KR101717295B1 - Backlight unit and display appratus having the same - Google Patents

Abstract

A backlight unit according to an embodiment includes: a bottom cover; A light guide plate on the bottom cover; A plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate; A light emitting module including a module substrate on which the plurality of light emitting diodes are mounted; And a side cover which is disposed on an outer periphery of the first side face of the light guide plate and extends in the direction of the module substrate, and guides the light generated from the light emitting diode to the first side face of the light guide plate.

Description

BACKLIT UNIT AND DISPLAY APPARATUS HAVING THE SAME [0002]

The embodiment relates to a backlight unit and a display device having the same.

As information processing technology has developed, display devices such as LCD, PDP, and AMOLED have been widely used. Of these display devices, the LCD requires a backlight unit capable of generating light in order to display an image.

Embodiments provide a backlight unit and a display device having the backlight unit that can prevent a light leakage defect in an edge region of a light guide plate.

Embodiments provide a backlight unit and a display device having the same that can improve light deficiency by disposing a light guide plate and a supporting platter covering the module substrate at a predetermined angle.

Embodiments provide a backlight unit and a display device including the light guide plate, wherein the light guide plate and the light emitting diode are brought into close contact with each other by coupling a reflective cover to at least one side surface of the light guide plate.

A backlight unit according to an embodiment includes: a bottom cover; A light guide plate on the bottom cover; A plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate; A light emitting module including a module substrate on which the plurality of light emitting diodes are mounted; A substrate fixing unit for supporting the module substrate; And a support plate extending from the substrate fixing part to a structure inclined in the direction of the upper surface of the light guide plate and including an upper cover covering the module substrate and a first side surface of the light guide plate.

A backlight unit according to an embodiment includes: a bottom cover; A light guide plate on the bottom cover; A plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate; A light emitting module including a module substrate on which the plurality of light emitting diodes are mounted; And a side cover which is disposed on an outer periphery of the first side face of the light guide plate and extends in the direction of the module substrate, and guides the light generated from the light emitting diode to the first side face of the light guide plate.

A display device according to an embodiment includes: a bottom cover; A light guide plate disposed on the bottom cover; A reflective sheet between the light guide plate and the reflective sheet; A plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate; A light emitting module including a module substrate on which the plurality of light emitting diodes are mounted; A side cover disposed on an outer periphery of a first side face of the light guide plate and extending in the direction of the module substrate to guide light generated from the light emitting diode to a first side face of the light guide plate; And an optical sheet on the light guide plate; And a display panel on the optical sheet.

Embodiments can improve the light leakage problem at the edge portion of the backlight unit, thereby improving the reliability of the backlight unit.

Embodiments can cover the upper surface of the light guide plate and the module substrate, thereby improving the luminance by removing the light leakage amount.

The embodiment can improve the reliability of the backlight unit.

1 is a side cross-sectional view showing a display device according to the first embodiment.
2 is a side sectional view showing the light emitting diode of FIG.
Fig. 3 is a cross-sectional side view of the backlight unit of Fig. 1; Fig.
4 is a side sectional view showing a modification of the light emitting module of Fig.
5 is a view showing a modification of the support plate according to the embodiment.
6 is a view showing another example of the support plate according to the embodiment.
7 is a view showing still another example of the support plate according to the embodiment.
8 is a side sectional view of the backlight unit in the second embodiment.
Fig. 9 is a perspective view showing the combination of the light guide plate and the side cover of Fig. 8;
10 is a front view of Fig.
11 is a view showing another example of the side cover of Fig.
12 is a view showing still another example of the side cover of Fig.
13 is a view showing still another example of the side cover of Fig.
14 is a view showing an example in which the side covers of Fig. 8 are arranged on both sides of the light guide plate.
Fig. 15 shows an example in which the side cover of Fig. 10 is modified.

In describing an embodiment, it is to be understood that each layer (film), region, pattern or structure is formed "on" or "under" a substrate, each layer On "and" under "include both the meaning of" directly "and" indirectly ". In addition, the criteria for above or below each layer will be described with reference to the drawings.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. Hereinafter, in describing the embodiments, examples of the respective layers are shown, and the thicknesses of the layers are not limited thereto.

1 is an exploded perspective view showing a display device according to an embodiment.

