liquid crystal display devices mounted on mobile devices such as mobile phones.

  Liquid crystal display devices mounted on mobile devices and the like are transmissive liquid crystal display devices that perform transmissive display using light from a backlight unit, which is a light source device, in order to ensure good visibility regardless of the brightness of the usage environment. Often composed.

  The transmissive liquid crystal display device includes a liquid crystal display panel and a backlight unit arranged to face the back side of the liquid crystal display panel (that is, the side opposite to the user side). The liquid crystal display panel and the backlight unit are sandwiched and assembled by a pair of metal frame-shaped outer frames together with the resin frame in a state of being fixed by a frame-shaped resin frame interposed therebetween. Yes.

  The backlight unit has a light guide plate arranged and fixed on the back side of the resin frame, and a light source such as an LED (light emitting diode) arranged and fixed on the resin frame on the side of the light guide plate. A reflective sheet is disposed on the back side of the light guide plate. On the other hand, an optical sheet is disposed on the user side of the light guide plate. Then, the light emitted from the light source is diffused by the light guide plate and reflected by the reflection sheet or the like, and the planar light is emitted from the entire surface of the light guide plate on the user side, and is supplied to the liquid crystal display panel via the optical sheet. It is made to enter. In the liquid crystal display panel, desired light is displayed by selectively transmitting light from the backlight unit.

For example, Patent Document 1 discloses that a reinforcing plate 103 is provided between the light guide plate 101 and the liquid crystal display panel 102 in the liquid crystal display device 100 as shown in FIG. The reinforcing plate 103 is formed in a frame shape, and a Fresnel lens 104 is disposed on the inside thereof. An outer frame 107 is provided on the user side of the liquid crystal display panel 102. The liquid crystal display panel 102 is fixed by the outer frame 107 and the reinforcing plate 103. On the other hand, a fluorescent tube 106 is disposed on the side of the light guide plate 101. A dish-shaped metal plate 105 is provided on the side opposite to the user side of the light guide plate 101. Thus, the light guide plate 101 and the fluorescent tube 106 are disposed and accommodated between the metal plate 105 and the reinforcing plate 103.
Japanese Utility Model Publication No. 4-109728

  By the way, in order to reduce the thickness of the liquid crystal display device, it is necessary to reduce the thickness of each constituent member such as the light guide plate, the resin frame, and the outer frame. If it does so, the rigidity of the whole liquid crystal display device will become small, and there exists a problem that the mechanical strength with respect to a static pressure and impact force will fall.

  Therefore, for example, it is conceivable to form a resin frame with a resin mixed with glass fibers to increase the rigidity of the resin frame. However, sufficient rigidity cannot be ensured when the resin frame is extremely thin.

  Further, as in Patent Document 1, it is extremely difficult to secure sufficient mechanical strength in a liquid crystal display device that has been extremely thin in recent years simply by providing a frame-shaped reinforcing plate.

  The present invention has been made in view of such various points, and an object thereof is to improve the mechanical strength of the liquid crystal display device while reducing the thickness thereof.

  In order to achieve the above object, according to the present invention, a frame structure comprising a side part of an intermediate frame and a side part of one of the outer frames and having a U-shaped side part and a metal material. I tried to form a body.

  Specifically, a liquid crystal display device according to the present invention includes a liquid crystal display panel, a backlight unit disposed to face the liquid crystal display panel, a side of the liquid crystal display panel opposite to the backlight unit, and the above An outer frame made of a metal material, disposed on at least one side of the backlight unit opposite to the liquid crystal display panel, and an intermediate frame made of a metal material provided between the liquid crystal display panel and the backlight unit; One of the intermediate frame and the outer frame forms a frame structure by connecting a side portion of the intermediate frame and a side portion of one of the outer frames to each other, and At least a part of the side portion of the frame structure has a U-shaped cross section in the normal direction of the liquid crystal display panel.

  The side portion of the intermediate frame has a first side wall protruding to one side of the outer frame, and the side portion of one of the outer frames has a second side wall protruding to the intermediate frame side, It is desirable that at least a part of the side portion of the frame structure is formed by joining the first side wall and the second side wall so as to overlap each other.

