JP5651734B2 - Display device and television receiver - Google Patents

Description

  The present invention relates to a display device and a television receiver including the display device.

  Patent Document 1 includes, as a technique for fixing a plate member with ribs formed on a housing, an attachment portion for attaching the plate member, and a plurality of ribs provided on the attachment portion and locking the plate member. In the locking structure, the plurality of ribs include a first rib that locks one side portion of the plate member and a second rib that locks the other side portion of the plate member. A stop structure is described.

JP 2009-181037 A (released on August 13, 2009)

  In order to reduce the manufacturing cost of the display device, the present inventors are examining a display device in which a substrate on which a light source is arranged is fixed to a back cabinet instead of a back chassis. Such a display device is preferably configured so that the substrate does not bend. In order to reduce the manufacturing cost of the display device, it is preferable to fix the substrate to the back cabinet with a simple process.

  However, in the technique of Patent Document 1, it is necessary to bend the plate member when fixing the plate member to the rib. Therefore, it is difficult to apply the technique of Patent Document 1 to the display device.

  The present invention has been made in view of the above problems, and in a display device in which a substrate on which a light source is arranged is fixed to a back cabinet, the substrate is made into the back cabinet in a simple process without bending the substrate. The main purpose is to provide technology for fixing.

  In order to solve the above problems, a display device according to one embodiment of the present invention includes a back cabinet that covers a back surface of the device, a light source that is fixed to the back cabinet, and is disposed on a surface opposite to the back cabinet. A fixing rib for fixing the substrate is formed in the back cabinet, and the fixing rib loosely fits the substrate to the fixing rib, When the substrate is moved to a fixing position along the longitudinal direction of the substrate, the substrate is fixed, and the fixing rib protrudes toward an end portion in the short direction of the substrate. A protrusion is provided, and a first notch that fits into the first protrusion when the substrate is moved to the fixed position is provided at an end in a short direction of the substrate. It is said.

  According to one embodiment of the present invention, in the display device in which the substrate on which the light source is arranged is fixed to the back cabinet, the fixing rib provided in the back cabinet loosely fits the substrate to the fixing rib, The substrate is fixed when the substrate is moved to the fixing position along the longitudinal direction, and the first protrusion of the fixing rib is provided at the end in the short direction of the substrate when the substrate is moved to the fixing position. By providing the first notch to be fitted to the part, the substrate can be fixed to the back cabinet in a simple process without bending the substrate.

1 is an exploded perspective view schematically showing a schematic configuration of a display device according to an embodiment of the present invention. It is a perspective view showing a schematic structure of an LED substrate and a heat spreader coupled to the LED substrate in an embodiment of the present invention, (a) shows the LED substrate and the heat spreader observed from the opposite side of the back cabinet, (B) shows what observed the LED board and the heat spreader from the back cabinet side. BRIEF DESCRIPTION OF THE DRAWINGS It is a top view which shows schematic structure of the heat spreader couple | bonded with the LED board near the connector and LED board in one Embodiment of this invention, (a) shows what was observed from the edge part side of a transversal direction, b) shows what was observed from the end in the longitudinal direction, and (c) shows what was observed from the back cabinet 24 side. It is a perspective view which shows schematic structure of the heat spreader couple | bonded with the LED board near the edge part of the longitudinal direction on the opposite side to the connector in one Embodiment of this invention, and an LED board, (a) is opposite to a back cabinet What was observed from the side is shown, (b) shows what was observed from the back cabinet side. It is a perspective view which shows schematic structure of the LED board and heat spreader of the state in the separated state in one Embodiment of this invention, (a) shows an LED board, (b) shows a heat spreader. It is a perspective view which shows schematic structure of the inner side of the back cabinet in one Embodiment of this invention. It is a perspective view which shows the state by which the LED board was fixed to the back cabinet in one Embodiment of this invention. It is a figure which shows partially the mode of fixation to the back cabinet of LED board in one Embodiment of this invention, (a) shows the state by which the LED board is not being fixed, (b) Indicates a fixed state. It is a figure which shows partially the mode of fixation to the back cabinet of LED board in one Embodiment of this invention, (a) shows the state by which the LED board is not being fixed, (b) Indicates a fixed state. It is a figure which shows partially the mode of fixation to the back cabinet of LED board in one Embodiment of this invention, (a) shows the state by which the LED board is not being fixed, (b) Indicates a fixed state. It is a figure which shows partially the mode of fixation to the back cabinet of LED board in one Embodiment of this invention, (a) shows the state by which the LED board is not being fixed, (b) Indicates a fixed state. It is a figure explaining the fixing method to the back cabinet of the LED board in one Embodiment of this invention, (a) is a perspective view which shows only a fixing rib, (b) is an LED board a fixing rib It is a perspective view which shows the state loosely fitted by, and (c) is a perspective view which shows the state by which the LED board was fixed to the rib for fixing. It is a top view which shows the detailed structure of the rib (1st protrusion part) in one Embodiment of this invention, (a) is a rib (1st protrusion) in the state by which the LED board was loosely fitted by the fixing rib. Part) and the LED board 22, and (b) shows the relation between the rib (first protrusion) and the LED board when the LED board is fixed to the fixing rib. It is side sectional drawing which shows the detailed structure of the rib in one Embodiment of this invention. It is a figure which shows the detailed structure of the rib in one Embodiment of this invention, (a) is the top view which observed the rib from the opposite side to the side which opposes an LED board, (b) is a rib It is a side view which shows a mode that an LED board is inserted. It is a figure which shows schematic structure of the clip in one Embodiment of this invention, (a) is a side view which shows a clip single-piece | unit, (b) is a perspective view which shows the state by which the clip was fixed to the LED board. is there. It is a perspective view which shows schematic arrangement | positioning of the clip in one Embodiment of this invention. It is a figure which contrasts the shadow which the clip in a prior art and the clip in one Embodiment of this invention each form in an optical member, (a) is a figure which shows the shadow which the clip in a prior art forms in an optical member (B) is a figure which shows the shadow which the clip in one Embodiment of this invention forms in an optical member. It is a perspective view which shows the state in which the clip in one Embodiment of this invention was fixed to the LED board. It is a perspective view which shows the state in which the clip in one Embodiment of this invention was fixed to the LED board. It is the top view which observed the state where the clip in one embodiment of the present invention was fixed to the LED substrate from the back cabinet side. It is a side view which shows the state in which the clip in one Embodiment of this invention was fixed to the LED board. It is a perspective view which shows the state by which the LED board was fixed to the back cabinet in one Embodiment of this invention, and the clip was fixed to the LED board. It is an expansion perspective view which shows a part of back cabinet which concerns on one Embodiment of this invention. It is an expansion perspective view which shows a part of outer edge of the back cabinet which concerns on one Embodiment of this invention. It is AA sectional drawing of the back cabinet shown in FIG. FIG. 4 is an enlarged perspective view showing a part of a back cabinet 24 and an optical sheet group 17 according to the present embodiment. It is an enlarged view which shows a part of external appearance of the upper side P chassis which concerns on one Embodiment of this invention, (a) is a front view of an upper side P chassis, (b) is a perspective view of an upper side P chassis. It is an enlarged view which shows a part of external appearance of the right side P chassis which concerns on one Embodiment of this invention, (a) is a front view of a right side P chassis, (b) is a perspective view of a right side P chassis. It is an expansion perspective view which shows a part of back cabinet, optical sheet group, and P chassis which concern on one Embodiment of this invention. It is the perspective view which looked at the display apparatus which concerns on one Embodiment of this invention from the lower side. It is BB sectional drawing of the display apparatus shown in FIG. It is CC sectional drawing of the display apparatus shown in FIG. It is DD sectional drawing of the display apparatus shown in FIG. It is a back perspective view of the front cabinet concerning one embodiment of the present invention. It is a front view which shows the state which has arrange | positioned the optical sheet group to the back cabinet which concerns on one Embodiment of this invention. It is a front view which shows the state which has arrange | positioned the optical sheet group and P chassis to the back cabinet which concerns on one Embodiment of this invention. It is a front view which shows the state which has arrange | positioned the optical sheet group, P chassis, a liquid crystal panel, and a bezel to the back cabinet which concerns on one Embodiment of this invention. It is a front view which shows the external appearance of the lower bezel which concerns on one Embodiment of this invention.

