KR101366389B1 - Optical Film, Composite Light Guide Plate, and Backlight Unit Having the Composite Light Guide Plate - Google Patents

Abstract

The present invention is a base film; An optical pattern layer formed on or in close contact with the upper surface of the base film; A transfer film attached to an upper surface of the optical pattern layer; And an adhesive layer formed in a space between an interface of the base film, the optical pattern layer, and the transfer film to structurally couple the base film, the optical pattern layer, and the transfer film to each other. The layer provides a backlight unit including an optical film, a composite light guide plate, and the composite light guide plate, wherein the upper portion has a planar shape and a lower portion protrudes in the direction of the base film.

Description

Optical film, composite light guide plate, and backlight unit having the composite light guide plate}

The present invention relates to an optical film, a composite light guide plate and a backlight unit including the composite light guide plate, and more particularly, can be used as a component for a large display, and include an optical film, a composite light guide plate having excellent process efficiency, and the composite light guide plate. It relates to a backlight unit.

A display is an image display device that implements a variety of information on a screen so that humans can see it, and is composed of various optical components assembled. Among the optical components, a backlight unit (BLU) is a light source device that emits light from the back of the display element, and is mainly composed of optical components such as a light source, a light guide plate, a reflective film, a diffusion film, and a prism sheet.

In particular, optical film parts such as reflective film, diffuser film, and prism sheet are important parts that determine the quality of backlight unit. Recently, brightness enhancement, hot spot removal, enlargement, thickness reduction, defect rate reduction and process speed improvement Various researches have been conducted to improve the problems associated with such problems.

As a part of this research, the present inventor has proposed a flat panel display device and a method of manufacturing the same in Korean Patent No. 10-0979422 "Flat display device and its manufacturing method" that can prevent light loss on the surface of the substrate. The registered patent forms a microlens on one surface of the release film, adheres the adhesive-coated base film to a surface on which the microlens of the release film is formed, and then separates the release film, A flat panel display device manufactured by a method of attaching a surface on which a microlens is formed to one surface of a substrate of a flat panel display device and a manufacturing method thereof are described in detail.

The registered patent discloses a method for manufacturing and attaching a pattern film including a micro lens, but there is an advantage of a method of manufacturing a pattern film that can be usefully used in various display products, but polyethylene terephthalate (PolyEthylene Terephthalate: PET) When used in a base film such as a film or a reflective film, no specific aspects and effects have been proposed.

In addition, the related art, Korean Utility Model Registration No. 20-0453058 "reflective sheet with a light guidance pattern" is installed on the back of the light guide plate to reflect the light generated from the light source of the backlight unit to the surface of the light guide plate. A reflective sheet comprising a light guide pattern formed on a surface of the reflective sheet by a printing method and a light guide pattern comprising a release paper attached to a surface of the reflective sheet on which the light guide pattern is formed. .

However, the prior art according to the registration utility model to form a light induction pattern by sequentially forming an ink layer and an adhesive layer on one surface of the reflecting plate, or a mixture layer of ink and adhesive, and the upper portion of the light induction pattern The reflective sheet is characterized by adhering the release paper to the surface, it is impossible to form the light induction pattern in the form of a micro lens, there is a problem that the adhesion is weak when attached to the light guide plate, and the optical properties are not excellent.

In order to solve the problems of the prior art, the present inventors have excellent pattern precision, reflectivity, brightness, and uniformity, and can minimize product defects that occur when a plurality of films are laminated, suppress the warpage of the light guide plate during processing, and manufacture costs. It is possible to reduce the cost and to develop an optical film having excellent process efficiency, a composite light guide plate and a backlight unit including the composite light guide plate.

An object of the present invention is to provide an optical film, a composite light guide plate having excellent pattern precision, reflectivity, brightness and uniformity, and a backlight unit including the composite light guide plate.

Another object of the present invention is to provide an optical film, a composite light guide plate, and a backlight unit including the composite light guide plate capable of minimizing product defects occurring when laminating a plurality of films.

Still another object of the present invention is to provide a backlight unit including an optical film, a composite light guide plate, and the composite light guide plate having excellent process efficiency since it is possible to suppress the warpage of the light guide plate during processing and reduce manufacturing cost.

