KR20140100106A - Transparent liquid crystal display apparatus with the same - Google Patents

Abstract

Disclosed is a transparent LCD apparatus having a reduced volume and used by being added to an existing installed interior decoration for commodity display without removal. The disclosed transparent LCD apparatus comprises a liquid crystal panel assembly having a liquid crystal panel having a pair of parallel substrates and a liquid crystal layer formed between the substrates, and a front polarizing film and a rear polarizing film each having a polarizing layer for polarizing incident rays in one direction, adhering to a front surface and a rear surface of the liquid crystal panel respectively, where the front polarizing film and the rear polarizing film adhere at a predetermined polarizing angle to allow the incident light to the rear surface of the liquid crystal panel to pass through the liquid crystal panel and to be released to the front surface of the liquid crystal panel when an electric signal is applied to the liquid crystal layer; and a transparent backlight unit projecting the rays from the rear side to the front side of the liquid crystal panel assembly and having a transparent light guide plate arranged to face the rear surface of the liquid crystal panel assembly and a light source arranged around the light guide plate for projecting the rays to the side of the light guide plate, wherein a display target is arranged at the rear side of the transparent backlight unit.

Description

Transparent liquid crystal display apparatus with the same

The present invention relates to a transparent LCD device for actually displaying goods and displaying images or characters associated with the goods.

The LCD device includes a liquid crystal panel, a pair of polarizing films attached to front and back surfaces of the liquid crystal panel, and a back light unit ). Unlike a display device such as a PDP or an AMOLED, an LCD device uses a backlight unit instead of a pixel itself, and further filters a light emitted from the backlight unit using a polarizing film to provide visibility a technique for improving luminance, reducing reflectance, and enlarging a viewing angle has been actively developed.

On the other hand, a transparent LCD device that maximizes a product display effect by actually displaying a product and displaying images or characters associated with the product on a liquid crystal panel is disclosed. A conventional conventional transparent LCD device has a structure in which a liquid crystal panel and a backlight unit are spaced apart and a product to be displayed is interposed therebetween. Therefore, the light intensity transmitted through the liquid crystal panel is weak, so that the visibility of images and characters displayed on the liquid crystal panel is low. In addition, since the transparent LCD device itself has a large volume, an existing interior for displaying commodities is removed, and a transparent LCD device is newly installed, resulting in a high cost burden.

The present invention provides a transparent LCD device in which the visibility of images, characters, and the like related to an exhibition product and an exhibition product is improved.

The present invention also provides a transparent LCD device in which the volume of the transparent LCD device itself is reduced, and the existing interior of the product display is not removed but can be used additionally.

The present invention relates to a liquid crystal display device comprising a pair of parallel substrates, a liquid crystal panel having a liquid crystal layer formed therebetween, and a polarizing layer for polarizing the incident light in one direction, And a front polarizing plate attached to the front surface of the liquid crystal panel at a predetermined polarization angle so that light incident on the back surface of the liquid crystal panel when the electrical signal is applied to the liquid crystal layer passes through the liquid crystal panel, A transparent light guide plate disposed to face the rear surface of the liquid crystal panel assembly and projecting light forward from a rear side of the liquid crystal panel assembly; And a light source (light source) disposed around the light guide plate and projecting light to the side surface of the light guide plate, wherein the transparent backlight unit Provides a transparent LCD device that is configured to display the object is disposed in the rear (後方).

The light source may include a plurality of light emitting diodes (LEDs).

The transparent LCD device may be attached to a transparent board that can see the object but can not touch the object.

The transparent LCD device of the present invention may further comprise an illumination means for illuminating the display object.

A front surface pattern of concavo-convex shape is formed on the front surface of the light guide plate to guide light emitted from the light source into the light guide plate through the front surface of the light guide plate .

No prism sheet, diffusion sheet, or reflective sheet may be attached to the light guide plate.

The transparent LCD device according to the present invention has a structure in which a transparent backlight unit close to the back surface of a liquid crystal panel is provided and a product is displayed on the rear side of the transparent backlight unit to display images, Visibility is improved.

