KR20160093346A - improved bacl light assembly with light guiding plate - Google Patents

Abstract

Disclosed is an improved backlight assembly. According to the present invention, the improved backlight assembly is a backlight assembly improved to evenly diffuse light emitted from a light source by forming a bending correction part on a surface of a light guide plate to prevent the bending of the light guide plate caused by a bending deformation. To this end, the improved backlight assembly includes: a light guide plate (100) scattering or diffusing incident light from a light source part (120); a bending correction part (110) installed on one side of the light guide plate to prevent the bending caused by a bending deformation of the light guide plate (100); the light source part (120) installed on the one side of the light guide plate (100) to output the light; a reflection part (130) installed in the bending correction part (110) to reflect the incident light toward the light guide plate (100); a diffusion sheet (140) diffusing or scattering the light outputted from the light guide plate (100) and the light reflected from the reflection part (130) to provide uniform brightness; a prism sheet (150) increasing front brightness by changing a direction of the light having passed through the diffusion sheet (140) in a predetermined direction; and a brightness increasing sheet (160) decreasing the loss of the light having passed through the prism sheet (150).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a backlight assembly having a light guide plate,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improved type backlight assembly, and more particularly, to an improved type backlight assembly improved in that light emitted from a light source is uniformly diffused by preventing a warp of a light guide plate due to a bending deformation by forming a deflection correcting portion on a surface of a light guide plate.

Recently, rapid development of the semiconductor industry has led to the development of display products that have been improved in size and weight with improved performance.

A CRT (cathode ray tube) widely used in information display devices has many merits in terms of performance and cost, but has disadvantages in terms of miniaturization and portability.

On the other hand, a liquid crystal display device (hereinafter, referred to as LCD) has advantages such as miniaturization, light weight, low power consumption, and has been attracting attention as an alternative means to overcome the shortcomings of the CRT. And is installed in almost all the information processing apparatuses that require the apparatus.

Since the LCD is a non-light emitting type device unlike a CRT, in order to display an image on a liquid crystal display panel, it is required to receive the external load.

A back light assembly is a surface light source device that supplies light from the rear side of a liquid crystal display panel. The backlight assembly consumes 70% or more of the driving power used for the LCD due to the characteristics of the light modulation device.

The backlight assembly includes a light source unit for generating light and a light guide unit for converting a light source generated from the light source unit into a uniform planar light source.

The light guiding unit includes a light guiding plate for guiding light, and the light guiding plate uniformly emits light generated from the light source to all areas of the LCD panel.

1 is a cross-sectional view showing a structure of a backlight assembly used in a liquid crystal display panel.

1, a cold cathode tube or a light emitting diode is used as the light source 20 used in the backlight assembly, and the light incident through the end surface of the light guide plate 10 in the light source 20 passes through the light guide plate 10, And is emitted to the upper surface of the light guide plate 10.

The diffusion sheet 40 is provided on the upper surface of the light guide plate 10 so as to uniformize the luminance of the light reflected on the upper surface of the light guide plate 10, A prism sheet 41 is disposed.

The light emitted to the upper surface of the light guide plate 10 is supplied to an LCD panel (not shown) to serve as a surface light source of the LCD panel, for example.

On the other hand, the light guide plate is generally manufactured by a conventional light guide plate manufacturing method in which a resin is injected into a mold to process the cooled molded article.

However, in the conventional light guide plate manufacturing method, the injection molded article drawn out from the light guide plate mold is exposed to the room temperature and natural cooling starts. The surface temperature of the molded article in which cooling starts is, for example, about 45 ° C to 80 ° C.

A portion of the light guide plate may not be uniformly cooled in a process of being cooled and processed in a natural state after the injection product is injected from the mold, or a portion where the cooling rate is slow may be excessively contracted so that the shape of the light guide plate may be entirely or partially deformed, A problem of uneven bending occurs.

2 (a) and 2 (b) are views showing an example in which the light guide plate according to the related art is flexed and deformed. As shown in Fig. 2 (a), when uneven bending deformation occurs in the entire light guide plate 10, A step (d) due to a bending deformation is generated in a part of the stepped portion.

In addition, when the unevenly curved light guide plate is used in the backlight assembly, it may interfere with a local force applied to the lower portion of the LCD panel, which may cause ripple defects such as a wave pattern on the LCD screen.