  A display device according to an embodiment of the present invention will be described with reference to FIGS. The display device according to the present embodiment is not limited to this, but may be a television receiver, for example. In addition, although various restrictions preferable for implementing this invention are added in the following description, the technical scope of this invention is not limited to description of the following embodiment and drawing.

(Configuration of display device)
FIG. 1 is an exploded perspective view schematically showing a schematic configuration of a display device 1 according to an embodiment of the present invention. In the present embodiment, the display device 1 is a liquid crystal display device.

  As shown in FIG. 1, the display device 1 includes a front cabinet 10, a deco sheet 11, a lamp 12, a remote control circuit 13, a bezel 14, a liquid crystal panel 15, a P chassis 16, an optical sheet group 17, a diffuser plate 18, a reflective sheet 19, Clip 20, LED board 22, heat spreader 23, back cabinet 24, holder 25, bottom bracket 26, support bracket 27, main circuit 28, power supply circuit 29, stand 30, auxiliary circuit 36, button 37, speaker 38, top cover 39 and bottom A cover 40 is provided.

  Details of each member will be described below. In the display device 1, the side on which the display screen exists is referred to as a front surface, and the opposite side is referred to as a back surface.

(Front cabinet and back cabinet)
The front cabinet 10 is a housing that mainly covers the front surface of the display device 1. The back cabinet 24 is a housing that mainly covers the back surface of the display device 1. The front cabinet 10 and the back cabinet 24 are mainly composed of an injection molded product such as plastic.

  Between the front cabinet 10 and the back cabinet 24, the bezel 14, the liquid crystal panel 15, the P chassis 16, the optical sheet group 17, the diffusion plate 18, the reflection sheet 19, the LED substrate 22, and the heat spreader 23 are sequentially arranged from the front cabinet 10 side. Are overlaid and stored.

  Detailed structures of the front cabinet 10 and the back cabinet 24 will be described later as appropriate.

(LED substrate and heat spreader)
The LED board (substrate) 22 and the heat spreader (heat radiating plate) 23 will be described in detail with reference to FIGS.

  FIG. 2 is a perspective view showing a schematic structure of the LED substrate 22 and the heat spreader 23 coupled to the LED substrate 22. 2A shows the LED substrate 22 and the heat spreader 23 observed from the side opposite to the back cabinet 24, and FIG. 2B shows the LED substrate 22 and the heat spreader 23 observed from the back cabinet 24 side. Shows what

  FIG. 3 is a plan view showing a schematic structure of the LED substrate 22 near the connector 221 and the heat spreader 23 coupled to the LED substrate 22. 3 (a) shows what was observed from the end side in the short direction, FIG. 3 (b) shows what was observed from the end side in the longitudinal direction, and FIG. , What was observed from the back cabinet 24 side is shown.

  FIG. 4 is a perspective view showing a schematic structure of the LED substrate 22 near the end in the longitudinal direction opposite to the connector 221 and the heat spreader 23 coupled to the LED substrate 22. 4A shows what is observed from the side opposite to the back cabinet 24, and FIG. 4B shows what is observed from the back cabinet 24 side.

  FIG. 5 is a perspective view showing a schematic structure of the LED substrate 22 and the heat spreader 23 in a separated state, where (a) shows the LED substrate 22 and (b) shows the heat spreader 23.

  The LED substrate 22 is a substrate that is directly fixed to the back cabinet 24 without using a backlight chassis or the like, and the LED element (light source) 220 is disposed on the surface opposite to the back cabinet 24. Thus, by directly fixing the LED substrate 22 to the back cabinet 24, the number of parts can be reduced and the assembly process can be simplified.

  The LED substrate 22 has a strip shape, and a plurality of LED elements 220 are arranged along the longitudinal direction. By configuring the LED substrate 22 in this way, a plurality of LED elements 220 can be easily arranged in the display device 1.

  A connector 221 for electrically connecting to the main circuit 28 is provided at one end of the LED substrate 22 in the longitudinal direction. The LED board 22 is provided with a circuit for electrically connecting the connector 221 and each LED element 220 (not shown).

  The LED substrate 22 is provided with a plurality of notches and openings for the functions described later. That is, a semicircular cutout 222 is provided at the end of the LED substrate 22 in the short direction. A semicircular cutout 223 larger than the cutout 222 is provided adjacent to the cutout 222. In addition, rectangular cutouts 226 are provided at positions corresponding to both ends of the LED substrate 22 in the short direction. In addition, an elongated opening 224 in the longitudinal direction and an elongated opening 225 in the longitudinal direction are provided in the center of the LED substrate 22 in the lateral direction.

  The heat spreader 23 is a heat radiating plate having a U-shaped short cross section, a pair of side surface portions 23a and a bottom surface portion 23b, and the bottom surface portion 23b coupled to the surface of the LED substrate 22 on the back cabinet 24 side. . Thus, by using the heat spreader 23 having a U-shaped short cross section, the heat dissipation efficiency of the LED substrate 22 can be improved and the warpage of the LED substrate 22 can be suppressed with a simple configuration. That is, by making the short cross section U-shaped, it is possible to increase the surface area of the heat spreader 23 and improve the heat dissipation effect to the air. Therefore, the heat dissipation efficiency of the LED substrate 22 coupled to the heat spreader 23 Can be improved. Moreover, since the rigidity of the heat spreader 23 can be increased by making the short cross section U-shaped, warping of the LED substrate 22 coupled to the heat spreader 23 can be suppressed. Thereby, even if it is a case where the LED board 22 is directly fixed to the back cabinet 24, sufficient heat dissipation efficiency of the LED board 22 is ensured, and the curvature of the LED board 22 can be suppressed. Moreover, it also has an effect of reinforcing the strength of the back cabinet 24. Further, the heat spreader 23 can be configured to be lightweight.

  The heat spreader 23 is preferably formed of a material such as metal that has higher heat dissipation than the LED substrate 22. Thereby, the thermal radiation efficiency of LED board 22 can be improved more. For example, although not limited to this, the heat spreader 23 can be formed by SPTE.

  In addition, an opening is provided at a position corresponding to the opening provided in the LED substrate 22 in the bottom surface portion 23 b of the heat spreader 23. That is, an opening 231 having the same shape as the opening 224 is provided immediately below the opening 224 in the LED substrate 22. In addition, an opening 232 having the same shape as the opening 225 is provided immediately below the opening 225 in the LED substrate 22. An opening 233 is provided at a position adjacent to the opening 232 in the side surface portion 23 a of the heat spreader 23. These functions will be described later.

  Further, the heat spreader 23 may be exposed on at least one end side in the longitudinal direction of the LED substrate 22. As shown in FIG. 4, in this embodiment, an exposed portion 230 of the heat spreader 23 exists at the end portion (A in the drawing) of the LED substrate 22 on the opposite side to the connector 221. By providing the exposed portion 230 in this manner, the area where the heat spreader 23 is in contact with air can be increased, and the heat dissipation efficiency can be further improved. In the exposed portion 230, a groove is formed at the center. This function will be described later.

  The heat spreader 23 and the LED substrate 22 only need to be coupled in a thermally conductive manner. For example, but not limited to this, the heat spreader 23 and the LED substrate 22 can be coupled by a heat conductive double-sided tape.

  When the heat spreader 23 is made of a conductor such as metal, the ground potential portion of the LED substrate 22 and the heat spreader 23 may be electrically connected. Accordingly, the heat spreader 23 made of a conductor can be used as a path for ground connection of the LED substrate 22, and an adverse effect that may occur when the heat spreader 23 made of a conductor is electrically floating can be avoided. it can.

  Then, as shown in FIG. 7, by arranging a plurality of LED substrates 22 in a row, a plane light source suitable as a backlight of a liquid crystal display device can be obtained.

  In this embodiment, the case where an LED element is used as the light source has been described as an example. However, the present invention is not limited to this, and for example, a light source other than the LED element such as a fluorescent tube is used as the light source. You may employ | adopt the structure to be used.

  In the present embodiment, the longitudinal direction of the LED substrate 22 is parallel to the horizontal direction of the display device 1, but the present invention is not limited to this. For example, the longitudinal direction of the LED substrate 22 is displayed. You may arrange | position so that it may become parallel to the orthogonal | vertical direction of the apparatus 1. FIG.

