KR101902396B1 - Illumination unit - Google Patents

Abstract

The present invention relates to a lighting unit and a display device using the lighting unit. The lighting unit includes a first reflector, a second reflector disposed on both sides of the first reflector, at least one light source module disposed between the first and second reflectors, Wherein the fastening member includes a body section including a first section having a first width and a second section having a second width and a fastening member disposed on the second section of the body section, And the second width of the second section of the body portion may be wider than the first width of the first section of the body portion.

Description

[0001] Illumination unit [0002]

The embodiment relates to a lighting unit and a display device using the same.

Typically, down light is a method of lighting through holes in a ceiling and incorporating a light source therein, which is widely used as an architectural lighting technique that integrates lighting and buildings.

Such a landfill is a structure embedded in a ceiling, and has a merit that the ceiling scene is arranged because there is almost no exposure of the lighting apparatus, and furthermore, the ceiling scene is darkened, which is a suitable method for producing an atmospheric indoor space .

1 is a view showing a general lighting unit.

As shown in Fig. 1, the illumination unit comprises a light source module 1 and a reflector 2 for setting the emission directivity angle of the light emitted from the light source module 1. In Fig.

Here, the light source module 1 may include at least one LED light source 1a provided on a printed circuit board (PCB) 1b.

The reflector 2 collects the light emitted from the LED light source 1a and allows the light to be emitted through the opening with a predetermined directional angle and has a reflecting surface on the inner side.

As described above, the illumination unit can be used as an illumination light for collecting light by collecting a plurality of LED light sources 1a. In particular, the illumination unit is embedded in a ceiling or wall of a building to expose the opening side of the reflector 2 (Down light) to be able to be used.

However, such a lighting unit structure is suitable for a narrow indoor space rather than a wide indoor space, and a large number of LED light sources 1a may be required.

Therefore, in the future, it will be necessary to develop a lighting unit suitable for a large indoor space even with a small number of LED light sources.

The embodiment intends to provide an illumination unit capable of fixing the reflector stably for a long time by physically fixing the reflection sheet by using a mechanism such as a fixing member, and a display device using the same.

In addition, the embodiment intends to provide a lighting unit suitable for a wide indoor space and a display device using the lighting unit by using a reflector having a certain inclined surface.

An embodiment includes a first reflector, a second reflector disposed on both sides of the first reflector, at least one light source module disposed between the first and second reflectors, and a plurality of fixing members for fixing the first reflector , The fixing member includes a first section having a first width, a body section including a second section having a second width, and a fastening section disposed in a second section of the body section, The second width of the section may be wider than the first width of the first section of the body portion.

Here, in the body portion of the fixing member, the ratio of the first width of the first section to the second width of the second section may be 1: 1.1-10.

Then, in the body portion of the fixing member, the first length of the first section may be longer than the second length of the second section.

Next, in the body portion of the fixing member, the length of the first section disposed on one side of the second section and the length of the first section disposed on the other side of the second section may be different from each other.

And, in the body portion of the fixing member, the thickness of the first section and the thickness of the second section may be different from each other.

Further, in the body portion of the fixing member, the side surface of the first section may be inclined with respect to the upper surface of the first section, and in the body portion of the fixing member, the side surface of the second section is inclined It may be.

The body portion of the fixing member and the coupling portion of the fixing member may be made of different materials, and the body portion of the fixing member and the coupling portion of the fixing member may be made of the same material.

Next, the upper and lower surfaces of the body portion of the fixing member may be parallel to each other, and the areas of the upper surface and the lower surface may be equal to each other.

Further, the body portion of the fixing member may have an upper surface and a lower surface parallel to each other, and an area of an upper surface of the body portion may be smaller than an area of a lower surface of the body portion.

Then, the body portion of the fixing member may have a flat or curved upper surface and a lower surface.

Further, the body portion of the fixing member may be any one of a sloped surface having a flat side, a concave sloped surface, a convex sloped surface, and a sloped surface having a plurality of grooves.

Next, a reflective member may be disposed on at least one of the upper surface and the side surface of the body portion of the fixing member, and the reflectance of the reflective member may be different from that of the first reflector.

The plurality of fixing members may be arranged along the light source module at regular intervals, and the plurality of fixing members may be staggered at regular intervals along the light source module.

Then, the plurality of fixing members may be disposed at least 10 mm away from the edge of the first reflector.

Further, the plurality of fixing members may be arranged symmetrically with respect to each other along the center line of the first reflector, and the plurality of fixing members may be disposed asymmetrically with respect to each other along the center line of the first reflector.

And, the first reflector includes a plurality of holes, and the holes can be disposed corresponding to the fastening portions of the fixing member.

Next, the first reflector includes a cover portion having a first hole, and a reflection sheet disposed on the cover portion and having a second hole, wherein the first hole and the second hole can correspond to each other.

Here, the size of the first hole and the size of the second hole may be equal to each other, and the size of the first hole may be smaller than the size of the second hole.

At this time, the size of the second hole may be larger than the area of the body of the fixing member.

According to another aspect of the present invention, there is provided a light source module comprising: a first reflector; a second reflector disposed on both sides of the first reflector; at least one light source module disposed between the first and second reflectors; The plurality of fixing members include first fixing members disposed in a central region of the light source module, second fixing members disposed in an edge region of the light source module, And the gap between the first fixing members adjacent to each other and the gap between the adjacent second fixing members may be different from each other.

Here, the interval between the first fixing members adjacent to each other may be narrower than the interval between the second fixing members adjacent to each other.

At this time, the ratio of the interval between the first fixing members adjacent to each other and the interval between the adjacent fixing members may be 1: 1.1-5.

The length of the first fixing member and the length of the second fixing member may be different from each other.

According to another aspect of the present invention, there is provided a light source module comprising: a first reflector; a second reflector disposed on both sides of the first reflector; at least one light source module disposed between the first and second reflectors; And a plurality of fixing members for fixing the first reflector, wherein the plurality of fixing members includes third fixing members arranged in a region adjacent to the light source module, fourth fixing members arranged in a region distant from the light source module, And the length of the third fixing members and the length of the fourth fixing members may be different from each other.

Here, the length of the third fixing members may be shorter than the length of the fourth fixing members.

In this case, the ratio of the length of the third fixing members to the length of the fourth fixing members may be 1: 1.1-5.

The gap between the third fixing members adjacent to each other and the gap between the fourth fixing members adjacent to each other may be different from each other.

Embodiments can physically fix the reflecting sheet by using a mechanism such as a fixing member, so that the assembling is simple due to simple fastening, and the reflector can be stably fixed for a long time.

Further, in the embodiment, a reflector for an air guide having a certain inclined surface is used without using a light guide plate, the weight is light, the manufacturing cost is low, and uniform brightness can be provided.

Therefore, not only the economical and reliability of the lighting unit is improved, but also it is suitable for a wide indoor space.

1 is a cross-sectional view showing a general lighting unit
2A to 2C are views for explaining a lighting unit according to an embodiment;
3 is a perspective view showing the fixing member;
4A to 4C are perspective views showing the length of the fixing member;
Figures 5A-5C are top and bottom views, respectively, showing the lengths of the first and second sections of the body portion of the fastening member;
6A to 6C are plan views showing the lengths of the first sections of the body portion of the fixing member;
7A and 7B are plan views showing the lengths of the second sections of the body portion of the fixing member
8A and 8B are plan views showing the widths of the first sections of the body portion of the fixing member
9 is a view for explaining the structure of the fixing member in detail;
Figs. 10A and 10B are cross-sectional views taken along the line I-I in Fig. 9
Figs. 11A to 11E are cross-sectional views taken along the line II-II in Fig. 9
Figs. 12A to 12E are cross-sectional views taken along line III-III in Fig. 9
13A and 13B are cross-sectional views showing the body part and the fastening part of the fixing member
14A and 14B are cross-sectional views showing the fastening structure of the fastening portion and the body portion of the fastening member
15A to 15D are sectional views showing the shape of the body portion of the fixing member
16A and 16B are cross-sectional views showing the reflective member formed on the body portion of the fixing member
17 is a sectional view showing the thickness of the first reflector and the fixing member
18A and 18B are plan views showing the arrangement structure of the fixing member according to the first embodiment;
19A and 19B are plan views showing the arrangement structure of the fixing member according to the second embodiment;
20A and 20B are plan views showing the fastening of the first reflector and the fixing member;
Figs. 21A and 21B are cross-sectional views along the line VI-VI in Fig.
Figs. 22A to 22C are cross-sectional views taken along line VII-VII of Fig.
23A to 23C are plan views showing the arrangement structure of the fixing member according to the third embodiment;
24A and 24B are plan views showing the arrangement structure of the fixing member according to the fourth embodiment;
25A to 25C are plan views showing the arrangement structure of the fixing member according to the fifth embodiment
26 is a plan view showing the arrangement structure of the fixing member according to the sixth embodiment
27 is a plan view showing the arrangement structure of the fixing member according to the seventh embodiment;
Fig. 28 is a sectional view showing the first and second reflectors of Fig. 2A
29A to 29D are views showing an inclined surface of the first reflector
30A to 30D are views showing a second reflector having an inclined plane
Figs. 31A to 31D are views showing a second reflector having a reflection pattern
32A to 32D are views for explaining the arrangement relationship between the light source module and the first and second reflectors
Fig. 33 is a cross-sectional view showing the optical member of Fig.
34 is a view showing a display module having a lighting unit according to an embodiment
35 and 36 are views showing a display device according to the embodiment

Hereinafter, embodiments will be described with reference to the accompanying drawings.

In the description of the embodiments, it is to be understood that each layer (film), region, pattern or structure is formed "on" or "under" a substrate, each layer The terms " on "and " under " encompass both being formed" directly "or" indirectly " In addition, the criteria for above or below each layer will be described with reference to the drawings.

The thickness and size of each layer in the drawings are exaggerated, omitted, or schematically shown for convenience and clarity of explanation. Also, the size of each component does not entirely reflect the actual size.

2A to 2C are views for explaining a lighting unit according to an embodiment, wherein FIG. 2A is a sectional view, FIG. 2B is a perspective view, and FIG. 2C is a sectional view taken along the line V-V in FIG. 2B.

2A to 2C, the illumination unit includes a first reflector 300, a second reflector 200, a light source module 100, an optical member 500, and a fixed A fixing member 400 may be included.

