JP2013145392A - Liquid crystal display device, and liquid crystal television - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid crystal display device and a liquid crystal TV which prevent occurrence of deformation in an optical sheet.SOLUTION: A liquid crystal panel module 4 comprises, in order from its front face to its back face, a liquid crystal panel 41, an optical sheet 42 and a light guide plate 43. A front cabinet 2 is provided with an opening 21 through which a screen of the liquid panel 41 is exposed. The front cabinet 2 has first ribs 22 formed around the opening 21 on its back face and second ribs 23 formed around the opening 21 on its back face in positions further from the opening 21 than the first ribs 22. The first ribs 22 are higher than a total thickness of the liquid crystal panel 41 and the optical sheet 42, and the second ribs 23 are higher than a total thickness of the liquid crystal panel 41, the optical sheet 42, and the light guide plate 43. The light guide plate 43 is accommodated in the area surrounded by the second ribs 23 and its front peripheral edge part is in contact with the front end surfaces of the first ribs 22.

Description

  The present invention relates to a liquid crystal display device and a liquid crystal television including a liquid crystal panel module.

  Each component such as a liquid crystal panel, an optical sheet, and a light guide plate constituting the edge light type liquid crystal panel module is fixed by a frame-like bezel. Patent Document 1 discloses a liquid crystal display device that reduces the number of parts by eliminating the bezel and positioning each of the parts with stepped ribs provided on the inner surface of the front cabinet. Each of the positioned parts is pressed and fixed by a screw back and forth.

JP 11-337937 A

  However, in the liquid crystal display device disclosed in Patent Document 1, an optical sheet that diffuses light may be sandwiched between a liquid crystal panel and a light guide plate. When the sandwiched optical sheet is deformed, the optical sheet is deformed. To do. For this reason, light from the light source is not sufficiently diffused, resulting in uneven brightness on the screen.

  The present invention has been made in view of such circumstances. An object of the present invention is to provide a liquid crystal display device and a liquid crystal television that do not cause deformation of the optical sheet.

  In the liquid crystal display device according to the present application, a liquid crystal panel module is disposed between a front cabinet on the front side and a back cabinet on the back side, and the liquid crystal panel modules are stacked in order from the front side to the back side. The liquid crystal panel has an optical sheet and a light guide plate, and enters the light guide plate from a light source, and emits light from the light guide plate to the optical sheet, thereby looking through the opening provided in the front cabinet. In the liquid crystal display device that displays an image on the screen, a plurality of first ribs formed around the opening on the back surface of the front cabinet, and at a position farther from the opening than the first rib on the back surface of the front cabinet, A plurality of second ribs formed around the opening, wherein the first ribs are the liquid crystal panel and the optical system. The second rib has a height greater than the total thickness of the liquid crystal panel, the optical sheet and the light guide plate. The light guide plate is housed in a range surrounded by the second rib.

  The liquid crystal display device according to the present application is characterized in that the light guide plate is wider than the optical sheet, and the optical sheet is the same as or wider than the liquid crystal panel.

  The liquid crystal display device according to the present application is characterized in that the liquid crystal panel is accommodated in a range surrounded by the first rib.

  The liquid crystal display device according to the present application is characterized in that the optical sheet is accommodated in a range surrounded by the first rib or the second rib.

  A liquid crystal television according to the present application includes the above-described liquid crystal display device and a receiving unit that receives a television broadcast, and the liquid crystal panel module displays an image related to the television broadcast received by the receiving unit on a screen of the liquid crystal panel. It is characterized by being displayed.

  According to the liquid crystal display device and the liquid crystal television according to the present application, the optical sheet is not deformed.

It is a schematic perspective view of a liquid crystal television. It is a partial disassembled perspective view which shows a liquid crystal television. It is sectional drawing which cut | disconnected the liquid crystal television of the state of FIG. 1 in the orthogonal | vertical direction. It is a rear view of a front cabinet. It is a partial perspective view which shows a front cabinet. It is explanatory drawing which shows the outline | summary which mounted the component of the liquid crystal panel module on the front cabinet. It is explanatory drawing which shows the positional relationship of an optical sheet, a 1st rib, and a 2nd rib. It is a rear view of the structure around a partition rib. FIG. 9 is a partial rear view of a front cabinet and a liquid crystal panel module corresponding to the periphery of the partition rib in FIG. 8. It is a perspective view which shows the lower right part of the backlight chassis corresponding to a partition rib periphery. It is a rear view of the liquid crystal television which removed the back cabinet and the backlight chassis. It is a rear view of the liquid crystal television which removed the back cabinet. It is the top view which looked at the back cabinet from the front side. It is a perspective view of a back cabinet. It is explanatory drawing which shows the procedure of an assembly of a liquid crystal television. It is explanatory drawing which shows the procedure of an assembly of a liquid crystal television. It is explanatory drawing which shows the procedure of an assembly of a liquid crystal television. It is explanatory drawing which shows the procedure of an assembly of a liquid crystal television. It is a rear view of a discharge prevention frame. It is the perspective view which expanded and showed the discharge prevention frame partially. It is the perspective view which expanded and showed the front cabinet and the discharge prevention frame partially. It is explanatory drawing which shows the outline | summary which mounted the component of the liquid crystal panel module on the front cabinet.

Hereinafter, a liquid crystal television according to an embodiment of the present invention will be described with reference to the drawings illustrating embodiments. The liquid crystal television according to this embodiment includes an edge light type backlight. In the liquid crystal television according to the present embodiment, a bezel that surrounds and covers each component of the liquid crystal panel module from the outside of the four peripheral edges is excluded.
Note that the present invention is not limited to the following embodiments.

Embodiment 1
FIG. 1 is a schematic perspective view of a liquid crystal television 1. Here, when the viewer faces the screen 411 on which the liquid crystal television 1 displays an image, the viewer side from the screen 411 is the front side, and the opposite side from the screen 411 is the back side or the rear side. . The screen 411 is a horizontally long substantially rectangular shape, and the right side in the long side direction of the screen 411 is the right side and the left side in the long side direction of the screen 411 is the left side from the viewer toward the screen 411. When the liquid crystal television 1 is viewed from the back side, the left and right are opposite to the left and right on the front side. Further, from the viewer toward the screen 411, the upper side in the short side direction of the screen 411 is the upper side, and the lower side in the short side direction of the screen 411 is the lower side. FIG. 1 shows the liquid crystal television 1 from the front upper right diagonal.

  The liquid crystal television 1 includes a front cabinet 2, a back cabinet 3, a liquid crystal panel module 4, a receiving unit T, a power supply substrate P, and a stand S. The liquid crystal panel module 4 has a screen 411 on the front side, and is housed between the front cabinet 2 on the front side and the back cabinet 3 on the back side.

  The front cabinet 2 is made of resin, for example, and has a rectangular frame shape. The front cabinet 2 surrounds the front peripheral edge and the outer peripheral surface of the liquid crystal panel module 4. The front cabinet 2 has a horizontally-long rectangular opening 21 at substantially the center, and the screen 411 of the liquid crystal panel module 4 is viewed through the opening 21. A narrow side portion that covers the side of the liquid crystal panel module 4 is provided from the outer periphery to the back side of the front cabinet 2.

  The back cabinet 3 covers the liquid crystal panel module 4 from the back side. The back cabinet 3 is made of, for example, resin and is generally dish-shaped. A side portion that covers the side of the liquid crystal panel module 4 is provided around the periphery of the back cabinet 3. The rising height of the side portion is higher than the rising height of the side portion of the front cabinet 2. The front end portion of the side portion of the back cabinet 3 is fitted to the inner peripheral surface of the side portion of the front cabinet 2.