The above and other objects of the present invention can be achieved by the present invention described below.

An optical film according to the present invention, the base film; An optical pattern layer formed on or in close contact with the upper surface of the base film; A transfer film attached to an upper surface of the optical pattern layer; And an adhesive layer filled and formed in a space between an interface of the base film, the optical pattern layer, and the transfer film to structurally couple the base film, the optical pattern layer, and the transfer film. The upper portion is planar, and the lower portion is characterized in that it has a shape protruding in the direction of the base film.

Here, the optical film further comprises an air layer in the space between the interface between the optical pattern layer and the adhesive layer.

The base film is characterized in that the polyethylene terephthalate (PET) film or a reflective film.

The optical pattern layer is characterized by consisting of a hemispherical, semi-elliptic, pyramidal or polygonal shape.

In addition, the composite light guide plate according to the present invention, the base film; A plurality of optical pattern layers formed in close contact or spaced apart from an upper surface of the base film; A light guide plate attached to an upper surface of the optical pattern layer; And an adhesive layer formed in a space between an interface of the base film, the optical pattern layer, and the light guide plate to structurally couple the base film, the optical pattern layer, and the light guide plate. The plurality of optical pattern layers include: The upper portion is a planar shape, the lower portion is characterized in that it has a shape protruding in the direction of the base film.

Here, the composite light guide plate further comprises an air layer in the space between the interface between the optical pattern layer and the adhesive layer.

The base film is characterized in that the polyethylene terephthalate (PET) film or a reflective film.

The optical pattern layer is characterized by consisting of a hemispherical, semi-elliptic, pyramidal or polygonal shape.

The light guide plate may be a flat type, a wedge type, or a pattern type light guide plate having an embossed or intaglio pattern formed on a back surface of the surface to which the adhesive layer and the optical pattern layer are bonded.

In addition, the backlight unit according to the present invention, the base film; A plurality of optical pattern layers formed in close contact or spaced apart from an upper surface of the base film; A light guide plate attached to an upper surface of the optical pattern layer; And an adhesive layer formed in a space between an interface of the base film, the optical pattern layer, and the light guide plate to structurally couple the base film, the optical pattern layer, and the light guide plate. The plurality of optical pattern layers include: A composite light guide plate having an upper surface in a planar shape and a lower portion protruding in a direction of the base film; A diffusion sheet stacked on an upper surface of the composite light guide plate; And a light source.

Here, the composite light guide plate further comprises an air layer in the space between the interface between the optical pattern layer and the adhesive layer.

The base film is characterized in that the polyethylene terephthalate (PET) film or a reflective film.

The optical pattern layer is characterized by consisting of a hemispherical, semi-elliptic, pyramidal or polygonal shape.

The light guide plate may be a flat type, a wedge type, or a pattern type light guide plate having an embossed or intaglio pattern formed on a back surface of the surface to which the adhesive layer and the optical pattern layer are bonded.

The backlight unit may further include at least one prism sheet stacked on an upper surface of the diffusion sheet.

The present invention is excellent in pattern precision, reflectivity, brightness and uniformity, it is possible to minimize product defects generated when a plurality of films are laminated, and to suppress the warpage of the light guide plate during processing and to reduce the manufacturing cost is excellent in process efficiency The invention provides an optical film, a composite light guide plate, and a backlight unit including the composite light guide plate.

1 is a cross-sectional view schematically showing the appearance of an optical film according to an embodiment of the present invention.
2 is a cross-sectional view schematically showing the appearance of an optical film including an air layer according to an embodiment of the present invention.
3 is a schematic cross-sectional view of a composite light guide plate according to an exemplary embodiment of the present invention.
4 is a schematic cross-sectional view of a backlight unit including a composite light guide plate according to an exemplary embodiment of the present invention.
5 is a schematic cross-sectional view of a display product including a backlight unit according to an exemplary embodiment of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, an optical film, a composite light guide plate, and a backlight unit including the composite light guide plate according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view schematically showing the appearance of an optical film according to an embodiment of the present invention.

As shown in FIG. 1, an optical film according to an embodiment of the present invention includes a base film 10, an adhesive layer 20, an optical pattern layer 30, and a transfer film 40.