  A hook portion is formed on one of the first side wall and the second side wall, an opening is formed on the other of the first side wall and the second side wall, and the opening is locked to the hook portion. It is preferable that the first side wall and the second side wall are coupled to each other by being fixed.

  One of the outer frames coupled to the intermediate frame is disposed on the opposite side of the backlight unit from the liquid crystal display panel, and at least a part of the side portion of the backlight unit is a cross-section of the frame structure. It may be covered with a U-shaped side part.

  The backlight unit preferably includes a light guide plate and a light source disposed on a side of the light guide plate, and the intermediate frame preferably includes a light source accommodating portion in a region overlapping the light source.

  The backlight unit includes a resin frame held by the intermediate frame, a light guide plate fitted inside the resin frame, and a light source fixed to the resin frame at a side of the light guide plate. Preferably it is.

  It is preferable that a polarizing plate is provided between the liquid crystal display panel and the backlight unit, and the polarizing plate is disposed inside the intermediate frame.

  One of the outer frames coupled to the intermediate frame is disposed on the opposite side of the liquid crystal display panel from the backlight unit, and at least a part of the side portion of the liquid crystal display panel is a cross-section of the frame structure. You may make it cover with a U-shaped side part.

  The outer frame is preferably disposed on both the side of the liquid crystal display panel opposite to the backlight unit and the side of the backlight unit opposite to the liquid crystal display panel.

-Action-
Next, the operation of the present invention will be described.

  Each of the intermediate frame and the outer frame is made of a metal material, and the side part of the intermediate frame and the side part of one of the outer frames are coupled to each other to form a frame structure. That is, the intermediate frame and the outer frame are connected to each other at the side of the frame structure. The side part of the frame structure is formed of a metal material, and the cross section in the normal direction of the liquid crystal display panel is formed in a U shape, so that the thickness of the intermediate frame and the outer frame itself is reduced. Even so, the mechanical strength will increase dramatically. As a result, since the liquid crystal display device includes the frame structure, it is possible to increase the mechanical strength of the entire device while reducing the thickness of the entire liquid crystal display device.

  Further, if the first side wall of the intermediate frame and the second side wall of the outer frame are joined together so as to overlap each other, the thickness of the side portion of the frame structure increases, and the U-shaped structure of the cross section is increased. It becomes solid. As a result, the mechanical strength of the frame structure further increases.

  If the hook part is formed on one of the first side wall and the second side wall, and the opening part is formed on the other side of the first side wall and the second side wall, and the opening part is locked and fixed to the hook part, the middle It is possible to easily and reliably join the frame and one of the outer frames.

  In particular, when one of the outer frames is disposed on the opposite side of the backlight unit from the liquid crystal display panel, the backlight unit is disposed inside the frame structure. At that time, if at least a part of the side part of the backlight unit is covered with the side part having a U-shaped cross section of the frame structure, the frame structure is formed of a metal material. As a result, it is possible to shield unnecessary light from being transmitted from the backlight unit side to the liquid crystal display panel side.

  If the intermediate frame has a light source housing part in a region overlapping the light source of the backlight unit, the backlight unit is arranged inside the frame structure in a state where the light source is housed in the light source housing part. That is, even when the thickness of the light source is relatively large, the entire thickness of the frame structure including the backlight unit can be further reduced.

  If the backlight unit has a resin frame that is held by an intermediate frame, the light guide plate and the light source are fixed by the resin frame to prevent the positional shift, but the liquid crystal display device is thinned and mechanical strength is increased. Can be improved.

  If the polarizing plate provided between the liquid crystal display panel and the backlight unit is arranged inside the intermediate frame, the liquid crystal display device is thin by the thickness of the polarizing plate arranged inside the intermediate frame. It becomes.

  On the other hand, when one of the outer frames is arranged on the side opposite to the backlight unit of the liquid crystal display panel, the liquid crystal display panel is arranged inside the frame structure. At that time, if at least a part of the side part of the liquid crystal display panel is covered with the side part having a U-shaped cross section of the frame structure, the frame structure is formed of a metal material. Unnecessary light from the side can be shielded.