Referring to FIG. 1, a display device 100 includes a display panel 10 on which an image is displayed, and a backlight unit 20 that provides light to the display panel 10.

The backlight unit 20 includes an optical sheet 60 below the display panel 10, a light guide plate 70 for providing a surface light source to the display panel 10, and a light emitting diode 34, and a module substrate 32, a support plate 50 that supports the module substrate 32 and performs heat radiation, a reflective sheet 45 that reflects the leaked light, And a bottom cover 40 forming a lower outer appearance of the display device 100. [

Although not shown, the display device 100 includes a panel supporter that supports the display panel 10 from the lower side, a tower that forms a rim of the display device 100 and supports the periphery of the display panel 10 Cover.

Although not shown in detail, the display panel 10 may include a lower substrate and an upper substrate bonded to each other so as to maintain a uniform cell gap, and a liquid crystal layer (not shown) interposed between the two substrates . A plurality of gate lines and a plurality of data lines intersecting the plurality of gate lines may be formed on the lower substrate, and a thin film transistor (TFT) may be formed on the intersections of the gate lines and the data lines. Color filters may be formed on the upper substrate. The structure of the display panel 10 is not limited thereto, and the display panel 10 may have various structures. As another example, the lower substrate may include a color filter as well as a thin film transistor. In addition, the display panel 10 may have various structures according to a method of driving the liquid crystal layer.

Although not shown, a gate driving printed circuit board (PCB) for supplying a scan signal to a gate line is formed at an edge of the display panel 10, a data driving printed circuit board (PCB) May be provided. A polarizing film (not shown) may be disposed on at least one of the upper side and the lower side of the display panel 10.

The optical sheet 60 may be disposed under the display panel 10, and may include at least one prism sheet and / or a diffusion sheet. The optical sheet 60 may be removed, but is not limited thereto. The diffusing sheet diffuses the incident light evenly, and the diffused light can be converged on the display panel by the prism sheet. Here, the prism sheet may be selectively formed using a horizontal or vertical prism sheet, one or more roughness enhancing sheets, or the like. The types and the number of the optical sheets 60 may be added or deleted within the technical scope of the embodiments, but the invention is not limited thereto.

The light emitting module 30 may be disposed on at least one side of the inside of the bottom cover 40. The light emitting module 30 may be disposed on both sides or all sides of the bottom cover 40, but is not limited thereto.

The light emitting module 30 includes a module substrate 32 and a plurality of light emitting diodes 34 arrayed on the front surface of the module substrate 32.

The plurality of light emitting diodes 34 are arranged at a predetermined pitch and at least one of the light emitting diodes 34 emits at least one of at least one color such as white, red, green, and blue. The embodiment may use a light emitting diode that emits light of at least one color or a combination of light emitting diodes that emit a plurality of colors.

The light emitting diodes 34 may be arranged in at least one row at regular intervals or irregular intervals.

The light emitting diodes 34 are mounted on the front surface of the module substrate 32. The module substrate 32 may be an FR-4 substrate, a metal substrate (MCPCB), a ceramic substrate, a flexible printed circuit board, or the like. The module substrate 32 may have a long bar shape.

1 and 3, the module substrate 32 is erected in a direction perpendicular to the bottom surface of the bottom cover 40, and the light emitting diode 34 is disposed on the front surface of the module substrate 32 . As another example, the module substrate 32 may be disposed in a side view shape parallel to the bottom surface of the bottom cover 40, but the present invention is not limited thereto.

The light guide plate 70 may be formed in a polygonal shape including at least four side faces as far as the upper face and the upper face where the plane light source is generated, but the present invention is not limited thereto. The light emitting diodes 34 are disposed on one side of the light guide plate 70 in a corresponding manner, and most light is incident through the side surfaces.

The light guide plate 70 is made of a transparent material and may include one of acrylic resin such as polymethyl methacrylate (PMMA), polyethylene terephthalate (PET), polycarbonate (PC), and polyethylene naphthalate . The light guide plate 70 may be formed by an extrusion molding method, but the invention is not limited thereto.