  Further, the number of LED substrates 22 and the number of light sources arranged on each LED substrate 22 are not particularly limited.

  Further, in the present invention, the short cross section of the heat spreader 23 having a U-shape indicates that the angle between the side surface portion 23a and the bottom surface portion 23b is not less than 30 degrees and not more than 150 degrees. Further, the side surface portion 23a and the bottom surface portion 23b do not have to be flat, and part or all of them may be curved surfaces.

(Fixing the LED board to the back cabinet)
With reference to FIGS. 6 to 15, the fixing of the LED substrate 22 to the back cabinet 24 will be described in detail.

  FIG. 6 is a perspective view showing a schematic structure on the inner side of the back cabinet 24 (the side on which the LED substrate 22 and the like are present). FIG. 7 is a perspective view showing a state in which the LED substrate 22 is fixed to the back cabinet 24. In FIG. 7, the heat spreader 23 is omitted for the sake of clarity.

  As shown in FIGS. 6 and 7, the back cabinet 24 is formed with fixing ribs 240 for fixing the LED substrate 22. There are several types of fixing ribs 240 having different shapes (ribs 2400 to 2404). Details of the ribs 2400 to 2404 are shown in FIGS.

  FIG. 8 is a diagram illustrating a state in which the LED substrate 22 is fixed to the back cabinet 24 in the portion 2420 illustrated in FIG. 6. FIG. 8A shows a state where the LED board 22 is not fixed, and FIG. 8B shows a state where the LED board 22 is fixed.

  FIG. 9 is a diagram illustrating a state in which the LED substrate 22 is fixed to the back cabinet 24 in the portion 2421 illustrated in FIG. 6. 9A shows a state where the LED board 22 is not fixed, and FIG. 9B shows a state where the LED board 22 is fixed.

  FIG. 10 is a diagram illustrating a state in which the LED substrate 22 is fixed to the back cabinet 24 in the portion 2422 illustrated in FIG. 6. FIG. 10A shows a state where the LED substrate 22 is not fixed, and FIG. 10B shows a state where the LED substrate 22 is fixed.

  FIG. 11 is a diagram illustrating a state in which the LED substrate 22 is fixed to the back cabinet 24 in the portion 2423 illustrated in FIG. 6. FIG. 11A shows a state where the LED substrate 22 is not fixed, and FIG. 11B shows a state where the LED substrate 22 is fixed.

  Next, a method for fixing the LED substrate 22 to the back cabinet 24 will be described with reference to FIG. 12 (a) is a perspective view showing only the fixing rib 240, and FIG. 12 (b) is a perspective view showing a state in which the LED board 22 is loosely fitted to the fixing rib 240. 12C is a perspective view showing a state in which the LED substrate 22 is fixed to the fixing rib 240. FIG.

  When the LED substrate 22 is fixed to the back cabinet 24, first, the LED substrate 22 is loosely fitted to the fixing rib 240 as shown in FIG. 12 (a) as shown in FIG. 12 (b). To do. In this state, the LED board 22 is movable along the longitudinal direction of the LED board 22. Then, as shown in FIG. 12C, the LED board 22 is fixed to the back cabinet 24 by moving the LED board 22 to the fixing position along the longitudinal direction of the LED board 22.

  FIG. 13 is a top view showing a detailed configuration of the rib (first protrusion) 2400. 13A shows a relationship between the rib 2400 and the LED board 22 in a state where the LED board 22 is loosely fitted to the fixing rib 240, and FIG. 13B shows a relation between the LED board 22 and the fixing rib 240. The relationship between the rib 2400 and the LED substrate 22 in a state fixed to 240 is shown.

  As shown in FIG. 13A, the rib 2400 protrudes toward the end of the LED substrate 22 in the short direction. In the state where the LED board 22 is loosely fitted to the fixing rib 240, the rib 2400 is loosely fitted to the notch (second notch) 223 of the LED board 22 and is in a freely movable state. Yes. From this state, the LED board 22 is moved along its longitudinal direction, so that the rib 2400 fits into the notch (first notch) 222 of the LED board 22 as shown in FIG. In addition, a force in a direction toward the outside of the LED substrate 22 (a direction indicated by a dotted arrow in the figure) is applied to the rib 2400, and a stress (a direction indicated by a solid arrow in the figure) is applied to the LED substrate 22. Thereby, LED board 22 is fixed more firmly.

  Thus, in this embodiment, the LED board 22 is loosely fitted to the fixing rib 240, and the LED board 22 is fixed so as to be fixed when the LED board 22 is moved to the fixing position along the longitudinal direction. When the rib 240 is formed, the rib 2400 protruding toward the end of the LED board 22 in the short direction is formed, and moved to the fixing position at the end of the LED board 22 in the short direction A notch 222 that fits into the rib 2400 is provided. Thus, after loosely fitting the LED board 22 to the fixing rib 240, the LED board 22 is moved back to the fixing position along the longitudinal direction thereof, and the LED board 22 is backed by a simple process without bending the board. Can be fixed to the cabinet. In particular, in the present embodiment, since the heat spreader 23 having a U-shaped short cross section is coupled to the LED substrate 22, it is difficult to bend the LED substrate 22. Well, the LED board 22 can be fixed to the back cabinet.

  The LED substrate 22 is preferably provided with a notch 223 that is adjacent to the notch 222 and that is large in the notch 222 and is loosely fitted to the rib 2400. Thereby, the LED board 22 can be easily loosely fitted to the fixing rib 240 without the rib 2400 interfering with the LED board 22.

  As shown in FIG. 9, the rib 2401 includes a support portion 2401 b that supports the LED substrate 22 and a protrusion (second protrusion) 2401 a that is inserted into the opening 224 of the LED substrate 22. The opening 224 has an elongated shape in the longitudinal direction of the LED substrate 22 and is preferably elliptical. The protrusion 2401a can move freely in the longitudinal direction of the LED substrate 22, and displacement in the short direction is suppressed. Therefore, the LED substrate 22 can be prevented from moving in the other direction without preventing the LED substrate 22 from moving in the longitudinal direction. Thereby, while being able to move the LED board 22 to the longitudinal direction easily, the LED board 22 can be fixed in an exact position.

  The rib 2402 has a cylindrical shape with a notch, and supports the LED substrate 22. In addition, the notch of the rib 2402 is provided in a portion of the rib 2402 facing the side surface portion 23a of the heat spreader 23 coupled to the LED substrate 22. Thereby, the interference between the rib 2402 and the heat spreader 23 can be avoided.

  FIG. 14 is a side sectional view showing a detailed configuration of the rib 2403. The rib 2403 includes a support part (clamping part) 2403c that supports the LED board 22 and a cover part (clamping part) 2403b that holds the LED board 22 in pairs with the support part 2403c. That is, the LED substrate 22 is sandwiched between the support portion 2403c and the cover portion 2403b. As shown in FIG. 14, the cover portion 2403b is inclined, and the distance between the cover portion 2403b and the LED substrate 22 is reduced as the LED substrate 22 approaches the fixed position. Thereby, in a fixed position, the support part 2403c and the cover part 2403b can clamp the LED board 22 firmly, and can fix the LED board 22 suitably.

  Further, the rib 2403 is provided with a groove 2403a through which the side surface portion 23a of the heat spreader 23 coupled to the LED substrate 22 passes. Therefore, interference between the rib 2403 and the heat spreader 23 can be avoided, and the LED substrate 22 can be prevented from moving in the other direction without preventing the LED substrate 22 from moving in the longitudinal direction. Thereby, the LED board 22 can be fixed at an accurate position.

  As shown in FIG. 12B, the LED board 22 is provided with a notch 226 for allowing the cover portion 2403b to pass therethrough in order to loosely fit the LED board 22 to the fixing rib 240. .

  FIG. 15 is a diagram showing a detailed configuration of the rib 2404. FIG. 15A is a plan view of the rib 2404 observed from the side opposite to the side facing the LED substrate 22, and FIG. 15B shows how the LED substrate 22 is inserted into the rib 2404. FIG.

