KR101246787B1 - Viewing angle conversion mode LCD - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, wherein both the display device and the viewing angle switching cell are composed of a liquid crystal display device. A plastic or thin glass substrate is used as the substrate of the display device and the viewing angle switching cell.

In addition, the viewing angle conversion cell and the display device is characterized in that for attaching using a curable adhesive including a spacer.

In this way, the viewing angle switching mode liquid crystal display device can be made thinner and lighter, and the viewing angle switching cell can be firmly fixed to the display device, thereby achieving an optimal viewing angle switching mode.

Description

Viewing angle conversion mode LCD

1 is a view angle switching mode liquid crystal display device according to the related art.

2 is a cross-sectional view schematically showing the configuration of a viewing angle switching mode liquid crystal display device according to the present invention;

FIG. 3 schematically illustrates a P-type stereoscopic image display device using a parallax barrier. FIG.

4 is a schematic view of a three-dimensional stereoscopic image display device using a lenticular lens.

5 is a schematic cross-sectional view of a dual image display device;

6 is a cross-sectional view schematically illustrating a touch pad display device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

100: viewing angle switching mode liquid crystal display device.

102: light distribution device 104: first polarizing plate

106: display element 108: second polarizing plate

110: viewing angle switching cell 112: third polarizing plate

114a and 114b: first and second substrates of display elements

116a and 116b: first and second substrates of the viewing angle switching cell

120: hardener layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a viewing angle switching mode liquid crystal display device in which a substrate is made of plastic or thin glass material.

In general, a liquid crystal display device is a thin film type non-light emitting display device which displays an image by using an electro-optical change of a liquid crystal having dielectric anisotropy.

Since the liquid crystal has a long structure, it has a directionality in the arrangement of molecules, and the direction of the molecular arrangement can be controlled by artificially applying an electric field to the liquid crystal.

In addition, liquid crystals may be classified according to their arrangement, and in particular, twisted nematic LCs (TN LCs) arranged in a twisted form in the longitudinal direction of 90 ^° may further contain more information. Super twisted nematic LC (STN LC).

However, the liquid crystal panel using the TN or STN type liquid crystal described above has a disadvantage that the viewing angle range for observing a normal image is very narrow.

Accordingly, in order to view an image in a wider viewing angle range, a transverse electric field type liquid crystal display device or a liquid crystal display device of a multi-domain vertical alignment mode has been proposed.

Recently, since the above-described thin film display device is used not only in a private space but also frequently in a public place, the necessity of a narrow viewing angle mode has emerged as necessary for the protection of personal privacy.

Therefore, a function of interchanging the viewing angle from the wide viewing angle to the narrow viewing angle mode has been proposed for this purpose, and a configuration of adding a viewing angle switching cell as one of the devices for performing such a function has been proposed.

1 is a cross-sectional view schematically illustrating a configuration of a viewing angle switching mode liquid crystal display device according to the related art.

As illustrated, the conventional viewing angle switching mode liquid crystal display 10 includes a first liquid crystal panel 22, which is a display element, and a second liquid crystal panel 28, which is a viewing angle switching cell for switching the viewing angle.

In this case, the polarizing plate 30 is configured between the display element 22 and the viewing angle switching cell 28, and although not illustrated, the polarizing plate is also disposed on the upper portion of the viewing angle switching cell 28 and the lower portion of the display element 22. It is composed.

In addition, a light distribution device 32 is formed under the display element 28.

In view of the above-described configuration, the display element 28 is basically designed to implement a wide viewing angle, and the viewing angle switching cell 28 is a switching means for converting such a wide viewing angle to a narrow viewing angle.

Therefore, the wide viewing angle and the narrow viewing angle can be switched according to the on / off operation of the viewing angle switching cell 28.

The viewing angle conversion cell 28 and the display element 22 use transparent glass substrates as the first and second substrates 34a, 34b, 36a, and 36b. Fix it by attaching the front or periphery.

In this case, the thickness of the glass substrate is generally about 0.7 mm, and the weight is about 273 g.

On the other hand, the viewing angle switching cell 28 is designed by applying the ECB mode, at this time, the rubbing direction of the viewing angle switching cell 28 (direction in which the long axis of the liquid crystal is arranged) and the upper and lower parts of the viewing angle switching cell 28. To match the absorption axis (not shown) of the polarizing plate (not shown) located in.

