JP4341287B2 - Backlight unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a backlight unit in a liquid crystal display device, and more particularly to a backlight unit that improves display quality by devising mounting of a linear light source and a light guide plate on a housing.
[0002]
[Prior art]
A backlight used in a liquid crystal display device uses a small-diameter fluorescent tube such as a cold cathode or a hot cathode tube as a light source, and is generally roughly classified into an edge type and a direct type. The edge type backlight has a structure in which a linear light source composed of a small fluorescent tube is disposed on the side surface of a light guide plate, and light from the light source is guided to the surface of the liquid crystal display panel. Has a structure in which light from a linear light source disposed in a lamp chamber is diffused and irradiated to a liquid crystal display panel through a diffusion plate.
[0003]
Among these, the edge type backlight can be provided with a linear light source on the side surface of the light guide plate, so that the installation space for the linear light source can be saved and the size and thickness can be easily reduced compared to the direct type backlight. . Taking advantage of this advantage, this type of backlight is often used in liquid crystal display devices that require a reduction in size and thickness.
[0004]
In recent years, liquid crystal display devices are further reduced in size and thickness, and accompanying this, backlights are required to be further reduced in size and thickness. On the other hand, the ease of assembly and maintenance, the enlargement of the display screen in a limited space, and the like have been pursued, and many techniques related to these have been introduced in the patent literature. (For example, refer to Patent Documents 1 and 2).
[0005]
Japanese Patent Application Laid-Open No. 2004-228561 describes an illumination device that is easily assembled and maintained. FIG. 6 is an exploded perspective view showing the lighting device described in this document.
[0006]
The illumination device 100 includes a linear light source 106, a heat radiating plate 110a, a reflecting plate 110b, a light guide plate 110c, a diffusion plate 110d, a lens sheet 110e, and the like, and includes upper and lower frames 101 and 102 for fixing these members. A plurality of pins 109 are provided at one end of the lower frame 102, and holes 111 inserted into these pins 109 are provided in the upper frame 101 and the members 110a to 110e, respectively. The assembly is performed according to the following procedure.
[0007]
First, the heat radiating plate 110a, the reflecting plate 110b, the light guide plate 110c, the diffusing plate 110d, and the lens sheet 110e are stacked in the order shown in the drawing, and the holes 111 of the respective members are fitted into the pins 109 of the lower frame 102.
[0008]
Next, after the linear light source 106 and the harness 107 are disposed at one end of the light guide plate 110c, the pin 109 of the lower frame 102 is fitted into the hole 111 of the upper frame 101, and the protrusion 103 of the upper frame 101 is further lowered. The upper frame 101 is fixed to the lower frame 102 by being engaged with the recess 108 of the frame 102. Thereafter, the liquid crystal display panel 104 is placed on the upper frame 101 and fixed by the fixed frame 105.
[0009]
Patent Document 2 describes a liquid crystal display device in which the display window of the upper frame is enlarged in a limited space. FIG. 7 is a cross-sectional view showing a correspondence relationship between the linear light source, the silver reflection sheet, and the light guide plate assembly constituting the backlight unit of the liquid crystal display device described in this document.
[0010]
The backlight unit 200 includes a light source 201 and a light guide plate 203 having an end on one side facing the light source 201. The light guide plate 203 has a liquid crystal display at the end on the light source 201 side. A convex portion 202a is formed on the panel (not shown) side, a light shielding film 205 is provided on the inner surface of the convex portion 202a, and one end of the silver reflecting sheet 206 is attached to the outer surface of the convex portion 202a (on the liquid crystal display panel side) by a double-sided tape 207. The surface is fixed to the surface.
[0011]
The other end of the silver reflection sheet 206 is inserted between the reflection sheet 204 and a mold (not shown), and the diffusion sheet 208 is an outer surface of the convex portion 202a on the surface 202 of the light guide plate 203 on the liquid crystal display panel side. It is provided in the area other than.
[0012]
According to this configuration, since one end of the silver reflection sheet 206 is fixed to the outer surface of the convex portion 202a by the double-sided tape 207, the light emitting area of the light guide plate 203 is larger than that in which the convex portion 202a is not provided. Therefore, if the light emission effective area of the light guide plate 203 is the same, the outer dimension of the light guide plate 203 can be reduced, so that the display window of the liquid crystal display panel can be made narrower.