  As shown in FIG. 15B, the exposed portion 230 of the heat spreader 23 coupled to the LED substrate 22 is inserted into the rib 2404. The rib 2404 includes a pressing portion 2404a that presses the exposed portion 230 from the back cabinet 24 side, and a plate-like member that extends from the center of the pressing portion 2404a to the LED substrate 22 side. And an insertion portion 2404b to be inserted into the. Thereby, the center position of the LED substrate 22 can be correctly guided. Thereby, the LED board 22 can be fixed at an accurate position.

  When the LED substrate 22 moves to the fixed position, as shown in FIG. 12C, the pressing portion 2404a presses and pushes up the exposed portion 230 and the end portion of the LED substrate 22, and the exposed portion 230 and the LED substrate. The end of 22 is pressed by the rib 2404 from the front and back. Thereby, LED board 22 is fixed more firmly.

  Similarly to the rib 2403, the rib 2404 is also provided with a groove through which the side surface portion 23a of the heat spreader 23 coupled to the LED substrate 22 passes.

  As shown in FIG. 6, on the bottom side of the display device of the back cabinet 24 (the lower side in the drawing in FIG. 6), as will be described later, a main circuit 28 and the like are provided outside the back cabinet 24. A structure 2410 is provided. Therefore, on the inner side of the back cabinet 24, the depth differs depending on the position.

  For example, in the part 2420 shown in FIG. 6, the back cabinet 24 is deep. Further, in the region 2421, the back cabinet 24 is shallow. In the part 2422, the back cabinet 24 is a boundary between a deep part and a shallow part. Further, in the region 2423, the back cabinet 24 is shallow.

  However, in order to emit light without uneven brightness to the liquid crystal panel 15, it is preferable that the LED substrates 22 have the same height (note that the direction from the back cabinet 24 to the front cabinet 10 is upward. To do). For this reason, portions of the ribs 2401 to 2403 that function as substrate supporting ribs that support the LED substrate 22 that support the LED substrate 22 (support portion 2401b, top surface of the rib 2402, support portion 2403c) are flush with each other. .

  Therefore, as shown in FIG. 8, each rib is tall at a portion 2420 where the back cabinet 24 is deep. Moreover, as shown in FIG. 9, in the part 2421 where the back cabinet 24 is shallow, each rib is short. Moreover, as shown in FIG. 10, in the site | part where the back cabinet 24 is deep among the site | parts 2422, each rib is high. Moreover, as shown in FIG. 11, in the part 2423 where the back cabinet 24 is shallow, each rib is short.

  Since the portions of the substrate support rib that support the LED substrate 22 are flush with each other, the height of each LED substrate 22 can be made the same. 15 can be emitted.

  In addition, since the structure 2410 is provided on the bottom side of the display device of the back cabinet 24 (the lower side in the drawing in FIG. 6), it has sufficient rigidity. On the other hand, on the upper side of the display device of the back cabinet 24 (the upper side in the drawing in FIG. 6), a honeycomb-like rib 2411 is formed instead of the structure 2410. By forming the honeycomb-like ribs 2411 in this way, rigidity can be supplemented also on the upper side of the back cabinet 24.

  The configuration and arrangement of the ribs described above are merely examples, and can be appropriately changed as long as the LED substrate 22 can be fixed to the back cabinet 24.

(Reflective sheet)
The reflection sheet 19 is provided between the LED element 220 and the LED substrate 22 and reflects light emitted from the LED element 220. Although the reflection sheet 19 is not necessarily required, since the light absorbed by the LED substrate 22 or the back cabinet 24 can be effectively used by using the reflection sheet 19, it is emitted toward the diffusion plate 18. The amount of light can be increased. Thereby, the reflection sheet 19 can improve the luminance of the liquid crystal panel 15.

  The reflection sheet 19 is made of polyester typified by foamed PET (Polyethylene Terephthalate), for example, and has light reflection characteristics.

  The reflection sheet 19 may be a sheet that regularly reflects incident light, but it is more preferable to use a sheet that irregularly reflects light. The reflection sheet 19 can reflect light including a reflection component having an angle different from the incident angle by using a sheet on which incident light is irregularly reflected.

(clip)
The clip (support column) 20 will be described in detail with reference to FIGS. The clip 20 is a support column that supports the diffusion plate (optical member) 18 disposed at a position facing the LED element 220. The clip 20 may have a tapered pin shape. Further, the clip 20 supports the diffusion plate 18 by abutting on the diffusion plate 18 from the LED element 220 side.

  FIG. 16 is a diagram showing a schematic structure of the clip 20. FIG. 16A is a side view showing the clip 20 alone, and FIG. 16B is a perspective view showing a state in which the clip 20 is fixed to the LED substrate 22.

  As shown to (a) of FIG. 16, the clip 20 is the flat plate part 200 of flat plate shape, the cylindrical part 201 used as the foundation of the flat plate part 200, the collar part 202 connected to the root of the cylindrical part 201, and the collar part. A through-hole 203 is provided that is connected with a distance from 202.

  As shown in FIG. 16B, the clip 20 is fixed to the LED substrate 22 with the reflection sheet 19 interposed therebetween. Further, when the clip 20 is fixed to the LED substrate 22, the through portion 203 passes through the opening 225 to the opposite side of the LED substrate 22, and is paired with the flange portion 202 to form the LED substrate 22 and the reflection sheet 19. Pinch.

  The clip 20 is formed of a material having translucency. For example, although not limited thereto, the clip 20 can be formed of a transparent resin. Moreover, the flat plate part 200 is mirror-finished.

  FIG. 17 is a perspective view showing a schematic arrangement of the clip 20. As shown in FIG. 17, the reflection sheet 19 is disposed on the back cabinet 24 so as to cover the LED substrate 22. Further, the LED element 220 is exposed on the reflection sheet 19. That is, the reflection sheet 19 is provided between the LED substrate 22 and the LED element 220. The clip 20 is fixed between two adjacent LED elements 220 (for example, the clip 20a is fixed between adjacent LED elements 220a and 220n). One of the plate surfaces (the mirror-finished surface) of the flat plate portion 200 is opposed to one of the two LED elements 220, and the other plate surface of the flat plate portion 200 is the other of the two LED elements 220. Opposite.

  FIG. 18 is a diagram comparing shadows formed on the diffusion plate (optical member) 18 by the clip 20 ′ according to the related art and the clip 20 according to the present embodiment. FIG. 18A is a diagram showing a shadow formed on the diffusion plate 18 by the clip 20 ′ according to the prior art, and FIG. 18B is a diagram showing the clip 20 formed on the diffusion plate 18 according to the present embodiment. It is a figure which shows the shadow to do.

  The clip 20 'according to the prior art includes a flat plate portion 200', a cylindrical portion 201 ', and a flange portion 202'. The flat plate portion 200 ′ is highly glossy white for improving the light reflectivity, and has a rough surface for diffusing light.

  As shown in FIG. 18 (a), when the clip 20 ′ according to the prior art is used, the light from the LED element 220 on the left side of the paper surface is blocked by the clip 20 ′ at the portion 205 of the diffusion plate 18. And (ii) light reflected from the LED element 220 on the right side of the paper is reflected by the clip 20 ′. At this time, since the shadow is stronger than the reflected light, a shadow remains in the portion 205.

  On the other hand, as shown in FIG. 18 (b), when the clip 20 according to the present embodiment is used, the light from the LED element 220 on the left side of the paper is applied to the portion 205 of the diffusion plate 18 by the clip 20 ′. And (ii) the light reflected from the LED 20 on the right side of the paper overlaps with the reflected light reflected by the clip 20. At this time, since the clip 20 has translucency, the shadow becomes weak and the flat plate portion 200 is mirror-finished, so that the reflected light becomes strong. For this reason, the shadow and the reflected light are canceled out, and no shadow remains in the portion 205.

  As described above, the clip 20 is formed on the optical member by the clip 20 by using the clip 20 having translucency and at least a part of at least a part of the two surfaces facing the LED elements 220 on both sides. Shadows can be reduced.

  Note that the entire surface of the clip 20 is not necessarily mirror-finished in a flat plate shape. In the part where the light indicated by the dotted line in FIG. 18B does not reach, it does not have to be flat and does not have to be mirror-finished. Therefore, as shown in FIG. 18B, the clip 20 preferably includes a cylindrical portion 201 that serves as a base of the flat plate portion 200 at the lower portion of the flat plate portion 200 that is mirror-finished. Thereby, the flat plate part 200 with weak intensity | strength can be supported and the intensity | strength of the clip 20 whole can be improved. However, the cylindrical portion 201 can be omitted.