Here, the light source module 100 may be disposed between the first reflector 300 and the second reflector 200, and may be disposed adjacent to the second reflector 200.

In some cases, the light source module 100 may be spaced apart from the first reflector 300 at the same time as it contacts the second reflector 200, or may be disposed apart from the first reflector 300, 200 at regular intervals.

Alternatively, the light source module 100 may be spaced apart from the first reflector 300 and the second reflector 200, or may be in contact with the first reflector 300 and the second reflector 200 at the same time .

The light source module 100 may include a substrate 100b having an electrode pattern and at least one light source 100a disposed on the substrate 100b.

Here, the light source 100a of the light source module 100 may be a top view type light emitting diode.

In some cases, the light source 100a may be a side view type light emitting diode.

The substrate 100b may be a PCB (Printed Circuit Board) substrate made of any one material selected from the group consisting of polyethylene terephthalate (PET), glass, polycarbonate (PC) and silicon (Si) have.

In addition, the substrate 100b may be a single layer PCB, a multilayer PCB, a ceramic substrate, a metal-core PCB, or the like.

Here, the substrate 100b may be formed of a reflective coating film and a reflective coating material layer, and may reflect the light generated by the light source 100a to the central region of the first reflector 210. [

The light source 100a may be a light emitting diode (LED) chip. The light emitting diode chip may be a blue LED chip or an ultraviolet LED chip, or may be a red LED chip, a green LED chip, a blue LED chip, ) LED chip, or a white LED chip.

The white LED may be realized by combining a yellow phosphor on a blue LED or by simultaneously using a red phosphor and a green phosphor on a blue LED, (Yellow phosphor), Red phosphor (Phosphor) and Green phosphor (Phosphor).

The first reflector 300 and the second reflector 200 are spaced apart from each other by a predetermined distance so as to have an air guide in an empty space between the first reflector 300 and the second reflector 200, have.

The first and second reflectors 300 and 200 may include a metal or a metal oxide having a high reflectivity such as aluminum (Al), silver (Ag), gold (Au), titanium dioxide (TiO ₂ ) .

In some cases, the first and second reflectors 300 and 200 may be formed by adhering a reflective film or a reflective sheet on a polymer resin frame or a metal frame.

As another example, the first and second reflectors 300 and 200 may be formed by depositing or coating a metal or a metal oxide on a polymer resin frame or a metal frame, or may be formed by printing metal ink.

Here, the first and second reflectors 300 and 200 may be made of the same material, but they may be made of different materials.

The first and second reflectors 300 and 200 may have a serrated reflection pattern formed on a part of the surface thereof.

Here, the surface of the reflection pattern may be plane or curved.

Next, the first and second reflectors 300 and 200 may have an inclined plane in a part thereof.

In some cases, the second reflector 200 is a flat plane, and the first reflector 300 may include an inclined surface on a part thereof.

Here, the first reflector 300 may include at least two inclined surfaces having at least one inflection point.

The inclined surface of the first reflector 300 may be inclined at an angle with respect to the surface of the second reflector 200 and the inclined surface may be a concave surface, a convex surface, a flat surface, ). ≪ / RTI >

In some cases, the first reflector 300 may include at least one inclined plane and at least one flat surface, wherein the plane of the first reflector 300 is parallel to the plane of the second reflector 200 And may be a plane parallel to the plane.

Here, the plane of the first reflector 300 may overlap a part of the light source module 100.

Further, the first reflector 300 includes at least two inclined surfaces having at least one inflection point, and curvatures of the first and second inclined surfaces adjacent to each other around the inflection point may be different from each other.

On the other hand, the optical member 500 may be disposed at a predetermined interval from the first reflector 300.

An air guide may be formed in the space between the first reflector 300 and the optical member 500.

Here, the optical member 500 may have a concavo-convex pattern on its upper surface.

The optical member 500 diffuses the light emitted from the light source module 100 and may form a concave-convex pattern on the upper surface to increase the diffusion effect.

That is, the optical member 500 can be formed in several layers, and the concavo-convex pattern can be on the uppermost layer or on the surface of any layer.

The concavo-convex pattern may have a strip shape arranged along the light source module 100.

At this time, the concavo-convex pattern has protrusions on the surface of the optical member 500, and the protrusions are composed of a first surface and a second surface facing each other, and an angle between the first surface and the second surface may be an obtuse angle or an acute angle.

Optionally, the optical member 500 is made of at least one sheet, and may optionally include a diffusion sheet, a prism sheet, a brightness enhancement sheet, and the like.

Here, the diffusion sheet diffuses the light emitted from the light source, and the prism sheet guides the diffused light to the light emitting area, and the brightness diffusion sheet strengthens the brightness.

Next, a plurality of fixing members 400 are disposed on the first reflector 300, and the first reflector 300 can be fixed.

Here, the fixing member 400 may include a body portion 410 and a fastening portion 420.

At this time, the body 410 of the fixing member 400 contacts the first reflector 300, and the coupling part 420 of the fixing member 400 is inserted into the hole of the first reflector 300, (300) can be fixed.

In addition, the body portion 410 of the fixing member 400 may include a first section having a first width and a second section having a second width.

Here, the second width of the second section of the body portion 410 may be wider than the first width of the first section of the body portion 410.

The fastening portion 420 of the fixing member 400 may be disposed in the second section of the body portion 410.

For example, the first reflector 300 may include a cover portion 320 having a first hole and a reflection sheet 310 having a second hole, and the coupling portion 420 of the fixing member 400 may include a light- The fixing member 400 is inserted into the second hole of the reflective sheet 310 and the first hole of the cover part 320 and is fastened to the first reflector 300. The body part 410 of the fixing member 400 is fixed to the first reflector 300, The reflective sheet 310 of the light guide plate 300 can be supported.

The first hole of the cover part 320 and the second hole of the reflective sheet 310 are arranged so as to correspond to each other in the first reflector 300, The first hole of the reflective sheet 320 and the second hole of the reflective sheet 310.

In addition, the plurality of fixing members 400 may be arranged side by side at regular intervals along the light source module 100.

In some cases, the plurality of fixing members 400 may be staggered from one another at regular intervals along the light source module 100.

The plurality of fixing members 400 may be disposed symmetrically with respect to the center line of the first reflector 300.

In some cases, the plurality of fixing members 400 may be disposed asymmetrically with respect to each other along the center line of the first reflector 300.

3 is a perspective view showing the fixing member.

As shown in FIG. 3, the fixing member may include a body part 410 and a fastening part 420.

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, The fastening portion 420 may be disposed.

And, the first section 412 may have a first width W1 and the second section 414 may have a second width W2.

The second width W2 of the second section 414 of the body part 410 may be wider than the first width W1 of the first section 412 of the body part 410. [

The first width W1 of the first section 412 and the second width W2 of the second section 414 correspond to the widths of the body sections 410 arranged in the X axis direction which is the arrangement direction of the light source module 100 Quot;) < / RTI >

That is, the X axis direction, which is the arrangement direction of the light source module (100 in Fig. 2B), is a direction perpendicular to the Y axis direction from the light source module (100 in Fig. 2B) toward the center line direction of the first reflector to be.

For example, in the fixation member body 410, the ratio of the first width W1 of the first section 412 to the second width W2 of the second section 414 may be about 1: 1.1-10 .

This is because when the first width W1 of the first section 412 of the body part 410 is smaller than the second width W2 of the second section 414 of the body part 410, It is difficult to dispose the fastening part 420 under the second section 414.

If the first width W1 of the first section 412 of the body 410 is greater than the second width W2 of the second section 414 of the body 410 by at least 10 times, This is because the reflectance can be lowered.

Accordingly, since the widths of the first section 412 and the second section 414 of the body 410 are different from each other, it is easy to arrange and manufacture the fastening part 420, and the reflectance of the first reflector The first reflector can be stably fixed at the same time without deterioration.

The first width W1 of the first section 412 of the body part 410 and the second width W2 of the second section 414 of the body part 410 may be equal to each other.

4A to 4C are perspective views showing the length of the fixing member.

4A to 4C, the fixing member may include a body portion 410 and a fastening portion 420.

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, The fastening portion 420 may be disposed.

The first section 412 may have a first width and the second section 414 may have a second width wherein the second width of the second section 414 is greater than the first width of the first section It can be wide.

4A, the fixing member may have only one fastening part 420. In this case,

That is, the body portion 410 of the fastening member may have two first sections 412 and one second section 414, and the fastening portion 420 of the fastening member may have a second portion 414 of the body portion 410, Only one can be disposed under section 414.

The fixing member may have two fastening portions 420 as shown in FIG. 4B.

That is, the body portion 410 of the fixing member may have three first sections 412 and two second sections 414, and the fastening portions 420 of the fixing members may be two, and the body portion 410 The second section 414 of the main body 414, respectively.

Next, the fixing member may have three fastening portions 420 as shown in Fig. 4C.

That is, the body portion 410 of the fixing member may have four first sections 412 and three second sections 414, and the fixing portions 420 of the fixing members may include three body portions 410 The second section 414 of the main body 414, respectively.

Thus, the fixing member can be manufactured in various lengths, as shown in Figs. 4A to 4B.

Here, the length of the fixing member may vary depending on the area of the first reflector.

For example, if the area of the first reflector is large, the fixing member as shown in Fig. 4C is used for the length of the fixing member, and if the area of the first reflector is small, .

5A to 5C are plan views showing the lengths of the first section and the second section of the body portion of the fixing member.

As shown in Figs. 5A to 5C, the fixing member may include a body portion 410 and a fastening portion 420.

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, The fastening portion 420 may be disposed.

And, the first section 412 may have a first length L1 and the second section 414 may have a second length L2.

5A, the second length L2 of the second section 414 of the body part 410 may be shorter than the first length L1 of the first section 412 of the body part 410. In this case,

Here, the first section 412 has a first length L1 and the second section 414 has a second length L2. The first section 412 has a first length L1 and the second section 414 has a second length L2. Axis direction of the body portion 410. The term " a "

That is, the Y-axis direction is a direction perpendicular to the X-axis direction which is the arrangement direction of the light source module (100 in FIG. 2B).