  In particular, if the outer frame is arranged on both the side opposite to the backlight unit of the liquid crystal display panel and the side opposite to the liquid crystal display panel of the backlight unit, the liquid crystal display panel and the backlight unit are paired. It is possible to improve the mechanical strength of the module while configuring it as a set of modules held by the outer frame.

  According to the present invention, the side part of the intermediate frame and the side part of one of the outer frames are coupled to each other so as to form a frame structure having a side part having a U-shaped cross section and made of a metal material. Therefore, the mechanical strength can be improved while reducing the thickness of the 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 7 show Embodiment 1 of the present invention. FIG. 3 is a perspective view showing the liquid crystal display device 1 of the first embodiment. 1 is an enlarged cross-sectional view taken along the line II in FIG. 2 is an enlarged cross-sectional view taken along the line II-II in FIG. FIG. 4 is a perspective view showing the liquid crystal display device 1 before the first outer frame 11 is mounted. FIG. 5 is a plan view showing the liquid crystal display device 1. FIG. 6 is an exploded perspective view showing the configuration of the liquid crystal display device. 7 is an enlarged cross-sectional view taken along line VII-VII in FIG.

  The liquid crystal display device 1 of Embodiment 1 is a transmissive liquid crystal display device that performs transmissive display, and is used as a display device such as a mobile phone. As shown in FIGS. 3 and 5, the liquid crystal display device 1 is formed in a substantially rectangular thin plate shape.

  As shown in FIG. 6, the liquid crystal display device 1 supports a liquid crystal display panel 10, a backlight unit 13 disposed facing the liquid crystal display panel 10, and the liquid crystal display panel 10 and the backlight unit 13 from the outside. And outer frames 11 and 12 formed of a metal material. The outer frames 11 and 12 are a first outer frame 11 disposed on the opposite side of the liquid crystal display panel 10 from the backlight unit 13 and a second outer frame 11 disposed on the opposite side of the backlight unit 13 from the liquid crystal display panel 10. The outer frame 12 is configured. Each constituent member such as the liquid crystal display panel 10 constituting the liquid crystal display device 1 has a reduced thickness.

  Further, the liquid crystal display device 1 according to the first embodiment includes an intermediate frame 15 provided between the liquid crystal display panel 10 and the backlight unit 13 and made of a metal material. Thus, the liquid crystal display panel 10, the intermediate frame 15, and the backlight unit 13 are sandwiched between the first outer frame 11 and the second outer frame 12 in a state of being overlapped in this order.

  The liquid crystal display panel 10 is formed in a substantially rectangular plate shape as shown in FIG. 6, and a plurality of pixels (not shown) are arranged in a matrix as shown in FIG. 1, FIG. 2, FIG. 4, and FIG. Active matrix substrate 16, counter substrate 17 disposed to face active matrix substrate 16, and a liquid crystal layer (not shown) sealed between active matrix substrate 16 and counter substrate 17. ing.

  Although not shown, a common electrode that is a transparent electrode such as ITO, a color filter, and the like are formed on the counter substrate 17. As shown in FIGS. 1, 2, 4, and 6, a polarizing plate 18 is attached to the outer surface of the counter substrate 17.

  On the other hand, although not shown, the active matrix substrate 16 is formed so that a plurality of source lines extend in parallel to each other and a plurality of gate lines extend so as to be orthogonal to the source lines. Yes. A plurality of pixels are partitioned into a rectangular shape by these source wiring and gate wiring. That is, the plurality of pixels are arranged in a matrix. Each pixel is provided with a TFT (thin film transistor) as a switching element. In this way, the liquid crystal region facing each pixel is driven to perform a desired display. Further, as shown in FIGS. 1 and 2, a polarizing plate 23 is also attached to the outer surface of the active matrix substrate 16.

  On the surface of the active matrix substrate 16 on the counter substrate 17 side, as shown in FIG. 6, a mounting region 19 projecting laterally from the counter substrate 17 is formed. Although not shown in the drawing, the wiring region 19 is drawn from the source wiring, the gate wiring, and the like, and a plurality of terminals are formed at the ends thereof. An FPC (flexible printed circuit board) 21 for driving the active matrix substrate 16 is mounted on these terminals. The FPC 21 is further mounted with circuit components such as an IC driver 22.