  Next, the fixing of the clip 20 to the LED substrate 22 will be described in detail with reference to FIGS.

  FIG. 19 is a perspective view showing a state in which the clip 20 is fixed to the LED substrate 22. In addition, since the LED board 22 is covered with the reflection sheet 19, only the opening 225 is visible. Further, the heat spreader 23 coupled to the LED substrate 22 is omitted.

  FIG. 20 is a perspective view showing a state in which the clip 20 is fixed to the LED substrate 22. In FIG. 20, the reflection sheet 19 and the heat spreader 23 are omitted.

  FIG. 21 is a plan view of the state in which the clip 20 is fixed to the LED substrate 22 as observed from the back cabinet 24 side. The heat spreader 23 coupled to the LED substrate 22 is omitted.

  FIG. 22 is a side view showing a state in which the clip 20 is fixed to the LED substrate 22. In FIG. 22, the reflection sheet 19 and the heat spreader 23 are omitted.

  As shown in FIGS. 19 to 22, the clip 20 is fixed to the LED substrate 22, thereby sandwiching the reflection sheet 19 in pairs with the LED substrate 22. Since the clip 20 also fixes the reflective sheet 19, the assembling operation can be simplified.

  Further, the clip 20 only needs to be fixed to the LED substrate 22, but is preferably detachably attached. As shown in FIGS. 19 to 22, the LED 20 is inserted and twisted into the LED substrate 22 to twist the LED. It is preferable to be fixed to the substrate 22.

  That is, the penetrating portion 203 is a rod-like member that extends so as to be orthogonal to the flat plate portion 200 and the cylindrical portion 201. The LED board 22 is provided with an opening 225 corresponding to the penetrating portion 203 (the heat spreader 23 is also provided with an opening 232 corresponding to the opening 225 of the LED board 22). Therefore, the penetration part 203 can be penetrated to the opposite side of the LED board 22 by inserting the clip 20 into the LED board 22 in a state where the direction of the penetration part 203 and the direction of the opening 232 are matched. After that, by twisting the clip 20 by 90 degrees, for example, as shown in FIG. 21, the penetrating portion 203 functions as if it is a scissors. 20 is fixed to the LED substrate 22.

  By simply attaching the clip 20 to the LED substrate 22 in this way, it becomes easy to reuse the clip 20 and to disassemble and disassemble the display device 1 (or the direct backlight).

  FIG. 23 is a perspective view showing a state where the LED board 22 is fixed to the back cabinet 24 and the clip 20 is fixed to the LED board 22.

  As shown in FIG. 23, the portion of the LED substrate 22 to which the clip 20 is attached is supported by a rib 2402, which is a cylindrical rib having a notch. This part is a part where a load is applied when the clip 20 is attached. By supporting the portion by the rib 2402, it is possible to prevent the LED substrate 22 from being bent when the clip 20 is attached. In particular, the strength can be ensured by making the rib 2402 cylindrical. Further, by providing a notch in the rib 2402, the air flow can be secured and the heat dissipation effect can be enhanced.

  Thus, by using the cylindrical rib 2402 having a notch that supports the portion of the LED substrate 22 to which the clip 20 is attached, the LED substrate 22 is bent when the clip 20 is attached to the LED substrate 22. And the heat dissipation effect can be improved.

  Further, by providing a notch in the rib 2402, weight reduction can be achieved.

  Further, in the heat spreader 23, in order to avoid interference with the penetrating portion 203 of the clip 20, it is preferable to provide an opening 233 at a position corresponding to the opening 232 in the side surface portion 23a, as shown in FIG.

  In the present embodiment, as shown in FIG. 17, the clips 20 are arranged at the four corners and the center of the reflection sheet 19. Among these, regarding the clip 20 disposed in the central portion, the rib 2402 that supports the portion to which the clip 20 is attached can be omitted. This is because the rib 2403 is provided adjacent to the portion where the clip 20 is attached in the central portion, so that the LED substrate 22 can be sufficiently supported. On the other hand, since the ribs 2403 and the like are not provided at the four corners, it is preferable to provide the ribs 2402. However, the arrangement of the clip 20 is an example, and can be appropriately changed as long as the diffusion plate 18 can be successfully supported.

(Diffusion plate and optical sheet group)
The diffusing plate (optical member) 18 and the optical sheet group 17 suppress unevenness in the amount of light emitted from the LED element 220 (that is, unevenness in luminance) and collect light emitted from the LED element 220 to the liquid crystal panel 15. It has a function of emitting light.

  Although the diffusion plate 18 and the optical sheet group 17 are not necessarily required, the light emitted from the LED element 220 is directly incident on the liquid crystal panel 15 by using the diffusion plate 18 and the optical sheet group 17. As a result, luminance unevenness in the liquid crystal panel 15 can be suppressed.

  The optical sheet group 17 includes, for example, a diffusion sheet, a prism sheet, a microlens sheet, and the like. Note that the number and combination of the respective sheets constituting the optical sheet group 17 are not particularly limited as long as the number and combination can provide desired optical performance. Further, the diffusion plate 18 may not be provided. In this case, the optical member supported by the clip 20 is any one of the optical sheet group 17.

  In the present embodiment, the LED substrate 22, the LED element 220, the reflection sheet 19, the clip 20, the diffusion plate (optical member) 18 and the optical sheet group 17 constitute a direct type backlight.

(Bezel, LCD panel, P chassis)
The bezel 14 is disposed so as to cover the periphery of the liquid crystal panel 15 from the image display surface side of the liquid crystal panel 15, and by holding the liquid crystal panel 15 together with the P chassis 16 (chassis), the method of the liquid crystal panel 15 with respect to the back cabinet 24. Specifies the position in the line direction.

  The P chassis 16 is a light shielding member that prevents light from leaking from the periphery of the optical sheet group 17. The P chassis 16 is a member that supports the liquid crystal panel 15 and holds the liquid crystal panel 15 together with the bezel 14 as described above.

  Further, the P chassis 16 defines the position of the optical sheet group 17 in the normal direction relative to the back cabinet 24 by holding the optical sheet group 17 together with the back cabinet 24.

  The bezel 14 and the P chassis 16 are provided with a poron (buffer material) in a portion that holds the liquid crystal panel 15 and the optical sheet group 17. Thereby, the bezel 14 and the P chassis 16 can be gripped without damaging the liquid crystal panel 15 and the optical sheet group 17.

  The details of defining the position of the liquid crystal panel 15 by the bezel 14 and the P chassis 16 and defining the position of the optical sheet group 17 by the P chassis 16 and the back cabinet 24 will be described later with reference to different drawings.

(Main circuit, power circuit)
The main circuit 28 is a circuit that comprehensively controls the operation of each unit included in the display device 1 and includes, for example, a CPU (Central Processing Unit). The power supply circuit 29 receives power supply from an external power supply and controls power supply to each unit of the display device 1.

  The main circuit 28 and the power supply circuit 29 are disposed on the back surface (the surface opposite to the surface on which the liquid crystal panel 15 is disposed) of the back cabinet 24 together with the stand 30, the auxiliary circuit 36, the button 37, and the speaker 38. Further, the main circuit 28, the power supply circuit 29 and the like arranged on the back surface of the back cabinet 24 are protected by a top cover 39 and a bottom cover 40.

[Double rib structure]
Next, a configuration for regulating the position of the optical sheet group 17 (optical sheet) provided in the back cabinet 24 will be described with reference to FIGS. 24 to 26. FIG. 24 is an enlarged perspective view showing a part of the back cabinet 24 according to the present embodiment.

  As shown in FIG. 24, the back cabinet 24 is provided with double ribs for regulating the position of the optical sheet group 17 along the outer edge of the back cabinet 24 (also simply referred to as a double rib structure). ).

  Specifically, an inner rib 2451 that regulates the position of the optical sheet group 17 in the normal direction of the back cabinet 24 and an outer rib 2452 that regulates the position in the direction perpendicular to the normal direction of the back cabinet 24 are provided. It has been.