[0013]
[Patent Document 1]
JP-A-9-147618 (Claims 1-4, FIG. 5)
[Patent Document 2]
JP-A-10-253958 (Claim 1, FIG. 4 (a))
[0014]
[Problems to be solved by the invention]
However, in the illumination device of Patent Document 1, in order to sandwich and fix an illumination member such as a lens sheet, a diffusion plate, a light guide plate, and a reflection plate between the upper frame and the lower frame, the illumination device is attached to the side end portion of each illumination member. Since protrusions must be provided and holes must be provided in these protrusions, the processing of each lighting member is complicated, and the upper and lower frames 101 and 102 are enlarged by the protrusions. Further, if a U-shaped fluorescent lamp is used as a light source in order to increase the amount of light, a locking claw made of a protrusion or the like is disposed between the fluorescent lamp tube and the light guide plate. Shields the light emitted from the fluorescent lamp or reflects the light on the opposite surface and casts a shadow to generate a bright line. In the worst case, a shadow is formed and a bright line is formed at the shadow. There is a risk of uneven lighting.
[0015]
Further, the backlight unit of Patent Document 2 must be provided with a light-shielding film on the inner surface of the convex portion in order to prevent this bright line, and a silver reflection sheet must be prepared separately from the reflection sheet. It has a simple structure.
[0016]
The present invention has been made in order to solve these problems of the prior art, and an object of the present invention is to provide a backlight unit that improves display quality with a simple structure and further reduces the size. Is to provide.
[0017]
[Means for Solving the Problems]
In order to solve the above problems, the backlight unit of the present invention is configured to fix a linear light source with lamp holders mounted on both ends so that lead wires are led out, and the linear light source on the inner surface of the side wall. A box-shaped housing having the first and second fixing means, a reflective sheet laid on the bottom wall surface in contact with at least the inner wall surface of the box-shaped housing where the linear light source is disposed, A backlight unit including a light guide plate made of a light-transmitting material placed on and fixed in the box-shaped housing, wherein the light guide plate is an end on a side facing the linear light source. The protrusion is formed into an inclined surface in which the portion facing the linear light source is inclined at an acute angle from the front surface to the back surface, and the first fixing means is formed of the box-shaped housing. Protruding from the bottom wall The projections are provided at both corners of the inner surface of the side wall of the box housing, and the linear light source is fixed to the inner surface of the side wall of the box housing by the small projections. the second fixing means, the lead wire is fixed to another side wall inner surface side of the box-type housing, and the first, the light guide plate by the second fixing means is fixed, the respective small projections of the light guide plate The surface of the protruding portion where at least each small protrusion is located is covered with the end portion of the reflection sheet that is bent so as to include the linear light source on the inside. and said that you are.
[0018]
The light guide plate has a protruding portion formed at an end on the side facing the linear light source, and the protruding portion is inclined at an acute angle from the front surface to the back surface of the linear light source. The reflection surface is an inclined surface, and a portion in contact with each of the small protrusions is a stepped portion, and at least the surface of the protruding portion where the small protrusions are located is bent so as to include the linear light source inside. It is preferable that it is covered with the edge part of a sheet | seat.
[0019]
In this backlight unit, the first fixing means is formed by a small protrusion, and the small protrusion is provided at both corners of the inner surface of one side wall of the box-type housing, and the side wall of the box-type housing is formed by these small protrusions. The light source lamp is fixed to the inner surface, and the light guide plate is positioned and fixed by each small protrusion and the second fixing means. By this fixing method, the small protrusions are provided at both corners of the inner surface of one side wall of the box-type housing, so that the light emitted from the linear light source wraps around each small protrusion, and particularly there is no dark low-luminance part. Thus, shadows and the like are not observed from the display screen. In addition, since the protruding amount of the protruding portion is small and the lower surface of the protruding portion is not horizontal, the light reflected by the inclined surface is difficult to see from the observation surface, and the surface side is light source from the protruding surface. The inclined picture of the protruding portion is not observed even when trying to look into the screen. Further, the light guide plate is positioned and fixed by the first and second fixing means, and the lead wire is fixed by the second fixing means and the inner surface of the other side wall of the box-shaped housing. Positioning and fixing of the light source and the light guide plate are accurate and easy.