The receiving unit T receives a video signal related to television broadcasting. The power supply substrate P supplies power to each component of the liquid crystal television 1.
The stand S is a plate that is provided with a support column joined to the center of the lower portion of the liquid crystal television 1 at the center of the upper surface thereof and supports the liquid crystal television 1 in an upright state.

FIG. 2 is a partial exploded perspective view showing the liquid crystal television 1. FIG. 2 shows from the side how the separated components of the liquid crystal panel module 4 are arranged between the front cabinet 2 and the back cabinet 3 from bottom to top. In FIG. 2, the lower right portion of the liquid crystal television 1 in the state of FIG. 1 is drawn in front.
In FIG. 2, the liquid crystal panel module 4 includes components such as a discharge prevention frame 40, a liquid crystal panel 41, an optical sheet 42, a light guide plate 43, a reflection sheet 44, and a backlight chassis (lid) 45 arranged from bottom to top. including.

  The discharge prevention frame 40 is a rectangular frame that borders the outside of the rear opening 21 in the front cabinet 2 and is made of a metal material having electrical conductivity. The discharge prevention frame 40 has a function of preventing the influence of the discharge from the outside of the liquid crystal television 1 on the receiving unit T, the power supply substrate P, and the like.

  The liquid crystal panel 41 is a plate-like component having a rectangular surface wider than the opening 21. The liquid crystal panel 41 has a screen 411 on the front side.

  In FIG. 2, a heat sink 46 is shown in the front portion of the liquid crystal panel 41. The heat sink 46 will be described later. In addition, on the back side of the heat sink 46 in FIG. 2, an LED (Light Emitting Diode) substrate that is hidden and invisible and an LED (light source) mounted thereon are provided. That is, the LED serving as the light source of the backlight is disposed at the lowermost part of the liquid crystal panel module 4 in the liquid crystal television 1 in the state shown in FIG.

  The optical sheet 42 is a synthetic resin sheet and includes a prism sheet, a diffusion sheet, and a reflective polarizing sheet. The optical sheet 42 has a function of uniformly diffusing light emitted from the light guide plate 43 to the liquid crystal panel 41. The optical sheet 42 has substantially the same shape as the back surface of the liquid crystal panel 41, but several notches 421 are provided at the peripheral end of the optical sheet 42.

  The light guide plate 43 has a rectangular plate shape and is made of acrylic. The area of the front surface and the back surface of the light guide plate 43 is slightly larger than the area of the optical sheet 42. Several recesses 431 are provided on the side of the light guide plate 43.

  The reflection sheet 44 is a sheet made of white resin, silver, aluminum, or the like disposed between the light guide plate 43 and the backlight chassis 45. The reflection sheet 44 is disposed on the back surface of the light guide plate 43. The reflection sheet 44 has substantially the same shape as the back surface of the light guide plate 43. For example, a notch 441 having the same shape as the recess 431 is provided at the position of the reflection sheet 44 corresponding to the recess 431 of the light guide plate 43.

The backlight chassis 45 is a metal plate and has a rectangular shape. The area of the backlight chassis 45 is slightly larger than the light guide plate 43.
Note that the receiver T and the power supply board P are fixed to the back surface of the backlight chassis 45 by screws.

  FIG. 3 is a cross-sectional view of the liquid crystal television 1 in the state of FIG. 1 cut in the vertical direction. The right side of FIG. 3 corresponds to the front side of the liquid crystal television 1, and the left side of FIG. In FIG. 3, the liquid crystal panel module 4 is disposed between the front cabinet 2 and the back cabinet 3 and is in contact with the front cabinet 2.

  The light guide plate 43 diffuses and makes uniform the light of the LED incident from the lower side surface. The light guide plate 43 emits the uniform light from the front surface toward the optical sheet 42. The reflection sheet 44 increases the light use efficiency from the LEDs by reflecting the light inside the light guide plate 43 to the front side. The optical sheet 42 diffuses the light received from the light guide plate 43 and emits it to the liquid crystal panel 41. The liquid crystal panel 41 takes in the emitted light from the optical sheet 42 from the back side and displays an image related to the television broadcast received by the receiving unit T on the screen 411 on the front side.

  A liquid crystal panel 41, an optical sheet 42, a light guide plate 43, and a reflection sheet 44 are disposed between the discharge prevention frame 40 and the backlight chassis 45. The upper part of the discharge prevention frame 40 is in contact with the lower end of the liquid crystal panel 41 through the spacer 4a, and is in contact with the lower part of the light guide plate 43 through the spacer 4b. The portion of the discharge prevention frame 40 that is in contact with the light guide plate 43 protrudes toward the back side, and forms a mountain-shaped or inverted V-shaped bent portion. The discharge prevention frame 40 below the bent portion has a bent portion 401 bent substantially at right angles to the back surface side and a bent portion 402 bent further downward substantially vertically positioned below the bent portion 401. The discharge prevention frame 40 between the bent portion 401 and the bent portion 402 constitutes a horizontal plate portion extending in the front-rear direction, and the discharge prevention frame 40 below the bent portion 402 constitutes an upper and lower plate portion whose lower end is a free end. . The horizontal plate portion of the discharge prevention frame 40 faces the lower side surface of the light guide plate 43 in a state of being separated.

  The liquid crystal panel module 4 includes a heat sink 46, an LED substrate 47 and an LED 48. The heat sink 46 is made of aluminum, copper, or the like having good thermal conductivity, and is a member for moving the heat from the LED 48 to the backlight chassis 45. The cross-sectional shape of the heat sink 46 is L-shaped, and the front and rear plate portions and the vertical plate portion of the heat sink 46 are joined so that the bent portion and the bent portion 402 of the discharge prevention frame 40 are joined. Each is in close contact with the horizontal plate portion and the upper and lower plate portions of the discharge prevention frame 40.

  The LED substrate 47 is an elongated rectangular flat plate, and is fixed on the horizontal plate portion of the heat sink 46 by screws (not shown). A plurality of LEDs 48 are mounted on the LED substrate 47 along the long side direction of the LED substrate 47 so as to be arranged at substantially equal intervals. The discharge preventing frame 40, the heat sink 46, the LED substrate 47, and the LED 48 are positioned so that the side surface facing the lower side of the light guide plate 43 is disposed immediately above the LED 48 with a slight gap.

The stacked anti-discharge frame 40 and the heat sink 46 are screwed with screws 5 while being sandwiched between the backlight chassis 45 and the front cabinet 2. The screw 5 is inserted from the backlight chassis 45 and is screwed into a boss standing on the back surface of the front cabinet 2.
The front cabinet 2 and the backlight chassis 45 fastened with the screws 5 press the discharge prevention frame 40, the liquid crystal panel 41, the optical sheet 42, the light guide plate 43, and the reflection sheet 44 in a stacked state.
A plurality of fixing points corresponding to the screws 5 in FIG. 3 are provided in the lower part of the liquid crystal panel module 4.

  In a conventional liquid crystal television, each component of the liquid crystal panel module is fixed by a bezel. However, the bezel is excluded from the liquid crystal television 1. Therefore, each component of the liquid crystal panel module 4 is fixed by fastening with the screw 5 between the backlight chassis 45 and the front cabinet 2 as described above.

The bezel was responsible for positioning the parts when assembling the liquid crystal television. Further, the bezel has a function of fixing the optical sheet without bending. Further, the bezel has a function of preventing the light of the LED from leaking outside the liquid crystal panel module.
The liquid crystal television 1 has a structure having functions related to positioning of the components carried by the bezel, fixing of the optical sheet in a state where the optical sheet is not deformed, and prevention of light leakage. Next, the structure of the liquid crystal television 1 that substitutes for the function of the bezel will be described.

