JP6686458B2 - Light source device and display device - Google Patents

Description

  The present invention relates to a light source device that illuminates a display panel and a display device including the light source device.

  The display device includes a liquid crystal display device and the like. A general liquid crystal display device includes a liquid crystal display panel that includes liquid crystal in a pair of substrates, and includes a polarizing plate provided so as to sandwich the pair of substrates, a light source device that illuminates the liquid crystal display panel, and a liquid crystal display panel. And a frame for engaging the light source device.

  The light source device includes a light source and a light guide plate that planarly emits light from the light source, an optical sheet for diffusing and controlling the light of the light guide plate on the light exit surface side of the light guide plate, and a non-light exit surface side of the light guide plate on the light exit surface side. It is composed of a reflection sheet for allowing the light emitted from the light guide plate to enter the light guide plate again, a rear frame for holding these members, and the like.

  A plurality of optical sheets are provided to obtain a desired brightness and viewing angle of the display device, and the plurality of optical sheets must be arranged in an appropriate order.

  According to the display devices described in Patent Document 1 and Patent Document 2, a structure in which a part of the optical sheet is bent is disclosed. Patent Document 1 discloses a structure in which it is possible to confirm whether or not the optical sheet is arranged by inserting the bent portion of the optical sheet into a slit (opening) provided in the rear frame. Further, Patent Document 2 discloses a structure for positioning and holding an optical sheet by a bent portion of the optical sheet.

JP, 2007-157574, A JP, 2008-305576, A

  In the display device described in Patent Document 1, it is possible to determine whether or not the required number of optical sheets are arranged by bending a part of the optical sheet and visually inspecting it through a slit (opening) provided in the rear frame. It is difficult to determine whether the number of optical sheets are arranged in the proper order. In the display device described in Patent Document 2, the bent portion of the optical sheet is configured for the purpose of restricting positioning or movement, and it cannot be determined whether the optical sheets are arranged in an appropriate order.

  The present invention has been made to solve the above problems, and when arranging a plurality of optical sheets, it is possible to arrange a required number of optical sheets in an appropriate order, and to obtain a desired brightness and visual field. An object of the present invention is to provide a light source device and a display device which are highly reliable in terms of corner display performance.

A light source device and the display device of the present invention includes a light source, a plurality of optical sheets, a frame and a light source and the optical sheet to retain the optical sheet is provided with at least one side, the projection projecting from one side A bent portion that is formed and has a notch formed in a part of the protruding portion is provided upright, and the protruding portions of the plurality of optical sheets are arranged so as to overlap each other in a plan view, and the bent portions are located at different positions. It is formed .

  ADVANTAGE OF THE INVENTION According to this invention, an optical sheet can be arrange | positioned in an appropriate order and the light source device and display device with high reliability with respect to the display performance of desired brightness and viewing angle can be provided.

It is an exploded perspective view of a display device of the present invention. The top view of the light source device which comprises the display apparatus of this invention. It is a principal part enlarged view of the A area | region in the light source device of FIG. It is a BB sectional view in the light source device of FIG. It is a top view of the optical sheet which comprises the light source device of this invention. It is a top view of the optical sheet which comprises the light source device of this invention. It is a principal part enlarged view of the optical sheet which comprises the light source device of this invention. It is a principal part enlarged view of the optical sheet which comprises the light source device of this invention. It is CC sectional drawing of FIG. It is a top view of the light source device of this invention. It is a principal part enlarged view of the optical sheet of this invention. It is a principal part enlarged view which looked at the optical sheet of this invention from the upper surface. It is a principal part side view which looked at the optical sheet of this invention from the D direction. It is a principal part side view which looked at the optical sheet of this invention from the E direction.

Embodiment 1.
Hereinafter, the structure of the display device of the present invention will be described with reference to the drawings. In the present embodiment, the same reference numerals are used to have the same or substantially the same function.