5B, the second length L2 of the second section 414 of the body portion 410 may be longer than the first length L1 of the first section 412 of the body portion 410. In some cases,

5c, the second length L2 of the second section 414 of the body portion 410 may be the same as the first length L1 of the first section 412 of the body portion 410 have.

The reason why the length of the first section 412 and the length of the second section 414 are different is that the size of the first reflector (300 in FIG. 2B) or the surface shape of the first reflector (300 in FIG. 2B) (300 in Fig. 2B) can be stably fixed by using a fixing member having a suitable structure in accordance with the shape (curved surface, inclined surface, etc.) of the first reflector.

6A to 6C are plan views showing the lengths of the first sections of the body portion of the fixing member.

6A to 6C, the fixing member may include a body part 410 and a fastening part (not shown).

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, A fastening portion (not shown) may be disposed.

6A, the length L11 of the first section 412 disposed at one side of the second section 414 of the body 410 is smaller than the length L11 of the second section 414 of the body 410, May be shorter than the length L12 of the first section 412 being disposed.

The length L11 of the first section 412 disposed on one side of the second section 414 and the length L12 of the first section 412 disposed on the other side of the second section 414 correspond to the length L12 of the light source module Means the distance between the two side surfaces of the body portion 410 disposed in the Y-axis direction from the center 100a of the first reflector 100a to the centerline of the first reflector 300b of the second reflector 2b.

That is, the Y-axis direction is a direction perpendicular to the X-axis direction which is the arrangement direction of the light source module (100 in FIG. 2B).

6B, the length L11 of the first section 412 disposed at one side of the second section 414 of the body section 410 is longer than the length L11 of the second section 414 of the body section 410. [ May be longer than the length L12 of the first section 412 disposed on the other side.

6C, the length L11 of the first section 412 disposed at one side of the second section 414 of the body section 410 is greater than the length L11 of the second section 414 of the body section 410. [ May be the same as the length L12 of the first section 412 disposed on the other side.

2B) or the surface shape (curved surface, inclined surface, or the like) of the first reflector (300 in Fig. 2B) may be different from that of the first reflector (300 in Fig. 2B) can be stably fixed by using a fixing member having an appropriate structure, for example.

7A and 7B are plan views showing the lengths of the second sections of the body portion of the fixing member.

7A and 7B, the fixing member may include a body portion 410 and a fastening portion (not shown).

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, A fastening portion (not shown) may be disposed.

7A, the length L21 of the second section 414 disposed on one side of the first section 412 of the body 410 is larger than the length L21 of the second section 414 on the other side of the first section 412 of the body 410 May be longer than the length L22 of the second section 414 being deployed.

The length L21 of the second section 414 disposed on one side of the first section 412 of the body section 410 may be greater than the length L21 of the second section 414 disposed on the other side of the first section 412 of the body section 410. [ 2 section 414 may be shorter than the length L22.

That is, the lengths of the second sections 414 adjacent to each other may be different from each other.

The length L21 of the second section 414 disposed on one side of the first section 412 and the length L22 of the second section 414 disposed on the other side of the first section 412 correspond to the length L21 of the light source module Means the distance between the two side surfaces of the body portion 410 disposed in the Y-axis direction from the center 100a of the first reflector 100a to the centerline of the first reflector 300b of the second reflector 2b.

That is, the Y-axis direction is a direction perpendicular to the X-axis direction which is the arrangement direction of the light source module (100 in FIG. 2B).

7B, the length L21 of the second section 414 disposed at one side of the first section 412 of the body section 410 may be greater than the length L21 of the second section 414 of the body section 410, And the length L22 of the second section 414 disposed on the other side.

That is, the lengths of the second sections 414 adjacent to each other may be equal to each other.

The reason why the length of the second section 414 adjacent to each other is different is that the size of the area of the first reflector (300 in FIG. 2B) or the surface shape (curved surface, slope, etc.) of the first reflector (300 in Fig. 2B) can be stably fixed by using a fixing member having an appropriate structure, for example.

8A and 8B are plan views showing the widths of the first sections of the body portion of the fixing member.

8A and 8B, the fixing member may include a body portion 410 and a fastening portion (not shown).

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, A fastening portion (not shown) may be disposed.

8A, the width W11 of the first section 412 disposed at one side of the second section 414 of the body 410 is smaller than the width W11 of the second section 414 of the body 410, May be wider than the width W12 of the first section 412 being disposed.

The width W11 of the first section 412 disposed at one side of the second section 414 of the body 410 may be greater than the width W11 of the second section 414 disposed at the other side of the second section 414 of the body 410. [ 1 section 412. The width < RTI ID = 0.0 > W12 < / RTI >

That is, the widths of the first sections 412 adjacent to each other may be different from each other.

The width W11 of the first section 412 disposed on one side of the second section 414 and the width W12 of the first section 412 disposed on the other side of the second section 414 correspond to the width The distance between both side surfaces of the body portion 410 arranged in the X-axis direction which is the arrangement direction of the first and second body portions 2b and 2b.

That is, the X-axis direction is a direction perpendicular to the Y-axis direction from the light source module (100 in Fig. 2B) toward the center line direction of the first reflector (300 in Fig.

8B, the width W11 of the first section 412 disposed at one side of the second section 414 of the body section 410 is greater than the width W11 of the second section 414 of the body section 410. [ And the width W12 of the first section 412 disposed on the other side.

That is, the widths of the first sections 412 adjacent to each other may be equal to each other.

2B) or the surface shape (curved surface, sloped surface, etc.) of the first reflector (300 in Fig. 2B) may be different from that of the first reflector (300 in Fig. 2B) can be stably fixed by using a fixing member having an appropriate structure, for example.

9 is a view for explaining the structure of the fixing member in detail.

As shown in FIG. 9, the fixing member may include a body part 410 and a fastening part 420.

The body portion 410 of the fixing member may include a first section 412 and a second section 414 below the second section 414 of the body portion 410, The fastening portion 420 may be disposed.

The width of the first section 412 and the width of the second section 414 may be different from each other and the length of the first section 412 and the length of the second section 414 may be different from each other.

Here, the widths of the first section 412 and the second section 414 mean the distance between both side surfaces of the body part 410 arranged in the X-axis direction which is the arrangement direction of the light source module (100 in FIG. 2B) The lengths of the first section 412 and the second section 414 are the same as those of the body section 410 arranged in the Y axis direction from the light source module (100 in FIG. 2B) toward the center line of the first reflector (300 in FIG. As shown in FIG.

In addition, the thickness of the first section 412 and the thickness of the second section 414 of the body 410 may be different from each other.

The side of the first section 412 of the body portion 410 may be inclined relative to the upper side of the first section 412 and the side of the second section 414 of the body portion 410 may be inclined May be inclined with respect to the upper surface of the section 414.

Here, the body portion 410 may be any one of a sloped surface having a flat side, a concave sloped surface, a convex sloped surface, and an inclined surface having a plurality of grooves.

The upper and lower surfaces of the body 410 may be parallel to each other, and the upper and lower surfaces may have the same area. In some cases, the body 410 may have an area of the upper surface, It may be smaller than the area.

In addition, the body portion 410 may have a flat or curved upper surface and a lower surface.

Figs. 10A and 10B are cross-sectional views along the line I-I in Fig. 9, showing the thicknesses of the first section and the second section of the body section. Fig.

As shown in FIGS. 10A and 10B, the fixing member may include a body portion 410 and a fastening portion 420.

Here, the body portion 410 of the fixing member may include a first section 412 and a second section 414, wherein the bottom surface 414 of the second section 414 of the body portion 410 414b, the fastening portions 420 may be disposed.

The thickness t11 of the second section 414 of the body portion 410 means the distance between the upper surface 414a and the lower surface 414b and the thickness t11 of the second section 414 is equal to the thickness 412), and in some cases, the thickness t11 of the second section 414 may be different from the thickness t12 of the first section 412. [

10A, the thickness t11 of the second section 414 and the thickness t12 of the first section 412 may be equal to each other.

Alternatively, as shown in FIG. 10B, the thickness t11 of the second section 414 may be thicker than the thickness t12 of the first section 412.

The upper surface 414a of the second section 414 may be disposed at the same height as the upper surface 412a of the first section 412 and the lower surface 414b of the second section 414 may be disposed at the same height 1 section 412. The lower surface 412b of the first section 412 may be disposed at a different height from the lower surface 412b.

Figs. 11A to 11E are cross-sectional views taken along the line II-II in Fig. 9, showing a side view of the second section of the body portion. Fig.

The second section 414 is disposed such that the upper surface 414a and the lower surface 414b are parallel to each other and the lower surface 414a of the second section 414 414b may be provided with a fastening member 420.

Here, the area of the upper surface 414a of the second section 414 and the area of the lower surface 414b of the second section 414 may be equal to each other.

The first side surface 414c and the second side surface 414d of the second section 414 are disposed to face each other while the first side surface 414c and the second side surface 414d of the second section 414 are opposed to each other, , And the lower surface 414b of the second section 414.

That is, the first angle? 1 between the first side 414c of the second section 414 and the lower surface 414b of the second section 414 is a right angle and the second side 414d of the second section 414 And the lower surface 414b of the second section 414 may be orthogonal.

11B, the second section 414 of the body portion is disposed so that the upper surface 414a and the lower surface 414b are parallel to each other, and the upper surface 414a of the second section 414 May be smaller than the area of the lower surface 414b of the second section 414.

The first side surface 414c and the second side surface 414d of the second section 414 are disposed to face each other and the first side surface 414c and the second side surface 414d of the second section 414 , And the lower surface 414b of the second section 414 at an angle.

That is, the first angle? 1 between the first side 414c of the second section 414 and the lower surface 414b of the second section 414 is an acute angle and the second side 414d of the second section 414 And the lower surface 414b of the second section 414 may be an acute angle.

Here, the first angle? 1 and the second angle? 2 may be equal to each other, but they may be different from each other in some cases.

Further, the first side surface 414c and the second side surface 414d of the second section 414 may be a flat inclined surface.

11C, the second section 414 of the body portion is disposed such that the upper surface 414a and the lower surface 414b are parallel to each other, and the upper surface 414a of the second section 414 May be smaller than the area of the lower surface 414b of the second section 414.

The first side surface 414c and the second side surface 414d of the second section 414 are disposed to face each other and the first side surface 414c and the second side surface 414d of the second section 414 , And the lower surface 414b of the second section 414, as shown in Fig.

