KR20080019963A - Display apparatus of portable terminal - Google Patents

Abstract

A display unit in a portable terminal is provided to minimize the space between a liquid crystal panel and a case, to secure the strength of the liquid crystal panel, and to prevent a screen distortion state, such as a ripple state. A display unit in a portable terminal comprises a liquid crystal panel(119), an upper polarizing plate(121), a lower polarizing plate(123), and a hard coating film(125). The liquid crystal panel(119) is formed as liquid crystal is injected between an upper substrate(115) and a lower substrate(117). The upper polarizing plate(121) is attached on the top of the upper substrate(115). The lower polarizing plate(123) is attached on the bottom of the lower substrate(117). The hard coating film(125) is attached on the top of the upper polarizing plate(121). The upper substrate(115) having a thickness of 0.5 to 0.6mm comprises a color filter substrate. The upper substrate(115) is two or three times thicker than the lower substrate(117).

Description

Display apparatus of a portable terminal

1 is a side sectional view showing a liquid crystal display of a conventional mobile terminal.

2 is a side cross-sectional view illustrating a liquid crystal display of a mobile terminal according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

111 mold frame 113 backlight unit

115: lower substrate 116: substrate

117: upper substrate 118: driver IC

119 liquid crystal panel 121 lower polarizing plate

123: upper polarizer 125: hard coating film

127: case 129: opening

The present invention relates to a display device of a portable terminal.

Cathode ray tube (CRT), which is one of the display devices that are generally used, is mainly used for monitors such as televisions, measuring instruments, and information terminals. It could not respond actively to the demand for weight reduction.

In order to replace the cathode ray tube, it has advantages such as small size, light weight and low power consumption, and liquid crystal display devices for displaying information by using the electrical and optical properties of the liquid crystal injected into the liquid crystal panel have been actively developed. Recently, it plays a role as a flat panel display device.

In general, a liquid crystal display includes a liquid crystal display panel in which a liquid crystal material is injected between two glass substrates, and a back light unit that supplies light to the liquid crystal display panel.

1 is a side sectional view showing a liquid crystal display device installed in a mobile terminal.

Referring to FIG. 1, the backlight unit 13 is coupled to a lower portion of the mold frame 11 in the shape of a storage container. The backlight unit 13 generates light by a light source such as a light emitting diode or a fluorescent lamp (CCFL, etc.), and guides the generated light to a light guide plate to irradiate the light toward a liquid crystal panel. At this time, the reflective sheet is provided on the lower part of the light guide plate to re-reflect the light transmitted to the lower part of the light guide plate, and the optical sheets are stacked on the light guide plate to diffuse and condense incident light.

A liquid crystal panel 19 is coupled to the upper portion of the backlight unit 13, and the liquid crystal panel 19 includes a liquid crystal layer between upper and lower substrates 15 and 17 and upper and lower substrates 15 and 17. It is made up of filling. Here, the upper substrate 15 is formed of a transparent color filter substrate, and the lower substrate 17 is formed of a transparent thin film transistor (TFT) substrate. Here, the driver IC 18 and the substrate 16 for connecting the driver IC 18 to the main substrate are coupled to the lower substrate 17.

Upper and lower polarizers 21 and 23 are attached to both surfaces of the upper and lower substrates 15 and 17, respectively. The upper and lower polarizers 21 and 23 polarize the incident light according to the polarization axis, and the polarization axes of the two polarizers 21 and 23 are generally 90 degrees apart.

In this way, the liquid crystal panel 19 with the backlight unit 13 and the polarizing plates 21 and 23 attached to the mold frame 11 is laminated, thereby completing the assembly of the liquid crystal display device.

The liquid crystal display device is assembled inside the case 27 of the portable terminal, and the cushion tape 31 is attached to a portion where the case 27 and the liquid crystal display device are in contact with each other. That is, the cushion tape 31 has an upper surface attached to the bottom surface of the case 27, and a lower surface attached to the side surface of the upper polarizing plate 21 and the upper surface of the mold frame 11 to perform a predetermined buffer function.