  1 is an exploded perspective view of a display device of the present invention, FIG. 2 is a top view of a light source device which constitutes the display device of the present invention, FIG. 3 is an enlarged view of a main part of an A region in the light source device of FIG. 2, and FIG. 2 is a cross-sectional view taken along the line BB in the light source device of FIG. 2, FIG. 5 and FIG. 6 are top views of optical sheets constituting the light source device of the present invention, and FIG. Is.

  As shown in FIG. 1 or 2, the display device 100 includes a display panel 1 such as a liquid crystal display panel and a light source device 2 that serves as a light source of the display panel 1. The light source device 2 includes an optical sheet group 21, an intermediate frame 22 that holds the optical sheet group 21, a rear frame 23, and the like. The display frame 1 and the light source are formed by a front frame 3, a double-sided adhesive tape (not shown), and the like. Holds device 2.

<Display panel>
As the display panel 1, a liquid crystal display panel to which the birefringence of a liquid crystal material is applied, a display plate having characters or pictures printed on a transparent plate, and the like are used. The liquid crystal display panel includes a color filter substrate 11 having a color filter and a light shielding layer formed on the substrate, a thin film transistor (hereinafter referred to as a TFT) serving as a switching element, a pixel electrode, and the like formed on the substrate. The formed TFT substrates 12 are arranged to face each other. A liquid crystal material is provided, which includes a spacer for holding the space between both substrates, a sealing material for bonding the color filter substrate 11 and the TFT substrate 12 together, and a liquid crystal material sandwiched between the color filter substrate 11 and the TFT substrate 12. It is composed of an alignment film for orienting and a polarizing plate. The liquid crystal display panel controls the orientation of the liquid crystal layer by turning on or off a voltage by a switching element, and modulates light incident on the liquid crystal display panel in accordance with a video signal to perform display. The liquid crystal display panel has a TN (Twisted Nematic) mode in which a substantially vertical electric field is applied to the color filter substrate 11 and the TFT substrate 12 for display, and a switching element and a counter electrode are arranged on the TFT substrate 12. There are In-Plane Switching type and Fringe Filed-Switching type in which an electric field is applied laterally or obliquely.

<Light source device>
The light source device 2 diffuses and controls the light of the light guide plate 24 on the side of the light source 25 and the light guide plate 24 that emits the light from the light source 25 in a planar manner, and the light exit face 2a side of the light source device 2 of the light guide plate 24. A plurality of optical sheet groups 21 and a reflection sheet 26 for allowing the light emitted from the light guide plate 24 arranged on the side opposite to the light emitting surface of the light guide plate 24 to enter the light guide plate 24 again are arranged and hold these members. The rear frame 23 and the intermediate frame 22 are configured to operate.

<Light guide plate>
The light guide plate 24 is made of a material such as transparent acrylic resin, polycarbonate resin, or glass. Further, on the side opposite to the light emitting surface of the light guide plate 24, there is formed a light scattering portion for disturbing the propagation direction of the light and guiding it in the direction of emitting the light from the light emitting surface 2a. The light scattering portion functions as a means for reflecting the light toward the inside of the light guide plate 24. As means for reflecting the light, there are a method of printing dots on the light-reflecting surface, a method of roughening the light-reflecting surface to form a textured surface, a method of forming minute spherical surfaces or irregularities (not shown).

<Optical sheet>
The optical sheet group 21 arranged on the light emitting surface 2a side of the light guide plate 24 can be arranged by combining a lens sheet, a diffusion sheet and the like. Also, a structure in which the lens sheet is sandwiched between diffusion sheets may be used. Further, a plurality of lens sheets in which the directions of the prisms are optimally combined may be used to improve the brightness. Further, two or more diffusion sheets may be used to improve the diffusion property of the diffusion sheet. A plurality of optical sheet groups 21 are selected in order to obtain desired brightness and viewing angle, and the order of arrangement is also appropriately determined.