Here, the first side 414c of the second section 414 may be a concave surface having a first curvature R1 and the second side 414d of the second section 414 may be a concave surface having a second curvature R2 .

At this time, the first curvature R1 and the second curvature R2 may be the same or different from each other in some cases.

11D, the second section 414 of the body portion is disposed so that the upper surface 414a and the lower surface 414b are parallel to each other, and the upper surface 414a of the second section 414 May be smaller than the area of the lower surface 414b of the second section 414.

The first side surface 414c and the second side surface 414d of the second section 414 are disposed to face each other and the first side surface 414c and the second side surface 414d of the second section 414 , And the lower surface 414b of the second section 414, as shown in Fig.

Here, the first side 414c of the second section 414 may be a convex surface having a first curvature R1 and the second side 414d of the second section 414 may be a convex surface having a second curvature R2 .

At this time, the first curvature R1 and the second curvature R2 may be the same or different from each other in some cases.

11E, the second section 414 of the body portion is disposed such that the upper surface 414a and the lower surface 414b are parallel to each other, and the upper surface 414a of the second section 414 May be smaller than the area of the lower surface 414b of the second section 414.

The first side surface 414c and the second side surface 414d of the second section 414 are disposed to face each other and the first side surface 414c and the second side surface 414d of the second section 414 And the lower surface 414b of the second section 414, as shown in Fig.

That is, the first side surface 414c and the second side surface 414d of the second section 414 may be inclined surfaces having a stepped shape.

The reason why the area of the upper surface 414a of the second section 414 of the body portion is smaller than the area of the lower surface 414b of the second section 414 is that the reflective sheet is fixed and the total weight As shown in FIG.

In some cases, the second section 414 of the body portion of the fixing member may have at least one of the upper surface 414a and the lower surface 414b the same as the surface shape of the reflective sheet.

At least one of the upper surface 414a and the lower surface 414b of the second section 414 may be a concave curved surface shape in the body portion of the fixing member if the surface shape of the reflective sheet is a concave curved surface. have.

This is because the body portion of the fixing member is further brought into close contact with the reflective sheet, so that the reflective sheet can be firmly fixed.

Figs. 12A to 12E are cross-sectional views taken along the line III-III in Fig. 9, showing the side of the first section of the body portion. Fig.

The first section 412 is disposed such that the upper surface 412a and the lower surface 412b are parallel to each other and the lower surface 412a of the first section 412 412b may not be provided with the fastening members.

Here, the area of the upper surface 412a of the first section 412 and the area of the lower surface 412b of the first section 412 may be equal to each other.

The first side 412c and the second side 412d of the first section 412 are disposed to face each other and the first side 412c and the second side 412d of the first section 412 , And the lower surface 412b of the first section 412.

That is, the first angle? 1 between the first side 412c of the first section 412 and the lower surface 412b of the first section 412 is a right angle and the second side 412d of the first section 412 And the lower surface 412b of the first section 412 may be orthogonal.

12B, the first section 412 of the body portion is disposed so that the upper surface 412a and the lower surface 412b are parallel to each other, and the upper surface 412a of the first section 412 May be smaller than the area of the lower surface 412b of the first section 412.

The first side 412c and the second side 412d of the first section 412 are arranged to face each other and the first side 412c and the second side 412d of the first section 412 And the lower surface 412b of the first section 412 at an angle.

That is, the first angle? 1 between the first side 412c of the first section 412 and the lower surface 412b of the first section 412 is acute and the second side 412d of the first section 412 And the lower surface 412b of the first section 412 may be an acute angle.

Here, the first angle? 1 and the second angle? 2 may be equal to each other, but they may be different from each other in some cases.

Further, the first side surface 412c and the second side surface 412d of the first section 412 may be flat inclined surfaces.

Next, as shown in FIG. 12C, the first section 412 of the body section is arranged such that the upper surface 412a and the lower surface 412b are parallel to each other, and the upper surface 412a of the first section 412 May be smaller than the area of the lower surface 412b of the first section 412.

The first side 412c and the second side 412d of the first section 412 are arranged to face each other and the first side 412c and the second side 412d of the first section 412 , And the lower surface 412b of the first section 412. In this case,

Here, the first side 412c of the first section 412 may be a concave surface having a first curvature R1 and the second side 412d of the first section 412 may be a concave surface having a second curvature R2 .

At this time, the first curvature R1 and the second curvature R2 may be the same or different from each other in some cases.

12D, the first section 412 of the body portion is disposed such that the upper surface 412a and the lower surface 412b are parallel to each other, and the upper surface 412a of the first section 412 May be smaller than the area of the lower surface 412b of the first section 412.

The first side 412c and the second side 412d of the first section 412 are arranged to face each other and the first side 412c and the second side 412d of the first section 412 , And the lower surface 412b of the first section 412, as shown in Fig.

Here, the first side 412c of the first section 412 may be a convex surface having a first curvature R1 and the second side 412d of the first section 412 may be a convex surface having a second curvature R2 .

At this time, the first curvature R1 and the second curvature R2 may be the same or different from each other in some cases.

12E, the first section 412 of the body section is disposed so that the upper surface 412a and the lower surface 412b are parallel to each other, and the upper surface 412a of the first section 412 May be smaller than the area of the lower surface 412b of the first section 412.

The first side 412c and the second side 412d of the first section 412 are arranged to face each other and the first side 412c and the second side 412d of the first section 412 And the lower surface 412b of the first section 412, as shown in Fig.

That is, the first side surface 412c and the second side surface 412d of the first section 412 may be inclined surfaces having a stepped shape.

The reason why the area of the upper surface 412a of the first section 412 of the body portion is smaller than the area of the lower surface 412b of the first section 412 is that the reflective sheet is fixed and the total weight As shown in FIG.

Optionally, at least one of the top surface 412a and the bottom surface 412b of the first section 412 of the body portion of the fixing member may be the same as the surface shape of the reflective sheet.

At least one of the upper surface 412a and the lower surface 412b of the first section 412 may have a concave curved surface shape in the body portion of the fixing member if the surface shape of the reflective sheet is a concave curved surface, have.

This is because the body portion of the fixing member is further brought into close contact with the reflective sheet, so that the reflective sheet can be firmly fixed.

FIGS. 13A and 13B are cross-sectional views showing the body portion and the fastening portion of the fixing member. FIG.

13A, the fixing member 400 may include a body part 410 and a fastening part 420. On the lower surface 410b of the body part 410 of the fastening member, a fastening part 420 may be disposed.

Here, the body part 410 and the fastening part 420 of the fixing member 400 are made of the same material and can be integrally formed.

At this time, the body part 410 and the fastening part 420 of the fixing member 400 may be made of a polymer resin such as plastic, or may be a metal such as aluminum.

13B, the body 410 of the fixing member 400 may be detachable from the fastening part 420 of the fastening member 400. As shown in FIG.

Here, the body part 410 and the fastening part 420 of the fixing member 400 may be made of different materials.

At this time, the body 410 of the fixing member 400 is made of a polymer resin such as plastic, and the fastening part 420 of the fixing member 400 may be made of a metal such as aluminum.

Alternatively, the body part 410 of the fixing member 400 may be made of a metal such as aluminum, and the fastening part 420 of the fixing member 400 may be made of a polymer resin such as plastic.

14A and 14B are cross-sectional views showing the fastening structure of the fastening portion and the body portion of the fastening member.

14A, the fixing member may include a body part 410 and a fastening part 420, wherein the fastening part 420 is disposed on the lower surface 410b of the body part 410 of the fastening member .

Here, the fastening part 420 of the fastening member may be adhered to the lower surface 410b of the body part 410 of the fastening member 400.

At this time, an adhesive member 430 may be disposed between the body 410 of the fixing member and the fastening part 420.

Here, the adhesive member 430 is a paste obtained by thermosetting a paste obtained by mixing a liquid silicone rubber or a synthetic rubber with a thermally conductive powder, and is excellent in adhesion reliability.

In addition, since the adhesive member 430 has good thermal conductivity, the heat transmitted from the light source module can be effectively emitted to the outside.

14B, the fastening part 420 of the fastening member can be coupled to the lower surface 410b of the body part 410 of the fastening member 400 by the fastening member 440. [

That is, the fastening member 440 may be disposed between the fastening part 420 and the body part 410 of the fastening member.

Here, the fastening member 440 may be a fastening screw such as a screw. The fastening member 440 may be made of silver (Ag), copper (Cu), gold (Au), aluminum have.

15A to 15D are sectional views showing the shape of the body portion of the fixing member.

15A, the fixing member may include a body part 410 and a fastening part 420. A fastening part 420 is disposed on the lower surface 410b of the body part 410 of the fastening member .

The upper surface 410a and the lower surface 410b of the fixing member body 410 may be parallel to each other and the total area of the upper surface 410a and the entire lower surface 410b may be equal to each other .

At this time, the upper surface 410a and the lower surface 410b of the fixing member body 410 may be flat.

15B, the body portion 410 of the fixing member has an upper surface 410a and a lower surface 410b parallel to each other, and an area of the entire upper surface 410a and a lower surface 410b ) May be different from each other.

For example, the area of the upper surface 410a of the body portion 410 may be smaller than the area of the lower surface 410b of the body portion 410.

Here, the upper surface 410a and the lower surface 410b of the fixing member body 410 may be flat.

15C, the body 410 of the fixing member has an upper surface 410a and a lower surface 410b which are parallel to each other, and the area of the entire upper surface 410a and the entire area of the lower surface 410b May be equal to each other.

At this time, the upper surface 410a and the lower surface 410b of the body 410 of the fixing member may be curved.

15D, the body portion 410 of the fixing member has a shape in which the upper surface 410a and the lower surface 410b are parallel to each other and the total area of the upper surface 410a and the lower surface 410b ) May be different from each other.

For example, the area of the upper surface 410a of the body portion 410 may be smaller than the area of the lower surface 410b of the body portion 410.

Here, the upper surface 410a and the lower surface 410b of the body 410 of the fixing member may be curved.

16A and 16B are sectional views showing a reflective member formed on the body portion of the fixing member.

16A and 16B, the fixing member may include a body part 410 and a fastening part 420. The lower surface 410b of the body part 410 of the fastening member may have a fastening part 420 May be disposed.