In addition, since the apparatus itself does not need to have a space for displaying commodities, the volume of the transparent LCD apparatus is reduced, and the cost for the existing commodity display interior can be reduced.

FIG. 1 is a configuration diagram showing an installation example of a transparent LCD device according to an embodiment of the present invention.
2 is a cross-sectional view of the liquid crystal panel assembly of FIG.
FIG. 3 is a cross-sectional view showing the front polarizing film of FIG. 2. FIG.
4 is a cross-sectional view showing the rear polarizing film of Fig.
5 is a cross-sectional view showing the light guide plate of FIG.

Hereinafter, a transparent LCD device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The terminology used herein is a term used to properly express the preferred embodiment of the present invention, which may vary depending on the intention of the user or operator or the custom in the field to which the present invention belongs. Therefore, the definitions of these terms should be based on the contents throughout this specification.

FIG. 1 is a configuration diagram illustrating a mounting example of a transparent LCD device according to an embodiment of the present invention, and FIG. 2 is a sectional view of the liquid crystal panel assembly of FIG. 1 and 2, the transparent LCD device 10 according to the embodiment of the present invention can display various kinds of goods such as a smart phone, a tablet PC, a headphone, a book, It is used on the front to effectively display merchandise. The transparent LCD device 10 has a liquid crystal panel assembly 30 and a transparent backlight unit 15.

The liquid crystal panel assembly 30 includes a liquid crystal panel 31, a front polarizing film 40, and a back polarizing film 50. The liquid crystal panel 31 has a pair of front and rear substrates 35 and 36 which are parallel and transparent to each other and a liquid crystal layer 33 formed therebetween. An electrode (not shown) for applying an electric signal in units of pixels is formed on the front substrate 35. When an electric signal is applied to a specific pixel through the electrode, the twist of the liquid crystal twisted according to the liquid crystal type is released or the liquid crystal is twisted in the opposite direction.

The front polarizing film 40 and the back polarizing film 50 are attached to the front surface and the back surface of the liquid crystal panel 31, respectively. 2 and 3, the front polarizing film 40 includes an adhesive layer 41, a support layer 41 formed on the front surface of the adhesive layer 41, An antireflection layer 44 formed on the entire surface of the polarizing layer 43; a protective layer 42 formed on the entire surface of the antireflection layer 44; (45).

The adhesive layer 41 may be formed by coating a pressure sensitive adhesive (PSA) on the entire surface of the front substrate 35 as a layer for adhering the front polarizing film 40. The support layer 42 may be, for example, a synthetic resin film such as a triacetyl cellulose (TAC) film. The support layer 42 may have been subjected to wide view processing. The polarizing layer 43 polarizes the incident light in one direction. Here, the meaning of polarizing light in one direction means that only one specific directional polarized light is allowed to pass through the incident light, and the polarized light in the other direction is absorbed or reflected. The polarizing layer 43 may be, for example, a synthetic resin film such as a PVA (polyvinyl alcohol) film.

The antireflection layer 44 suppresses the reflection of light incident on the front surface of the liquid crystal panel 31. The antireflection layer 44 may be formed by applying a synthetic resin film such as a triacetyl cellulose (TAC) film to an anti-reflection (AR) coating, an anti-glare coating or an LR (low reflection) coating. The protective layer 45 may be, for example, a synthetic resin film such as a PET (polyethylene terephthalate) film. The AR coating, AG coating, or LR coating may also be applied to the protective layer 45 to improve the antireflection performance.

2 and 4, the back polarizing film 50 includes an adhesive layer 51 and a support layer 51 laminated on the back surface of the adhesive layer 51. The support layer 51 is formed on the rear surface of the adhesive layer 51, A polarizing layer 53 laminated on the back surface of the supporting layer 52 and a protective layer 54 laminated on the back surface of the polarizing layer 53. The protective layer 54 is formed on the rear surface of the supporting layer 52,

The adhesive layer 51 may be formed by coating a pressure sensitive adhesive (PSA) as a layer for bonding the back polarizing film 50 to the back surface of the rear substrate 36. The support layer 52 may be, for example, a synthetic resin film such as a triacetyl cellulose (TAC) film. The polarizing layer 53 polarizes the incident light in one direction. Here, the meaning of polarizing light in one direction means that only one specific directional polarized light is allowed to pass through the incident light, and the polarized light in the other direction is absorbed or reflected. The polarizing layer 53 may be, for example, a synthetic resin film such as a PVA (polyvinyl alcohol) film. The protective layer 54 may be, for example, a synthetic resin film such as a PET (polyethylene terephthalate) film.