  FIG. 4 is a rear view of the front cabinet 2. The front cabinet 2 has a horizontally long rectangular shape, and has an opening 21 through which the screen 411 of the liquid crystal panel 41 can be seen. That is, the shape of the front cabinet 2 is a frame shape. The widths of the upper frame, the left frame, and the right frame in the front cabinet 2 are substantially the same. On the other hand, the width of the lower frame in the front cabinet 2 is wider than the width of the other frames.

  The front cabinet 2 includes a first rib 22, a second rib 23 and a partition rib 24. The 1st rib 22, the 2nd rib 23, and the partition rib 24 are shape | molded integrally with the front cabinet 2 by the metal mold | die.

A plurality of first ribs 22 are arranged at substantially equal intervals from the back surface of the front cabinet 2 along the periphery of the opening 21. Two first ribs 22 are provided on the upper frame, two on the left and right frames, and five on the lower frame. A narrow flange is formed between the peripheral end of the opening 21 and the inner end of the first rib 22.
On the rear surface of the frame of the front cabinet 2, a plurality of second ribs 23 are arranged along the circumference of the opening 21 at positions outside the opening 21 relative to the first rib 22. One second rib 23 is provided on the upper frame, and one second rib 23 is provided on each of the left and right frames. The second rib 23 is not provided on the lower frame. Moreover, the 2nd rib 23 provided in the upper frame and the right-and-left frame is each arrange | positioned in the approximate center of the frame regarding the width direction.
The 1st rib 22 and the 2nd rib 23 are arrange | positioned separately, and are arrange | positioned along the periphery of the left frame of the front cabinet 2, an upper frame, and the right frame in zigzag form.

The 2nd rib 23 provided in the upper frame is arrange | positioned in the approximate center of the up-down and left-right direction of the upper frame. The two first ribs 22 provided on the upper frame are arranged at positions slightly closer to the left and right ends than the left and right ends of the upper frame and the second ribs 23 of the upper frame, respectively.
The second ribs 23 respectively provided on the left and right frames are arranged at positions corresponding to the lower side of the midpoint of the short side of the opening 21. More specifically, the second ribs 23 respectively provided on the left and right frames are arranged at positions slightly away from the lower left and right corners of the opening 21. Two first ribs 22 provided on each of the left and right frames are disposed above the second ribs 23 provided on the left and right frames.

FIG. 5 is a partial perspective view showing the front cabinet 2. FIG. 5 shows the first rib 22 and the second rib 23 provided in the lower right portion on the back surface of the front cabinet 2 from the lower right side.
The height of the first rib 22 with respect to the front cabinet 2 is lower than the height of the second rib 23. The height of the first rib 22 is slightly larger than the total thickness of the liquid crystal panel 41 and the optical sheet 42. The height of the second rib 23 is slightly larger than the total thickness of the liquid crystal panel 41, the optical sheet 42, the light guide plate 43, and the reflection sheet 44. The height of the first rib 22 and the second rib 23 is adjusted so that the difference between the height of the first rib 22 and the height of the second rib 23 is equal to the total thickness of the light guide plate 43 and the reflection sheet 44. Has been.

  The first rib 22 includes a first main rib 22a and a first sub rib 22b. The first main rib 22 a is a rib substantially parallel to the side of the opening 21. The first sub ribs 22b are provided so as to protrude from both ends of the first main rib 22a in a direction substantially perpendicular to the first main rib 22a and outside the opening 21. Hereinafter, the first sub ribs 22b provided at both ends of the first main rib 22a are referred to as both side ribs. When the front cabinet 2 is faced up and the front cabinet 2 is viewed from the side, the side ribs have a substantially rectangular shape, for example.

  A plurality of first sub-ribs 22b are provided in the middle of both side ribs, and the total number of first sub-ribs 22b is five. The first sub-ribs 22b provided between the side ribs are substantially parallel to the side ribs at the corner formed by the side wall of the first main rib 22a outside the opening 21 and the back surface of the front cabinet 2. They are arranged side by side at substantially equal intervals. When the front cabinet 2 is viewed from the side with the back side of the front cabinet 2 facing upward, the shape of the first sub-rib 22b provided between both side ribs is, for example, a trapezoid whose bottom is longer than the upper base. In such a case, the inner side of the first sub-rib 22 b provided between the side ribs is substantially perpendicular to the bottom side, and the outer side is inclined toward the back surface of the front cabinet 2.

The second rib 23 includes a second main rib 23a and a second sub rib 23b. The arrangement direction and shape of the second main rib 23a and the second sub rib 23b are similar to the first main rib 22a and the first sub rib 22b, respectively. The total number of second sub-ribs 23b is seven.
When the front cabinet 2 is viewed from the back side, the overall shape of the first rib 22 and the second rib 23 is a comb-like shape.

In FIG. 4, partition ribs 24 are erected one by one from the back of the lower frame near the lower left and right corners of the opening 21.
FIG. 5 shows the partition rib 24 provided in the lower right portion on the back surface of the front cabinet 2 from the lower right side. The height of the partition rib 24 with respect to the back surface of the front cabinet 2 is substantially the same as the height of the second rib 23, and is slightly larger than the total thickness of the liquid crystal panel 41, the optical sheet 42, the light guide plate 43, and the reflection sheet 44. Corresponds to the height.

  The partition rib 24 includes a partition main body rib 24a and a partition reinforcement rib 24b. The partition main body rib 24a has a rib substantially parallel to the long side of the opening 21 and a rib extending downward from both ends of the rib. When the front cabinet 2 is viewed from the side with the back surface of the front cabinet 2 facing upward, the shape of the partition main body rib 24a is substantially rectangular. When the front cabinet 2 is viewed from the back side, the shape of the partition main body rib 24a is substantially U-shaped.

Two partition reinforcing ribs 24b are provided. The partition reinforcing ribs 24 b are provided at substantially equal intervals at corners formed by the side walls of the partition main body ribs 24 a outside the opening 21 and the back surface of the front cabinet 2. The direction of the partition reinforcing rib 24b is downward. When the front cabinet 2 is faced up and the front cabinet 2 is viewed from the side, the shape of the partition reinforcing rib 24b is a trapezoid whose bottom is longer than the top. In such a case, the inner side of the partition reinforcing rib 24 b is substantially perpendicular to the bottom side, and the outer side is inclined toward the back surface of the front cabinet 2.
When the front cabinet 2 is viewed from the back side, the overall shape of the partition rib 24 is comb-shaped.

  In the 1st rib 22, the 2nd rib 23, and the partition rib 24, the 1st secondary rib 22b, the 2nd secondary rib 23b, and the partition reinforcement rib 24b are the strength of the 1st rib 22, the 2nd rib 23, and the partition rib 24, respectively. Has the function of increasing. Further, the first sub rib 22b, the second sub rib 23b, and the partition reinforcing rib 24b cause sink marks generated at the time of molding at the front position of the front cabinet 2 corresponding to the first rib 22, the second rib 23, and the partition rib 24, respectively. It is provided to suppress.

  In FIG. 4, the distance between the inner position of the first rib 22 disposed on the upper frame of the front cabinet 2 and the inner position of the first rib 22 disposed on the lower frame is the short distance of the liquid crystal panel 41. It is almost equal to the length in the side direction. The distance between the inner positions of the first ribs 22 respectively disposed on the left and right frames of the front cabinet 2 is substantially equal to the length of the liquid crystal panel 41 in the long side direction.