Here, the body 410 of the fixing member may have a reflecting member 450 formed on at least one of the upper surface 410a and the first and second side surfaces 410c and 410d.

Here, the reflective member 450 may include a metal or a metal oxide having a high reflectance such as aluminum (Al), silver (Ag), gold (Au), titanium dioxide (TiO ₂ )

At this time, the reflectance of the reflecting member 450 may be equal to the reflectance of the reflecting sheet of the first reflector.

However, depending on the case, the reflectance of the reflecting member 450 and the reflectance of the reflecting sheet may be different from each other.

For example, when the area of the body portion 410 of the fixing member is relatively darker than the area of the reflection sheet of the first reflector, by forming the reflection member 450 having a reflectance higher than that of the reflection sheet , And a uniform luminance can be provided.

The reflectance of the reflective member 450 formed on the upper surface 410a of the body 410 and the reflectivity of the reflective member 450 formed on the first and second sides 410c and 410d of the body 410, The reflectance of the member 450 may be different from each other.

For example, when the first and second sides 410c and 410d of the body part 410 are relatively darker than the upper surface 410a of the body part 410, The reflective member 450 formed on the second side surfaces 410c and 410d may have a higher reflectance than the reflective member 450 formed on the upper surface 410a of the body portion 410. [

17 is a sectional view showing the thickness of the first reflector and the fixing member.

17, the fixing member 400 includes a body part 410 and a fastening part 420. The first reflector 300 includes a cover part 320 and a reflective sheet 310 .

Here, the fixing member 400 and the first reflector can be fastened to each other by the fastening portion 420 of the fastening member 400.

The body 410 of the fixing member 400 supports the reflective sheet 310 of the first reflector 300 so that the reflective sheet 310 can be physically fixed.

The thickness t21 of the body 410 of the fixing member 400 may be greater than the thickness t22 of the reflective sheet 310 of the first reflector 300. [

The thickness t21 of the body 410 of the fixing member 400 may be equal to the thickness t22 of the reflective sheet 310 of the first reflector 300. [

The thickness t21 of the body portion 410 of the fixing member 400 may be thinner than the thickness t23 of the cover portion 320 of the first reflector 300. [

The thickness t21 of the body portion 410 of the fixing member 400 may be equal to the thickness t23 of the cover portion 320 of the first reflector 300. [

18A and 18B are plan views showing the arrangement structure of the fixing member according to the first embodiment.

18A and 18B are two edge systems in which the first light source module 101 and the second light source module 102 can be disposed on both sides of the first reflector 300, respectively.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

18A, the plurality of fixing members 400 may be arranged side by side at regular intervals along the first light source module 101 or the second light source module 102. As shown in FIG.

That is, the fixing members 400 of the first region of the first reflector 300 are arranged side by side at regular intervals along the arrangement direction of the first light source modules 101, The fixing members 400 may be arranged side by side at regular intervals along the arrangement direction of the second light source module 102.

Here, the fixing member 400 disposed at the outermost periphery may be disposed at a distance of about 10 mm or more from the edge of the first reflector 300.

That is, the distances d60 and d61 between the fixing member 400 disposed at the outermost periphery and the edge of the first reflector 300 may be about 10 mm or more.

The reason for disposing the fixing member 400 at a distance of about 10 mm or more from the edge of the first reflector 300 is to perform the fastening of the fixing member 400 and the first reflector 300 smoothly.

That is, in order for the fixing member 400 to be fastened to the first reflector 300, a predetermined fastening space must be secured. In the fastening space within about 10 mm from the edge of the first reflector 300, It is too narrow to do.

The fixing members 400 of the first region of the first reflector 300 and the fixing members 400 of the second region of the first reflector 300 are arranged with respect to the center line of the first reflector 300 They can be arranged symmetrically with respect to each other.

The fixing members 400 disposed in the first area of the first reflector 300 may have the same spacing d51, d52, and d53 between the adjacent fixing members 400. [

The fixing members 400 disposed in the second area of the first reflector 300 may have the same spacing d54, d55, and d56 between the fixing members 400 adjacent to each other.

The length L51 of the fixing members 400 disposed in the first area of the first reflector 300 is set such that the lengths L52 of the fixing members 400 disposed in the second area of the first reflector 300 are equal to each other It is possible.

In some cases, as shown in FIG. 18B, the plurality of fixing members 400 may be staggered at regular intervals along the first light source module 101 or the second light source module 102.

That is, the fixing members 400 of the first region of the first reflector 300 are staggered from each other at regular intervals along the arrangement direction of the first light source module 101, The fixing members 400 of the second light source module 102 may be staggered from each other at regular intervals along the arrangement direction of the second light source module 102.

Here, the fixing member 400 disposed at the outermost periphery may be disposed at a distance of about 10 mm or more from the edge of the first reflector 300.

That is, the distances d60 and d61 between the fixing member 400 disposed at the outermost periphery and the edge of the first reflector 300 may be about 10 mm or more.

The reason for disposing the fixing member 400 at a distance of about 10 mm or more from the edge of the first reflector 300 is to perform the fastening of the fixing member 400 and the first reflector 300 smoothly.

That is, in order for the fixing member 400 to be fastened to the first reflector 300, a predetermined fastening space must be secured. In the fastening space within about 10 mm from the edge of the first reflector 300, It is too narrow to do.

The fixing members 400 of the first region of the first reflector 300 and the fixing members 400 of the second region of the first reflector 300 are arranged with respect to the center line of the first reflector 300 They can be arranged symmetrically with respect to each other.

The fixing members 400 disposed in the first area of the first reflector 300 may have the same spacing d51, d52, and d53 between the adjacent fixing members 400. [

The fixing members 400 disposed in the second area of the first reflector 300 may have the same spacing d54, d55, and d56 between the fixing members 400 adjacent to each other.

The length L51 of the fixing members 400 disposed in the first area of the first reflector 300 is set such that the lengths L52 of the fixing members 400 disposed in the second area of the first reflector 300 are equal to each other It is possible.

19A and 19B are plan views showing the arrangement structure of the fixing member according to the second embodiment.

19A and 19B are two-edge systems in which the first light source module 101 and the second light source module 102 are disposed on both sides of the first reflector 300, respectively.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

As shown in FIG. 19A, the plurality of fixing members 400 may be arranged side by side at regular intervals along the first light source module 101 or the second light source module 102.

That is, the fixing members 400 of the first region of the first reflector 300 are arranged side by side at regular intervals along the arrangement direction of the first light source modules 101, The fixing members 400 may be arranged side by side at regular intervals along the arrangement direction of the second light source module 102.

Here, the fixing member 400 disposed at the outermost periphery may be disposed at a distance of about 10 mm or more from the edge of the first reflector 300.

That is, the distances d60 and d61 between the fixing member 400 disposed at the outermost periphery and the edge of the first reflector 300 may be about 10 mm or more.

The reason for disposing the fixing member 400 at a distance of about 10 mm or more from the edge of the first reflector 300 is to perform the fastening of the fixing member 400 and the first reflector 300 smoothly.

That is, in order for the fixing member 400 to be fastened to the first reflector 300, a predetermined fastening space must be secured. In the fastening space within about 10 mm from the edge of the first reflector 300, It is too narrow to do.

The fixing members 400 of the first region of the first reflector 300 and the fixing members 400 of the second region of the first reflector 300 are arranged with respect to the center line of the first reflector 300 They can be arranged asymmetrically with respect to each other.

The fixing members 400 disposed in the first area of the first reflector 300 may have the same spacing d51, d52, and d53 between the adjacent fixing members 400. [

The fixing members 400 disposed in the second area of the first reflector 300 may have the same spacing d54, d55, and d56 between the fixing members 400 adjacent to each other.

The length L51 of the fixing members 400 disposed in the first area of the first reflector 300 is set such that the lengths L52 of the fixing members 400 disposed in the second area of the first reflector 300 are equal to each other It is possible.

In some cases, as shown in FIG. 19B, the plurality of fixing members 400 may be staggered at regular intervals along the first light source module 101 or the second light source module 102.

That is, the fixing members 400 of the first region of the first reflector 300 are staggered from each other at regular intervals along the arrangement direction of the first light source module 101, The fixing members 400 of the second light source module 102 may be staggered from each other at regular intervals along the arrangement direction of the second light source module 102.

Here, the fixing member 400 disposed at the outermost periphery may be disposed at a distance of about 10 mm or more from the edge of the first reflector 300.

That is, the distances d60 and d61 between the fixing member 400 disposed at the outermost periphery and the edge of the first reflector 300 may be about 10 mm or more.

The reason for disposing the fixing member 400 at a distance of about 10 mm or more from the edge of the first reflector 300 is to perform the fastening of the fixing member 400 and the first reflector 300 smoothly.

That is, in order for the fixing member 400 to be fastened to the first reflector 300, a predetermined fastening space must be secured. In the fastening space within about 10 mm from the edge of the first reflector 300, It is too narrow to do.

The fixing members 400 of the first region of the first reflector 300 and the fixing members 400 of the second region of the first reflector 300 are arranged with respect to the center line of the first reflector 300 They can be arranged asymmetrically with respect to each other.

The fixing members 400 disposed in the first area of the first reflector 300 may have the same spacing d51, d52, and d53 between the adjacent fixing members 400. [

The fixing members 400 disposed in the second area of the first reflector 300 may have the same spacing d54, d55, and d56 between the fixing members 400 adjacent to each other.

The length L51 of the fixing members 400 disposed in the first area of the first reflector 300 is set such that the lengths L52 of the fixing members 400 disposed in the second area of the first reflector 300 are equal to each other It is possible.

Fig. 20A is a plan view showing the fastening of the first reflector and the fixing member, Fig. 20A is a view before the fixing member is fastened to the first reflector, Fig. 20B is a cross- Fig.

The first light source module 101 and the second light source module 102 may be disposed on both sides of the first reflector 300, as shown in FIG. 20A.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

Here, the first reflector 300 includes a plurality of holes 350, and the plurality of holes 350 may be disposed corresponding to the fastening portions of the fixing member.