The back polarizing film 50 does not have an antireflection layer for suppressing reflection, such as that the front polarizing film 40 has. The AR coating, the AG coating, and the LR coating for forming the antireflective layer can have a side effect of lowering the light transmittance, and as a result, they are emitted from the transparent backlight unit 15 (see FIG. 1) 20 may be degraded. The deterioration of the light transmission performance of the liquid crystal panel assembly 30 adversely affects the brightness and clear image quality of the transparent LCD device 10 (see FIG. 1), so that the back polarizing film 50 is not provided with the antireflection layer.

The front polarizing film 40 and the back polarizing film 50 are emitted from the transparent backlight unit 15 (see FIG. 1) when an electric signal is applied to the liquid crystal layer 33 of the liquid crystal panel 31, The light incident on the back surface of the panel 31 passes through the liquid crystal panel 31 and is attached at a predetermined angle of polarization so as to be output to the front surface of the liquid crystal panel 31. [ In other words, the front polarized light 40 and the rear polarized light 50 are polarized on the front and back surfaces of the liquid crystal panel 31 such that the polarization angle of the front polarizing film 40 and the back polarizing film 50 are 90 ° different from each other according to the liquid crystal type of the liquid crystal layer 33 The front polarizing film 40 and the back polarizing film 50 can be attached such that the film 40 and the back polarizing film 50 are attached or the polarizing angle is 0 ° difference,

For example, in a twisted nematic (TN) type liquid crystal, when the liquid crystal array is twisted by 90 ° in a default state in which no electric signal is applied to the electrodes, and when an electric signal is applied, the twisting angle is 0 ° Untied. Therefore, in order to make the screen bright when the electric signal is applied, the front polarizing film 40 and the rear polarizing film 50 are aligned so that the two films have the same polarizing angles, that is, Respectively. On the other hand, when the STN (super twisted nematic) type liquid crystal is in a default state in which no electric signal is applied to the electrodes, the liquid crystal array is twisted by 180 ° and when the electric signal is applied, the twist angle is slightly loosened to 90 °. The front polarizing film 40 and the rear polarizing film 50 are arranged such that the polarizing angles of the two films 40 and 50 are shifted by 90 ° so as to illuminate the screen at the time of applying the electric signal, Respectively.

1, the transparent backlight unit 15 projects light forward from the rear of the liquid crystal panel assembly 30 and includes a transparent light guide plate 20 and a light source 16 Respectively. The light guide plate 20 is arranged to face the back face of the liquid crystal panel assembly 30 and the light source 16 is disposed around the light guide plate 20 to project light to the side face of the light guide plate 20. The light source 16 may include a plurality of LEDs (light emitting diodes) arranged at equal intervals along the outer periphery of the light guide plate 20. LEDs are long-life, bright, and have low energy consumption, making them suitable as light sources. The liquid crystal panel assembly 30 and the transparent backlight unit 15 are combined so that they are overlapped with each other while the screen is exposed by the bezel 11. [

For example, the display object 3 such as a smart phone, a tablet PC, a bag, a book, and the like is disposed behind the transparent backlight unit 15. Specifically, the display object 3 is disposed inside the exhibition space 1, and the exhibition space 1 is isolated by a transparent board 5. The transparent board 5 prevents the damage of the display object 3 caused by careless or deliberate contact of the viewer and the viewer can see the display object 3 in front of the transparent board 5. In addition, lighting means 8 for illuminating the object to be displayed 3 may be provided in the exhibition space 1. As the lighting means 8, various types of lamps such as incandescent lamps, fluorescent lamps, and LEDs are applicable.