  The backlight unit 13 is disposed on the side of the light guide plate 26 and fixed to the resin frame 25 while the resin frame 25 is held by the intermediate frame 15, the light guide plate 26 is fitted inside the resin frame 25. It has LED (light emitting diode) 27 which is a light source.

  As shown in FIG. 6, the resin frame 25 is formed in a rectangular frame shape, and a light source holding unit 28 for holding the LED 27 is provided in another region on the side facing the mounting region 19 of the active matrix substrate 16. It is formed wider than the side. For example, three LEDs 27 are arranged and fixed to the light source holding unit 28 at a predetermined interval. Each LED 27 emits light toward the inside of the resin frame 25 (that is, the light guide plate 26 side). Further, as shown in FIG. 6, the resin frame 25 is provided with an FPC 29 for connecting each LED 27 to a power supply (not shown). The tip of the FPC 29 is connected to the FPC 21 as shown in FIG.

  The light guide plate 26 is formed in a rectangular thin plate shape with a transparent resin, and is fixed inside the opening of the resin frame 25. The light guide plate 26 is thinner than the resin frame 25.

  As shown in FIGS. 1 and 2, an optical sheet 30 is provided on the light guide plate 26 on the first outer frame 11 side. On the other hand, a reflective sheet 31 is provided on the second outer frame 12 side of the light guide plate 26. The optical sheet 30 and the reflection sheet 31 are fixed inside the opening of the resin frame 25, respectively. Thus, the resin frame 25, the light guide plate 26, the LED 27, the optical sheet 30, and the reflection sheet 31 constitute the backlight unit 13 by being assembled together.

  As shown in FIGS. 1 and 2, the intermediate frame 15 has a frame portion 32 and a first side wall 33. The frame portion 32 is disposed between the liquid crystal display panel 10 and the backlight unit 13, and is formed in a thin frame shape extending in parallel to the backlight unit 13. On the other hand, the first side wall 33 extends from the outer edge of the frame portion 32 to the second outer frame 12 side. That is, the side portion of the intermediate frame 15 has the first side wall 33, and the cross section in the normal direction of the surface of the liquid crystal display panel 10 is formed in an L shape. Thus, the light of the backlight unit 13 enters the liquid crystal display panel 10 through the opening 34 inside the frame portion 32.

  As shown in FIGS. 1 and 2, the second outer frame 12 has a bottom plate portion 36 and a second side wall 37. The bottom plate portion 36 is disposed on the opposite side of the backlight unit 13 from the liquid crystal display panel 10 and is formed in a rectangular thin plate shape extending in parallel to the backlight unit 13. The second side wall 37 extends from the outer edge of the bottom plate portion 36 to the intermediate frame 15 side. That is, the side portion of the second outer frame 12 has the second side wall 37, and the cross section in the normal direction of the surface of the liquid crystal display panel 10 is formed in an L shape. The second side wall 37 is disposed so as to overlap the outer side of the first side wall 33.

  One of the intermediate frame 15 and the outer frames 11 and 12 forms a frame structure 40 by connecting the side portion of the intermediate frame 15 and the side portion of one of the outer frames 11 and 12 to each other. ing. In the first embodiment, the frame structure 40 is formed by the intermediate frame 15 and the second outer frame 12.

  At least a part of the side portion of the frame structure 40 is configured by being coupled in a state where the first side wall 33 and the second side wall 37 overlap each other. As a result, at least a part of the side portion of the frame structure 40 has a U-shaped cross section in the normal direction of the liquid crystal display panel 10 as shown in FIGS. 1 and 2.

  Here, a hook portion 38 is formed on one of the first side wall 33 and the second side wall 37, and an opening 41 is formed on the other side of the first side wall 33 and the second side wall 37. Then, the opening 41 is locked and fixed to the hook portion 38, whereby the first side wall 33 and the second side wall 37 are coupled to each other.