In addition, the case 27 has an opening 24 corresponding to the window area and a locking projection 28 formed on the circumferential surface of the opening. A transparent window cover 25 is coupled to the opening 24 to protect the liquid crystal panel, and the window cover 25 is attached to the locking step 28 by a double-sided tape 29. In this case, a space equal to the cushion tape 31, the locking step 28, and the double-sided tape 29 is generated between the upper polarizing plate 21 and the window cover 25.

However, in the related art, in order to install the liquid crystal display inside the case 27 of the mobile terminal, a structure in which a cushion tape 31, a case latching jaw 28, a double-sided tape 29, and a window transparent cover 25 are stacked By coupling to, there is a problem of increasing the case thickness of the portable terminal.

In other words, the upper portion of the liquid crystal display device has a window cover 25 of 0.5 mm to 0.1 mm, a double-sided tape 29 of 0.1 mm, and a space (0.5 mm to 1.0 mm) between the upper polarizer 21 and the window cover 25. Since it is necessary, the thickness of about 2 mm maximum is increased, and this thickness increases the thickness of the case 27, and thus, the thickness of the portable terminal is difficult to exist. In addition, it may be a bigger problem for the portable terminal to which the dual liquid crystal display is applied.

The present invention provides a display device of a portable terminal.

The present invention provides a display device of a portable terminal such that the thickness between the liquid crystal panel and the terminal case can be minimized.

A display device of a mobile terminal according to an embodiment of the present invention, the liquid crystal panel is filled with a liquid crystal between the upper substrate and the lower substrate; An upper polarizer attached to the upper substrate; A lower polarizer attached to the lower substrate; It includes a transparent hard coating film attached on the upper polarizer.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a side cross-sectional view of a liquid crystal display of a mobile terminal according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the backlight unit 113 and the liquid crystal panel 119 are stacked in the mold frame 111 having a container shape.

The backlight unit 111 supplies a light source generated from a light emitting diode or a fluorescent lamp toward the liquid crystal panel. To this end, optical sheets including a light guide member (LGP) for uniformly dispersing the generated light source throughout the emission region, a diffusion sheet of the emitted light, and a prism sheet for condensing, and light transmitted from the lower portion of the light guide member The reflective sheet for reflecting again is laminated.

The backlight unit 113 is classified into a side type or a direct type according to a method of using a light source, and functions as a front light unit or a back light unit according to the liquid crystal panel type.

The liquid crystal panel 119 is formed by injecting a liquid crystal layer between the transparent upper and lower substrates 115 and 117. The upper substrate 115 is disposed to face the lower substrate 117 and includes a color filter and a common electrode. The lower substrate 117 includes a pixel electrode and a switching element TFT arranged in a matrix. The pixel electrode includes a transparent and conductive indium tin oxide film (ITO) or an indium zinc oxide film (IZO). The switching element is connected to the pixel electrode through a voltage applying device to apply different voltages. The driver IC 118 connected to the flexible substrate 116 is mounted on the lower substrate 117 to drive the switching element.

Here, the liquid crystal layer changes the alignment angle of the liquid crystal (for example, circle / elliptical polarization) by the electric field and changes the light transmittance according to the changed alignment angle to obtain a desired image. In this case, a driving signal and a timing signal are applied to the gate line and the data line of the TFT in order to control the alignment angle of the liquid crystal and the timing of the liquid crystal. Here, although the liquid crystal has described Tw (Twist Nematic) mode as an example, a liquid crystal panel to which ECB, OCB, IPS, or VA mode is applied may be formed. In addition, the liquid crystal panel 119 may be classified into a transmission type or a reflection transmission type according to a method using light.

In addition, upper and lower polarizers 121 and 123 may be attached to both sides of the liquid crystal panel 119, and upper and lower polarizers 121 and 123 attached to both sides may be formed at 90 degrees to each other to polarize incident light. It only transmits light that vibrates.