  In FIG. 4, the distance between the inner position of the second rib 23 disposed on the upper frame of the front cabinet 2 and the inner position of the partition rib 24 disposed on the lower frame is the optical sheet 42, the light guide plate. 43 and the reflection sheet 44 are substantially equal to the lengths in the respective short side directions. The distance between the inner positions of the second ribs 23 respectively disposed on the left and right frames of the front cabinet 2 is substantially equal to the length of the optical sheet 42, the light guide plate 43, and the reflection sheet 44 in the long side direction.

  When the liquid crystal television 1 is assembled, the front cabinet 2 is placed on a substantially horizontal surface with the back surface of the front cabinet 2 facing upward. The discharge prevention frame 40 is placed on the outer peripheral edge of the front cabinet 2 so as to overlap the front cabinet 2. The liquid crystal panel 41 is accommodated in a space between the first ribs 22 disposed along the periphery of the opening 21. Next, the optical sheet 42, the light guide plate 43, and the reflection sheet 44 are accommodated in the space between the second rib 23 and the partition rib 24.

  FIG. 6 is an explanatory diagram showing an overview of the components of the liquid crystal panel module 4 placed on the front cabinet 2. In FIG. 6, the left side corresponds to the inside of the front cabinet 2, and the left end of the front cabinet 2 is interrupted around the opening 21. In FIG. 6, the right side corresponds to the outside of the front cabinet 2. FIG. 6 explains the outline of the liquid crystal panel 41, the optical sheet 42, the light guide plate 43, and the reflection sheet 44 stacked on the front cabinet 2 from the positional relationship with respect to the first rib 22 and the second rib 23. Although the actual first rib 22 and the second rib 23 are separated, the first rib 22 and the second rib 23 in FIG. 6 are shown projected in the normal direction of FIG. It is.

  The front edge of the liquid crystal panel 41 is in contact with the edge around the opening 21 of the front cabinet 2, and the side surface of the liquid crystal panel 41 is in contact with the inner surface of the first rib 22. The optical sheet 42 rides on the liquid crystal panel 41, and the peripheral edge of the optical sheet 42 is separated from the inner surface of the first rib 22 with a slight gap.

The peripheral edge of the optical sheet 42 has a portion facing the first rib 22 and a portion facing the second rib 23. The solid line of the optical sheet 42 indicates the peripheral end portion of the optical sheet 42 that faces the first rib 22. A broken line and a solid line on the right side of the optical sheet 42 indicate a peripheral end portion of the optical sheet 42 facing the second rib 23.
The peripheral edge of the optical sheet 42 facing the first rib 22 is slightly separated from the inner surface of the first rib 22. The peripheral end of the optical sheet 42 facing the second rib 23 extends further to the outside and abuts against the inner surface of the second rib 23.

FIG. 7 is an explanatory diagram showing the positional relationship between the optical sheet 42 and the first rib 22 and the second rib 23. FIG. 7 shows a stage where the optical sheet 42 is exposed on the back side in the process of assembling the liquid crystal television 1. The left side of FIG. 7 corresponds to the inside of the optical sheet 42, and the right side of FIG. 7 corresponds to the outside of the optical sheet 42. The peripheral end of the optical sheet 42 facing the second rib 23 is in contact with the inner surface of the second rib 23. On the other hand, a rectangular notch 421 is provided at the peripheral edge of the optical sheet 42 facing the first rib 22, and the notch 421 is separated from the first rib 22 with a slight gap. Yes.
The peripheral end of the optical sheet 42 may abut on the inner side surfaces of both the first rib 22 and the second rib 23.
Alternatively, the peripheral end of the optical sheet 42 may abut only on the inner surface of the first rib 22. In this case, the shape and size of the optical sheet 42 are substantially the same as the back surface of the liquid crystal panel 41, and the notch 421 is not provided.

  6, the peripheral edge portion of the front surface of the light guide plate 43 is in contact with the tip end portion of the first rib 22, and the side surface of the light guide plate 43 is in contact with the inner surface of the second rib 23. The reflection sheet 44 rides on the light guide plate 43, and the peripheral end of the reflection sheet 44 is in contact with the inner surface of the second rib 23. The back surface of the reflection sheet 44 is in contact with the backlight chassis 45. The peripheral end portion of the front surface of the backlight chassis 45 is in contact with the front end surface of the second rib 23. The light guide plate 43 receives a pressing force resulting from the fastening of the screw 5 from the backlight chassis 45 via the reflection sheet 44 and presses the front end surface of the first rib 22.

In FIG. 6, the gap is exaggerated between the optical sheet 42 and the light guide plate 43. However, in practice, this gap is very narrow, and the light guide plate 43 hardly presses the optical sheet 42 even when the light guide plate 43 receives a pressing force resulting from the fastening of the screw 5. Therefore, the optical sheet 42 does not undergo deformation such as bending or warping due to pressing.
In the vicinity of the lower corner of the opening 21, the function of the second rib 23 in FIG.

FIG. 8 is a rear view of the structure around the partition rib 24. FIG. 8 shows a state where the discharge prevention frame 40, the heat sink 46, the LED substrate 47 and the LED 48 are attached to the front cabinet 2.
In the approximate center of FIG. 8, a heat sink 46 extending in the lateral direction is depicted. An LED substrate 47 is fixed on the heat sink 46, and an LED 48 is further mounted on the LED substrate 47. A connector 49 for connecting a power cord 6 for supplying power to the LED 48 is installed at the right end of the LED board 47. The connector 49 is surrounded by the lower LED board 47, the upper and side partition ribs 24, and the front cabinet 2 on the front side. The back side of the connector 49 is covered with a backlight chassis 45 not shown in FIG.

FIG. 9 is a partial rear view of the front cabinet 2 and the liquid crystal panel module 4 corresponding to the periphery of the partition rib 24 of FIG. FIG. 9 shows a state in which the backlight chassis 45 is attached to the liquid crystal television 1 in the state of FIG.
An opening 451 is provided at a position of the backlight chassis 45 facing the connector 49. The opening 451 is provided for inserting the power cord 6 connected to the connector 49 to the outside of the liquid crystal panel module 4. Alternatively, the opening 451 is an opening for inserting the power cord 6 connected to the connector 49 from the outside to the inside of the liquid crystal panel module 4. The shape of the opening 451 is substantially rectangular. However, the shape of the opening 451 is not limited to a specific shape.

  If the partition rib 24 is not erected from the back surface of the front cabinet 2, the light from the LED 48 leaks from the opening 451 to the outside of the liquid crystal panel module 4. However, the LED 48 and the opening 451 are blocked by the LED substrate 47, the front cabinet 2, the backlight chassis 45, and the partition rib 24. Therefore, the light from the LED 48 does not leak outside the liquid crystal panel module 4.

FIG. 10 is a perspective view showing the lower right portion of the backlight chassis 45 corresponding to the periphery of the partition rib 24. FIG. 10 shows the back surface portion of the backlight chassis 45.
The lower edge portion of the backlight chassis 45 has a step portion 452 formed by being bent in a crank shape along the lower long side of the backlight chassis 45. The backlight chassis 45 from the step 452 to the lower end is a shelf that protrudes toward the back side. The opening 451 is provided so as to cross the stepped portion 452. A portion of the backlight chassis 45 that faces the partition rib 24 above the stepped portion 452 is formed with a dish-like portion 453 that rises in a dish-like shape on the back side. Therefore, a step portion 453a is formed between the dish-like portion 453 and the surrounding flat portion. The front end surface of the partition rib 24 on the back side is configured to contact the front side surface inside the dish-like portion 453 and the step portion 452, and to contact a part of the shelf portion below the step portion 452.
The light from the LED 48 is also inserted into a portion where the front end surface of the partition rib 24 is in contact with the front side surface inside the dish-like portion 453. The step portion 453a has a function of blocking part of the light toward the portion where the partition rib 24 and the dish-like portion 453 are in contact.