Literature 1. Korea Intellectual Property Office, Patent Application No. 10-2009-0072095, "Light guide plate of backlight unit and method for manufacturing the same"

In order to solve such problems, it is an object of the present invention to provide an improved type backlight assembly improved in that light emitted from a light source is uniformly diffused by preventing a warping of a light guide plate due to a bending deformation by forming a deflection correcting portion on a surface of a light guide plate do.

According to an aspect of the present invention, there is provided an improved type backlight assembly including a light guide plate for scattering or diffusing light incident from a light source unit, a flexure plate installed on a side surface of the light guide plate to prevent warping due to flexural deformation of the light guide plate, A reflector disposed on the light guide plate to reflect the light output from the light guide plate and the light reflected from the reflector; and a reflector disposed on the light guide plate, A prism sheet for changing the light passing through the diffusion sheet in a predetermined direction by a pitch of the prism shape to increase the front luminance, and a prism sheet for guiding light passing through the prism sheet And a luminance rising sheet for reducing the loss of light.

The light guide plate according to the present invention may further include a pattern portion for scattering and diffusing light output from the light guide plate on a surface opposite to a surface on which the deflection correcting portion is formed, , A prism pattern, and an engraved pattern.

In addition, the backlight assembly according to the present invention may preferably prevent at least one of the light guide plate, the pattern unit, and the flexural fixing unit from being thermally deformed through a surface modification process by plasma treatment.

In addition, it is preferable that the deflection correcting part according to the present invention is made of any one of transparent adhesive or epoxy.

The present invention has the advantage of providing a backlight assembly improved in that light emitted from a light source is uniformly diffused by preventing a warping of a light guide plate due to a bending deformation by forming a deflection correcting portion on a surface of a light guide plate of a backlight assembly.

1 is a cross-sectional view showing a structure of a backlight assembly used in a general liquid crystal display panel;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a light guide plate.
3 is a cross-sectional view illustrating the structure of an improved backlight assembly according to the present invention.
FIG. 4 is a flowchart illustrating a process of manufacturing a light guide plate of the improved type backlight assembly according to FIG. 3;
5 is a block diagram illustrating an apparatus for manufacturing a light guide plate of an improved backlight assembly according to FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings, wherein like reference numerals refer to like elements.

It is to be understood that when an element is referred to as being "comprising" another element in the description of the invention or in the claims, it is not to be construed as being limited to only that element, And the like.

Hereinafter, an embodiment in which the light guide plate surface modification apparatus according to the present invention is implemented will be described with reference to specific embodiments.

FIG. 3 is a cross-sectional view illustrating the structure of an improved backlight assembly according to the present invention, FIG. 4 is a flowchart illustrating a process of manufacturing a light guide plate of the improved backlight assembly according to FIG. 3, FIG. 5 is a cross- Fig.

3 to 5, the modified type backlight assembly according to the present invention includes a light guide plate 100 for scattering or diffusing light incident from the light source unit 120, a flexural correction unit 110, a light source unit 120, A reflection sheet 130, a diffusion sheet 140, a prism sheet 150, and a brightness enhancement sheet 160. The reflection sheet 130 is made of a transparent material.

The light guide plate 100 is a plate-like member made of a resin such as PMMA (poly methyl methacrylate), and has a bending correction unit 110 formed on one surface thereof, (110a) may be formed.

The pattern unit 100a is formed on the opposite side of the surface on which the flexural correction unit 110 is formed to scatter and diffuse the light output from the light guide plate 100. The pattern unit 100a has a micro lens shape , A prism shape, or any other various types of patterns.

The pattern unit 100a is provided with a jet nozzle at one side and a fluid supply unit for supplying pressurized fluid such as compressed air or pressurized water to the other side. Or may be a pattern in which a plurality of intaglio angles are formed on the surface of the light guide plate 100 by spraying fine particles onto the surface of the light guide plate 100 through a blasting module (not shown).

The bending and correcting unit 110 is installed on one side of the light guide plate 100 to prevent warping of the light guide plate 100 due to the bending deformation generated in the manufacturing process of the light guide plate 100.

In addition, the bending and correcting unit 110 is formed of any one of a transparent adhesive or an epoxy resin having a predetermined viscosity, and is preferably formed of epoxy.

The light source unit 120 is installed on one side or both sides of the light guide plate 100 to output light to the light guide plate 100.

The reflection unit 130 is disposed on one side of the bending and correcting unit 110 to reflect light incident on the light guide plate 100 and to increase the reflection efficiency of light incident on the light guide plate 100.