In this case, a phenomenon in which transmittance is lowered from the side of the center due to the angle between the long axis of the liquid crystal and the absorption axis of the polarizing plate occurs due to the characteristics of the ECB mode, and thus, a narrow viewing angle mode in which the viewing angle is narrowed can be realized. do.

However, as described above, the viewing angle switching mode display device 10 further includes a separate viewing angle switching cell 29 in addition to the display element 22, and thus, is difficult to be compact due to its thickness limitation. There are disadvantages.

In addition, when fixing the viewing angle conversion cell 28 and the display element 22, when the adhesive is attached to only a part of the periphery, the transmittance decreases due to refraction due to internal air that is insecure due to an unstable fixing state. There is a problem in that, even when the front is attached to the defoaming (脫 泡) is not properly air can remain, there is a problem that it is difficult to obtain a stable image because the thickness control between the two panels is not easy.

The present invention has been proposed to solve the above-described problems, and by using the substrate constituting the viewing angle switching cell and the display device as a plastic or thin glass substrate (etched substrate), the viewing angle switching mode liquid crystal display device can be more compactly manufactured. A first object of the present invention is to provide a uniform image due to a constant thickness and a stable fixed state by attaching the viewing angle conversion cell and the display device to the front using a curing agent mixed with a spacer. It is done.

According to an aspect of the present invention, there is provided a viewing angle switching mode liquid crystal display device including: a display device for implementing a wide viewing angle; A viewing angle switching cell configured on the display element and composed of first and second substrates made of plastic, and switching between wide viewing angles and narrow viewing angles; And a curing agent layer in which the viewing angle conversion cell and the display element are attached to the front surface, and the spacers are evenly mixed.

The display device implementing the wide viewing angle may be a transverse electric field mode liquid crystal panel, and the viewing angle switching cell may be an ECB mode liquid crystal panel.

The thicknesses of the first and second substrates of the viewing angle conversion cell may be 0.3 mm to 0.4 mm.

The first and second substrates of the viewing angle conversion cell are characterized in that the glass substrate is thinned by etching the surface of the general glass substrate.

The first and second substrates have a thickness of 0.45 mm to 0.5 mm.

The first and second substrates of the display device may be made of plastic or a thin glass substrate.

The curing agent may be an ultraviolet curing agent that is cured by ultraviolet rays, or a thermal curing agent that is cured by heat, or an ultraviolet ray and heat curing agent that is cured by ultraviolet rays and heat.

A display device according to an aspect of the present invention includes a display element; A functional cell formed on the display element, the functional cell comprising first and second substrates made of plastic; The functional cell and the display device may be attached to the entire surface, and the curing agent layer may be evenly mixed with the spacer.

The display device may be a liquid crystal panel, and the functional cell may be one selected from a parallax barrier filter and a lenticular lens sheet.

The display device is a liquid crystal panel that implements two or more images, and the functional cell blocks the first image and the second image in left and right directions so that only the second image and the first image are respectively in the left and right directions. Characterized in that the viewing angle control cell for viewing.

The functional cell is characterized in that the touch pad.

--First Embodiment--

The first embodiment of the present invention is characterized in that both the first and second substrates constituting the viewing angle switching cell of the viewing angle switching mode liquid crystal display are replaced with plastic or thin glass substrates.

Hereinafter, a configuration of an array substrate according to the present invention will be described with reference to the drawings.

2 is a cross-sectional view schematically showing the configuration of the viewing angle switching mode liquid crystal display device according to the present invention.

As shown, the viewing angle switching mode liquid crystal display device 100 according to the present invention includes a light distribution device 102, a first polarizing plate 104 formed on the light distribution device 102, and a first polarizing plate ( The display element 106 (transverse electric field type liquid crystal panel) configured on the upper part of the upper part and implementing the wide viewing angle and the direction in which the polarization axis is perpendicular to the first polarizing plate 104 are formed on the display element 106. A second polarizing plate 108 disposed so as to be arranged, a viewing angle switching cell 110 configured at an upper portion of the second polarizing plate 108 to convert a wide viewing angle into a narrow viewing angle, and an upper portion of the viewing angle switching cell 110. And a third polarizing plate 112 disposed in parallel with the polarization axis of the second polarizing plate 108.