[0020]
The linear light source is a U-shaped fluorescent lamp, and the second fixing means is a small protrusion protruding from a bottom wall surface of the box-shaped housing, and the lamp holder is also fixed by the small protrusion. It is preferable to do so.
[0021]
In this backlight unit, by using a U-shaped fluorescent lamp for the linear light source, each small protrusion of the first fixing means is brought into contact with the bottom corner of the U-shaped fluorescent lamp, Since the fluorescent lamp is positioned and fixed, and the protrusion is covered with the reflection sheet, the light emitted from the linear light source goes around each small protrusion from two directions. With this configuration, there is no particularly dark low-brightness part, and shadows and the like are not observed from the display screen, and bright lines and the like are not further observed.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to the drawings. 1 is an exploded perspective view of the backlight unit, FIG. 2 is a plan view of the assembly of FIG. 1, FIG. 3 is a partial cross section of the assembly, and FIG. 1 (a) is AA of FIG. 2B is an enlarged cross-sectional view taken along the line BB in FIG. 2, FIG. 4 is a plan view of the assembly in which the linear light source is covered with a reflection sheet, and FIG. 5 is an assembly in which the linear light source is mounted on the housing. It is a top view.
[0023]
The backlight unit 10 includes a linear light source 20, a reflection sheet 30, a light guide plate 40, a diffusion plate 51, a lens film 52, a diffusion plate 53, a housing 60 that houses these members, and the housing 60. It is comprised from the fixed frame 70 with which it is mounted | worn. In addition, although a liquid crystal display panel is mounted on the optical member 50, it is abbreviate | omitted in FIGS.
[0024]
Hereinafter, main parts constituting the backlight unit will be described.
[0025]
As the linear light source 20, a fluorescent lamp with a small diameter tube is used. As shown in FIGS. 1 and 5, the shape is substantially U-shaped so as to surround the three side end surfaces 42 a, 42 b, 42 c of the light guide plate 40. This linear light source (fluorescent lamp) 20 has lead wires 22a and 22b connected to the ends thereof, and is mounted with substantially L-shaped lamp holders 23a and 23b so that these lead wires 22a and 22b are led out. Is done. An electrical connector 24 is connected to the ends of the lead wires 22a and 22b. In addition, the linear light source 20 is not limited to a U-shaped thing, It can be used by combining a L-shape or a linear thing. However, since the number of inverter circuits and the like for lighting the linear light source 20 are required as many as the number of the linear light sources 20, a U-shaped one is preferable for a small display device that requires high luminance.
[0026]
The reflection sheet 30 is made of a sheet material made of a plastic material made of polyethylene terephthalate or the like. The size wraps around the three side end faces 42a, 42b, 42c of the light guide plate 40 in which the U-shaped fluorescent lamp 20 is disposed on the outer periphery, and the bent pieces 32a ', 32b of the sheet side ends 32a, 32b, 32c. ', 32c' has a length covering a part of the surface 41 of the light guide plate 40. Each sheet side end 32a, 32b, 32c is bent from the reflection sheet 30, and in order to facilitate this bending, notches 33a, 33b are provided at the corners of the reflection sheet 30. In addition, the reflection sheet 30 is provided with openings 34b at both ends of the bottom surface 31 in the vicinity of the one end 32c. (FIG. 3A shows one opening 34b, and the other opening 34a is omitted). Through these openings, small protrusions 64 a and 64 b provided in the housing 60 are inserted.
[0027]
The light guide plate 40 has a rectangular shape having a predetermined thickness and substantially the same horizontal width and vertical width as a liquid crystal display panel (not shown), and is formed of a translucent member such as an acrylic resin. The light guide plate 40 has a protruding portion on one side end face 42b. The shape of this protrusion will be described later.
[0028]
An optical member 50 is laminated on the light guide plate 40. The optical member 50 includes a laminated body of a diffusion plate 51, a lens film 52, and a diffusion plate 53. The diffusion plate 51, the lens film 52, and the diffusion plate 53 have openings 51a and 51b, 52a and 52b, and 53a and 53b, respectively, near both ends of one side end. (In FIG. 1, one opening 51a, 52a, 53a is shown, and the other opening 51b, 52b, 53b is omitted).