  FIG. 11 is a rear view of the liquid crystal television 1 with the back cabinet 2 and the backlight chassis 45 removed. FIG. 11 shows a state where the back surface of the light guide plate 43 is widely exposed. Below the light guide plate 43, an LED substrate 47 and an LED 48 are disposed with a slight gap therebetween. In addition, in FIG. 11, the code | symbol of LED48 is abbreviate | omitted.

A plurality of recesses 431 are provided around the light guide plate 43.
A recess 431 a provided at the upper corner of the light guide plate 43 is provided to avoid a fixing screw that passes through the back cabinet 3 and is screwed into the front cabinet 2. A recess 431b provided at the center of the side end of the light guide plate 43 is also a recess 431 for avoiding screws. The concave portion 431 d provided at the lower corner of the light guide plate 43 is a concave portion 431 that is adjacent to the partition rib 24 as a positioning portion of the light guide plate 43 and accommodates the partition rib 24 when the liquid crystal television 1 is assembled. A recess 431 c is provided between a recess 431 b provided at the center of the side end of the light guide plate 43 and a recess 431 d provided at the lower corner of the light guide plate 43. The recess 431 c is a recess 431 for the second rib 23 serving as a positioning portion of the light guide plate 43 to come into contact with the light guide plate 43 and to be fitted to the light guide plate 43.

When the LED 48 is turned on, the temperature of the acrylic light guide plate 43 rises due to heat generated from the LED 48, for example. In that case, the heat conduction speed is fast, and the light guide plate 43 is uniformly heated in a short time. The light guide plate 43 is thermally expanded uniformly.
When the light guide plate 43 is thermally expanded, the distance between the light guide plate 43 and the LED 48 is shortened. In the example of FIG. 11, when the distance between the lower side surface of the light guide plate 43 and the LED 48 provided thereunder changes, the luminance distribution of light emitted from the light guide plate 43 may be biased.

  The heat-expanded concave portion 431 c of the light guide plate 43 is in close contact with the second rib 23 and presses the second rib 23. However, the concave portion 431c is balanced by the reaction force from the second rib 23 and is prevented from moving due to thermal deformation. On the other hand, the upper and lower portions of the light guide plate 43 move by thermal expansion from the line connecting the left and right recesses 431c. At this time, since the concave portion 431 c and the second rib 23 are provided at a position lower than half the height of the light guide plate 43, the upper light guide plate 43 is wider than the lower light guide plate 43. Therefore, the thermal expansion amount of the lower side surface of the light guide plate 43 is always smaller than the thermal expansion amount of the upper side surface. Therefore, by providing the concave portion 431c and the second rib 23 below the center position of the side (short side) of the light guide plate 42, the lower side surface of the light guide plate 43 and the LED 48 provided therebelow. It is possible to reduce the distance change between the two. Alternatively, the concave portion 431c and the second rib 23 are provided at positions closer to the side edge of the light guide plate 43 closest to the LED 48 than to the side edge of the light guide plate 43 farthest from the LED 48. A change in distance between the lower side surface and the LED 48 can be reduced.

  In FIG. 11, partition ribs 24 are disposed at the lower corners of the light guide plate 43. The light guide plate 43 projecting downward presses the partition rib 24 due to thermal expansion. However, the pressed partition rib 24 pushes back the light guide plate 43 by reaction. Therefore, the partition rib 24 also has a function of reducing a change in distance between the lower side surface of the light guide plate 43 and the LED 48 provided therebelow.

  When the bezel for fixing each component of the liquid crystal panel module is excluded from the liquid crystal television, the strength of the liquid crystal panel module is reduced. Therefore, the back cabinet 3 is provided with a structure that ensures the strength of the liquid crystal panel module 4 in the liquid crystal television 1.

  FIG. 12 is a rear view of the liquid crystal television 1 with the back cabinet 3 removed. In FIG. 12, the backlight chassis 45 is widely exposed. A receiver T and a power supply board P are attached to the lower part of the back surface of the backlight chassis 45. A flat surface extends on the upper part of the back surface of the backlight chassis 45.

FIG. 13 is a plan view of the back cabinet 3 as seen from the front side.
Abutting ribs 31 parallel to the substantially horizontal and substantially vertical directions are provided on the upper part of the front surface of the back cabinet 3. The contact ribs 31 are arranged in parallel at substantially equal intervals in both the substantially horizontal and substantially vertical directions. The substantially horizontal abutment rib 31 and the substantially vertical abutment rib 31 intersect at a substantially right angle and form a lattice shape or a cross beam shape. The height of the abutment rib 31 with respect to the front surface of the back cabinet 3 is adjusted so that the front end of the abutment rib 31 abuts against the flat back surface portion of the backlight chassis 45 when the back cabinet 3 is incorporated in the liquid crystal television 1. ing. When the back cabinet 3 is screwed to the front cabinet 2, the tips of the contact ribs 31 press the backlight chassis 45 by the fastening force of the screws. This pressing force propagates to the front part including the light guide plate 43 and increases the strength of the liquid crystal panel module 4.

FIG. 14 is a perspective view of the back cabinet 3. FIG. 14 shows the back cabinet 3 viewed from the right side on the back side.
In the upper part of the back surface of the back cabinet 3, recesses 32 are formed at two locations separated from the center from side to side. The depths of the two concave portions 32 are substantially the same. The two concave portions 32 both have a rectangular flat bottom, and an acutely inclined surface is formed between the flat bottom and the periphery of the concave portion 32. A portion between the two concave portions 32 is a convex portion 33 having a rectangular flat surface protruding relative to the concave portion 32. The flat surface of the convex portion 33 is slightly depressed from the flat surfaces of the upper and lower back cabinets 3.

  The lower part of the back cabinet 3 facing the receiving unit T attached to the backlight chassis 45 is formed with a recess 32 that falls substantially vertically from the back surface.

  The strength of the back cabinet 3 is increased when the back cabinet 3 has a concave and convex shape having the concave portions 32 and the convex portions 33 rather than a flat shape. The liquid crystal panel module 4 increases in strength when pressed from the back cabinet 3 with increased strength. Further, the back cabinet 3 also comes into contact with the liquid crystal panel module 4, so that the strength is increased as compared with the case where it is a single unit. Due to such interaction, the liquid crystal panel module 4 and the back cabinet 3 of the liquid crystal television 1 are strengthening each other.

  The unevenness on the front side of the back cabinet 3 in FIG. 13 is reversed to the unevenness on the back side. A convex portion 33 at the upper center of the back cabinet 3 in FIG. 13 is recessed to the back side with respect to the backlight chassis 45. On the other hand, the concave portion 32 protrudes from the backlight chassis 45. Therefore, the height of the contact rib 31 of the convex portion 33 is made higher than the height of the contact rib 31 of the concave portion 32 so that the contact rib 31 of the convex portion 33 and the contact rib 31 of the concave portion 32 are evenly spaced. The contact rib 31 is configured to press 45.

In FIG. 13, a heat radiating hole 34 for releasing heat inside the liquid crystal television 1 to the outside is provided outside the recess 32. There are a plurality of heat radiating holes 34, and the plurality of heat radiating holes 34 are arranged in parallel in two directions of substantially horizontal and substantially vertical. The region of the back cabinet 3 provided with the plurality of heat radiation holes 34 forms a heat radiation hole portion 340 that can be clearly distinguished from the other regions in appearance.
In FIG. 13, the heat radiating hole 340 has an L shape outside the two concave portions 32 so as to border the rectangular concave portions 32. A rectangular heat radiation hole 340 is also provided between the lower portion of the back cabinet 3 facing the power supply substrate P and the right-side concave portion 32 thereon.