The base film 10 is a film formed on the lowermost layer of the backlight unit, and preferably composed of a polyethylene terephthalate (PET) film or a reflective film. The optical pattern layer 30 is formed in close contact with or spaced apart from the upper surface of the base film 10, the upper portion is made of a planar shape, the lower portion has a shape protruding in the direction of the base film 10.

In addition, the optical pattern layer 30 preferably has a shape of an ordinary light narrowing, that is, a shape of hemispherical, semi-elliptic, pyramidal or polygonal pyramid. The reason for this is that, for example, when light is incident from the side light source in the direction of the optical film and passes through a pattern having a rectangular planar shape or a pattern having an image of sub-null light, the internal total reflectance of the light decreases, and the pattern and the upper film This is because the light loss at the contact surface with the glass increases, which lowers the overall brightness and uniformity characteristics of the display.

Transfer film 40 is a film attached to the upper surface of the optical pattern layer 30, there is no particular limitation on the material, it is preferable to use a plastic material film excellent in separation characteristics with the optical pattern layer 30. Do.

The adhesive layer 30 is a material used to structurally couple the base film 10, the optical pattern layer 20, and the transfer film 40 to each other, and the base film 10, the optical pattern layer 20, and It is characterized in that the filling is formed in the space between the interface of the transfer film (40). Accordingly, the adhesive layer 30 may include the optical pattern layer 30 and the transfer film 40 on the top surface of the adhesive layer 30 in a liquid, gel or partial surface curing state on the top surface of the base film 10. It is preferable to press and manufacture, after laminating | stacking.

2 is a cross-sectional view schematically showing the appearance of an optical film including an air layer according to an embodiment of the present invention.

As shown in FIG. 2, the optical film including the air layer according to the embodiment of the present invention includes a base film 10, an adhesive layer 20, an optical pattern layer 30, an air layer 31, and a transfer film 40. It is configured to include). The base film 10, the adhesive layer 20, the optical pattern layer 30, and the transfer film 40 may be configured according to the above description.

Here, the adhesive layer 20 is a difference in the adhesive force with the optical pattern layer 30 according to the degree of curing of the adhesive material of the previous step for forming the adhesive layer 20. For example, when the liquid adhesive material is used, the liquid adhesive material is cured in the form of liquid, gel and solid phase depending on the degree of curing. At this time, when the liquid adhesive material is pressed with the optical pattern layer 30 under a specific gel-like condition, the bottom of the optical pattern layer 30 adheres to the adhesive layer 20, but the upper portion of the optical pattern layer 30 The more pores are generated. That is, in this case, the air layer 31 is formed between the adhesive layer 20 and the optical pattern layer 30.

3 is a schematic cross-sectional view of a composite light guide plate according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the composite light guide plate according to the exemplary embodiment includes a base film 10, an adhesive layer 20, an optical pattern layer 30, and a light guide plate 50.

The base film 10, the adhesive layer 20, and the optical pattern layer 30 are configured according to the above descriptions, and the light guide plate 50 is formed of the adhesive layer 20 and the optical pattern layer of the transfer film 40 of FIG. 1. After separating from the 30, the light guide plate 50 is laminated in the position where the transfer film 40 existed and then attached in such a manner as to be compressed.

The light guide plate 50 is a flat type, a wedge type, or a pattern type having an embossed or intaglio pattern formed on the back side of the surface to which the adhesive layer 20 and the optical pattern layer 30 are bonded. It may be configured as (Pattern type). In addition, the composite LGP of FIG. 3 may be manufactured in a structure including the air layer 31 of FIG. 2.

4 is a cross-sectional view schematically illustrating a backlight unit including a composite light guide plate according to an embodiment of the present invention, and FIG. 5 is a schematic view of a display product including a backlight unit according to an embodiment of the present invention. It is sectional drawing shown.

As shown in Figure 4, the composite light guide plate according to an embodiment of the present invention is composed of a base film 10, the adhesive layer 20, the optical pattern layer 30 and the light guide plate 50, one of the present invention The backlight unit including the composite light guide plate according to the exemplary embodiment is configured by stacking the diffusion sheet 60 on the top surface of the composite light guide plate and laminating the prism sheet 70 on the top surface of the diffusion sheet 60. Here, the configuration and function of the composite light guide plate is as described above, the prism sheet 70 may be composed of one or two or more prism sheets, depending on the aspect of use.