20B, the fixing member 400 is disposed corresponding to the hole 350 of the first reflector 300, and the second section 414 of the body portion of the fixing member 400 is fixed to each hole And the first section 412 of the body portion of the fixing member 400 may be disposed between the adjacent holes 350. In this case,

The fastening portion of the fixing member 400 is inserted into the hole 350 of the first reflector 300. The fastening portion of the fastening member 400 is inserted into the hole 350 of the first reflector 300, The reflective sheet of the first reflector 400 can be fixed.

Figs. 21A and 21B are cross-sectional views taken along a line VI-VI in Fig. 20A.

As shown in FIGS. 21A and 21B, the first reflector 300 may include a cover part 320 and a reflective sheet 310.

Here, the cover portion 320 of the first reflector 300 has a first hole 350b, the reflection sheet 310 of the first reflector 300 is disposed on the cover portion 320, and the second hole 350a.

At this time, the first hole 350b of the cover part 320 and the second hole 350a of the reflective sheet 310 may be disposed corresponding to each other.

21A, the size S2 of the first hole 350b of the cover 320 may be the same as the size S1 of the second hole 350a of the reflective sheet 310. In this case,

The size S2 of the first hole 350b of the cover portion 320 may be smaller than the size S1 of the second hole 350a of the reflective sheet 310 as shown in FIG.

The reason why the size of the first hole 350b of the cover part 320 of the first reflector 300 and the size of the second hole 350a of the reflection sheet 310 of the first reflector 300 is different is as follows. This is because it can be varied depending on the shape of the fastening portion of the fixing member.

Figs. 22A to 22C are sectional views taken on line VII-VII in Fig. 20A. Fig.

22A to 22C, the first reflector 300 may include a cover part 320 and a reflective sheet 310, and the fixing member may include a body part 410 and a fastening part 420 .

Here, the fastening part 420 of the fixing member can be inserted into the hole of the first reflector 300 and fastened.

22A and 22B, the area S11 of the body 410 of the fixing member may be larger than the area of the second hole 350a of the reflective sheet 310 of the first reflector 300. [

The area S11 of the body 410 of the fixing member may be smaller than the area of the second hole 350a of the reflective sheet 310 of the first reflector 300 as shown in FIG.

The body 410 of the fixing member may be disposed on the reflective sheet 310 of the first reflector 300 or on the cover 320 of the first reflector 300. [

The reason why the position of the body 410 of the fixing member is changed is that the height of the fixing member may cause optical defects such as hot spots and the like, .

23A to 23C are plan views showing the arrangement structure of the fixing member according to the third embodiment.

23A to 23C are two edge systems, and the first light source module 101 and the second light source module 102 can be disposed on both sides of the first reflector 300, respectively.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

The fixing members disposed in the first region of the first reflector 300 and the fixing members disposed in the second region of the first reflector 300 may be disposed symmetrically with respect to each other.

23A, the plurality of fixing members 400 includes a first fixing member 400a disposed in a central region of the first light source module 101 or the second light source module 102, And a second fixing member 400b disposed in an edge region of the light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the interval d71 between the adjacent first fixing members 400a may be narrower than the interval d72 between the adjacent second fixing members 400b have.

 At this time, the ratio of the interval d71 between the first fixing members 400a adjacent to each other and the interval d72 between the adjacent fixing members 400b may be about 1: 1.1-5.

The length L71 of the first fixing member 400a and the length L72 of the second fixing member 400b may be equal to each other in the first region of the first reflector 300. However, have.

In addition, in the second region of the first reflector 300, the distance d81 between the adjacent first fixing members 400a may be narrower than the distance d82 between the adjacent second fixing members 400b have.

At this time, the ratio of the distance d81 between the adjacent first fixing members 400a and the distance d82 between the adjacent fixing members 400b may be about 1: 1.1-5.

The length L81 of the first fixing member 400a and the length L82 of the second fixing member 400b may be equal to each other in the second region of the first reflector 300. However, have.

Next, as shown in Fig. 23B, in the first region of the first reflector 300, the interval d71 between the first fixing members 400a adjacent to each other is smaller than the distance d71 between the second fixing members 400b Lt; RTI ID = 0.0 > d72. ≪ / RTI >

At this time, the ratio of the gap d71 between the first fixing members 400a adjacent to each other and the gap d72 between the adjacent second fixing members 400b may be about 1.1-5: 1.

The length L71 of the first fixing member 400a and the length L72 of the second fixing member 400b may be equal to each other in the first region of the first reflector 300. However, have.

In addition, in the second region of the first reflector 300, the distance d81 between the adjacent first fixing members 400a may be wider than the distance d82 between the adjacent second fixing members 400b have.

At this time, the ratio of the distance d81 between the first fixing members 400a adjacent to each other and the distance d82 between the adjacent fixing members 400b may be about 1.1-5: 1.

The length L81 of the first fixing member 400a and the length L82 of the second fixing member 400b may be equal to each other in the second region of the first reflector 300. However, have.

23C, in the first region of the first reflector 300, the distance d71 between the adjacent first fixing members 400a and the distance d71 between the adjacent second fixing members 400b May be equal to each other.

The length L71 of the first fixing member 400a and the length L72 of the second fixing member 400b may be equal to each other in the first region of the first reflector 300. However, have.

In addition, in the second region of the first reflector 300, the distance d81 between the first fixing members 400a adjacent to each other and the distance d82 between the adjacent second fixing members 400b are equal to each other .

The length L81 of the first fixing member 400a and the length L82 of the second fixing member 400b may be equal to each other in the second region of the first reflector 300. However, have.

The distance between the first fixing members 400a adjacent to each other and the gap between the adjacent second fixing members 400b may vary depending on the size and length of the fixing member 400, , And the size of the fastening space of the fixing member is changed.

24A and 24B are plan views showing the arrangement structure of the fixing member according to the fourth embodiment.

24A and 24B are two edge systems in which the first light source module 101 and the second light source module 102 can be disposed on both sides of the first reflector 300, respectively.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

The fixing members disposed in the first region of the first reflector 300 and the fixing members disposed in the second region of the first reflector 300 may be disposed asymmetrically with respect to each other.

24A, the plurality of fixing members 400 includes a first fixing member 400a disposed in a central region of the first light source module 101 or the second light source module 102, And a second fixing member 400b disposed in an edge region of the light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the interval d71 between the adjacent first fixing members 400a may be wider than the interval d72 between the adjacent second fixing members 400b have.

 At this time, the ratio of the gap d71 between the first fixing members 400a adjacent to each other and the gap d72 between the adjacent second fixing members 400b may be about 1.1-5: 1.

The length L71 of the first fixing member 400a and the length L72 of the second fixing member 400b may be equal to each other in the first region of the first reflector 300. However, have.

In addition, in the second region of the first reflector 300, the distance d81 between the adjacent first fixing members 400a may be narrower than the distance d82 between the adjacent second fixing members 400b have.

At this time, the ratio of the distance d81 between the adjacent first fixing members 400a and the distance d82 between the adjacent fixing members 400b may be about 1: 1.1-5.

The length L81 of the first fixing member 400a and the length L82 of the second fixing member 400b may be equal to each other in the second region of the first reflector 300. However, have.

Next, as shown in Fig. 24B, in the first region of the first reflector 300, the interval d71 between the first fixing members 400a adjacent to each other is smaller than the distance d71 between the second fixing members 400b Lt; / RTI >

At this time, the ratio of the interval d71 between the first fixing members 400a adjacent to each other and the interval d72 between the adjacent fixing members 400b may be about 1: 1.1-5.

The length L71 of the first fixing member 400a and the length L72 of the second fixing member 400b may be equal to each other in the first region of the first reflector 300. However, have.

In addition, in the second region of the first reflector 300, the distance d81 between the adjacent first fixing members 400a may be wider than the distance d82 between the adjacent second fixing members 400b have.

At this time, the ratio of the distance d81 between the first fixing members 400a adjacent to each other and the distance d82 between the adjacent fixing members 400b may be about 1.1-5: 1.

The length L81 of the first fixing member 400a and the length L82 of the second fixing member 400b may be equal to each other in the second region of the first reflector 300. However, have.

The distance between the first fixing members 400a adjacent to each other and the gap between the adjacent second fixing members 400b may vary depending on the size and length of the fixing member 400, , And the size of the fastening space of the fixing member is changed.

25A to 25C are plan views showing the arrangement structure of the fixing member according to the fifth embodiment.

25A to 25C are two-edge systems in which the first light source module 101 and the second light source module 102 are disposed on both sides of the first reflector 300, respectively.

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

The fixing members disposed in the first region of the first reflector 300 and the fixing members disposed in the second region of the first reflector 300 may be disposed symmetrically with respect to each other, As shown in FIG.

25A, the plurality of fixing members 400 includes a third fixing member 400c disposed in an area adjacent to the first light source module 101 or the second light source module 102, And a fourth fixing member 400d disposed in a region distant from the light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the length L91 of the third fixing member 400c may be longer than the length L92 of the fourth fixing member 400d.

At this time, the ratio of the length L91 of the third fixing members 400c to the length L92 of the fourth fixing members 400d may be 1.1-5: 1.

In the first region of the first reflector 300, the distance d91 between the third fixing members 400c adjacent to each other and the distance d92 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

In the second region of the first reflector 300, the length L94 of the third fixing member 400c may be longer than the length L93 of the fourth fixing member 400d.

At this time, the ratio of the length L94 of the third fixing members 400c to the length L93 of the fourth fixing members 400d may be 1.1-5: 1.

In the second region of the first reflector 300, the interval d94 between the third fixing members 400c adjacent to each other and the interval d93 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

25B, the plurality of fixing members 400 may include a third fixing member 400c disposed in a region adjacent to the first light source module 101 or the second light source module 102, And a fourth fixing member 400d disposed in a region remote from the first light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the length L91 of the third fixing member 400c may be shorter than the length L92 of the fourth fixing member 400d.

At this time, the ratio of the length L91 of the third fixing members 400c to the length L92 of the fourth fixing members 400d may be 1: 1.1-5.

In the first region of the first reflector 300, the distance d91 between the third fixing members 400c adjacent to each other and the distance d92 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

In the second region of the first reflector 300, the length L94 of the third fixing member 400c may be shorter than the length L93 of the fourth fixing member 400d.

In this case, the ratio of the length of the third fixing members 400c to the length of the fourth fixing members 400d may be 1: 1.1-5.