<Reflective sheet>
The reflection sheet 26 is made of a material in which barium sulfate or titanium oxide is mixed with polyethylene or polyethylene terephthalate, a material in which fine bubbles are formed in a resin, a material in which silver is deposited on a metal plate, or a metal plate. A material coated with a coating containing titanium oxide is used. The reflectance of the reflection sheet 26 is preferably 90% or more in order to suppress the reflection loss on the reflection surface, and a material that specularly reflects may be used. By disposing the reflection sheet 26, the light emitted from the light guide plate 24 is directed to the light guide plate 24 again and is incident on the light guide plate 24, whereby the light utilization efficiency can be improved.

<Rear frame>
The rear frame 23 is formed in a box shape, and in order to conduct the heat emitted from the light source 25, it is desirable to use a metal having high thermal conductivity. Particularly, by using aluminum or aluminum alloy having high thermal conductivity, it is possible to efficiently radiate heat from the light source and prevent heat from being accumulated in the light source device 2.

<Intermediate frame>
The intermediate frame 22 is formed in a frame shape having an opening for emitting the light of the light source device 2, and the display panel 1 is mounted, positioned and held on the periphery of the upper surface side. As a material of the intermediate frame 22, a metal such as aluminum, stainless steel, iron, or a resin material such as PC (Polycarbonate: polycarbonate), ABS (Acrylonitrile Butadiene Styrene: acrylonitrile butadiene styrene), or the like can be used.

  The intermediate frame 22 and the rear frame 23 are generally engaged and fixed by a hooking structure using tabs or screwing, and hold an optical member forming the light source device 2.

<Front frame>
The front frame 3 is composed of the display panel 1, the light source device 2, a thin metal or resin molded product, and is fixed to the light source device 2 by a tab-like fixing structure or screwing. The front frame 3 may be integrally formed, or may be configured by combining a plurality of members, and the side surface, the front surface, the back surface, or the peripheral portion may have a mounting portion (a screw, a mounting hole) to be mounted on the final product. Etc.) may be provided.

  The light source device 2 of the present invention includes a plurality of optical sheet groups 21 on the light emitting surface 2a. As shown in FIGS. 2 to 4, the plurality of optical sheet groups 21 are arranged so as to overlap each other in a plan view, and the optical sheet group 21 arranged outside the display area AR has a bent portion 211. . The optical sheet group 21 in the light source device 2 of the present invention is configured by three sheets of the first optical sheet 21A, the second optical sheet 21B, and the third optical sheet 21C, and the first optical sheet is provided on the light guide plate 24. 21A, the 2nd optical sheet 21B, and the 3rd optical sheet 21C are piled up in this order, and the 3rd optical sheet 21C is arrange | positioned at the light emission surface 2a of the light source device 2. That is, in the display device 100 of FIG. 1, the third optical sheet 21C is arranged so as to face the display panel 1. When the first optical sheet 21A to the third optical sheet 21C are arranged in the rear frame 23 in an appropriate order, the bent portions 211 of the optical sheet group 21 are such that the bent portions 211 of the respective optical sheet groups 21 interfere with each other. In order not to do so, they are formed at different positions in a plan view.

  Next, the configuration of the optical sheet group 21 will be described in detail with reference to the top view of FIG. 5 or 6. As described above, the bent portion 211 is provided in the optical sheet group 21 outside the display area AR. Specifically, an L-shaped cut 213 is formed in the protruding portion 212 provided outside the display area AR of the first optical sheet 21A, and the cut 213 portion is the plane of the second optical sheet 21B next overlapping. With respect to the direction, it is erected and bent in a direction other than the plane direction. In the present invention, the notch 213 is erected and bent in a direction overlapping with the second optical sheet 21B to be arranged next and in the same direction. In this specification, the term "standing" means that the bent portion is fixed in an upright state. Further, in the present invention, the bent portion 211 is bent so as to be perpendicular to the plane direction of the optical sheet group 21.