  That is, the first side wall 33 of the intermediate frame 15 has a plurality of openings 41 formed in a cutout shape on the frame portion 32 side at predetermined intervals, as shown in FIGS. Is provided. On the other hand, on the second side wall 37 of the second outer frame 12, a plurality of hook portions 38 extending obliquely toward the bottom plate portion 36 as shown in FIG. 1 are formed at predetermined intervals as shown in FIG. Yes. Each hook part 38 is arranged corresponding to each opening 41. Then, as shown in FIG. 1, each opening portion 41 is locked and fixed to each hook portion 38, thereby forming a frame structure 40, and a backlight unit inside the frame structure 40. 13 is accommodated.

  The polarizing plate 23 provided between the liquid crystal display panel 10 and the backlight unit 13 is disposed on the inner side of the opening 34 of the intermediate frame 15 as shown in FIGS. ing. In other words, the polarizing plate 23 is disposed inside the intermediate frame 15. Here, in FIG. 7, reference symbol A indicates the width of the opening 34 of the intermediate frame 15, and reference symbol B indicates the width of the polarizing plate 23. Thus, the width A of the opening 34 of the intermediate frame 15 is larger than the width B of the polarizing plate 23.

  Further, as shown in FIG. 6, the intermediate frame 15 has a light source accommodating portion 39 in a region overlapping the LED 27. The light source accommodating portion 39 is configured by an opening penetrating the frame portion 32 facing the light source holding portion 28 of the resin frame 25, and three light source accommodating portions 39 are provided corresponding to the three LEDs 27.

  On the other hand, the first outer frame 11 has a frame portion 42 and a third side wall 43 as shown in FIGS. 1, 2, and 6. The frame portion 42 is disposed on the opposite side of the liquid crystal display panel 10 from the backlight unit 13 and is formed in a rectangular thin plate frame shape extending in parallel to the liquid crystal display panel 10. The frame portion 42 is arranged so as to cover the periphery of the liquid crystal display panel 10. The third side wall 43 extends from the outer edge of the frame portion 42 so as to protrude to the second outer frame 12 side (intermediate frame 15 side). That is, the side portion of the first outer frame 11 has the third side wall 43. Thus, the display area of the liquid crystal display panel 10 is exposed through the opening 44 inside the frame portion 42. Moreover, the 3rd side wall 43 is arrange | positioned so that it may overlap with the outer side of the 2nd side wall 37 in the 2nd outer side frame 12, as shown in FIG.1 and FIG.2.

  A frame structure 46 is also formed by the first outer frame 11 and the second outer frame 12. That is, as shown in FIGS. 2 and 6, the second side wall 37 of the second outer frame 12 is provided with a plurality of openings 48 formed in a cutout shape across the bottom plate portion 36 at a predetermined interval. ing. As shown in FIG. 6, the opening 48 is disposed between the hook portions 38 formed in the second outer frame 12.

  On the other hand, on the third side wall 43 of the first outer frame 11, a plurality of hook portions 47 extending obliquely toward the frame portion 42 as shown in FIG. 2 are formed at predetermined intervals as shown in FIG. Yes. Each hook portion 47 is disposed corresponding to each opening 48. Then, as shown in FIG. 2, the frame structure 46 is formed by locking and fixing the openings 48 to the hooks 47. Inside the frame structure 46, the liquid crystal display panel 10, the intermediate frame 15, and the backlight unit 13 are accommodated.

  Therefore, the liquid crystal display device 1 according to the first embodiment includes not only the frame structure 46 including the first outer frame 11 and the second outer frame 12 but also the frame structure 40 including the intermediate frame 15 and the second outer frame 12. It has a structure in which two metal frame structures 40 and 46 are combined in a double manner.

  In the case of performing display by the liquid crystal display device 1, the light of the LED 27 is diffused by the light guide plate 26, reflected by the reflection sheet 31, and emitted from the light guide plate 26 as planar light. Light emitted from the light guide plate 26 is modulated by the optical sheet 30 and enters the liquid crystal display panel 10 via the polarizing plate 23. The liquid crystal display panel 10 performs display by transmitting desired light for each pixel.

-Manufacturing method-
Next, a method for manufacturing the liquid crystal display device 1 will be described.

  As shown in FIG. 6, the liquid crystal display device 1 is manufactured by assembling a first outer frame 11, a liquid crystal display panel 10, an intermediate frame 15, a backlight unit 13, and a second outer frame 12. .