(Details of double rib structure)
Details of the double rib structure will be described with reference to FIGS. 25 and 26. FIG. FIG. 25 is an enlarged perspective view showing a part of the outer edge of the back cabinet 24 according to the present embodiment. FIG. 26 is a cross-sectional view of the back cabinet 24 shown in FIG. In FIG. 25, for the sake of simplicity of explanation, an appearance of the back cabinet 24 viewed from the front cabinet 10 side is shown.

(Inner rib)
As shown in FIG. 26, the inner rib 2451 is provided so that the edge abuts on the surface of the optical sheet group 17 via the reflection sheet 19 and the diffusion plate 18. 17 is arranged so as to overlap the reflection sheet 19 and the diffusion plate 18. Thereby, the inner rib 2451 regulates the position of the optical sheet group 17 with respect to the normal direction of the back cabinet 24.

  The inner rib 2451 holds the optical sheet group 17 through the reflection sheet 19 and the diffusion plate 18 together with the P chassis 16 (more specifically, the poron 161 included in the P chassis 16). The poron 161 is preferably provided at a position facing the inner rib 2451 of the P chassis 16. Accordingly, the poron 161 can efficiently hold the optical sheet group 17 together with the inner rib 2451. Details of the P chassis will be described later.

(Outer rib)
As shown in FIG. 26, the outer rib 2452 is formed higher than the inner rib 2451. Specifically, the side surface of the outer rib 2452 is provided so as to contact the edge of the optical sheet group 17. Thus, even when the optical sheet group 17 disposed on the inner rib 2451 slides in the direction perpendicular to the normal direction of the back cabinet 24, the slide of the optical sheet group 17 is restricted by the side surface of the outer rib 2452. can do.

  Thus, by adopting the double rib structure for the back cabinet 24, the position of the optical sheet group 17 with respect to the back cabinet 24 can be efficiently defined. Furthermore, since the strength of the back cabinet 24 itself can be secured by the double rib structure, the strength of the display device 1 can be secured even if the display device 1 does not include a backlight chassis.

  Further, the outer rib 2452 is provided with a notch 2454 as shown in FIG. In addition, the notch 2454 formed in the outer side rib 2452 may be one, and may be plural.

  Since the notch 2454 is formed in the outer rib 2452, a finger can be put into the notch 2454 when removing the optical sheet group 17 arranged in the back cabinet 24. Thereby, even if the outer rib 2452 higher than the optical sheet group 17 disposed on the inner rib 2451 is formed, the optical sheet group 17 can be easily detached from the back cabinet 24.

[Fixing of optical sheet group]
Next, details of fixing the optical sheet group 17 to the back cabinet 24 will be described with reference to FIGS. 27 to 30. FIG. 27 is an enlarged perspective view showing a part of the back cabinet 24 and the optical sheet group 17 according to the present embodiment.

(Optical sheet group, back cabinet)
As shown in FIG. 27, an opening 171 is formed in the optical sheet group 17 along the outer edge. The optical sheet group 17 is formed with a notch 172 along the outer edge. FIG. 27 shows only a part (upper right part) of the back cabinet 24 and the optical sheet group 17, but in the present embodiment, each of the opening 171 and the notch 172 extends along the outer edge of the optical sheet group 17. Are provided.

  The back cabinet 24 is provided with protruding ribs 2471 penetrating into the openings 171 of the optical sheet group 17 at positions corresponding to the openings 171 of the optical sheet group 17, respectively. The back cabinet 24 is provided with protruding ribs 2472 that fit into the notches 172 of the optical sheet group 17 at positions corresponding to the notches 172 of the optical sheet group 17, respectively.

  By arranging the optical sheet group 17 so that the protruding rib 2471 of the back cabinet 24 penetrates into the opening 171, the position of the optical sheet group 17 in the direction perpendicular to the normal direction of the back cabinet 24 is easily fixed. be able to. Further, by arranging the optical sheet group 17 so that the protruding rib 2472 of the back cabinet 24 and the notch 172 are fitted, the position of the optical sheet group 17 in the direction perpendicular to the normal direction of the back cabinet 24 is further increased. Can be easily fixed.

  In the present embodiment, each opening 171 of the optical sheet group 17 is bilaterally asymmetrical, vertical asymmetrical, and 180-degree rotational symmetry with the normal direction of the optical sheet group 17 as the rotation axis. It is provided in the position which does not have. Thereby, it is possible to prevent the optical sheet group 17 from being erroneously installed upside down and upside down, and to prevent the optical sheet group 17 from being erroneously installed in a state of being rotated 180 degrees.

(P chassis)
As described above, the optical sheet group 17 is held by the back cabinet 24 and the P chassis 16. Details of the P chassis 16 will be described with reference to FIGS.

  FIG. 28 is an enlarged view showing a part of the outer appearance of the upper P chassis 16a disposed on the upper part of the back cabinet 24 when viewed from the front cabinet 10 side in the P chassis 16 according to the present embodiment. FIG. 28A is a front view of the upper P chassis 16a, and FIG. 28B is a perspective view of the upper P chassis 16a.

  FIG. 29 is an enlarged view showing a part of the appearance of the right P chassis 16b arranged in the right part of the back cabinet 24 when viewed from the front cabinet 10 side in the P chassis 16 according to the present embodiment. FIG. 29A is a front view of the right P chassis 16b, and FIG. 29B is a perspective view of the right P chassis 16b.

  FIG. 30 is an enlarged perspective view showing a part of the back cabinet 24, the optical sheet group 17, and the P chassis 16 according to the present embodiment.

  In the upper P chassis 16a, as shown in FIG. 28, an opening 162 through which the protruding rib 2471 of the back cabinet 24 penetrates is formed at a position corresponding to the protruding rib 2471. As shown in FIG. 29, the right P chassis 16b has an opening 163 through which the protruding rib 2472 of the back cabinet 24 penetrates at a position corresponding to the protruding rib 2472.

  As shown in FIG. 30, the upper P chassis 16 a is arranged so that the protruding rib 2471 penetrates into the opening 162, and the right P chassis 16 b is arranged so that the protruding rib 2472 penetrates into the opening 163. In this way, the position of the P chassis 16 is fixed with respect to the direction perpendicular to the normal direction of the back cabinet 24. Further, the P chassis 16 holds the optical sheet group 17 together with the back cabinet 24 to fix the position of the optical sheet group 17 with respect to the normal direction of the back cabinet 24.

  According to the above configuration, the display device 1 according to the present embodiment penetrates the projecting rib 2471 into the optical sheet group 17 and the openings 171 and 162 formed in the P chassis 16, so that the optical sheet group 17 and The P chassis 16 can be fixed to the back cabinet 24 with high accuracy.

  In the present embodiment, the protruding ribs 2471 and 2472 of the back cabinet 24 are provided outside the inner rib 2451 provided in the back cabinet 24 and provided inside the outer rib 2452. ing. That is, the openings 162 and 163 corresponding to the projecting ribs 2471 and 2472 are provided on the outer side as viewed from the center of the display device 1 than the poron 161 provided in the P chassis 16. Therefore, with this configuration, interference between the protruding ribs 2471 and 2472 of the back cabinet 24 and the poron 161 of the P chassis 16 can be prevented.

  In the embodiment, as shown in FIGS. 27 and 30, the opening 171 of the optical sheet group 17 has an elongated shape extending in a direction along the side closest to the opening among the sides of the optical sheet group 17. Further, a cross section of a portion penetrating into the opening 171 of the protruding rib 2471 and an opening 162 of the P chassis 16 have the same shape as the opening 171 of the optical sheet group 17.

  Thereby, the opening 171 of the optical sheet group 17, the opening 162 of the P chassis 16, and the protruding rib 2471 with respect to light emitted from the LED element 220 (that is, light used for displaying an image on the display device 1). The effect of this can be minimized.

  The opening 171 may be formed only along the upper outer edge of the optical sheet group 17, and the notch 172 may be formed along the right, left, and lower outer edges of the optical sheet group 17. According to this, the workability of attaching the optical sheet group 17 to the back cabinet 24 can be improved.

[Combination of back cabinet and P chassis]
Next, a structure for connecting the back cabinet 24 and the P chassis 16 will be described with reference to FIGS. 31 to 34.