The viewing angle switching cell 110 and the display element 106 may be configured by changing their positions.

Meanwhile, the substrates 116a and 116b used in the viewing angle switching cell 110 may be thin and flexible plastic materials or thin glass substrates.

The thin glass substrate may be formed by etching a glass substrate having a general thickness.

The plastic substrate can reduce the thickness from 0.4mm to 0.3mm, which is more than 50% of the thickness reduction of the glass substrate of 0.7mm thickness, which is a great advantage in minimizing the volume and weight of the viewing angle switching display. There is this.

In addition, when the general glass substrate is thinly formed by an etching process, it is possible to mold up to 0.45 mm to 0.5 mm, which also has a great advantage in minimizing the volume and weight of the viewing angle switching display device.

In addition to the features described above, another characteristic form is to use a curing agent mixed with a spacer in attaching the display element 106 and the viewing angle conversion cell 110 to the entire surface.

In this case, the second polarizing plate 108 between the display element 106 and the viewing angle switching cell 110 is also attached to the viewing angle switching cell 110 located above and below the display device.

Examples of the attachment material for attaching the display element 106, the viewing angle conversion cell 110, and the second polarizing plate 108 include a photocuring agent or a thermosetting agent, heat and photocuring, and a repairable adhesive or non-repairing agent. Non-repairable adhesive types are also possible.

Characteristic, when manufacturing the adhesive material as described above, the spacer (spacer) is mixed with the curing agent, it is possible to maintain a uniform thickness of the adhesive material by the spacer.

The spacer may be manufactured with various components such as silicate or photo-acrylate, and may have various types of spacers such as ball type, road type, cylinder type, and the like. spacer) can be used.

In addition, a fixed or non-stick type surface-treated with an adhesive in consideration of matching with the curing agent is also possible.

At this time, the refractive index of the curing agent and the spacer is approximately 1.4 ~ 1.5.

As described above, when attaching between the panels or between the panel and the optical film by using the adhesive material, the adhesive material having weak viscosity is gradually dropped to a certain shape on the attachment surface of the first and second components to be attached, Use a method of joining the configurations.

At this time, the adhesive dropped on the attaching surfaces of the first and second components is agglomerated in semicircle form by the surface tension, and the adhesive is formed between the first and the second components at the moment when the attaching surface reaches the highest point of the semicircular form. Use the principle of spreading without

In this way, the cured layer 120 in which the spacers S between the first and second components are uniformly mixed is formed, and the thickness of the spacers S may be kept constant.

Therefore, the present invention has an advantage of reducing the thickness and weight of the display device by using a plastic material or a thin glass substrate as the substrates 116a and 116b of the viewing angle conversion cell 110.

In addition, in attaching the two panels by using a curing agent including the spacer, it is possible to maintain a uniform thickness between the two panels and at the same time can be attached to the front in a completely defoaming state has the advantage of achieving a stable image.

In this case, if the first and second substrates 114a and 114b constituting the display element 106 are replaced with a plastic substrate or a thin glass substrate, the thickness can be reduced more efficiently.

This characteristic form is variously applicable. For example, a 2D and 3D switching display that can freely convert two-dimensional and three-dimensional images, a dual view display for viewing different images according to position, and an L-type using a lenticular lens sheet. The present invention can be applied to a three-dimensional display device, a P-type three-dimensional display device using a parallax barrier, a touch pad display device including a touch pad, and the like.

Hereinafter, the configuration of the above-described display apparatuses of various types will be schematically described through the second embodiment.

- Second Embodiment -

According to a second embodiment of the present invention, in various display devices in addition to the aforementioned viewing angle switching mode liquid crystal display device, a substrate of a functional cell is replaced with a plastic or thin glass substrate, and the functional cell and the display element are bonded together. Explain.

FIG. 3 is a diagram schematically illustrating a P-type stereoscopic image display apparatus using a parallax barrier.

As shown in the drawing, the 3D image display apparatus 200 using the parallax barrier is a display element (liquid crystal panel) 204 for displaying an image with a light distribution apparatus (not shown) from below, and the display element 204. It includes a parallax barrier filter 220 configured in front of the).