A pattern (not shown) may be formed on the upper surface and / or the lower surface of the light guide plate 70. The pattern may be uniformly irradiated through the entire surface of the light guide plate 70 by reflecting and / or diffusing the incident light, which is made up of a predetermined pattern such as a reflection pattern or / and a prism pattern. The lower surface of the light guide plate 70 may be formed in a reflective pattern, and the upper surface may be formed in a prism pattern. A scattering agent may be added to the inside of the light guide plate 70, but the present invention is not limited thereto.

The reflection sheet 45 reflects the light incident on the lower surface of the light guide plate 10 so as to face upward, thereby improving the brightness of the light unit 20. The reflective sheet 45 may be formed of, for example, PET, PC, PVC resin or the like, but is not limited thereto. The reflective member 45 may be an upper surface of the bottom cover 40, but is not limited thereto.

The reflective sheet 45 allows the light leaked to the lower portion of the light guide plate 70 to re-enter the light guide plate 70, thereby preventing problems such as a decrease in light efficiency, a decrease in optical characteristics, and a dark area.

The bottom cover 40 is opened at an upper side and the optical sheet 60, the light guide plate 70 and the reflective sheet 45 can be accommodated in the opening 41.

The bottom cover 40 may include at least two side portions 40B perpendicular to the bottom surface. The bottom cover 40 has a box-like shape with an open top and can be coupled with the top cover, but the present invention is not limited thereto.

The bottom cover 40 may be formed of a metal material or a resin material, and may be manufactured using a process such as press molding or extrusion molding. The bottom cover 40 may include a metal material such as aluminum or stainless steel having a good thermal conductivity, or a non-metallic material, but the present invention is not limited thereto.

A heat radiating plate may be disposed on the bottom surface of the bottom cover 40. The radiating plate may include a plurality of heat pipes disposed between the bottom cover 40 and the reflective sheet 45, Is in surface contact with the support plate (50) and performs heat radiation through the bottom surface (40A) of the bottom cover (40).

A support plate 50 is coupled to one side surface 40B of the bottom cover 40. The support plate 50 is in close contact with a side surface 40B perpendicular to the bottom surface 40A of the bottom cover 40, Or spaced apart.

The lower portion of the support plate 50 may be in contact with the bottom surface 40A of the bottom cover 40, but the present invention is not limited thereto. The support plate 35 includes a metal material having a high thermal conductivity and may optionally include aluminum, gold, silver, tungsten, copper, nickel, platinum, iron, and the like.

The support plate 50 may have a multi-stepped shape, and the module substrate 32 may be closely attached to the front surface of the support plate 50. At this time, the rear surface of the module substrate 32 may be coupled to the front surface of the support plate 35 by a fastening member such as an adhesive, an adhesive, a screw, or a rivet, but is not limited thereto.

The support plate 50 is in surface contact with the module substrate 32 to dissipate the heat generated from the module substrate 32 and a part of the heat can be dissipated through the bottom cover 40. Accordingly, the light emitting diode 34 can operate stably.

The support plate 50 may be coupled to the side surface 40B and / or the bottom surface 40A of the bottom cover 40 with an adhesive member and / or a fastening member, but is not limited thereto.

The bottom cover 40 may include a heat dissipation plate disposed on the support plate 50, and the heat dissipation plate may include a plurality of heat pipes, for example. The heat pipe includes a fluid filled therein. The heat pipe may have a rectangular plate shape having a longer length in the lateral direction than in the longitudinal direction. Here, the term " lateral direction " refers to a lateral direction when the display device is disposed at a predetermined position, and the longitudinal direction refers to a longitudinal direction. The heat pipes can be arranged in an inclined manner so that the cooling flow can be efficiently performed.

Fig. 5 is a view showing an example of coupling of the light guide plate and the bottom cover.

A plurality of holes are formed in any one of the periphery of the light guide plate 70, the reflection sheet 45 and the optical sheet 60, and a plurality of bosses are disposed in the bottom cover 40 at positions corresponding to the holes . The bosses are inserted into the holes to guide movement of the light guide plate 70 due to, for example, thermal expansion, thereby preventing breakage of the light emitting diodes by the light guide plate 70 and preventing distortion of the light guide plate 70 .

2 is a side sectional view showing an example of a light emitting diode. 2, the light emitting diode 34 includes a body 111, a first lead electrode 112 and a second lead electrode 113 provided on the body 111, An LED chip 115 electrically connected to the first lead electrode 112 and the second lead electrode 113 and a molding member 117 surrounding the LED chip 115.