  When the liquid crystal display panel 10 is manufactured, an active matrix substrate 16 in which TFTs, gate wirings, and the like are formed by photolithography or the like, and a counter substrate 17 in which a common electrode and the like are formed are bonded via a sealant (not shown). In addition, the substrates 16 and 17 are filled with liquid crystal (not shown) and sealed. The liquid crystal can be filled, for example, by a dropping injection method. Further, the polarizing plate 18 is attached to the outer surface of the counter substrate 17, while the polarizing plate 23 is attached to the outer surface of the active matrix substrate 16. Thereafter, the FPC 21 is mounted on the mounting area 19 of the active matrix substrate 16.

  When manufacturing the backlight unit 13, the light guide plate 26 is fitted into the resin frame 25 and the LED 27 is mounted. Here, the three LEDs 27 constitute an LED array having an FPC 29. Further, an optical sheet 30 is attached to the resin frame 25 on the liquid crystal display panel 10 side of the light guide plate 26, while a reflective sheet 31 is attached to the opposite side of the light guide plate 26 from the liquid crystal display panel 10.

  Thus, first, the intermediate frame 15 and the second outer frame 12 are assembled to each other with the backlight unit 13 interposed therebetween. Thereby, the frame structure 40 is formed. At this time, the front end of the first side wall 33 in the intermediate frame 15 faces the second outer frame 12 side, and the front end of the second side wall 37 in the second outer frame 12 approaches the intermediate frame 15 side. Then, as shown in FIG. 1, the first side wall 33 of the intermediate frame 15 is inserted along the inner surface of the second side wall 37 of the second outer frame 12. Then, the opening 41 of the intermediate frame 15 is locked and fixed to the hook portion 38 of the second outer frame 12. As a result, the intermediate frame 15 and the second outer frame 12 are coupled to each other.

  Next, as shown in FIG. 4, the liquid crystal display panel 10 is placed on the intermediate frame 15 side of the frame structure 40. At this time, the polarizing plate 23 of the liquid crystal display panel 10 is disposed inside the opening 34 of the intermediate frame 15.

  Subsequently, the first outer frame 11 is assembled to the frame structure 40 on which the liquid crystal display panel 10 is placed. That is, the first outer frame 11 is made to approach the frame structure 40 from the liquid crystal display panel 10 side so that the tip of the third side wall faces the frame structure 40 side. Then, as shown in FIG. 2, the third side wall 43 of the first outer frame 11 is inserted along the outer surface of the second side wall 37 of the second outer frame 12. Then, the opening 48 of the second outer frame 12 is locked and fixed to the hook portion 47 of the first outer frame 11. As a result, the first outer frame 11 and the second outer frame 12 of the frame structure 40 are coupled to each other, and the first outer frame 11 and the second outer frame 12 form a frame structure 46. The liquid crystal display device 1 is manufactured as described above.

-Effect of Embodiment 1-
Therefore, according to the first embodiment, the side portion (first side wall 33) of the intermediate frame 15 and the side portion (second side wall 37) of the second outer frame 12, which is one of the outer frames 11, 12, are mutually connected. Since the frame structure 40 having a U-shaped cross section and made of a metal material is formed by bonding, the mechanical strength of the liquid crystal display device 1 is improved while the thickness of the liquid crystal display device 1 is reduced. be able to.

  That is, each of the intermediate frame 15 and the second outer frame 12 has side portions having an L-shaped cross section, and these side portions are coupled to each other to form a side portion having a U-shaped cross section on the frame structure 40. Can be formed. Furthermore, since the frame structure 40 is formed of a metal material, even if the thickness of the intermediate frame 15 and the second outer frame 12 is reduced, the mechanical strength can be dramatically increased. As a result, since the liquid crystal display device 1 includes the frame structure 40, it is possible to increase the mechanical strength of the entire device while reducing the thickness of the entire liquid crystal display device 1.

  Furthermore, since the first side wall 33 of the intermediate frame 15 and the second side wall 37 of the second outer frame 12 are joined in a state of overlapping each other, the thickness at the side portion of the frame structure 40 is increased, The structure having a U-shaped cross section can be made stronger. That is, the mechanical strength of the frame structure 40 can be increased more effectively.