In the second region of the first reflector 300, the interval d94 between the third fixing members 400c adjacent to each other and the interval d93 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

25C, in the first region of the first reflector 300, the length L91 of the third fixing member 400c and the length L92 of the fourth fixing member 400d may be equal to each other .

In the first region of the first reflector 300, the distance d91 between the third fixing members 400c adjacent to each other and the distance d92 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

In the second region of the first reflector 300, the length L94 of the third fixing member 400c and the length L93 of the fourth fixing member 400d may be equal to each other.

In the second region of the first reflector 300, the interval d94 between the third fixing members 400c adjacent to each other and the interval d93 between the fourth fixing members 400d adjacent to each other are equal to each other It may, but in some cases, be different.

The reason why the lengths of the third fixing member 400c and the fourth fixing member 400d are variable is that the length of the third fixing member 400c and the length of the fourth fixing member 400d are changed depending on the area of the first reflector 300 and the degree of curvature of the first reflector 300 The degree of deflection is different.

26 is a plan view showing the arrangement structure of the fixing member according to the sixth embodiment.

26 is a two-edge system in which the first light source module 101 and the second light source module 102 are disposed on both sides of the first reflector 300. [

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

The fixing members disposed in the first region of the first reflector 300 and the fixing members disposed in the second region of the first reflector 300 may be disposed symmetrically with respect to each other, As shown in FIG.

26, the plurality of fixing members 400 includes a third fixing member 400c disposed in a region adjacent to the first light source module 101 or the second light source module 102, And a fourth fixing member 400d disposed in a region distant from the light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the interval d91 between the third fixing members 400c adjacent to each other and the interval d92 between the fourth fixing members 400d adjacent to each other may be different from each other have.

That is, in the first region of the first reflector 300, the distance d91 between the adjacent third fixing members 400c may be wider than the distance d92 between the adjacent fourth fixing members 400d have.

At this time, the ratio of the distance d91 between the third fixing members 400c adjacent to each other and the distance d92 between the fourth fixing members 400d adjacent to each other may be about 1.1-5: 1.

In some cases, the distance d91 between the third fixing members 400c adjacent to each other in the first region of the first reflector 300 is greater than the distance d92 between the fourth fixing members 400d adjacent to each other It may be narrow.

At this time, the ratio of the distance d91 between the third fixing members 400c adjacent to each other and the distance d92 between the fourth fixing members 400d adjacent to each other may be about 1: 1.1-5.

In the first region of the first reflector 300, the length L91 of the third fixing member 400c and the length L92 of the fourth fixing member 400d may be different from each other.

Next, in the second region of the first reflector 300, the interval d94 between the third fixing members 400c adjacent to each other and the interval d93 between the fourth fixing members 400d adjacent to each other may be different from each other have.

The arrangement relationship of the third fixing members 400c and the fourth fixing members 400d disposed in the second region of the first reflector 300 is such that the arrangement relationship of the third fixing member 400c and the fourth fixing member 400d, The arrangement relationship of the fixing members 400c and the fourth fixing members 400d is the same as that of the fixing members 400c and 400d, and a detailed description thereof will be omitted.

The distance between the third fixing members 400c adjacent to each other and the interval between the fourth fixing members 400d adjacent to each other may be varied depending on the size and length of the fixing member 400, , And the size of the fastening space of the fixing member is changed.

27 is a plan view showing an arrangement structure of the fixing member according to the seventh embodiment.

27 is a two-edge system in which the first light source module 101 and the second light source module 102 are disposed on both sides of the first reflector 300. [

The first reflector 300 may be divided into a first area and a second area with respect to a center line of the first reflector 300.

The fixing members disposed in the first region of the first reflector 300 and the fixing members disposed in the second region of the first reflector 300 may be disposed symmetrically with respect to each other, As shown in FIG.

27, the plurality of fixing members 400 include a third fixing member 400c disposed in a region adjacent to the first light source module 101 or the second light source module 102, And a fourth fixing member 400d disposed in a region distant from the light source module 101 or the second light source module 102. [

Here, in the first region of the first reflector 300, the number of the third fixing members 400c and the number of the fourth fixing members 400d may be different from each other.

That is, in the first region of the first reflector 300, the number of the third fixing members 400c may be smaller than the number of the fourth fixing members 400d.

At this time, the ratio of the number of the third fixing members 400c to the number of the fourth fixing members 400d may be about 1: 1.1-5.

In some cases, in the first region of the first reflector 300, the number of the third fixing members 400c may be larger than the number of the fourth fixing members 400d.

At this time, the ratio of the number of the third fixing members 400c to the number of the fourth fixing members 400d may be about 1.1-5: 1.

Next, in the second region of the first reflector 300, the number of the third fixing members 400c and the number of the fourth fixing members 400d may be different from each other.

The number of the third fixing members 400c and the fourth fixing members 400d disposed in the second region of the first reflector 300 is determined by the number of the third fixing members 400c and the third fixing members 400d disposed in the first region of the first reflector 300, Since the number of the fixing members 400c and fourth fixing members 400d is the same, the detailed description is omitted.

The reason why the number of the third fixing members 400c and the number of the fourth fixing members 400d are variable is that the number of the fixing members 400c is changed depending on the area of the first reflector 300 and the degree of curvature of the first reflector 300, This is because the degree of deflection of the reflective sheet is different.

Fig. 28 is a sectional view showing the first and second reflectors of Fig. 2A. Fig.

28, the first and second reflectors 300 and 200 may be disposed at different heights, and the light source module 100 may be disposed between the first and second reflectors 300 and 200 .

Here, the second reflector 200 is a flat plane, and the first reflector 300 may include an inclined surface on a part thereof.

At this time, the inclined surface of the first reflector 300 may be inclined from the plane of the second reflector 200, and may include at least two inclined surfaces having at least one inflection point.

For example, the first reflector 300 may include an eleventh region and a twelfth region adjacent to each other around the inflection point P, the eleventh region may be a first inclined plane, and the twelfth region may be a second inclined plane .

Here, the first inclined surface may be a curved surface having a first curvature radius R1, and the second inclined surface may be a curved surface having a second curvature radius R2.

At this time, the first radius of curvature R1 of the first inclined surface and the second radius of curvature R2 of the second inclined surface may be different from each other.

For example, the first inclined surface of the first reflector 300 is adjacent to the light source module 100, and the first curvature radius R1 of the first inclined surface may be smaller than the second curvature radius R2 of the second inclined surface.

29A to 29D are views showing the inclined surfaces of the first reflector.

29A, the first reflector 300 may include an eleventh region 300a and a twelfth region 300b, wherein the eleventh region 300a includes the light source module 100 and the second region 300b. And may be an inclined surface which is superimposed on a part of the reflector 200 and inclined from the surface of the second reflector 200. [

Here, the slope of the eleventh region 300a may be a flat plane inclined upward from the light source module 100. [

The twelfth region 300b may be an inclined plane inclined from the surface of the second reflector 200 and the inclined plane of the twelfth region 300b may be a flat plane inclined downward from the inclined plane of the eleventh region 300a Lt; / RTI >

At this time, the slope of the slope of the eleventh region 300a and the slope of the slope of the twelfth region 300b may be different from each other.

For example, the slope of the slope of the eleventh region 300a may be larger than the slope of the slope of the twelfth region 300b.

The area S11 of the eleventh area 300a may be larger than the area S12 of the twelfth area 300b and the ratio of the area S11 of the eleventh area 300a to the area S12 of the twelfth area 300b may be about 1.1 - 20: 1.

29B, the first reflector 300 may include an eleventh region 300a and a twelfth region 300b, and the eleventh region 300a may include a light source module 100 and an eleventh region 300b. And may be an inclined surface that is overlapped with a part of the second reflector 200 and inclined from the surface of the second reflector 200. [

Here, the inclined surface of the eleventh region 300a may be a concave curved surface that is inclined upward from the light source module 100.

The twelfth region 300b may be an inclined surface inclined from the surface of the second reflector 200 and the inclined surface of the twelfth region 300b may be a concave curved surface inclined downward from the inclined surface of the eleventh region 300a. Lt; / RTI >

At this time, the radius of curvature of the slope of the eleventh region 300a and the radius of curvature of the slope of the twelfth region 300b may be different from each other.

For example, the radius of curvature of the inclined plane of the eleventh region 300a may be smaller than the radius of curvature of the inclined plane of the twelfth region 300b.

The area S11 of the eleventh area 300a may be larger than the area S12 of the twelfth area 300b and the ratio of the area S11 of the eleventh area 300a to the area S12 of the twelfth area 300b may be about 1.1 - 20: 1.

29C, the first reflector 300 may include an eleventh region 300a and a twelfth region 300b, wherein the eleventh region 300a includes the light source module 100 and the eleventh region 300b. And may be an inclined surface that is overlapped with a part of the second reflector 200 and inclined from the surface of the second reflector 200. [

Here, the slope of the eleventh region 300a may be a flat plane inclined upward from the light source module 100. [

The twelfth region 300b may be an inclined surface inclined from the surface of the second reflector 200 and the inclined surface of the twelfth region 300b may be a concave curved surface inclined downward from the inclined surface of the eleventh region 300a. Lt; / RTI >

Here, the area S11 of the eleventh area 300a may be larger than the area S12 of the twelfth area 300b, and the ratio of the area S11 of the eleventh area 300a to the area S12 of the twelfth area 300b may be about 1.1 - 20: 1.

29D, the first reflector 300 may include an eleventh region 300a and a twelfth region 300b, and the eleventh region 300a may include a light source module 100 and an eleventh region 300b. And may be an inclined surface that is overlapped with a part of the second reflector 200 and inclined from the surface of the second reflector 200. [

Here, the inclined surface of the eleventh region 300a may be a concave curved surface that is inclined upward from the light source module 100.

The twelfth region 300b may be an inclined plane inclined from the surface of the second reflector 200 and the inclined plane of the twelfth region 300b may be a flat plane inclined downward from the inclined plane of the eleventh region 300a Lt; / RTI >

Here, the area S11 of the eleventh area 300a may be larger than the area S12 of the twelfth area 300b, and the ratio of the area S11 of the eleventh area 300a to the area S12 of the twelfth area 300b may be about 1.1 - 20: 1.

Figs. 30A to 30D are views showing a second reflector having an inclined plane, wherein Fig. 30A shows a case where the inclined plane is a plane, and Figs. 30B, 30C and 30D show a case where the inclined plane is a curved face.