The reflector 130 may be made of various materials capable of reflecting light, and preferably made of a nano silver coating so that the reflection efficiency can be increased.

The diffusion sheet 140 is disposed on one side of the light guide plate 100 on which the pattern unit 100a is formed to diffuse and scatter the light output from the light guide plate 100 and the light reflected by the reflection unit 130, So as to be uniformly formed.

The prism sheet 150 is installed on one side of the diffusion sheet 140 so that the light passing through the diffusion sheet 140 is changed in a certain direction by the pitch of the prism shape so that the front brightness of the light guide plate 100 is increased.

The brightness increasing sheet 160 is disposed on one side of the prism sheet 140 to reduce the loss of light passing through the prism sheet 150.

The following describes the manufacturing process of the improved backlight assembly according to the present invention.

When the light guide plate 100 made of a resin such as poly methyl methacrylate (PMMA) is injected, the projected light guide plate 100 moves to the fixing part 300 through the loading part 200 and the surface of the light guide plate 100 The light guide plate 100 is fixed to the fixing unit 300 until the flexure fixing unit 110 is formed and hardened so that the light guide plate 100 is fixed while the flexure fixing unit 110 is cured.

That is, in step S100, the light guide plate 100 is fixed while the bending correction unit 110 formed on the surface of the light guide plate 100 is cured.

In step S100, the flatness and the horizontality of the light guide plate 100, which is seated to correct the warpage of the light guide plate 100, are adjusted so that the warpage corrector 110 formed on the light guide plate 100 So that the light guide plate 100 can maintain a horizontal state.

In order to prevent the light guide plate 100 from being thermally deformed and distorted due to heat during the process of forming the bending and fixing unit 110 on the surface of the light guide plate 100, A step of controlling the temperature of the light guide plate 100 mounted on the loading unit 200 to be maintained at a predetermined temperature through the temperature adjusting unit is further provided at a lower portion of the loading unit 200 Additional can be done.

When the light guide plate 100 as the object of the deflection correction is mounted, the compression pump installed in the fixing unit 300 and the suction pressure formed in the compression pump are transmitted to the bottom surface of the light guide plate 100 through a plurality of intake tubes, A vacuum atmosphere can be formed on the bottom surface of the light guide plate 100 so that uneven bending or bending deformation generated in the manufacturing process of the light guide plate 100 is forcibly forced to a horizontal state (S200).

Meanwhile, in the present embodiment, the flatness (or plan view) of the light guide plate and the horizontal state of '0' in the horizontal state are described as examples, but the present invention is not limited thereto. A curvature of a predetermined size may be formed.

The bending correction unit 110 is formed on the light guide plate 100 by applying the bending correction solution having a predetermined thickness on the surface of the light guide plate 100 spreading uniformly or having an arbitrary curvature, .

When the bending correction solution for forming the bending correction part 110 is applied to the surface of the light guide plate 100, the bubbles such as fine bubbles are absorbed through a vacuum suction part (not shown) .

In step S300, the surface of the light guide plate 100 is subjected to first plasma treatment through a plasma processing module (not shown) before the application unit 400 applies the bending correction solution to prevent thermal deformation of the light guide plate 100 May be performed.

That is, in the plasma processing module, a process gas of a fluorine series gas for generating plasma, for example, nitrogen trifluoride (NF3) or carbon tetrafluoride (CF3) is supplied, A plasma may be generated in a space between the electrodes, and a plasma processing step may be performed to prevent heat deformation of the light guide plate 100 by plasma-treating the surface of the light guide plate 100 with the generated plasma.

In the plasma processing step, the plasma processing of the light guide plate 100 is performed at least once, and during the plasma processing, the light guide plate 100 is heated to a temperature of, for example, 25 ° C or lower So that deformation of the light guide plate 100 due to plasma heat generated during plasma processing can be prevented.

The applied bending correction solution is made of a transparent material having a predetermined viscosity and is formed of either an adhesive or an epoxy resin, and is preferably formed of epoxy, so that the overall distortion or bending of the light guide plate 100, Thereby preventing deformation or the like from occurring.

When a predetermined thickness of the bending and fixing unit 110 is formed on the surface of the light guide plate 100, the bending unit 110 is cured by outputting curing light of a certain wavelength through the curing unit 500.

That is, the curing unit 500 may include a light source including at least one of a lamp and an LED that emits light having an infrared (IR) or ultraviolet (UV) wavelength, and a laser light source that emits light by amplifying light of a certain wavelength, 110) is quickly cured.