[0029]
As shown in FIG. 5, the housing 60 has a size that can accommodate the U-shaped fluorescent lamp 20, the light guide plate 40, and the reflection sheet 30, and has a shallow box shape and is molded of synthetic resin. The The bottom wall surface 61 has a width in which the reflection sheet 30 wrapping the fluorescent lamp 20 is laid, and the height of the peripheral side walls 62 a, 62 b, 62 c, 62 d is slightly longer than the thickness of the light guide plate 40. A plurality of openings 61 a to 61 d are formed in the bottom wall surface 61 as necessary. These openings 61a to 61d mainly dissipate heat emitted from the fluorescent lamp 20 to the outside.
[0030]
The bottom wall surface 61 has small projections (first fixing means) 64a raised from the bottom wall surface 61 at corners 63a and 63b at both ends of the one side wall 62c at a predetermined distance from the inner wall surface of the side wall 62c. , 64b are formed. The distance from the inner wall surface is set to a length obtained by adding at least the tube diameter of the fluorescent lamp 20 to the thickness of the reflection sheet 30. The small protrusions 64a and 64b are formed in an arbitrary shape, for example, a pin shape or a strip shape. These small protrusions have one side (end) surface abutted against the step portion of the protruding portion 42b ′ of the light guide plate, and the height thereof is formed to be within the step portion.
[0031]
A part of each of the small protrusions 64a and 64b comes into contact with at least the bottom corners 24a and 24b of the U-shaped fluorescent lamp 20 when the U-shaped fluorescent lamp 20 is disposed in the housing 60. It is preferable to provide the position. The small protrusions 64a and 64b may be located in the vicinity of the other side walls 62a and 62b. In this case, one small protrusion 64a may be provided on the side wall 62a side, and the other small protrusion 64b may be provided on the other side wall 62b side, or vice versa. In any case, these small protrusions 64a and 64b are provided in the vicinity of the corners 63a and 63b at both ends of the one side wall 62c where the corner of the U-shaped fluorescent lamp 20 is located.
[0032]
These small protrusions 64a and 64b are fixed to the fluorescent lamp 20 and the reflection sheet 30 between one side (end) surface of each small protrusion and the inner wall surface of one side wall 62c, and the other side (end) of each small protrusion. ) Surface and the second fixing means 64c and 64d (described later), the light guide plate 40 is positioned and fixed.
[0033]
In addition, a pair of small protrusions 64c and 64d (second fixing means) are formed at the other side end of the bottom wall surface 61 with an interval through which at least the lead wires 22a and 22b are inserted from the inner wall surface of the side wall 62d. . These small protrusions 64c and 64d are raised from the bottom wall surface 61 and have a predetermined length, and pin-shaped small protrusions 64c 'and 64d' are formed on one end surface thereof. These pin-shaped protrusions 64c ′ and 64d ′ are used to position and fix the optical member 50, and are also used as guides for the lead wires 22a and 22b.
[0034]
The small protrusions 64c and 64d can be formed in an arbitrary shape. For example, the small protrusions 64c and 64d are formed in the vicinity of the corners 63c and 63d of the side wall 62d in the form of pin-shaped or strip-shaped small protrusions instead of a linear shape. For example, the positioning and fixing of the lamp holders 23a and 23b may be combined.
[0035]
Accordingly, the small protrusions 64a, 64b and 64c, 64d fix the U-shaped fluorescent lamp 20 with a pair of small protrusions 64a, 64b, and the light guide plate 40 with the other pair of small protrusions 64c, 64d. The positioning will be fixed. Further, the other pair of small protrusions 64c and 64d is fixed by sandwiching and fixing the lead wires 22a and 22b between the inner wall surface of the side wall 62d and changing the locations where the protrusions 64c and 64d are provided. The light plate 40 and the lamp holders 23a and 23b can be fixed simultaneously.
[0036]
Further, locking projections 65a, 65b, 65c, 65d are provided on the outer peripheral surfaces of the side walls 62a, 62b, 62c, 62d of the box-shaped housing 60, respectively. Further, circuit boards 80a and 80b for driving and controlling a liquid crystal display panel (not shown) are mounted on the back surface of the box-shaped housing 60.
[0037]
Further, as shown in FIG. 1, the fixed frame 70 has a frame shape from a display window 71 provided on the surface and frame bodies 72a, 72b, 72c, 72d forming the display window, and is formed of resin. . The resin is preferably a black material having no translucency. Each frame 72a-72d is formed with tongue pieces depending from each frame, and openings 73a-73d are provided in these tongue pieces. In FIG. 1, the openings 73b and 73d are omitted.