  FIG. 31 is a perspective view of the display device 1 according to this embodiment as viewed from below. 32 is a BB cross-sectional view of the display device 1 shown in FIG. 31, FIG. 33 is a CC cross-sectional view of the display device 1 shown in FIG. 31, and FIG. 34 is a cross-sectional view of the display device 1 shown in FIG. It is -D sectional drawing.

(Combination structure of back cabinet and P chassis)
As shown in FIG. 32, the outer rib 2452 is formed with a claw portion 2457 on the outer side when viewed from the center of the display device 1. Further, the P chassis 16 is formed with a fitting portion 165 for fitting with the claw portion 2457. Thereby, since the back cabinet 24 and the P chassis 16 can be easily coupled, parts such as screws and screws conventionally used for coupling the back cabinet 24 and the P chassis 16 are reduced. be able to. Therefore, the workability of attaching (assembling) and removing the back cabinet 24 and the P chassis 16 can be improved (that is, the assembling and removing process can be simplified), and the costs for screws and screws can be reduced.

  As shown in FIG. 33, a fixing boss 2453 for fixing the P chassis 16 is formed on a part of the back cabinet 24 outside the outer rib 2452. As shown in FIG. 34, a fixing claw portion 2456 for fixing the P chassis 16 is formed on a part of the fixing boss 2453. With this configuration, the P chassis 16 can be more firmly fixed to the back cabinet 24. As a result, it is possible to further reduce the number of parts required for coupling the back cabinet 24 and the P chassis 16.

[Fitting structure of front cabinet and back cabinet]
Next, details of the structure of the front cabinet 10, the back cabinet 24, the P chassis 16 and the bezel 14 for connecting the front cabinet 10 and the back cabinet 24 will be described with reference to FIGS.

(Front cabinet)
First, the structure of the front cabinet 10 will be described with reference to FIG. FIG. 35 is a rear perspective view of the front cabinet 10 according to the present embodiment.

  As shown in FIG. 35, the front cabinet 10 is formed with a plurality of bosses 102 to 104 for coupling to the back cabinet 24 on the back surface (the surface on which the liquid crystal panel 15 or the like is disposed). The boss 102 (fixing boss) and the boss 103 are provided on the lower back side of the front cabinet 10, and the boss 104 is provided on the right rear side of the front cabinet 10. In addition, although the boss is provided also in the back upper side and the left side of the front cabinet 10, description is abbreviate | omitted here.

  Further, the boss 102 is provided closer to the center of the display device 1 than the boss 103. Thereby, it is possible to prevent the lower part of the front cabinet 10 from being bent forward by the weight of the display device 1 and separating the front cabinet 10 and the liquid crystal panel 15 from each other.

(Back cabinet)
Next, the configuration of the back cabinet 24 will be described with reference to FIG. FIG. 36 is a front view showing a state in which the optical sheet group 17 is arranged in the back cabinet 24 according to the present embodiment.

  As shown in FIG. 36, the back cabinet 24 is formed with fitting portions 2462 to 2464 for fitting with the bosses 102 to 104 of the front cabinet 10. Further, the fitting portion 2462 is provided closer to the center of the display device 1 than the fitting portion 24633 in order to fit the boss 102. In addition, although the fitting part is provided also in the upper side and the left side of the back cabinet 24, description is abbreviate | omitted here like the front cabinet 10. FIG.

(P chassis, bezel)
Next, configurations of the P chassis 16 and the bezel 14 will be described with reference to FIGS. 37 and 38. FIG. 37 is a front view showing a state in which the optical sheet group 17 and the P chassis 16 are arranged in the back cabinet 24 according to the present embodiment. FIG. 38 is a front view showing a state in which the optical sheet group 17, the P chassis 16, the liquid crystal panel 15, and the bezel 14 are arranged on the back cabinet 24 according to the present embodiment.

  As shown in FIG. 37, in the display device 1 according to this embodiment, the P chassis 16 is disposed on the back cabinet 24 on which the P chassis 16 is disposed. More specifically, the upper P chassis 16a is on the upper side of the back cabinet 24, and the right P chassis 16b is on the right side. The left P chassis 16c is disposed on the left side, and the lower P chassis 16d is disposed on the lower side.

  As shown in FIG. 37, the P chassis 16 is formed so that the fitting portions 2462 to 2464 are exposed when the back cabinet 24 is viewed from the front cabinet 10 side when arranged on the back cabinet 24.

  For example, as shown in FIG. 37, a through-hole 164 through which the fitting portion 2462 of the back cabinet 24 is exposed is formed near the center of the lower P chassis 16d. In other words, a through hole 164 through which the boss 102 of the front cabinet 10 passes is formed near the center of the lower P chassis 16d.

  As shown in FIG. 38, in the display device 1 according to this embodiment, the bezel 14 is disposed on the back cabinet 24 in which the liquid crystal panel 15 is disposed on the P chassis 16. More specifically, the upper bezel 14a is on the upper side of the back cabinet 24, and the right bezel 14b is on the right side. The left bezel 14c is disposed on the left side, and the lower bezel 14d is disposed on the lower side.

  As shown in FIG. 38, the bezel 14 is formed so that the fitting portions 2462 to 2464 are exposed when the back cabinet 24 is viewed from the front cabinet 10 side when arranged on the back cabinet 24.

  Here, details of the lower bezel 14d will be described with reference to FIG. FIG. 39 is a front view showing an appearance of the lower bezel 14d according to the present embodiment.

  As shown in FIG. 39, a through-hole 141 through which the fitting portion 2462 of the back cabinet 24 is exposed is formed near the center of the lower bezel 14d. In other words, a through hole 141 through which the boss 102 of the front cabinet 10 passes is formed near the center of the lower bezel 14d.

  As described above, the through holes 164 and 141 are formed in the lower P chassis 16d and the lower bezel 14d, respectively, so that the boss 102 of the front cabinet 10 and the fitting portion 2462 of the back cabinet 24 are connected to the lower side. The P chassis 16d and the lower bezel 14d can be directly fitted without being interposed.

  As a result, it is possible to prevent the stress at the time of coupling the front cabinet 10 and the back cabinet 24 from propagating to the liquid crystal panel 15 via the lower P chassis 16d and the lower bezel 14d. Accordingly, since the stress at the time of coupling the front cabinet 10 and the back cabinet 24 is not locally applied to the liquid crystal panel 15, local changes in the display performance of the liquid crystal panel 15 (for example, uneven brightness) Can be prevented.

  In the present embodiment, the cross section of the boss 102 of the front cabinet 10 is substantially a cylinder as shown in FIG. Further, the through holes 164 and 141 of the lower P chassis 16d and the lower bezel 14d have a substantially rectangular shape in which the length of the short side is larger than the diameter of the boss 102 as shown in FIGS. Thereby, deterioration of the front cabinet 10, the lower P chassis 16d, and the lower bezel 14d due to interference between the boss 102 and the through holes 164 and 141 can be reduced, and the workability of assembly and removal is improved. be able to.

(Coupling of front and back cabinets with claws)
Further, in the present embodiment, as shown in FIG. 26, a claw portion 2455 for simply fixing the front cabinet 10 is formed on the outer edge of the back cabinet 24. Further, the front cabinet 10 is formed with an engaging portion 101 for fitting with the claw portion 2455.

  Thereby, the workability of attaching and removing the back cabinet 24 and the front cabinet 10 is improved. In addition, the number of parts (for example, screws and screws) related to the engagement between the back cabinet 24 and the front cabinet 10 can be reduced, and thereby the cost related to the parts related to the engagement can be reduced.

[Summary]
The display device (1) according to the first aspect of the present invention includes a back cabinet (24) that covers the back surface of the display device, and a light source (LED element 220) that is fixed to the back cabinet and on a surface opposite to the back cabinet. Are arranged on the back cabinet, and the back cabinet is formed with fixing ribs (240) for fixing the substrates. The fixing rib is loosely fitted to fix the substrate when moved to a fixing position along the longitudinal direction of the substrate, and the fixing rib is an end in the short direction of the substrate. 1st protrusion part (rib 2400) which protrudes toward the part is provided, and the end part in the short direction of the substrate is fitted to the first protrusion part when moved to the fixed position. First cut to Yellow (notch 222) is provided.