  In addition, since the opening 41 formed in the first side wall 33 of the intermediate frame 15 is locked and fixed by the hook portion 38 formed in the second side wall 37 of the second outer frame 12, 2 The outer frame 12 can be easily and reliably coupled.

  Furthermore, the second outer frame 12 coupled to the intermediate frame 15 is disposed on the opposite side of the backlight unit 13 from the liquid crystal display panel 10, and the backlight unit 13 is disposed inside the frame structure 40. Since at least a part of the side portion of the light unit 13 is covered with the side portion having a U-shaped cross section of the frame structure 40 made of a metal material, the heat dissipation of the backlight unit 13 can be improved and is unnecessary. Light can be shielded from being transmitted from the backlight unit 13 side to the liquid crystal display panel 10 side.

  Furthermore, since the backlight unit 13 has the resin frame 25 held by the intermediate frame 15, the light guide plate 26 and the LED 27 can be fixed by the resin frame 25 to prevent the positional deviation. In addition, when the resin frame 25 is thinned, its mechanical strength is likely to be reduced. However, in the first embodiment, the resin frame 25 is held by the metallic frame structure 40 having a U-shaped side portion in cross section. Therefore, the mechanical strength of the entire apparatus can be increased despite the decrease in strength of the resin frame 25 due to the reduction in thickness. In other words, the mechanical strength of the liquid crystal display device 1 can be increased while reducing the thickness of the resin frame 25.

  Further, since the light source accommodating portion 39 is formed in the intermediate frame 15, the backlight unit 13 can be accommodated inside the frame structure 40 in a state where the LED 27 is accommodated in the light source accommodating portion 39. That is, even when the thickness of the LED 27 is larger than the thickness of the light guide plate 26, the entire thickness of the frame structure 40 including the backlight unit 13 can be reduced.

  Further, since the polarizing plate 23 arranged between the liquid crystal display panel 10 and the backlight unit 13 is arranged inside the intermediate frame 15, the polarizing plate 23 arranged inside the intermediate frame 15. The liquid crystal display device 1 can be further reduced in thickness by the thickness of.

  In addition, since not only the second outer frame 12 constituting the frame structure 40 but also the first outer frame 11 is provided, the frame structure 46 is also formed by the first outer frame 11 and the second outer frame 12. The liquid crystal display panel 10 and the backlight unit 13 can be configured as a set of modules held by a pair of outer frames 11 and 12. Furthermore, the mechanical strength of the thinned module can be increased by the structure in which the two metal frame structures 40 and 46 are combined in a double manner.

<< Other Embodiments >>
In the first embodiment, the frame structure 40 is formed by the intermediate frame 15 and the second outer frame 12 so as to accommodate the backlight unit 13, but the present invention is not limited to this. That is, the first outer frame 11 disposed on the opposite side of the liquid crystal display panel 10 from the backlight unit 13 is coupled to the intermediate frame 15 to form the frame structure 40, and the liquid crystal display panel 10 is disposed therein. It can be accommodated. By doing so, at least a part of the side part of the liquid crystal display panel 10 is covered with the side part having a U-shaped cross section of the frame structure 40.

  Even if the frame structure 40 is configured in this way, the mechanical strength can be improved while the thickness of the liquid crystal display device 1 is reduced. Further, since the frame structure 40 is made of a metal material, unnecessary light from the backlight unit 13 side can be shielded.

  In the first embodiment, the outer frames 11 and 12 are arranged on both the opposite side of the liquid crystal display panel 10 from the backlight unit 13 and the opposite side of the backlight unit 13 from the liquid crystal display panel 10. However, the present invention is not limited to this. The liquid crystal display panel 10 can be disposed on at least one side opposite to the backlight unit 13 and on the opposite side of the backlight unit 13 from the liquid crystal display panel 10.

  That is, the frame structure 40 is formed by the outer frames 11 and 12 and the intermediate frame 15 arranged on one side. When the outer frames 11 and 12 are not provided on the other side, the liquid crystal display panel 10 or the backlight unit 13 that is not accommodated in the frame structure 40 is fixed by a frame of a device main body such as a cellular phone to which the liquid crystal display device 1 is attached. Is possible.