The installation is completed by attaching the transparent LCD device 10 to the transparent board 5 without removing the facility already provided for the display of the display object 3. [ For example, the bezel 11 can be attached to the transparent board 5 using a double-faced adhesive tape (not shown). When the transparent LCD device 10 attached to the transparent board 5 is turned on, the light source 16 emits light and an electric signal is input to the liquid crystal panel 31. The light from the light source 16 flows into the light guide plate 20 and is emitted to the back surface and the front surface of the light guide plate 20. The light emitted to the front surface of the light guide plate 20 passes through the liquid crystal panel 31 so that an image or character corresponding to the electrical signal is displayed on the front surface of the liquid crystal panel assembly 30. [

5 is a cross-sectional view showing the light guide plate of FIG. 1 and 5, light incident from the light source 16 into the light guide plate 20 is incident on the front surface of the light guide plate 20 from the front surface of the light guide plate 20, A front surface pattern 22 of a concavo-convex shape for guiding more outgoing light through the front surface is formed. The front surface pattern 22 may be formed by etching using a laser so that the concavo-convex shape appears alternately, or may be formed by a transfer printing method.

On the other hand, a prism sheet, a diffusion sheet, and a reflective sheet are attached to a light guide plate of a general LCD device. The prism sheet is usually attached to the front surface of the light guide plate and functions to collect the light emitted to the front surface of the light guide plate at a specific angle. The diffusion sheet is usually attached to the front surface of the light guide plate and functions to diffuse the light emitted to the front surface of the light guide plate. The reflective sheet is usually attached to the back surface of the light guide plate and reflects light directed toward the back surface of the light guide plate toward the front surface.

If the prism sheet and the diffusion sheet are attached to the light guide plate 20 of the transparent LCD device 10 of Fig. 1, the light path of the light transmitted through the light guide plate 20 is changed, The shape of the object 3 to be displayed can be distorted. When the reflective sheet is attached to the light guide plate 20 of the transparent LCD device 10 shown in Fig. 1, the shape of the object 3 to be displayed due to the opaque reflective sheet is transmitted through the front surface of the liquid crystal panel assembly 30 I can not see. Therefore, none of the prism sheet, the diffusion sheet, and the reflection sheet is attached to the light guide plate 20. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

3: Display object 10: transparent LCD device
15: transparent backlight unit 16: light source
20: light guide plate 22: front pattern
30: liquid crystal panel assembly 31: liquid crystal panel
40: front polarizing film 50: rear polarizing film

Claims (6)

A liquid crystal display device comprising: a liquid crystal panel having a pair of parallel substrates; a liquid crystal panel having a liquid crystal layer formed therebetween; and a polarizing layer for polarizing the incident light in one direction, the liquid crystal panel having a front surface and a back surface A front polarizing film and a back polarizing film attached at predetermined polarization angles so that light incident on the back surface of the liquid crystal panel when the electric signal is applied to the liquid crystal layer passes through the liquid crystal panel and is emitted to the front surface of the liquid crystal panel, A liquid crystal panel assembly having a film; And
A transparent light guide plate disposed to face the rear surface of the liquid crystal panel assembly by projecting light forward from a rear side of the liquid crystal panel assembly; and a light guide plate disposed around the light guide plate, And a light source (light source) for projecting light,
And the display object is disposed behind (behind) the transparent backlight unit. The method according to claim 1,
Wherein the light source comprises a plurality of light emitting diodes (LEDs). The method according to claim 1,
Wherein the transparent LCD device is attached to a transparent board that can view the object but can not contact the object. The method according to claim 1,
Further comprising illumination means for illuminating the object to be displayed. The method according to claim 1,
A front surface pattern of concavo-convex shape is formed on the front surface of the light guide plate to guide light emitted from the light source into the light guide plate through the front surface of the light guide plate Characterized by a transparent LCD device. The method according to claim 1,
Wherein none of a prism sheet, a diffusion sheet, and a reflection sheet is attached to the light guide plate.

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