The body 111 may include at least one of a silicon material, a synthetic resin material such as PPA, a metal material, sapphire (Al ₂ O ₃ ), and a printed circuit board (PCB) , An inclined surface may be formed around the LED chip 115.

The first lead electrode 112 and the second lead electrode 113 are disposed on the body 111 and are electrically isolated from each other to provide power to the LED chip 115. The first lead electrode 112 and the second lead electrode 113 may increase the light efficiency by reflecting the light generated from the LED chip 115. The heat generated from the LED chip 115 To the outside.

In order to improve the light extraction efficiency of the LED chip 115, a cavity is formed in the body 111, and a first lead electrode 112 and a second lead electrode 113 are disposed on the bottom surface of the cavity And the LED chip 115 is mounted on the first lead electrode 112. The LED chip 115 may be installed on the body 111. The other end of the first lead electrode 112 and the second lead electrode 113 may be disposed on the bottom surface of the body 111 or may extend to the other side along the side surface of the body 111, It is not limited.

The LED chip 115 is formed of a compound semiconductor of a group III-V element such as In _x Al _y Ga _1-xy N (0 ≦ x ≦ 1, 0 ≦ y ≦ 1, 0 ≦ x + y ≦ 1) Or a semiconductor layer including AlGaAs, GaP, GaAs, GaAsP, AlGaInP, or the like, and may be formed of at least one of a PN junction, an NP junction, a PNP junction, and an NPN junction. The LED chip 115 may emit a wavelength of a visible light band or a wavelength of a ultraviolet light band, but the present invention is not limited thereto.

The LED chip 115 is electrically connected to the first lead electrode 112 and the second lead electrode 113 through a wire 116. However, the LED chip 115 is not limited thereto. For example, The LED chip 115 may be electrically connected to the first lead electrode 112 and the second lead electrode 113 by a flip chip method or a die bonding method. The LED chip 115 may be a diode having a horizontal electrode structure or a vertical electrode structure as described above, but is not limited thereto.

The molding member 117 may be formed of a transparent silicone or a resin material, and may surround and protect the LED chip 115. In addition, the molding member 117 may include a phosphor to change the wavelength of light emitted from the LED chip 115. A lens may be disposed on the molding member 117, and the lens may include a concave lens, a convex lens, and a lens shape in which concave and convex are mixed.

The light emitting diode 34 may be formed as a flat, concave or convex surface of the light output surface 118, that is, the surface 118 of the molding member 117.

Although the light emitting diode of the embodiment has been shown and described in the form of a top view, it has the effect of improving the heat dissipation characteristics, conductivity, and reflection characteristics as described above by implementing it in a side view manner. In such a top view or side view type light emitting device, A lens may be formed on or adhered to the resin layer, but the present invention is not limited thereto.

The supporting plate will be described in detail as follows.

The support plate 50 may include a substrate fixing portion 51 and an upper cover 52, as shown in Fig. The substrate fixing portion 51 is in contact with the side surface 40B of the bottom cover 40 and can be fixed with an adhesive member and / or a fastening member.

The upper cover 52 is bent in the direction of the light guide plate from the upper end of the substrate fixing portion 51 and an internal angle? Between the upper cover 52 and the substrate fixing portion 51 is about 30 to 89 degrees . The angle θ between the upper cover 52 and the substrate fixing portion 51 allows the light emitted from the light emitting diode 34 to enter the incident surface 71 of the light guide plate 70 directly or indirectly It is an angle that can give.

The front end portion 53 of the upper cover 52 further extends in the direction of the upper surface of the light guide plate to cover the upper surface of the light guide plate 70. The front end portion 53 is formed to have a width D1 of 0.1 mm or more and the front end portion 53 is closely contacted with or spaced from the top surface of the light guide plate to leak light between the top surface of the light guide plate 70 and the front end portion 53 Can be reduced.

The reflective sheet 45 may extend beyond the side surface 71 of the light guide plate 70 and may be disposed below the light emitting diode 34.

Fig. 4 is a modification of Fig. 3, in which light emitting modules 30 and 30A are disposed on both sides of the light guide plate, and the light guide plate 70 and the light emitting diodes 34 . In addition, due to the inclined structure of the support plates 50 and 50A, the light leaking over the area between the light guide plate 70 and the light emitting diode 34 can be reflected.