  As shown in FIG. 7, the vertical length D1 of the projection 211 excluding the bent portion 211 of the first optical sheet 21A arranged at the bottom is arranged so as to overlap the first optical sheet 21A. The second optical sheet 21B is formed to be longer than the vertical length D2 of the projection 211 excluding the bent portion 211 of the second optical sheet 21B (D1> D2). Similarly, D2 is formed to be longer than the length (not shown) in the vertical direction of the paper surface of the protruding portion 212 excluding the bent portion 211 of the third optical sheet 21C. Further, the first optical sheet 21A to the third optical sheet 21C are changed stepwise according to the order in which the positions of the bent portions 211 are arranged.

  Next, the operation of the display device 100 of the present invention will be described. In FIG. 2, when assembling the light source device 2, the optical sheet group 21 is arranged in the rear frame 23. As described above, when the optical sheet groups 21 having the bent portions 211 are used to arrange the optical sheet groups 21 in an appropriate order, the bent portions 211 of the second optical sheet 21B are the first arranged first Even if they are arranged so as to overlap the protruding portion 212 of the optical sheet 21A, the bent portions 211 can be arranged without interfering with each other. Further, even if the third optical sheet 21C is arranged so as to overlap the second optical sheet 21B, the bent portions 211 formed in the respective optical sheet groups 21 can be arranged without interfering with each other.

  On the other hand, when the optical sheets 21 are arranged in the wrong order, for example, when the first optical sheet 21A is arranged after the second optical sheet 21B is arranged first, the bent portion 211 of the second optical sheet 21B becomes By interfering with the bent portion 211 of the first optical sheet 21A and causing the first optical sheet 21A, which is an optical sheet to be placed later, to float, it can be seen that the first optical sheet 21A is placed in the wrong order.

  Therefore, in the protruding portion 212 of the optical sheet provided in a part of the optical sheet group 21 of the present invention, the protruding portion 211 excluding the bending portion 211 is bent at different positions so that the length D in the vertical direction of the paper surface is gradually changed. By forming the portion 211, when the plurality of optical sheet groups 21 are arranged in the proper order, the bent portions 211 can be arranged without interfering with each other, and the optical sheet group 21 can be arranged in the proper order. . Therefore, in the light source device 2 and the display device 100, it is possible to provide the display device 100 having high reliability with respect to the display performance of desired brightness and viewing angle.

  Further, when the optical sheet group 21 is arranged, if the bent portions 211 interfere with each other and the optical sheet group 21 floats, it is possible to easily determine that the optical sheet group 21 is arranged in the wrong order.

  In the case of the conventional display device to which the present invention is not applied, the light source device 2 in which the optical sheet groups 21 are arranged in the wrong order is performed after the light source device 2 is assembled or after the display device is assembled. Errors can only be detected by a lighting test using an optical measuring device. In addition, disassembly work must be performed in order to rearrange them in an appropriate order, which requires time and cost. When the present invention is applied, since it is possible to prevent or easily judge an error when arranging the optical sheet group 21 and arrange them in an appropriate order, it is possible to reduce the time and cost for the above-mentioned lighting inspection and disassembly work. Can be suppressed.

  In the present invention, the optical sheet group 21 is composed of three sheets, and the bent portions 211 are formed on all of the first optical sheet 21A to the third optical sheet 21C, but the protruding portion excluding the bent portions 211 is formed. The optical sheet group 21 may be arranged without forming the bent portion 211 on the first optical sheet 21A in which the length D of the sheet 211 in the vertical direction on the paper surface is maximum. In the case of this configuration, when the first optical sheets 21A that do not form the bent portions 211 are arranged in the wrong order, the protrusions 212 of the first optical sheet 21A are replaced by the second optical sheet 21B and the third optical sheet 21B. By interfering with the bent portion 211 formed on the sheet 21C, it can be determined that the sheets are arranged in the wrong order.

  Further, although the light source device 2 in which the optical sheet group 21 is arranged in the rear frame 23 when the light source device 2 is assembled has been described, the optical sheet group 21 may be arranged in the intermediate frame 22. When the optical sheet group 22 is arranged on the intermediate frame 22, the optical sheet group 22 is arranged from the third optical sheet 21C.