The principle of the parallax barrier filter 220 is to view the images to be viewed by both left and right eyes using a very thin vertical grid (barrier 222) printed or printed on a base film. In this way, the vertical pattern image to enter the left eye and the vertical pattern image to enter the right eye are distributed by the barrier 222, and it is a method of obtaining a three-dimensional effect by looking at another image which is slightly crossed to the left and right eyes.

As described above, the parallax barrier filter 206 may be embodied as a liquid crystal panel using a liquid crystal in addition to a method of forming a vertical stripe pattern on a base sheet. The electrode is configured, and on the other side, a plurality of second electrodes having a predetermined width are disposed to be spaced apart by a predetermined interval, and the liquid crystal is filled between the two substrates.

In the above-described configuration, two-dimensional image expression is possible when no voltage is applied to the first and second electrodes of the parallax barrier filter, and three-dimensional image expression is possible due to the above-described principle when voltage is applied. .

In this case, the substrate (not shown) of the panelex barrier filter composed of the liquid crystal panel may be formed of the above-mentioned plastic material or a thin glass substrate, and in some cases, the substrate of the display element 204 ( 208a and 208b) plastic substrates or thin glass substrates may also be used.

In addition, for a stable image, a stable image may be realized by attaching the parallax barrier filter 206 and the display element 204 to the front using a curing agent 230 mixed with the spacer S as mentioned above. have.

This application can be applied to the three-dimensional display device 300 using the lenticular lens sheet 320, which is a three-dimensional image filter, as shown in FIG.

As shown, the lenticular lens sheet 320 is used for the display element 304 instead of the parallax barrier filter. The principle is that the distribution of left and right images is replaced by a vertical cylindrical lens instead of a barrier, and then a refraction phenomenon due to lens rows It is implemented using.

The lenticular lens sheet 320 may be formed by attaching the lenticular lens 322 to the base film BF.

 The lenticular lens sheet 320 and the display element 304 may be fabricated using a plastic substrate or a thin glass substrate as the substrates 308a and 308b of the display element 304. It can manufacture by bonding together using the hardening agent which concerns.

5 is a cross-sectional view schematically illustrating a dual image display device.

In general, the dual image display device 400 is made to view different images according to the viewing angle, and is made to view up to two images.

As illustrated, the dual image display device 400 includes a liquid crystal panel as the display element 402 and a viewing angle control cell 404 configured to control the viewing angle as a functional cell.

The display device 402 may be composed of two display devices that implement different images to implement two kinds of screens. Alternatively, the display device 402 alternately alternates data of the first image and the second image in units of subpixels. As shown in the figure, it may be configured to display two images simultaneously with a single panel.

The viewing angle control cell 404 has a configuration similar to the parallax barrier previously, and forms a first electrode 410 on the front surface of one substrate 408a of the two substrates 408a and 408b bonded together, and the other substrate ( A plurality of second electrodes 412 having a predetermined width on the front surface of the 408a are configured to be spaced apart at regular intervals.

In this case, when a voltage is applied to the first and second electrodes 410 and 412, a light blocking wall (not shown) is formed to block light due to the movement of the liquid crystal positioned between the two electrodes. For example, the first image or the second image is blocked according to the viewing angle, so that only the second image and the first image can be viewed in the left and right directions, respectively.

However, when viewed from the front, an accurate image cannot be viewed because the first and second images are mixed.

The dual image display device 400 configured as described above may also use a plastic substrate or a thin glass substrate as the substrates 406a, 406b, 408a and 408b of the display element 402 and the viewing angle control cell 404. In addition, by using the curing agent including the aforementioned spacer, a stable image may be realized by attaching the display element 402 and the viewing angle control cell 404 to the entire surface.

6 is a cross-sectional view schematically illustrating the touch pad display device.

As illustrated, the touch pad display device 500 includes a display element 502 and a touch pad 504, and the liquid crystal panel is used as the display element 502.

The touch pad 504 is a device for pointing on the screen and can replace the mouse. The touch pad 504 detects a user's finger movement and a downward pressure to operate. The touch pad 504 is mainly applied to a notebook computer. It is made to be usable.