[0038]
Next, the shape of the protrusion 42b ′ formed on the one end face 42b of the light guide plate 40 will be described.
[0039]
Referring to FIGS. 3A and 3B, the one end face 42 b of the light guide plate 40 is formed with an inclined surface 42 b _{1 that} is inclined at an acute angle from the front surface 41 toward the back surface 43. The inclined surface 42b ₁ is inclined so as to be close to the tube of the fluorescent lamp 20, and extends to substantially the middle part of the thickness of the light guide plate 40.
[0040]
In addition, the inclined surface 42b ₁ is formed in a different shape after passing through a substantially middle portion of the thickness of the light guide plate 40. That is, substantially L-shaped notch step portions 42b ₂ and 42b ′ ₂ are formed at the abutting portions with the small protrusions 64a and 64b provided on the housing 60, and the other portion 42b ₃ has a back surface from the middle portion thereof. It hangs down to 43. Of the step portions 42b ₂ and 42b ′ ₂ , FIG. 3A shows a notch step portion 42b ₂ corresponding to one small protrusion 64a, and the other notch step portion 42b ′ ₂ is omitted. ing.
[0041]
With this configuration, the side end face 42b of the light guide plate 40 has a length t ₁ protruding at the portion where the notched step portion is formed on the back surface 43, and the length t ₂ at the other portion. Then, the notched step portions 42b ₂ and 42b ′ ₂ are covered by the portion of the projection length t ₁ . Also, the other side end face 42a, 42b, the 42c, inclined surface corresponding to the side edge 42b length t ₂ is formed. The surface of the light guide plate 40 is fixed by folding the side edge of the reflection sheet at least at the length t ₁ of each side wall end. A double-sided tape or the like is used for this fixing.
[0042]
On the other hand, since the small protrusions 64a and 64b are formed at both corners of the one end face of the housing, the light emitted from the fluorescent lamp 20 wraps around the small protrusions 64a and 64b from two directions. There is no shadow that becomes a luminance part, and no bright line is generated by reflection.
[0043]
More specifically, the fixing means corresponding to the small protrusions 64a and 64b is, for example, a known liquid crystal display device in which a protrusion having a predetermined width is provided at a position avoiding the vicinity of the corner of the housing. It is provided between the fluorescent lamp and the light guide plate.
[0044]
According to this structure, the light from the fluorescent lamp cannot travel from the two directions to the periphery of the protrusion as described above, and a low-luminance portion that is rather shielded by the protrusion is generated. Will be observed.
[0045]
Further, the protruding portion 42b ′ formed on the one end face 42b of the light guide plate 40 has a small protruding amount of the protruding portion, and the lower side of the protruding portion is not horizontal and is inclined, so that the reflected light is observed. It is difficult to see from the surface, and the inclined surface of the protrusion is not observed on the surface side even if the light source is viewed from the protrusion.
[0046]
A backlight unit using these components is assembled in the following procedure.
[0047]
First, the openings 34 a and 34 b of the reflection sheet 30 are inserted into the small protrusions 64 a and 64 b formed on the bottom wall 61 of the box-shaped housing 60, and the reflection sheet 30 is fixed to the bottom wall surface 61 of the box-shaped housing 60. Next, the U-shaped fluorescent lamp 20 is positioned and fixed on the reflection sheet 30 such that the U-shaped bottom corners 24a and 24b are in contact with the small protrusions 64a and 64b. On the other hand, the lead wires 22a and 22b connected to the U-shaped fluorescent lamp 20 are housed and fixed in a gap between the small protrusions 64c and 64d and the housing side wall 62d.
[0048]
Thereafter, the light guide plate 40 is positioned and fixed by the small protrusions 64a, 64b and the small protrusions 64c, 64d, the three side ends 32a, 32b, 32c of the reflection sheet 30 are bent, and the bent pieces 32a ′, 32b ′, 32c ′. Is fixed to the outer periphery of the surface of the light guide plate 40. This fixing is performed using a double-sided adhesive tape (not shown) or the like.
[0049]
Thereafter, the optical member 50 is placed on the assembly and assembled. This mounting assembly is performed by fitting the respective openings 51a to 53b of the diffusion plate 51, the lens film 52, and the diffusion plate 53 into the pin-like protrusions 64c ′ and 64d ′.