<Modification>
The bending direction of the bending portion 211 of the protrusion 212 of the optical sheet group 21 and the position where the bending is formed are not limited to those shown in FIGS. 2 to 7. 8 and 9 are enlarged views of a main part of the protruding portion 212 of the optical sheet group 21 arranged in the light source device 2 according to the modified example of the invention. When the area of the optical sheet group 21 where the bent portion 211 is provided is narrow, the notch 213 is made in the lateral direction of the paper in the protruding portion 212 as shown in FIG. 8, and the bent portion 211 is made to stand upright as shown in FIG. It may be provided. It should be noted that the optical sheet group 21 may be provided with the bent portion 211 without forming the cut 213.

  In the first embodiment, the example in which the direction of the bending 211 of the optical sheet group 21 is bent to the direction of the light emitting surface 2a of the light source device 2 has been described, but the side opposite to the light emitting surface 2a of the light source device 2 is described. It is also possible to fold toward. At that time, the rear frame 23 may be provided with a groove or a hole at a position where the bent portion 211 of the optical sheet group 21 is arranged (not shown).

Embodiment 2.
FIG. 10 shows a top view of the light source device according to the second embodiment. In the first embodiment, the bent portions whose positions are gradually changed are formed outside the display area AR of the optical sheet group 21, but in the second embodiment, the light source device 2 is provided as shown in FIG. As a mark for positioning (corresponding to) the bent portion 211 of the optical sheet group 21 of the rear frame 23 which is to be formed, a score 221 is provided on the rear frame 23. The scribe lines 221 form the bent portions 211 of each optical sheet group 21 (first optical sheet 21A to third optical sheet 21C) when all of the plurality of optical sheet groups 21 are arranged in an appropriate order. The scribe lines 221 are formed so as to match each other. In the first embodiment, it may not be noticed even if the optical sheets in the optical sheet group 21 are left out of order due to an insufficient number of sheets or the like in the proper order, but as shown in the second embodiment, the intermediate frame 22 By aligning the scribe lines 221 provided on the optical sheet group 21 with the bent portions 211 provided on the plurality of optical sheet groups 21, the optical sheet groups 21 can be arranged in an appropriate order and the optical sheet groups 21 ( It is possible to prevent forgetting to place any of the first optical sheet 21A to the third optical sheet 21C.

  In the second embodiment, the scoring 221 is provided on the rear frame 23. However, if all the numbers of the plurality of optical sheet groups 21 can be confirmed, the scoring 221 may be provided on other members. Good. In the case of the structure in which the rear frame 23 and the intermediate frame 22 are engaged after the optical sheet group 21 is arranged on the intermediate frame 22, the scoring is performed at a position where the bent portion 211 of the optical sheet group 21 of the intermediate frame 22 matches. May be provided (not shown). In addition, the markings 221 may be provided on the light guide plate 24 arranged in the vicinity of the optical sheet group 21. Further, the marking is not limited to the scoring 221, and dots or lines may be formed by printing as long as they are marks for positioning.

Embodiment 3.
FIG. 11 is an enlarged view of a main part of the optical sheet group 21 according to the third embodiment. In the second embodiment, as shown in FIG. 10, the scoring line 221 provided on the intermediate frame 22 and the bent portion 211 of the optical sheet group 21 are arranged so as to coincide with each other, whereby the arrangement of the optical sheet 21 group is forgotten. However, in the third embodiment, as shown in FIG. 11, the order of arranging in the bent portion 211 of the optical sheet group 21 (first optical sheet 21A to third optical sheet 21C) is changed. For determination, a notch 214 is formed as a mark at the tip of the bent portion 211. In the third embodiment, as an example, the notch 214 indicating the number in the arrangement order from the light emitting surface side is formed in the bent portion 211. According to the configuration of the third embodiment, only the optical sheet group 21 is included in any one of the optical sheet groups 21 (one of the first optical sheet 21A to the third optical sheet 21C). It is determined that 21 is left unplaced. Therefore, a plurality of optical sheet groups 21 can be arranged in an appropriate order, and it is possible to prevent forgetting to arrange any one of the optical sheet groups 21 only by the optical sheet group 21.