As shown, the touch pad 504 may be manufactured in various forms according to the driving method. For example, in the case of a pressure resistance method, the touch pad 102 may be spaced by an insulating pillar S located therein. The first and second substrates 510a and 510b are spaced apart from each other, and a first electrode 522a and a second electrode 522b are disposed on opposite sides of the first and second substrates 510a and 510b, respectively. do.

When the touch pad 504 is pressed by hand, the first and second electrodes 52a and 522b join up and down to change voltage due to a current flowing between the upper and lower substrates 510a and 510b. The position of the touched hand can be determined by the degree of change of.

In this case, as the first and second substrates 510a and 510b constituting the touch pad 504, a plastic substrate or a thin glass substrate can be used to reduce volume and weight, and further, the display device ( The first and second substrates 508a and 508b of 502 may also be plastic substrates or thin glass substrates.

In addition, the touch panel 504 and the display element 502 are also attached by using the curing agent proposed in the present invention, there is an advantage that can achieve a stable image.

Therefore, the present invention uses a plastic substrate or a glass substrate with a minimum thickness as a substrate of a liquid crystal panel or a functional cell (viewing angle switching cell, viewing angle control cell, parallax barrier filter, lenticular lens sheet), thereby reducing the thickness and weight of the display device. There is an effect that can be minimized.

In addition, since the use of a curing agent mixed with a spacer can maintain the thickness uniformity of the curing agent, this also has the effect of achieving a stable image.

Claims (17)

A display device for implementing a wide viewing angle; A viewing angle switching cell configured on the display element, the first and second substrates being plastic materials or etched glass substrates, and switching between wide viewing angles and narrow viewing angles; The curing agent layer having a uniform thickness by fully attaching the viewing angle conversion cell and the display device in a completely degassed state and evenly mixing spacers. Viewing angle switching mode liquid crystal display device comprising a. The method of claim 1, And a display device implementing the wide viewing angle is a transverse electric field mode liquid crystal panel. The method of claim 1, And the viewing angle switching cell is an ECB mode liquid crystal panel. The method of claim 1, And the thicknesses of the first and second substrates of the plastic material of the viewing angle switching cell are 0.3 mm to 0.4 mm. delete The method of claim 1, And the thicknesses of the first and second substrates, which are the glass substrates on which the surface of the viewing angle switching cell is etched, are 0.45 mm to 0.5 mm. The method of claim 1, And the first and second substrates of the display element are the plastic or the glass substrate whose surface is etched. The method of claim 1, Wherein the curing agent is an ultraviolet curing agent that is cured by ultraviolet rays, or a curing agent that is cured by heat, or an ultraviolet ray and heat curing agent that is cured by ultraviolet rays and heat. A display element; A functional cell formed on top of the display element, the functional cell comprising a first substrate and a second substrate made of plastic or a surface-etched glass substrate; The functional cell and the display element are completely attached to the entire surface in a defoaming state, and a curing agent layer having a uniform thickness by mixing the spacers evenly. Display device comprising a. The method of claim 9, And the display element is a liquid crystal panel. The method of claim 9, And the functional cell is one selected from a parallax barrier filter and a lenticular lens sheet. The method of claim 9, The display device is a liquid crystal panel that implements two or more images, and the functional cell blocks the first image and the second image in left and right directions so that only the second image and the first image are respectively in the left and right directions. Display device, characterized in that the viewing angle control cell for viewing. The method of claim 9, And the function cell is a touch pad. The method of claim 1, The spacer is made of silicate or photo-acrylate and has a viewing angle characterized in that it has a ball type, a rod type or a cylinder type. Switch mode LCD. 15. The method of claim 14, The spacer is a viewing angle switching mode liquid crystal display, characterized in that the surface-treated with an adhesive fixed or non-fixed. 16. The method of claim 15, And a refractive index of the curing agent layer in which the spacers are mixed is 1.4 to 1.5. The method of claim 1, A light distribution device disposed under the display element; A first polarizer disposed on the light distribution device; A second polarizer disposed on the display element; A third polarizer disposed on the viewing angle conversion cell Further comprising: And the curing agent layer is formed between the display element and the second polarizing plate, and between the second polarizing plate and the viewing angle switching cell, respectively.

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