[0050]
Thereafter, the fixed frame 70 is attached to the housing 60. The mounting is performed by engaging the openings 73a, 73b, 73c and the like provided in the locking tongue pieces with the locking projections 65a, 65b, 65c of the housing.
[0051]
【The invention's effect】
In the backlight unit according to the present invention, the first fixing means is formed by small protrusions and is provided at both end corners of the inner surface of one side wall of the box-shaped housing, so that the light emitted from the linear light source goes around each small protrusion. In particular, there is no dark low-luminance part, and shadows are not observed from the display screen. In addition, since the protruding amount of the protruding portion is small and the lower surface of the protruding portion is not horizontal, the light reflected by the inclined surface is difficult to see from the observation surface, and the surface side is light source from the protruding surface. The inclined surface of the projecting portion is not observed even when trying to look through. Further, the light guide plate is positioned and fixed by the first and second fixing means, and the lead wire is fixed by the second fixing means and the inner surface of the other side wall of the box-shaped housing. Positioning and fixing of the light source and the light guide plate are accurate and easy.
[0052]
Further, by using a U-shaped fluorescent lamp as the linear light source, each small protrusion of the first fixing means is brought into contact with the bottom corner of the U-shaped fluorescent lamp, and the fluorescent lamp is positioned and fixed. Since the projections are covered with the reflection sheet, the light emitted from the linear light source wraps around each small projection from two directions, and there is no particularly dark low-brightness part, and shadows are generated and observed from the display screen. No bright lines are observed.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a backlight unit according to an embodiment of the present invention.
FIG. 2 is a plan view of a backlight unit according to an embodiment of the present invention.
3A is an enlarged cross-sectional view taken along line AA in FIG. 2, and FIG. 3B is an enlarged cross-sectional view taken along line BB in FIG.
FIG. 4 is a plan view of an assembly in which a linear light source according to an embodiment of the present invention is covered with a reflection sheet.
FIG. 5 is a plan view of an assembly in which a linear light source according to an embodiment of the present invention is mounted on a housing.
FIG. 6 is an exploded perspective view showing a conventional illumination device.
FIG. 7 is a cross-sectional view showing a correspondence relationship between a linear light source, a silver reflection sheet, and a light guide plate assembly constituting a conventional backlight unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Backlight unit 20 Linear light source 22a, 22b Lead wire 23a, 23b Lamp holder 30 Reflection sheet 32a ', 32b', 32c 'Bending piece 40 Light guide plate 42b' Protruding part 42b ₁ inclined surface 42b _Two- step part 60 Box type housing 61 Bottom wall surface 62a, 62b, 62c, 62d Side wall 64a, 64b, 64c, 64d Small protrusion

Claims (3)

A linear light source with lamp holders attached to both ends so that lead wires are led out,
A box-shaped housing having first and second fixing means for fixing the linear light source to the inner surface of the side wall;
A reflective sheet laid on the bottom wall surface in contact with at least the inner surface of the side wall of the box-shaped housing where the linear light source is disposed;
A backlight unit comprising a light guide plate made of a translucent material placed on the reflection sheet and positioned and fixed in the box-shaped housing;
The light guide plate has a protruding portion formed at an end portion facing the linear light source,
The projecting portion is an inclined surface in which a portion facing the linear light source is inclined at an acute angle from the front surface to the back surface ,
The first fixing means comprises a small protrusion protruding from the bottom wall surface of the box-shaped housing,
The small protrusions are provided at both corners of the inner surface of the side wall of the box-shaped housing;
The linear light source is fixed to the inner surface of one side wall of the box-shaped housing by the small protrusions,
By the second fixing means, the lead wire is fixed to the inner surface of the other side wall of the box-shaped housing,
And the light guide plate is fixed by the first and second fixing means,
The portion of the light guide plate that comes into contact with each small protrusion is a stepped portion,
The backlight unit , wherein at least a surface of the protruding portion on which each small protrusion is located is covered with an end portion of the reflection sheet bent so as to include the linear light source inside . The backlight unit according to claim 1 , wherein the linear light source is a U-shaped fluorescent lamp.   2. The backlight according to claim 1, wherein the second fixing means includes a small protrusion protruding from a bottom wall surface of the box-shaped housing, and the lamp holder is also fixed by the small protrusion. unit.

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