5 is a schematic cross-sectional view of a display product including a backlight unit according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the display product including the backlight unit according to the present invention may be manufactured as a display product by laminating the LCD panel 80 on the upper surface of the above-described backlight unit. Display products manufactured in this way have the advantage of precise patterns and excellent reflectivity, brightness and uniformity.

Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: base film 20: adhesive layer
30: optical pattern layer 31: air layer
40: transfer film 50: light guide plate
60: diffusion sheet 70: prism sheet
80: LCD panel

Claims (17)

A base film;
An optical pattern layer formed to be in close contact or spaced apart from an upper surface of the base film, the upper part having a planar shape, and the lower part protruding in a direction of the base film;
A transfer film attached to an upper surface of the optical pattern layer;
An adhesive layer formed by filling in a space between an interface of the base film, the optical pattern layer and the transfer film to structurally couple the base film, the optical pattern layer and the transfer film; And
An air layer formed in a space between an interface of the optical pattern layer and the adhesive layer;
Optical film comprising a. delete The optical film according to claim 1, wherein the base film is a polyethylene terephthalate (PET) film or a reflective film. The optical film of claim 1, wherein the optical pattern layer has a hemispherical shape, a semi-elliptic shape, a pyramid shape, or a polygonal shape. A base film;
A plurality of optical pattern layers formed in close contact with or spaced from an upper surface of the base film, the upper part having a planar shape, and the lower part protruding in a direction of the base film;
A light guide plate attached to upper surfaces of the plurality of optical pattern layers;
An adhesive layer filled and filled in a space between interfaces of the base film, the plurality of optical pattern layers and the light guide plate to structurally couple the base film, the plurality of optical pattern layers and the light guide plate; And
An air layer formed in a space between an interface between the plurality of optical pattern layers and an adhesive layer;
Composite light guide plate comprising a. delete The composite light guide plate of claim 5, wherein the base film is a polyethylene terephthalate (PET) film or a reflective film. The composite light guide plate of claim 5, wherein the plurality of optical pattern layers have a hemispherical shape, a semi-elliptic shape, a pyramid shape, or a polygonal shape. The composite light guide plate according to claim 5, wherein the light guide plate is a flat, wedge-shaped, or patterned light guide plate having an embossed or intaglio pattern formed on a rear surface of the surface to which the adhesive layer and the optical pattern layer are bonded. A base film; A plurality of optical pattern layers formed in close contact with or spaced from an upper surface of the base film, the upper part having a planar shape, and the lower part protruding in a direction of the base film; A light guide plate attached to upper surfaces of the plurality of optical pattern layers; An adhesive layer filled and filled in a space between interfaces of the base film, the plurality of optical pattern layers, and the light guide plate to structurally couple the base film, the plurality of optical pattern layers and the light guide plate; And an air layer formed in a space between an interface between the plurality of optical pattern layers and an adhesive layer.
A diffusion sheet stacked on an upper surface of the composite light guide plate; And
Light source;
Backlight unit comprising a. delete The backlight unit of claim 10, wherein the base film is a polyethylene terephthalate (PET) film or a reflective film. The backlight unit of claim 10, wherein the plurality of optical pattern layers have a hemispherical shape, a semi-elliptic shape, a pyramid shape, or a polygonal shape. The backlight unit of claim 10, wherein the light guide plate is a flat type, a wedge type, or a pattern type light guide plate having an embossed or intaglio pattern formed on a rear surface of the surface to which the adhesive layer and the optical pattern layer are bonded. The backlight unit of claim 10, wherein the backlight unit further comprises at least one prism sheet stacked on an upper surface of the diffusion sheet. The backlight unit of claim 13, wherein the backlight unit further comprises at least one prism sheet stacked on an upper surface of the diffusion sheet. The backlight unit of claim 14, wherein the backlight unit further comprises at least one prism sheet stacked on an upper surface of the diffusion sheet.

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