  According to the above configuration, the fixing rib is configured to fix the substrate when the substrate is loosely fitted to the fixing rib and the substrate is moved to the fixing position along the longitudinal direction thereof. A first protrusion projecting toward the end in the short-side direction is formed, and the first protrusion that fits into the first protrusion when moved to the fixed position at the end in the short-side direction of the substrate. A notch is provided. Thus, the substrate can be fixed to the back cabinet in a simple process that does not bend the substrate, such as moving the substrate to the fixing position along the longitudinal direction after loosely fitting the substrate to the fixing rib. .

  The display device according to aspect 2 of the present invention is the display apparatus according to aspect 1, in which the short cross-section is a U-shape and includes a pair of side surfaces and a bottom surface, and the bottom surface is a surface of the substrate on the back cabinet side. Further, a heat radiating plate (heat spreader 23) coupled to may be further provided.

  According to said structure, the thermal radiation efficiency of a board | substrate can be improved and the curvature of a board | substrate can be suppressed with a heat sink. At this time, it is difficult to bend the substrate, but even in this case, according to the present invention, the substrate can be successfully fixed to the back cabinet.

  In the display device according to aspect 3 of the present invention, in the aspect 2, the fixing rib may be provided with a groove (2403a) through which the pair of side surface parts pass.

  According to said structure, while avoiding interference between a fixing rib and a heat sink, it can prevent that a board | substrate moves to another direction, without preventing that a board | substrate moves to the longitudinal direction. Thereby, a board | substrate can be fixed in an exact position.

  The display device according to aspect 4 of the present invention is the display apparatus according to aspect 2 or 3, wherein the heat radiating plate includes an exposed portion (230) extending from one end portion in the longitudinal direction of the substrate. The ribs may include a compression portion (2404a) that compresses the exposed portion and one end portion in the longitudinal direction of the substrate at the fixed position.

  According to said structure, when a board | substrate moves to a fixed position, an exposed part and the edge part of a board | substrate will come to be compressed by the compression part from the front and back. Thereby, a board | substrate is fixed more firmly.

  In the display device according to aspect 5 of the present invention, in the aspect 4, the exposed portion is provided with a groove in a central portion in a short direction, and the compression portion is provided in the groove provided in the exposed portion. You may provide the insertion part (2404b) inserted.

  According to said structure, the center position of a board | substrate can be guide | induced correctly. Thereby, a board | substrate can be fixed in an exact position.

  A display device according to an aspect 6 of the present invention is the display device according to any one of the above aspects 1 to 5, wherein the substrate is secondly loosely fitted to the first projecting portion adjacent to the first notch. A notch (notch 223) may be provided.

  According to said structure, a board | substrate can be easily loosely fitted to a fixing rib, without a 1st projection part interfering with a board | substrate.

  The display device according to aspect 7 of the present invention is the display device according to any one of the above aspects 1 to 6, wherein the substrate is provided with an elongated opening (231) in the longitudinal direction, and the fixing rib is formed in the opening. You may provide the 2nd projection part (projection part 1401a) inserted movably in the longitudinal direction of the said board | substrate.

  According to said structure, it can prevent that a board | substrate moves to another direction, without preventing that a board | substrate moves to the longitudinal direction. Thereby, while being able to move a board | substrate to the longitudinal direction easily, a board | substrate can be fixed in an exact position.

  The display device according to aspect 8 of the present invention is the display device according to any one of the aspects 1 to 7, wherein the fixing rib is a sandwiching portion (a support portion 2403c and a cover portion 2403b) that sandwiches the substrate from the front and the back. There may be provided a pinching portion in which the gap between the substrates becomes narrower as it approaches the fixed position.

  According to said structure, in a fixed position, a clamping part can clamp | tighten a board | substrate firmly and can clamp a board | substrate suitably.

  A television receiver according to a ninth aspect of the present invention includes the display device according to any one of the first to eighth aspects.

  According to said structure, in a television receiver, there exists an effect equivalent to either of the aspects 1-8.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  The present invention can be generally used for a display device including a television receiver.

DESCRIPTION OF SYMBOLS 1 Display apparatus 10 Front cabinet 101 Engagement part 102 Boss 103, 104 Boss 14 Bezel 141 Through-hole 15 Liquid crystal panel (display panel)
16 P chassis (chassis)
161 Polon (buffer material)
162 Opening 163 Opening 164 Through-hole 165 Fitting part 17 Optical sheet group (optical sheet)
171 Opening 172 Notch 18 Diffuser (Optical member)
19 Reflective sheet 20 Clip (support column)
22 LED substrate (substrate)
220 LED element 221 Connector 222 Notch (first notch)
223 cutout (second cutout)
224 Opening 225 Opening 226 Notch 23 Heat spreader (heat sink)
23a Side surface portion 23b Bottom surface portion 231 Opening 232 Opening 233 Opening 24 Back cabinet 240 Fixing rib 2400 Rib (fixing rib, first protrusion)
2401 rib (fixing rib, substrate supporting rib)
2401a Projection (second projection)
2401b Supporting portion 2402 Rib (fixing rib, substrate supporting rib)
2403 ribs (fixing ribs, substrate support ribs)
2403a Groove 2403b Covering part (clamping part)
2403c Supporting part (clamping part)
2404 Ribs (Fixing ribs)
2404a Compression part 2404b Insertion part 2410 Structure 2411 Rib 2451 Inner rib (rib, inner rib)
2452 Outer rib (rib, outer rib)
2453 Fixing boss 2454 Notch 2455 Claw (nail)
2456 Claw part 2457 Claw part (engagement part)
2462-2464 Fitting part 2471 Projection rib 2472 Projection rib 28 Main circuit 29 Power supply circuit

Claims (7)

A back cabinet covering the back of the device,
A substrate fixed to the back cabinet and having a light source disposed on a surface opposite to the back cabinet;
A short cross-section is U-shaped, and includes a pair of side surface portions and a bottom surface portion, and the bottom surface portion includes a radiator plate coupled to a surface of the substrate on the back cabinet side ,
The back cabinet is formed with a fixing rib for fixing the substrate ,
Before Symbol fixing rib, a groove for the first fixing rib which includes a first protrusion protruding toward the end of the widthwise direction of the substrate, said pair of side portions passes A second fixing rib provided with
A first notch that fits into the first protrusion when the substrate is moved to a fixed position is provided at an end in the short direction of the substrate ,
The fixing rib is formed by loosely fitting the substrate to the fixing rib and moving the substrate to the fixing position along the longitudinal direction of the substrate so that the pair of side surface portions pass through the groove. Further, the display device is characterized in that the substrate is fixed by fitting the first protrusion into the first cutout . The heat sink includes an exposed portion extending from one end in the longitudinal direction of the substrate,
The fixing rib includes a third fixing rib having a pressing portion that presses the exposed portion and one end in the longitudinal direction of the substrate at the fixing position. Item 4. The display device according to Item 1 . The exposed portion is provided with a groove in the center in the short direction,
The display device according to claim 2 , wherein the compression portion includes a fitting insertion portion that is fitted into the groove provided in the exposed portion. A back cabinet covering the back of the device,
A substrate fixed to the back cabinet and having a light source disposed on a surface opposite to the back cabinet,
The back cabinet is formed with a fixing rib for fixing the substrate,
The fixing rib includes a first fixing rib including a first protrusion protruding toward an end portion in a short direction of the substrate,
A first notch that fits into the first protrusion when the substrate is moved to a fixed position is provided at an end portion in a short direction of the substrate,
The substrate is provided with a second notch adjacent to the first notch into which the first protrusion is loosely fitted ,
The fixing rib loosely fits the substrate to the fixing rib so that the first protrusion is loosely fitted to the second notch, and the substrate is fixed along the longitudinal direction of the substrate. when moving up, the first protrusion Viewing device you characterized in that is adapted to secure the board by fitting the lack said first cut. The substrate is provided with an elongated opening in the longitudinal direction,
The said fixing rib contains the 4th fixing rib provided with the 2nd projection part inserted so that it can move loosely in the longitudinal direction of the said board | substrate in the said opening. 5. The display device according to any one of 4 . The second fixing rib includes a sandwiching portion that sandwiches the substrate from the front and back, and a sandwiching portion that narrows an interval between the substrates as the substrate approaches the fixing position. Item 4. The display device according to any one of Items 1 to 3 . A television receiver comprising the display device according to any one of claims 1 to 6 .