  The cross-shaped contact rib 31 is also provided in the heat dissipation hole 340. Specifically, the contact ribs 31 are arranged in parallel at substantially equal intervals in both the substantially horizontal and substantially vertical directions in the vicinity of the heat radiation holes 34 or in the vicinity of the heat radiation holes 34 arranged in the heat radiation hole portion 340. ing. Thereby, the range in which the contact rib 31 contacts the backlight chassis 45 can be expanded.

Next, a method for assembling the liquid crystal television 1 will be described.
FIGS. 15, 16, 17, and 18 are explanatory diagrams showing the procedure for assembling the liquid crystal television 1. 15, FIG. 16, FIG. 17 and FIG. 18 are partial rear views of the liquid crystal television 1 in the state of assembling, and each shows a lower right portion of the liquid crystal television 1. FIG.

FIG. 15A is a partial rear view of the front cabinet 2. The front cabinet 2 is placed on a substantially horizontal surface with the back surface of the front cabinet 2 facing upward.
FIG. 15B shows a state in which the discharge prevention frame 40 is attached to the front cabinet 2 of FIG. 15A. A discharge prevention frame 40 is attached along the frame of the front cabinet 2.
A cutout into which the first rib 22 can be fitted is provided at the position of the discharge prevention frame 40 corresponding to the first rib 22. At positions of the discharge prevention frame 40 corresponding to the second rib 23 and the partition rib 24, openings through which the second rib 23 and the partition rib 24 can be inserted are provided. When the discharge prevention frame 40 is stacked on the front cabinet 2, the discharge prevention frame 40 is positioned with respect to the front cabinet 2 so that the first rib 22, the second rib 23, and the partition rib 24 stand upright from these notches and openings. .

FIG. 15B also shows a state where the heat sink 46, the LED board 47, the LED 48, and the connector 49 are attached to the front cabinet 2 of FIG. 15A.
The LED 48 and the connector 49 are attached to the LED board 47 in advance. The LED substrate 47 is fixed to the heat sink 46 with screws. A heat sink 46 to which the LED substrate 47 is fixed is attached to the lower end of the discharge prevention frame 40.

  FIG. 16A shows a state in which the liquid crystal panel 41 is attached to the liquid crystal television 1 of FIG. 15B. The liquid crystal panel 41 is positioned so as to be in contact with the inner surfaces of the plurality of first ribs 22 standing upright from the periphery of the opening 21, and the liquid crystal panel 41 is inserted into a space surrounded by the plurality of first ribs 22.

  FIG. 16B shows a state in which the optical sheet 42 is attached to the liquid crystal television 1 of FIG. 16A. The size of the optical sheet 42 is such that the outer peripheral edge abuts against the second rib 23. However, when the optical sheet 42 is placed on the liquid crystal panel 41, the first rib 22 provided inside the second rib 23 overlaps the optical sheet 41. Therefore, a notch portion 421 that avoids the first rib 22 is provided at the peripheral end portion of the optical sheet 42 corresponding to the first rib 22. Since a plurality of first ribs 22 are provided in the front cabinet 2, a plurality of notches 421 are also provided accordingly. The optical sheet 42 is positioned so that the first rib 22 is accommodated in each of the plurality of notches 421 and the peripheral ends are in contact with the inner surfaces of the plurality of second ribs 23. Is placed on the liquid crystal panel 41.

  FIG. 17A shows a state in which the light guide plate 43 is attached to the liquid crystal television 1 of FIG. 16B. The light guide plate 43 is positioned so that the three second ribs 23 provided in the front cabinet 2 fit into the recesses 431 c of the light guide plate 43. At this time, the light guide plate 43 is also positioned so that the recesses 431 d at the lower corners of the light guide plate 43 abut against the two partition ribs 24 provided in the front cabinet 2. Then, the light guide plate 43 is inserted into the space surrounded by the second rib 23 and the partition rib 24.

  FIG. 17B shows a state where the backlight chassis 45 is attached to the liquid crystal television 1 of FIG. 17A. The backlight chassis 45 is positioned so that the screw holes provided in the backlight chassis 45 overlap the bosses provided in the front cabinet 2. Thereafter, the screw 5 is inserted into the screw hole, and each component of the liquid crystal panel module 4 is fixed to the front cabinet 2 with the screw 5.

FIG. 18 shows a state in which the back cabinet 3 is attached to the liquid crystal television 1 of FIG. 17B. The back cabinet 3 is positioned so that the circumference of the back cabinet 3 is inscribed in the circumference of the front cabinet 2. At that time, the screw hole provided in the back cabinet 3 overlaps with the boss provided in the front cabinet 2. Thereafter, the screw 7 is inserted into the screw hole, and the back cabinet 3 and the front cabinet 2 are fixed with the screw 7.
An abutment rib 31 that abuts against the backlight chassis 45 of the liquid crystal panel module 4 is provided on the front surface of the back cabinet 3. Since the contact rib 31 presses the backlight chassis 45, the liquid crystal panel module 4, the back cabinet 3, and the front cabinet 2 are fixed by fastening the screws 7.

  Although there are a plurality of contact ribs 31 according to the present embodiment, only one contact rib 31 may be provided. The abutment ribs 31 may be arranged in three or more directions, and the abutment ribs 31 in different directions may not intersect each other. For example, the contact ribs 31 having six directions may be arranged radially.

The liquid crystal television 1 according to the present embodiment is an edge light system in which the light of the LED 48 is incident only on one side surface of the light guide plate 43, and the heat sink 46, the LED substrate 47, and the LED 48 are the same as those of the light guide plate 43. It is provided only at a position facing the lower side surface.
However, the edge light system in the liquid crystal television 1 may be such that light is incident on the light guide plate 43 from all side surfaces, or light is incident on the light guide plate 43 from the left and right side surfaces or the upper and lower side surfaces. Therefore, the arrangement number and arrangement position of the heat sink 46, the LED board 47, and the LED 48 may be changed according to the number and position of the side surfaces on which light is incident on the light guide plate 43.

  The contact rib 31 of the back cabinet 3 according to the present embodiment is in contact with the edge light type liquid crystal panel module 4. However, the abutment rib 31 may abut on a direct liquid crystal panel module. That is, the liquid crystal television 1 may include a direct type backlight.

According to the liquid crystal television 1, the strength of the liquid crystal panel module 4 can be increased.
The strength of the liquid crystal panel module 4 from which the bezel for fixing each component is removed is lower than that when the bezel is provided. However, since the abutment rib 31 of the back cabinet 3 presses the backlight chassis 45 by fastening of the screws 7 that fix the back cabinet 3 and the front cabinet 2, the strength of the liquid crystal panel module 4 increases. Moreover, the strength of the back cabinet 3 is increased by providing the contact ribs 31 in the back cabinet 3.

  Since the back cabinet 3 is made of resin, it is lighter than a steel plate reinforcing material attached to the backlight chassis 45, so that it does not conflict with the weight reduction of the liquid crystal television 1 than when the liquid crystal panel module is reinforced by the reinforcing material. Moreover, since the contact rib 31 is provided by integral molding of the backlight cabinet 3, it contributes to the elimination of the bezel and the reduction in the number of parts.