FIG. 5 shows a structure in which a reflective material is formed inside the support plate 50 of FIG.

5, a reflection layer 55 may be formed on the inner surface of the support plate 50. The reflection layer 55 may include a material having a reflection characteristic of 70% or more, , Aluminum (Al), silver (Ag), platinum (Pt), and the like.

Most of the reflective layer 55 is formed on the lower surface of the upper cover 52 to reflect light incident from the light emitting diode 34.

A diffusion layer and / or a phosphor layer may be disposed instead of the reflective layer 55, but the present invention is not limited thereto.

Fig. 6 is a modification of Fig. 6, the support plate 50 further includes a bottom fixing portion 54, which is bent from the side surface 40B of the bottom cover 40 to the bottom surface 40A And may be in surface contact with the bottom surface 40A of the bottom cover 40. [ The bottom fixing part 54 may be disposed so as to correspond to the top cover 52 and the gap between the bottom fixing part 54 and the front end part 53 of the top cover 52 may be set to be the same as that of the light guide plate 70, And the thickness of the first and second substrates.

Here, the bottom surface 40A of the bottom cover 40 includes a recess, and the bottom fixing portion 54 of the support plate 50 may be inserted into or attached to or fixed to the recessed portion. In this case, the bottom surface 40A of the bottom cover 40A and the top surface of the bottom fixing portion 54 of the support plate 50 may be disposed on the same plane, but the present invention is not limited thereto.

Fig. 7 is a modification of Fig. 3, in which the upper cover 52A of the support plate 50 is formed in a hemispherical shape.

7, the inner area of the upper cover 52A of the support plate 50 is formed in a predetermined curvature, for example, hemispherical shape, and the hemispherical upper cover 52A is formed of a light- Directly or indirectly incident on the side surface of the light guide plate 70. [

The hemispherical shape of the upper cover 52A can reflect the incident light or reflect the incident light through the other inner surfaces, thereby reflecting incident light to both the side surface and the upper surface of the light guide plate 70. [

The hemispherical portion of the upper cover 52A may extend to the upper surface of the light guide plate 70, but is not limited thereto.

8 to 14 are views showing a second embodiment.

8 to 11 are views showing a coupling structure of an upper cover covering one side surface of the light guide plate.

8 and 9, a side cover 80 and a light emitting module 30 corresponding to one side 71 of the light guide plate 70 are included around at least one side 71 of the light guide plate 70 do.

The side cover 80 may be a sheet of highly reflective material (e.g., a reflective sheet) or a metal plate, and may include a ring shape, a frame shape, an annular shape, and the like. The side cover 80 may be a flexible material or a rigid material, and the side cover 80 may be formed as a continuous surface, and may include a concavo-convex shape in part. Further, the side cover 80 may cover at least one of the circumferential surfaces of the light guide plate 70, but the present invention is not limited thereto.

The side cover 80 includes an inner hole 81, a bonding portion A1 contacting the light guide plate 70 and a cover portion A2 extending from the periphery of the light guide plate 70 toward the module substrate 32, . ≪ / RTI >

The height T1 of the hole 81 of the side cover 80 may be a thickness of the light guide plate 70. In this case, the outer shape of the side cover 80 may include the same shape as the peripheral shape of the light guide plate 70, for example, a polygonal shape, but is not limited thereto.

The periphery of at least one side of the light guide plate 70 is fitted in the hole 81 of the side cover 80 and the adhesive portion A1 can be in contact with the periphery of the light guide plate 70.

The adhesive portion A1 of the side cover 80 is adhered to the periphery of the light guide plate 70 and the cover portion A2 protrudes in at least one lateral direction of the light guide plate 70, And may be in contact with the front surface of the module substrate 32. [ The cover portion A2 of the side cover 80 covers the circumference between the light guide plate 45 and the module substrate 32 so as to surround the light emitting diode 34. [

The width D2 of the bonding portion A1 of the side cover 80 may be the same as or different from the width D3 of the cover portion A2 and the width D2 of the bonding portion A1 may be 1 mm or more And the width D3 of the cover portion A2 may be greater than the thickness of the light emitting diode 34, for example, 1 mm or more. The width of D3 may vary depending on the thickness of the light emitting diode.