In addition, when the light source is composed of a laser light source, laser light having a blue wavelength or an infrared wavelength may be output. Since the laser light source outputs laser light in a narrow region, The laser beam may be irradiated to the bending and correcting unit 110 while being scanned along the longitudinal direction of the light guide plate 100 so that rapid curing can be achieved.

The light guide plate 100 having completed the curing process moves to the backlight assembly process and the light source unit 120, the reflection unit 130, the diffusion sheet 130, The prism sheet 150, and the brightness increasing sheet 160 (S500).

On the other hand, the light guide plate 100 having the bending and correcting unit 110 formed thereon may be provided with a pattern portion 110a such as a microlens shape or a prism shape on the opposite side of the side where the bending and correcting unit 110 is provided.

The light guide plate 100, the pattern unit 110a, and the bending unit 110 are formed through a secondary plasma process of spraying plasma onto the light guide plate 100, the pattern unit 110a, It is possible to prevent the light guide plate 100, the pattern unit 110a and the deflection correcting unit 110 from thermally deforming due to thermal shock from the light source unit 120 or outside by modifying the surface of the correction unit 110 .

When the second plasma processing of the light guide plate 100, the pattern unit 110a and the bending and correcting unit 110 is completed, the light source unit 120, which outputs light to at least one side of the light guide plate 100, And a reflector 130 using nanosilver to reflect light is provided on one side of the bending part 110 formed on the light guide plate 100. The reflector 130 may be formed by an inkjet method, , Vapor deposition or the like.

The light emitted from the light guide plate 100 and the light reflected by the reflection unit 130 are diffused and scattered on the other side of the light guide plate 100 having the pattern unit 100a so that the overall brightness is uniformly formed. The diffusion sheet 140 is laminated on the upper surface of the diffusion sheet 140 and the light passing through the diffusion sheet 140 is changed in a constant direction by the pitch of the prismatic shape to increase the front brightness of the light guide plate 100. [ A sheet 150 is provided on the upper surface of the prism sheet 140 and a luminance rising sheet 160 is provided on the upper surface of the prism sheet 140 to reduce loss of light passing through the prism sheet 150, do.

Accordingly, it is possible to provide a backlight assembly improved in that the light emitted from the light source is uniformly diffused by preventing the deformation of the backlight assembly due to warping and thermal deformation of the light guide plate due to warpage deformation by forming a warp correction portion on the surface of the light guide plate of the backlight assembly .

The technical idea of the present invention has been described through several embodiments.

It will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described above from the description of the present invention. Further, although not explicitly shown or described, those skilled in the art can make various modifications including the technical idea of the present invention from the description of the present invention Which is still within the scope of the present invention. The above-described embodiments described with reference to the accompanying drawings are for the purpose of illustrating the present invention, and the scope of the present invention is not limited to these embodiments.

100: light guide plate
100a: pattern portion
110: warp correction resin layer
120: Light source
130:
140: diffusion sheet
150: prism sheet
160: luminance rising sheet
200: loading section
300:
400:
500: hardened part

Claims (5)

A light guide plate (100) for scattering or diffusing light incident from the light source unit (120);
A flexural correcting part 110 installed at one side of the light guide plate 100 to prevent warping due to the flexural deformation of the light guide plate 100;
A light source 120 installed at one side of the light guide plate 100 and outputting light;
A reflector 130 provided on the bending and correcting unit 110 and reflecting light incident on the light guide plate 100;
A diffusion sheet 140 for diffusing and scattering the light output from the light guide plate 100 and the light reflected by the reflection unit 130 to uniformly form the brightness;
A prism sheet 150 for changing the light passing through the diffusion sheet 140 in a predetermined direction by a pitch of a prism shape to increase a front luminance; And
And a brightness boosting sheet (160) for reducing loss of light passing through the prism sheet (150). The method according to claim 1,
The light guide plate (100) further includes a pattern portion (100a) for scattering and diffusing light output from the light guide plate (100) on a surface opposite to a surface on which the bending correction portion (110) is formed. 3. The method of claim 2,
The pattern unit 100a may be a microlens pattern, a prism pattern, or an engraved pattern. 3. The method of claim 2,
Wherein the backlight assembly prevents thermal deformation of at least one of the light guide plate (100), the pattern unit (110a), and the flexural correction unit (110) through a surface modification process by plasma treatment. The method according to claim 1,
The flexural correction unit (110) is made of any one of transparent adhesive or epoxy.

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