  Further, as a method for coupling the intermediate frame 15 and the outer frames 11 and 12, other methods such as adhesion can be applied besides the locking and fixing as in the first embodiment.

  As described above, the present invention is useful for a thin liquid crystal display device, and is particularly suitable for improving the mechanical strength of the liquid crystal display device while reducing the thickness of the liquid crystal display device.

1 is an enlarged cross-sectional view taken along the line II in FIG. 2 is an enlarged cross-sectional view taken along the line II-II in FIG. FIG. 3 is a perspective view showing the liquid crystal display device of the first embodiment. FIG. 4 is a perspective view showing the liquid crystal display device before the first outer frame is mounted. FIG. 5 is a plan view showing the liquid crystal display device. FIG. 6 is an exploded perspective view showing the configuration of the liquid crystal display device. 7 is an enlarged cross-sectional view taken along line VII-VII in FIG. FIG. 8 is a cross-sectional view showing the structure of a conventional liquid crystal display device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Liquid crystal display device 10 Liquid crystal display panel 11 1st outer frame 12 2nd outer frame 13 Backlight unit 15 Intermediate frame 16 Active matrix substrate 17 Opposite substrate 23 Polarizing plate 25 Resin frame 26 Light guide plate 27 LED (light source)
28 Light source holding part 32 Frame part 33 First side wall 34 Opening 36 Bottom plate part 37 Second side wall 38 Hook part 39 Light source housing part 40 Frame structure 41 Opening part 42 Frame part 43 Third side wall 47 Hook part 48 Opening part

Claims (9)

A liquid crystal display panel;
A backlight unit disposed facing the liquid crystal display panel;
An outer frame made of a metal material, disposed on at least one side of the liquid crystal display panel opposite to the backlight unit and on the opposite side of the backlight unit from the liquid crystal display panel;
An intermediate frame made of a metal material provided between the liquid crystal display panel and the backlight unit;
One of the intermediate frame and the outer frame forms a frame structure by joining a side portion of the intermediate frame and a side portion of one of the outer frames,
At least a part of the side portion of the frame structure has a U-shaped cross section in the normal direction of the liquid crystal display panel. In claim 1,
The side portion of the intermediate frame has a first side wall protruding to one side of the outer frame,
A side portion of one of the outer frames has a second side wall protruding toward the intermediate frame,
At least a part of the side portion of the frame structure is formed by joining the first side wall and the second side wall so as to overlap each other. In claim 2,
A hook portion is formed on one of the first side wall and the second side wall,
An opening is formed in the other of the first side wall and the second side wall,
The liquid crystal display device according to claim 1, wherein the first side wall and the second side wall are coupled to each other by the opening being locked and fixed to the hook. In claim 2,
One of the outer frames coupled to the intermediate frame is disposed on the opposite side of the backlight unit from the liquid crystal display panel,
A liquid crystal display device, wherein at least a part of a side portion of the backlight unit is covered with a U-shaped side portion of the frame structure. In claim 4,
The backlight unit includes a light guide plate and a light source disposed on a side of the light guide plate,
The liquid crystal display device, wherein the intermediate frame has a light source accommodating portion in a region overlapping the light source. The backlight unit according to claim 4, wherein the backlight unit includes a resin frame held by the intermediate frame, a light guide plate fitted inside the resin frame, and a light source fixed to the resin frame at a side of the light guide plate. A liquid crystal display device comprising: In claim 4,
A polarizing plate is provided between the liquid crystal display panel and the backlight unit,
The liquid crystal display device, wherein the polarizing plate is disposed inside the intermediate frame. In claim 1,
One of the outer frames coupled to the intermediate frame is disposed on the opposite side of the backlight unit of the liquid crystal display panel,
A liquid crystal display device, wherein at least a part of a side portion of the liquid crystal display panel is covered with a U-shaped side portion of the frame structure. In claim 1,
2. The liquid crystal display device according to claim 1, wherein the outer frame is disposed on both sides of the liquid crystal display panel opposite to the backlight unit and on the opposite side of the backlight unit from the liquid crystal display panel.

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