The back cabinet 3 is in contact with the backlight chassis 45 at a line at the tip of the contact rib 31 rather than a surface. Therefore, the contact area between the back cabinet 3 and the backlight chassis 45 is limited, and chattering that is vibration of internal components can be suppressed.
Further, since the contact rib 31 does not contact the backlight chassis 45 in a planar shape, air exists between the area of the back cabinet 3 where the contact rib 31 is provided and the backlight chassis 45. . The air heated by the heat inside the liquid crystal television 1 moves from the heat radiation hole 34 of the back cabinet 3 to the outside of the liquid crystal television 1. Thereby, the reinforcement structure by the contact rib 31 does not disturb the heat dissipation effect.

According to the liquid crystal television 1, the uniformity of light on the screen 411 is not impaired.
The force by which the light guide plate 43 presses the front side due to the fastening of the screws 5 and 7 acts on the front end portion of the first rib 22, but hardly acts on the optical sheet 42. Therefore, the optical sheet 42 is not deformed such as bending and warping. The optical sheet 42 uniformly diffuses the light emitted from the light guide plate 43 and causes the diffused light to enter the liquid crystal panel 41, so that luminance unevenness does not occur in the image displayed on the screen 411 of the liquid crystal panel 41.

  In order to increase the light incident rate to the light guide plate 43, the LED 48 and the light guide plate 43 are arranged as close as possible, but the LED 48 and the side surface of the light guide plate 43 change even slightly than a predetermined distance. The brightness of incident light changes greatly. The change in the luminance of the light incident on the light guide plate 43 causes a variation in the luminance of the light emitted from the light guide plate 43. Therefore, it is necessary to prevent the distance between the LED 48 and the light guide plate 43 from easily fluctuating due to thermal deformation, vibration, or the like.

  According to the liquid crystal television 1, the thermal expansion of the light guide plate 43 is restricted by the second rib 23 because the second rib 23 penetrates the recess 431. The concave portion 431 and the second rib 23 are provided at a position corresponding to the LED 48 closer to the center than the approximate center of the side surface corresponding to the short side of the light guide plate 43. Therefore, the amount of movement of the portion of the light guide plate 43 below the recess 431 is always smaller than the amount of movement of the portion of the light guide plate 43 above the recess 431. Thereby, the fluctuation | variation of the distance of LED48 and the side surface of the light-guide plate 43 into which light injects can be suppressed.

Embodiment 2
The second embodiment relates to a mode in which a support portion that supports the light guide plate 43 is provided on the discharge prevention frame (frame body) 40. The light guide plate 43 is sandwiched between the support portion of the discharge prevention frame 40 located on the front side and the backlight chassis 45 located on the rear side.

  The discharge prevention frame 40 is a frame body positioned between the front cabinet 2 on the front side and the liquid crystal panel 41 on the rear side (see FIG. 2). The discharge prevention frame 40 has a size that overlaps the plurality of first ribs 22, second ribs 23, and partition ribs 24 provided on the back side of the front cabinet 2 (see FIGS. 15A and 15B).

  FIG. 19 is a rear view of the discharge prevention frame 40. The discharge prevention frame 40 is formed by, for example, pressing a metal material. The discharge prevention frame 40 includes a cylindrical outer frame and a flange-shaped inner frame projecting inward from the front end of the outer frame (see FIG. 2). The inner frame is substantially parallel to the front surface of the light guide plate 43.

  A rectangular first rib insertion hole (first insertion hole) 403 and a second rib insertion hole (second insertion hole) through which the first rib 22 and the second rib 23 can be inserted, respectively, are provided in the inner frame of the discharge prevention frame 40. 404) are provided at positions corresponding to the first rib 22 and the second rib 23, respectively. Further, a rectangular partition rib insertion hole 405 into which the partition rib 24 can be inserted is provided in a position corresponding to the partition rib 24 in the inner frame of the discharge prevention frame 40.

  A bridge 406 is provided on the discharge prevention frame 40. The bridge 406 corresponds to a support portion that supports the light guide plate 43. When viewed from the back side or the front side, the bridge 406 partially closes the outer region in the first rib insertion hole 403.

FIG. 20 is a perspective view showing the discharge preventing frame 40 partially enlarged. FIG. 20 shows an enlarged portion of the first rib insertion hole 403. The lower right direction in FIG. 20 indicates the inner direction of the discharge prevention frame 40, and the upper left direction in FIG. 20 indicates the outer direction of the discharge prevention frame 40.
The bridge 406 includes two protrusions 4061 and a flat part 4062. The two protrusions 4061 are plate-like members that protrude from the peripheral edge of the first rib insertion hole 403 facing each other in the circumferential direction of the discharge prevention frame 40 to the back side. The two protrusions 4061 in FIG. 20 protrude from the peripheral edge of the first rib insertion hole 403 toward each other and toward the back side. That is, the two protrusions 4061 protrude from the inner edge of the first rib insertion hole 403 to the back side at an acute angle with respect to the opening surface of the first rib insertion hole 403.

The flat portion 4062 is a flat plate that suspends between the two protrusions 4061 in the circumferential direction of the discharge prevention frame 40. The flat portion 4062 is substantially parallel to the inner frame of the discharge prevention frame 40. Therefore, the flat portion 4062 is also substantially parallel to the front side surface of the light guide plate 43.
The bridge 406 is provided so as to close the outer side region in the first rib insertion hole 403, and the inner side region in the first rib insertion hole 403 remains open. When the discharge prevention frame 40 is attached to the front cabinet 2, the first rib 22 protrudes from the inner side region in the first rib insertion hole 403 to the back side.

FIG. 21 is a perspective view showing the front cabinet 2 and the discharge prevention frame 40 partially enlarged. FIG. 21 is an enlarged view of the first rib 22, the first rib insertion hole 403, and the bridge 406 in a state where the discharge prevention frame 40 is attached to the front cabinet 2. 21 indicates the inner direction of the front cabinet 2 and the discharge prevention frame 40, and the upper left direction of FIG. 21 indicates the outer direction of the front cabinet 2 and the discharge prevention frame 40.
The height of the flat portion 4062 is higher than the height of the first rib 22 protruding from the first rib insertion hole 403 to the back side when the liquid crystal panel module 4 is assembled. That is, when the liquid crystal panel module 4 is assembled, the flat portion 4062 is in contact with the front peripheral edge portion of the light guide plate 43, and the height of the flat portion 4062 and the tip portion of the first rib 22 are not in contact with the light guide plate 43. The height of the first rib 22 is adjusted.

  FIG. 22 is an explanatory diagram showing an outline in which components of the liquid crystal panel module 4 are placed on the front cabinet 2. In FIG. 22, the left side corresponds to the inside of the front cabinet 2, and the left end of the front cabinet 2 is interrupted around the opening 21. In FIG. 22, the right side corresponds to the outside of the front cabinet 2. In FIG. 22, the outline of the discharge prevention frame 40, the liquid crystal panel 41, the optical sheet 42, the light guide plate 43, and the reflection sheet 44 stacked on the front cabinet 2 is illustrated with respect to the first rib 22, the second rib 23, and the bridge 406. It is shown including the positional relationship. Although the actual first rib 22 and second rib 23 are isolated, the first rib 22 and second rib 23 in FIG. 22 are shown projected in the normal direction of FIG. It is.

The front edge of the liquid crystal panel 41 is in contact with the edge around the opening 21 of the front cabinet 2, and the side surface of the liquid crystal panel 41 is in contact with the inner surface of the first rib 22. The optical sheet 42 is laminated on the liquid crystal panel 41.
As shown in FIG. 3, the front edge of the liquid crystal panel 41 may be supported by the discharge prevention frame 40 via the spacer 4a, but may be supported only by the front cabinet 2 without providing the spacer 4a. Good.