The polarizing plates 121 and 123 include a polarizing film (not shown) and a composite retardation film (not shown). The polarizing film includes poly vinyl alcohol (PVA) and polarizes the transmitted light. The composite retardation film is disposed on one surface of the polarizing film, and serves to change linearly polarized light or circularly polarized light to linearly polarized light by changing a phase of transmitted light. The composite retardation film protects the polarizing film and supports the polarizing film. In addition, an additional protective layer for protecting the polarizing film may be further formed. In addition, the composite retardation film may be attached to the upper and lower substrates 115 and 117 by including an adhesive layer on a surface facing the polarizing film. Here, the adhesive layer includes a pressure sensitive adhesive (hereinafter PSA).

Here, the upper polarizer 121 is attached on the upper substrate 115, and the lower polarizer 123 is attached below the lower substrate 117.

The hard coating film 125 is attached to the upper polarizing plate 121, the hard coating film 125 is attached in a laminating manner. That is, the hard coating film 125 is made of transparent PET (Poly Ethylene Terephthalate) material, it is coated by a laminating method on a polarizing plate with a thickness of about 0.1mm.

The hard coating film 125 attached to the upper polarizing plate 121 is attached to the circumferential bottom of the opening 129 corresponding to the window area of the case 127, and the end of the mold frame 127 is placed under the case. do.

As such, by removing the space between the window cover, the double-sided tape, the upper polarizing plate and the window cover, the thickness of about 2.0 mm can be reduced.

In addition, the present invention forms a thickness (t) of the upper substrate 115 about 0.3mm thicker than the conventional one in order to minimize damage to the liquid crystal panel and to prevent screen distortion (eg, ripple) caused by panel pressing. . For example, in order to reinforce the strength of the color filter substrate, a thickness of about 0.1 mm to about 0.3 mm may be formed to a thickness of about 0.3 mm or 0.4 mm, which is used to form a thickness of about 0.6 mm. Here, the color filter substrate may be formed about two to three times thicker than the thin film transistor substrate.

In addition, in order to minimize the screen distortion caused by an external load in the liquid crystal panel 119, a gap between the upper substrate 115 and the lower substrate 117 is maintained using a rigid spacer (not shown). Done. That is, the fixed spacer may prevent the arrangement of the liquid crystal cells from being uneven by the force pressed from the upper substrate 115 to the lower substrate 117, thereby preventing the screen distortion phenomenon.

The liquid crystal display may be applied as a mono or dual display device to a portable terminal such as a PDA, a mobile phone, a DMB, an MP3, or a PMP, thereby reducing the thickness of the upper or lower case of the terminal.

Although the present invention has been described above with reference to the embodiments, these are only examples and are not intended to limit the present invention, and those skilled in the art to which the present invention pertains may have an abnormality within the scope not departing from the essential characteristics of the present invention. It will be appreciated that various modifications and applications are not illustrated. For example, each component shown in detail in the embodiment of the present invention may be modified. And differences relating to such modifications and applications will have to be construed as being included in the scope of the invention defined in the appended claims.

According to the display device of the portable terminal according to the present invention, it is possible to secure the strength of the liquid crystal panel and minimize the screen distortion phenomenon while minimizing the space between the display panel and the case.

In addition, as the space between the display panel and the case is minimized, the terminal case can be made slim.

Claims (8)

A liquid crystal panel in which liquid crystal is filled between the upper substrate and the lower substrate; An upper polarizer attached to the upper substrate; A lower polarizer attached to the lower substrate; Display device of a mobile terminal comprising a transparent hard coating film attached on the upper polarizing plate. The method of claim 1, The upper substrate includes a color filter substrate. The method of claim 1, The upper substrate is a display device of a portable terminal is formed to a thickness of 0.5 ~ 0.6mm. The method of claim 1, And the upper substrate is formed to be two or three times thicker than the thickness of the lower substrate. The method of claim 1, The hard coating film is a display device of a mobile terminal is formed of a transparent PET material. The method of claim 1, The hard coating film is a display device of a mobile terminal is bonded to the upper polarizing plate by a laminating method. The method of claim 1, The hard coating film is a display device of a mobile terminal is formed to a thickness of 0.1mm. The method of claim 1, And a fixed spacer formed between the upper substrate and the lower substrate to maintain a gap between the two substrates.

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