30A to 30D, one surface of the second reflector 200 facing the light source module 100 may have an inclined surface inclined at an angle with respect to the other surface of the second reflector 200 .

Here, the inclination angle? Of the inclined plane may be inclined at an angle of 1 to 85 degrees with respect to a horizontal plane parallel to the other surface of the second reflector 200.

Accordingly, the thickness of the second reflector 200 may gradually decrease as the distance from the light source module 100 increases, or may gradually increase.

That is, the thickness t1 of the area adjacent to the light source module 100 and the thickness t2 of the area far from the light source module 100 may be different from each other in the second reflector 200. As shown in FIGS. 30A and 30B, May be greater than the thickness t2 of the region distant from the light source module 100. In this case,

In some cases, the thickness t1 of the region adjacent to the light source module 100 may be smaller than the thickness t2 of the region far from the light source module 100, as shown in Figs. 30C and 30D.

30D, the second reflector 200 may include both the inclined plane and the plane.

That is, in the second reflector 200, an area adjacent to the light source module 100 may have an inclined surface, and an area far from the light source module 100 may have a plane.

Here, the length L1 of the inclined plane may be the same as the length L2 of the plane, or may be different from each other in some cases.

A predetermined reflection pattern may be formed on the surface of the second reflector 200.

31A to 31D are views showing a second reflector having a reflection pattern.

31A and 31C show that the reflective pattern 210 has a sawtooth shape and the reflective pattern 210 has a surface having a curved surface. .

Here, FIG. 31B shows a concave curved surface of the reflective pattern 210, and FIG. 31C shows a convex curved surface of the reflective pattern 210.

31D, the size of the reflection pattern 210 may gradually increase from the end of the second reflector 200 to the open area.

The reason why the reflection pattern 210 is formed on the second reflector 200 in this manner is that it can not only reflect light but also have a diffusion effect that uniformly spreads light.

Accordingly, the reflection pattern 210 can be manufactured in various sizes in the corresponding region according to the entire luminance distribution of the illumination.

32A to 32D are views for explaining the arrangement relationship between the light source module and the first and second reflectors.

The light source module 100 may be in contact with the first reflector 300 and the second reflector 200, as shown in FIG.

The reason for disposing the light source module 100 in this manner is not only to make the brightness of the illumination unit uniform, but also to reduce the thickness of the whole illumination unit.

32B, the light source module 100 may be separated from the second reflector 200 by a first distance d21, and may be separated from the first reflector 300 by a second distance d22.

Here, the first distance d21 and the second distance d22 may be equal to each other, or may be different from each other.

As an example, the first distance d21 may be smaller than the second distance d22.

Next, as shown in Fig. 32C, the light source module 100 may contact the second reflector 200 and be separated from the first reflector 300 by a second distance d22.

Here, the light source module 100 may contact the second reflector 200 to prevent hot spot, and may transmit light to a region distant from the light source module 100.

32D, the light source module 100 may be separated from the second reflector 200 by a second distance d22, and may be in contact with the first reflector 300. [

33 is a cross-sectional view showing the optical member of FIG. 2A.

As shown in FIG. 33, the optical member 500 may have a concave-convex pattern 510 on its upper surface.

The optical member 500 is for diffusing light emitted from the light source module and may be provided with an uneven pattern 510 on the upper surface to increase the diffusion effect.

That is, the optical member 500 may have a plurality of layers, and the concavo-convex pattern 510 may have a top surface or a surface of any one layer.

The concavo-convex pattern 510 may have a strip shape arranged along the light source module.

At this time, the uneven pattern 510 has protrusions on the surface of the optical member 500, and the protrusions are composed of a first surface and a second surface facing each other, and an angle between the first surface and the second surface is an obtuse angle or an acute angle .

Optionally, the optical member 500 is made of at least one sheet, and may optionally include a diffusion sheet, a prism sheet, a brightness enhancement sheet, and the like.

Here, the diffusion sheet diffuses the light emitted from the light source, and the prism sheet guides the diffused light to the light emitting area, and the brightness diffusion sheet strengthens the brightness.

As described above, the embodiments can improve the deflection phenomenon of the optical member by disposing the projecting member at the end of the optical member.

Further, in the embodiment, a reflector for an air guide having a certain inclined surface is used without using a light guide plate, the weight is light, the manufacturing cost is low, and uniform brightness can be provided.

Therefore, not only the economical and reliability of the lighting unit is improved, but also it is suitable for a wide indoor space.

Further, it may be embodied as a backlight unit including a fixing member described in the above-described embodiments, a display device, a pointing device, and a lighting system. For example, the lighting system may include a lamp and a streetlight.

34 is a view showing a display module having a lighting unit according to an embodiment.

As shown in FIG. 34, the display module 20 may include a display panel 800 and a lighting unit 700.

The display panel 800 includes a color filter substrate 810 and a TFT (Thin Film Transistor) substrate 820 bonded to each other to maintain a uniform cell gap, A liquid crystal layer (not shown) may be interposed.

The upper polarizer 830 and the lower polarizer 840 may be disposed on the upper and lower sides of the display panel 800 and more specifically the upper polarizer 830 may be disposed on the upper surface of the color filter substrate 810 And the lower polarizer 840 may be disposed on the lower surface of the TFT substrate 820.

Although not shown, a gate and a data driver for generating a driving signal for driving the panel 800 may be provided on a side of the display panel 800.

35 and 36 are views showing a display device according to the embodiment.

35, the display device 1 includes a display module 20, a front cover 30 and a back cover 35 surrounding the display module 20, a driving unit 55 provided in the back cover 35, And a driving unit cover 40 surrounding the driving unit 55.

The front cover 30 may include a front panel (not shown) made of a transparent material transmitting light. The front panel may protect the display module 20 at regular intervals, and light emitted from the display module 20 So that an image displayed on the display module 20 is displayed from the outside.

The back cover 35 can be coupled with the front cover 30 to protect the display module 20.

A driving unit 55 may be disposed on one side of the back cover 35.

The driving unit 55 may include a driving control unit 55a, a main board 55b, and a power supply unit 55c.

The driving control unit 55a may be a timing controller and is a driving unit for adjusting the operation timing of each driver IC of the display module 20. The main board 55b may include a V-sync, an H- B resolution signal, and the power supply unit 55c is a driving unit for applying power to the display module 20. [

The driving part 55 may be provided on the back cover 35 and may be surrounded by the driving part cover 40.

The back cover 35 may include a plurality of holes to connect the display module 20 and the driving unit 55 and a stand 60 for supporting the display device 1.

36, the driving control unit 55a of the driving unit 55 is provided in the back cover 35, and the main board 55b and the power board 55c may be provided in the stand 60 have.

The driving unit cover 40 may cover only the driving unit 55 provided on the back cover 35.

In the embodiment, the main board 55b and the power board 55c are separately formed. However, the present invention is not limited thereto.

Still another embodiment may be embodied as a backlight unit including a fixing member described in the above embodiments, a display device, a pointing device, and a lighting system, for example, the lighting system may include a lamp and a streetlight.

The features, structures, effects and the like described in the embodiments are included in at least one embodiment of the present invention and are not necessarily limited to only one embodiment. Furthermore, the features, structures, effects and the like illustrated in the embodiments can be combined and modified by other persons skilled in the art to which the embodiments belong. Therefore, it should be understood that the present invention is not limited to these combinations and modifications.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It can be seen that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

100: light source module 200: second reflector
300: first reflector 400: fixing member
410: body part 420: fastening part
500: optical member

Claims (17)

A first reflector including a cover portion having a first hole and a reflective sheet having a second hole, the reflector being positioned on the cover portion;
A second reflector disposed on both sides of the first reflector;
A light source module disposed between the first reflector and the second reflector, the light source module including a substrate and light sources disposed on the substrate; And
And a fixing member including a body portion and a coupling portion connected to the body portion,
The fastening portion of the fixing member is inserted into the second hole of the reflective sheet and the first hole of the cover portion to support the reflective sheet,
The body portion including a first section having a first width and a second section having a second width greater than the first width, the fastening portion being disposed in a second section of the body portion,
Wherein the ratio of the first width of the first section of the body portion to the second width of the second section is from 1: 1.1 to 1:10. delete The method according to claim 1,
Wherein the first length of the first section is longer than the second length of the second section or is equal to the second length of the second section,
The length of the first section disposed on one side of the second section differs from the length of the first section disposed on the other side of the second section,
Wherein the side of the first section is inclined with respect to the upper surface of the first section,
Wherein the side of the second section is inclined with respect to the upper side of the second section. delete delete delete The method according to claim 1 or 3,
Wherein the body portion of the fixing member has an upper surface and a lower surface parallel to each other,
Wherein an area of the upper surface and a lower surface of the body portion are the same,
Wherein the body portion of the fixing member is any one of an inclined surface with a flat side, a concave inclined surface, a convex inclined surface, and an inclined surface having a plurality of grooves. delete delete delete 8. The method of claim 7,
Wherein the fixing member includes a reflecting member disposed on at least one of the upper surface and the side surface of the body portion,
Wherein the reflectance of the reflecting member is different from the reflectance of the first reflector. delete delete delete A first reflector including a cover portion having a first hole and a reflective sheet having a second hole, the reflector being positioned on the cover portion;
A second reflector disposed on both sides of the first reflector;
A light source module disposed between the first reflector and the second reflector, the light source module including a substrate and light sources disposed on the substrate; And
And a fixing member including a body portion and a coupling portion connected to the body portion,
The fastening portion of the fixing member is inserted into the second hole of the reflective sheet and the first hole of the cover portion to support the reflective sheet,
The first reflector is divided into a first region and a second region with respect to a center line,
Wherein:
First fixing members spaced apart from each other in the first region of the first reflector; And
And second fixing members spaced apart from each other in the second region of the first reflector. 16. The method of claim 15,
Wherein the first fixing members are disposed apart from each other in the arrangement direction of the light sources, the second fixing members are disposed apart from each other in the arrangement direction of the light sources,
The gap between the two first fixing members adjacent to each other and the gap between the two second fixing members adjacent to each other are different from each other,
Wherein the first fixing members and the second fixing members are disposed at least 10 mm away from the edge of the first reflector. delete

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