  A rectangular notch 421 is provided at the peripheral end of the optical sheet 42 facing the first rib 22, and the notch 421 is separated from the inner surface of the first rib 22 with a slight gap. ing. The peripheral edge of the optical sheet 42 where the notch 421 is not provided is in contact with the inner surface of the second rib 23. In FIG. 22, the solid line of the optical sheet 42 indicates the peripheral end portion of the optical sheet 42 facing the first rib 22 and the second rib 23. A broken line of the optical sheet 42 indicates a hollow portion of the notch portion 421 that avoids the first rib insertion hole 403 and the bridge 406.

The height of the first rib 22 in the second embodiment is slightly lower than the height of the first rib 22 in the first embodiment. When the liquid crystal panel module 4 is assembled, the height of the first rib 22 is slightly higher than the distance from the back surface of the front cabinet 2 to the back surface of the optical sheet 42. That is, the height of the first rib 22 is larger than the total thickness of the discharge prevention frame 40, the liquid crystal panel 41, and the optical sheet 42. On the other hand, when the liquid crystal panel module 4 is assembled, the height of the flat portion 4062 of the bridge 406 is higher than the height at which the first rib 22 protrudes from the first rib insertion hole 403. Therefore, the front peripheral edge portion of the light guide plate 43 in FIG. 22 is in contact with the flat portion 4062 of the bridge 406 and is not in contact with the first rib 22.
The height of the first rib 22 may be the same as the total thickness of the discharge prevention frame 40, the liquid crystal panel 41, and the optical sheet 42.

  The side surface of the light guide plate 43 in FIG. 22 is in contact with the inner surface of the second rib 23. The reflection sheet 44 rides on the light guide plate 43, and the peripheral end of the reflection sheet 44 is in contact with the inner surface of the second rib 23. The back surface of the reflection sheet 44 is in contact with the backlight chassis 45. The peripheral end portion of the front surface of the backlight chassis 45 is in contact with the front end surface of the second rib 23. The light guide plate 43 receives a pressing force resulting from the fastening of the screws 5 from the backlight chassis 45 via the reflection sheet 44, and presses the flat portion 4062 of the bridge 406.

  In FIG. 22, the gap is drawn exaggerated between the optical sheet 42 and the light guide plate 43. However, in reality, this gap is narrow, and the light guide plate 43 hardly presses the optical sheet 42 even if it receives a pressing force resulting from the fastening of the screw 5 due to the narrow gap. Therefore, the optical sheet 42 does not undergo deformation such as bending or warping due to pressing.

The liquid crystal television 1 may include a conductive plate connected to a ground cable for reducing EMI (Electro-Magnetic Interference) instead of the discharge prevention frame 40. In this case, the conductive plate has the same form as the discharge prevention frame 40 and is incorporated in the same position as the discharge prevention frame 40 in the liquid crystal television 1. In such a case, a support portion that supports the light guide plate 43 is provided on the conductive plate.

  In the second embodiment, the height of the bridge 406 in the back direction is higher than the height of the first rib 22 protruding from the first rib insertion hole 403. However, the height of the bridge 406 in the back direction may be the same as the height of the first rib 22 protruding from the first rib insertion hole 403. In such a case, the flat portion 4062 of the bridge 406 and the tip of the first rib 22 abut on the front peripheral edge of the light guide plate 43, and the front side of the light guide plate 43 is supported by both the bridge 406 and the first rib 22.

  In the second embodiment, a total of two protrusions 4061 are provided, one from each of the opposing peripheral edges in the first rib insertion hole 403. However, two or more protrusions 4061 may be provided from both peripheral edges facing each other in the first rib insertion hole 403. For example, a total of six protrusions 4061 may be provided, three each from both peripheral edge portions facing each other in the first rib insertion hole 403. In such a case, the flat portion 4062 is constructed between one of the three protruding portions 4061 and the other three protruding portions 4061.

According to the liquid crystal television 1, the uniformity of light on the screen 411 is not impaired.
The force by which the light guide plate 43 presses the front side by fastening the screws 5 and 7 acts on the flat portion 4062 of the bridge 406, but hardly acts on the optical sheet 42. Therefore, the optical sheet 42 is not deformed such as bending and warping. The optical sheet 42 uniformly diffuses the light emitted from the light guide plate 43 and causes the diffused light to enter the liquid crystal panel 41, so that luminance unevenness does not occur in the image displayed on the screen 411 of the liquid crystal panel 41.

  The second embodiment is as described above, and the other parts are the same as those of the first embodiment. Therefore, the corresponding parts are denoted by the same reference numerals, and the detailed description, operation, and effect thereof are omitted.

  The liquid crystal display device according to the present application has been described above by taking the liquid crystal television 1 as an example. The liquid crystal display device according to the present application can be applied to, for example, a monitor used by connecting to a personal computer, a server computer, etc., an indoor display used for digital signage, and a street display.

  The disclosed embodiments should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

DESCRIPTION OF SYMBOLS 1 LCD television 2 Front cabinet 21 Opening 22 1st rib 22a 1st main rib 22b 1st sub rib 23 2nd rib 23a 2nd main rib 23b 2nd sub rib 24 Partition rib 24a Partition main body rib 24b Partition reinforcement rib 3 Back cabinet 31 Contact Rib 32 Concave 33 Convex 34 Heat Dissipation Hole 340 Heat Dissipation Hole 4 Liquid Crystal Panel Module 4a Spacer 4b Spacer 40 Discharge Prevention Frame (Frame)
401 bent portion 402 bent portion 403 first rib insertion hole (first insertion hole)
404 Second rib insertion hole (second insertion hole)
405 Partition rib insertion hole 406 Bridge (support)
4061 Protruding part 4062 Flat part 41 Liquid crystal panel 411 Screen 42 Optical sheet 421 Notch part 43 Light guide plate 431 Recess 44 Reflective sheet 441 Notch part 45 Backlight chassis (lid part)
451 Opening 452 Stepped portion 453 Dish-shaped portion 453a Stepped portion 46 Heat sink 47 LED substrate 48 LED (light source)
49 Connector 5 Screw 6 Power cord 7 Screw T Receiver P Power supply board S Stand

Claims (5)

A liquid crystal panel module is placed between the front cabinet on the front side and the back cabinet on the back side.
The liquid crystal panel module has a liquid crystal panel, an optical sheet and a light guide plate laminated in order from the front side to the back side,
In a liquid crystal display device that displays an image on a screen of the liquid crystal panel viewed from an opening provided in the front cabinet by emitting light from a light source to the light guide plate and emitting light from the light guide plate to the optical sheet ,
A plurality of first ribs formed around an opening in the back surface of the front cabinet;
A plurality of second ribs formed around the opening at a position farther from the opening than the first rib on the back surface of the front cabinet;
The first rib has a height greater than the total thickness of the liquid crystal panel and the optical sheet, and the front end surface is in contact with the front peripheral edge of the light guide plate,
The second rib has a height greater than the total thickness of the liquid crystal panel, optical sheet and light guide plate,
The liquid crystal display device, wherein the light guide plate is accommodated in a range surrounded by the second rib. The light guide plate is wider than the optical sheet,
The liquid crystal display device according to claim 1, wherein a width of the optical sheet is the same as or wider than that of the liquid crystal panel. The liquid crystal display device according to claim 1, wherein the liquid crystal panel is accommodated in a range surrounded by the first rib. The liquid crystal display device according to claim 1, wherein the optical sheet is accommodated in a range surrounded by the first rib or the second rib. A liquid crystal display device according to any one of claims 1 to 4,
A receiver for receiving TV broadcasts,
The liquid crystal panel, wherein the liquid crystal panel module is configured to display on the screen of the liquid crystal panel an image related to the television broadcast received by the receiving unit.

Images