The side cover 80 is disposed in a region D2 between the light guide plate 70 and the module substrate 32 so that light emitted from the light emitting diode 34 in the up, Leakage can be blocked.

The contact portion A1 of the side cover 80 may be adhered to the bottom surface 40A of the bottom cover 40, but the present invention is not limited thereto.

The module substrate 32 may be coupled to the inside of the side surface 40B of the bottom cover 40. This is a case where the supporting plate is removed in the structure of FIG. 3, but the present invention is not limited thereto.

The reflective sheet 45 may be disposed on the lower surface of the light guide plate 70 and a part of the reflective sheet 45 may be provided on the light guide plate 70 by the side cover 80, It is possible to reflect light incident on the incidence side. This can reduce the length of the reflective sheet.

10, the height T2 of the side cover 80 may be smaller than the width of the module substrate 32 of FIG. 8, and this structure may be formed on the front surface of the module substrate 32, The cover portion of the cover 80 can be contacted.

8, the upper and lower cover portions 82 of the side cover 80 are arranged at a predetermined angle (for example, about 1 mm) so as to approach the light emitting diodes 34 with reference to the upper and lower surfaces of the light guide plate 70 3, and the inclined angle? 3 can be bent to about 10 to 90 degrees with respect to the upper surface of the side cover 80, The upper side is inclined downward and the lower side is inclined upward. The gap T4 between the upper side and the lower side of the cover portion 82 may be at least wider than the width of the light emitting diode 34 (the body width in FIG. 2). Accordingly, the cover portion 82 may extend to the peripheral region of the light emitting diode 34 to guide light emitted from the light emitting diode 34. The interval T4 may be about 3 mm wide of the light emitting diode 34.

The module substrate 32 is fixed to the support plate 36 and the bottom fixing portion 37 of the support plate 36 is bent downward to be in contact with the lower surface of the side cover 80 And the contact area may be adhered by the adhesive member 99 or the like, but the present invention is not limited thereto.

A heat dissipation plate may be formed on the bottom surface 40A of the bottom cover 40. The heat dissipation plate may include a plurality of heat pipes, for example. The plurality of heat pipes are in surface contact under the support plate 36. Heat generated from the light emitting diodes 34 can be dissipated through the module substrate 32, the support plate 36, and the heat dissipation plate .

Fig. 12 is a modification of Fig. 11, in which the upper cover portion 82A of the side cover 80 is arranged in an inclined structure so as to be located close to the light emitting diode 34. Fig. The lower cover portion 82B of the side cover 80 may be formed to extend flat with respect to the upper surface of the light guide plate 70. [ The gap T5 between the upper cover portion 82A and the lower cover portion 82B of the side cover 80 may be larger than the gap T4 shown in FIG.

The ends of the upper and lower cover portions 82A and 82B may be disposed at different intervals with respect to the outer wall of the light emitting diode 34. [ For example, the upper end of the upper cover portion 82A may be disposed closer to the outer wall of the light emitting diode 34 than the lower cover portion 82B, or vice versa.

Fig. 13 is a modification of Fig. 8, in which the inner surface of the bonding portion A1 of the side cover 80 is formed of an uneven surface 84, and the uneven surface is in contact with the upper and lower surfaces of the light- And can reflect or diffuse the incident light. Here, the reflective sheet 45 may extend to the lower side of the side cover 80, but is not limited thereto.

14 can cover side surfaces of both side surfaces of the module substrate 32 and the light guide plate 70 by disposing side covers 80 on both sides of the light guide plate. Accordingly, the side cover can be disposed on the side surface area of the light guide panel on which the light emitting module is disposed, thereby reducing light loss of the light emitting diode incident on the light guide plate.

Also, the light guide plate 70 may include at least one incident surface 71 as a plane perpendicular to the bottom surface of the bottom cover 40, but may include a surface formed with a pattern such as a slanted surface, a concave surface, or a scratch , But is not limited thereto.

As another example, a plurality of side covers 80 disposed on the periphery of the light guide plate 70 may be disposed on the upper surface or the lower surface of the light guide plate 70.

15, at least one blocking film 85 may be disposed between the adjacent two light emitting diodes, and the light blocking plate 85 may be disposed between adjacent two light emitting diodes, The area of the surface 71 can be divided into two, and it is possible to separate the two light emitting diodes in the center. One or a plurality of the blocking films 85 may be disposed, and the blocking films 85 may be divided into one or a plurality of diode groups.