  Further, in the configuration of the second embodiment, when there is a member such as the intermediate frame 22 in the extension direction of the bent portion 211 of the optical sheet group 21, the scoring marks 221 can be provided, but the direction in which the bent portions 211 match. When the member is not arranged in the sheet, or when the marking cannot be provided even if the member is arranged, the order is determined in the folded portion 211 of the optical sheet group 21 as in the configuration of the third embodiment. By providing the notch 214 for this, it is possible to prevent forgetting to dispose the optical sheet group 21. Note that the notch 214 may be a hole and can also be formed as a mark by printing if the number of arrangement orders can be determined.

Embodiment 4.
FIG. 12 is an enlarged view of a main part of the optical sheet group 21 according to the third embodiment as viewed from above, FIG. 13 is a side view of the main part of the optical sheet viewed from the side D direction in FIG. 12, and FIG. FIG. 14 is a side view of the main part as seen from the side surface E direction. As shown in FIGS. 12 to 14, in the fourth embodiment, the bent portion 211 formed on the first optical sheet 21A and the bent portion 211 formed on the second optical sheet 21B arranged next are provided. , Formed at different positions. In addition, when it is confirmed from the side surface D direction of the light source device 2 that the bending portion 211 is in the overlapping direction, the overlapping portion 215 that partially overlaps and the non-overlapping portion 216 that does not partially overlap are configured. Similarly, the bent portions 211 of the second optical sheet 21B and the third optical sheet 21C are also provided with overlapping portions 215 that partially overlap and non-overlapping portions 216 that do not overlap in the side surface D direction. In the light source device 2 having such a configuration, when one of the optical sheet groups 21 is forgotten to be arranged and a visual check is performed from the side surface D direction, a space is generated in the bent portion 211 of the optical sheet group 21, Alternatively, by confirming that the area of the bent portion 211 becomes narrow, it is possible to prevent forgetting to place any of the optical sheet groups 21.

  Note that, in the present invention, the configuration described above is not limited to each embodiment, and can be appropriately changed and combined without departing from the present invention.

1 display panel, 11 color filter substrate, 12 TFT substrate,
2 light source device, 21, optical sheet group, 21A first optical sheet, 21B second optical sheet,
21C 3rd optical sheet, 211 Bending part, 212 Projection part, 213 Notch,
214 notches, 22 middle frame, 221 scoring, 23 rear frame,
24 light guide plate, 25 light source, 26 reflection sheet, 3 front frame,
100 display device.

Claims (7)

A light source,
Multiple optical sheets,
A frame that holds the light source and the optical sheet,
The optical sheet includes at least one side, a protruding portion protruding from the one side is formed, and a bent portion in which a notch formed in a part of the protruding portion is provided upright,
In plan view, the protruding portion of the plurality of optical sheets are arranged to overlap each other, the bent portion includes a light source and wherein the that will be formed at different positions. The light source device according to claim 1, wherein the bent portions of the plurality of optical sheets are formed by bending in the same direction. The projecting portion, the projecting in a planar direction with respect to the plane of the optical sheet, wherein the bent portion is a light source apparatus according to claim 1 or 2, wherein the Rukoto bent in a direction other than the planar direction. The frame, the corresponding to the position where the bent portion of the optical sheet is disposed, the light source device according to any one of claims 1 to 3, characterized in that marks for positioning are formed. The bent portion of the optical sheet, the light source device according to any one of claims 1 to 4, characterized in that the marks for determining the order of arrangement of the optical sheet to the tip is formed. Wherein the bent portion of the optical sheet, the light source device according to any one of claims 1 to 5, further comprising a non-overlapping portion not overlapping each other in part. A display device, comprising a display panel that displays an image, facing the light source device according to claim 1.

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