In the embodiment, the side cover is fixed to the light guide plate to block the light leaking to the upper portion or the other portion of the light guide plate, thereby preventing the light leakage and improving the light efficiency.

The present invention is not limited to the above-described embodiment and the attached drawings, but is defined by the appended claims. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims, As will be described below.

The present invention relates to a light emitting module, and more particularly, to a light emitting module, a light emitting module, a light emitting diode, and a method of manufacturing the same. : Side cover, 52,52A: upper cover

Claims (19)

delete A bottom cover including a side surface perpendicular to the bottom surface;
A support plate including a first support plate contacting the bottom surface of the bottom cover and a second support plate contacting the side surface of the bottom cover;
A light guide plate on the bottom cover;
A light emitting module including a plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate and a module substrate on which the plurality of light emitting diodes are mounted;
An upper cover portion which is in contact with the upper surface of the light guide plate and extends in the direction of the module substrate from the upper surface of the light guide plate and contacts the module substrate and a lower cover portion which is in contact with the lower surface of the light guide plate, A side cover including a lower cover portion; And
And an adhesive member disposed between the second support plate and the lower cover portion of the side cover,
Wherein at least a part of the side cover is inclined. The backlight unit according to claim 2, wherein the side cover is provided in a structure inclined at a predetermined angle toward the light emitting diode. delete The backlight unit according to claim 3, wherein a lower cover portion of the side cover is disposed parallel to an upper surface of the light guide plate. The backlight unit according to claim 2, wherein a heat dissipating plate is disposed on a bottom surface of the bottom cover. The method of claim 3,
Wherein a distance between an upper cover part and a lower cover part of the side cover is larger than a width of the light emitting diode. The backlight unit according to claim 6, wherein the support plate is coupled to a side surface of the bottom cover. The backlight unit according to claim 2, wherein the support plate and the light emitting module are further disposed on a second side opposite to the first side of the light guide plate. The backlight unit according to claim 2, further comprising a reflective sheet disposed under the light guide plate in contact with a side surface of the lower cover portion. The backlight unit according to claim 2, wherein the side cover is formed of a sheet of highly reflective material. The backlight unit according to claim 2, wherein the side cover includes a hole to be inserted into the light guide plate and an adhesive portion that contacts the light guide plate. 13. The backlight unit according to claim 12, wherein the side cover is disposed so as to surround the plurality of light emitting diodes. 13. The backlight unit according to claim 12, wherein at least one of the upper cover part and the lower cover part of the side cover is disposed closer to the light emitting diode than the other side cover part. The backlight unit according to claim 12, wherein a distance between an upper cover part and a lower cover part of the side cover is less than a thickness of the light guide plate. 13. The backlight unit according to claim 12, wherein the side cover further includes a blocking film for dividing the incident light into at least two incident areas with respect to at least one side face of the light guide plate. 13. The light emitting module according to claim 12, wherein the light emitting module is disposed corresponding to a first side surface and a second side surface opposite to the first surface,
Wherein the side cover is disposed around the outer circumference of the second side surface opposite to the first side surface of the light guide plate to cover the periphery of the light emitting diode of the light emitting module from the upper surface of the light guide plate. 13. The backlight unit according to claim 12, wherein an uneven surface is formed on the bonding portion of the side cover. A bottom cover including a side surface perpendicular to the bottom surface;
And a second support plate contacting the bottom surface of the bottom cover and contacting the first support plate and the side surface of the bottom cover;
A light guide plate disposed on the bottom cover;
A light emitting module including a plurality of light emitting diodes corresponding to at least a first side surface of the light guide plate and a module substrate on which the plurality of light emitting diodes are mounted;
An upper cover portion which is in contact with the upper surface of the light guide plate and extends in the direction of the module substrate from the upper surface of the light guide plate and contacts the module substrate and a lower cover portion which is in contact with the lower surface of the light guide plate, A side cover including a lower cover portion;
An optical sheet on the light guide plate;
A display panel on the optical sheet; And
And an adhesive member disposed between the second support plate and the lower cover portion of the side cover,
Wherein at least a part of the side cover is inclined.

Images