KR20080006835A - Liquid crystal display apparatus - Google Patents

Abstract

An LCD(Liquid Crystal Display) is provided to apply individually the driving power to the first spot light source including plural light emitting diodes and the second spot light source including one light emitting diode. A spot light source unit(200) is arranged at a side of a light guide panel and includes at least one first spot light source(212) for generating the first light beam and the second spot light source(214) arranged on the same line as the first spot light source and for generating the second light beam. The first display panel(300) is arranged at the upper portion of the light guide panel and displays the image by means of the first light beam from the first spot light source. The second display panel(400) is arranged adjacently to the spot light source unit at the lower portion of the light guide panel and divided into a sub area for displaying the image by means of one between the first and second light beams and the main area for displaying the image by means of the first light beam.

Description

Liquid crystal display device {LIQUID CRYSTAL DISPLAY APPARATUS}

1 is an exploded perspective view illustrating a liquid crystal display according to an exemplary embodiment of the present invention.

FIG. 2 is a plan view of the lower portion of the LCD shown in FIG.

3 is a plan view illustrating a structure in which driving power is applied to a light generating unit from a point light source driving chip illustrated in FIG. 1 through a point light source film.

4 is an exploded perspective view illustrating a liquid crystal display according to another exemplary embodiment of the present invention.

FIG. 5 is a plan view showing an upper portion in combination with the liquid crystal display shown in FIG. 4.

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

100: light guide plate 200: point light source unit

210: light generator 212: first point light source

214: second point light source 220: point light source film

230: first signal line 240: second signal line

250: first pad part 300: first display panel

400: second display panel 500: first flexible printed circuit board

510: second pad portion 520: point light source driving chip

600: second flexible printed circuit board 700: bottom chassis

800: top chassis 1000: liquid crystal display device

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device capable of reducing power consumption.

A liquid crystal display device is a display device that displays an image using a liquid crystal, and has an advantage of being thinner, lighter, having a lower driving voltage and lower power consumption than other devices. Such liquid crystal display devices generally include a backlight assembly for supplying light and a liquid crystal display panel for displaying an image using the light.

Recently, a bidirectional liquid crystal display for displaying images in both directions has been developed and used for use in a folder type mobile communication terminal. For example, a bidirectional liquid crystal display device has a structure in which a backlight assembly using a light emitting diode as a light source is disposed between an internal liquid crystal display panel displaying an internal image and an external liquid crystal display panel displaying an external image to supply light. .

In this case, the external liquid crystal display panel is divided into a sub area which always displays time, a battery state and a reception state, and a main area which displays image information and character information.

However, in the related art, power consumption is increased by using a plurality of light emitting diodes used in the main region as it is to supply light to a sub region having a relatively low light utilization rate.

Accordingly, the present invention has been made in view of such a problem, and the present invention provides a liquid crystal display device capable of reducing power consumption by separately disposing a light emitting diode for supplying light to a sub region.

A liquid crystal display device according to an aspect of the present invention described above includes a light guide plate, a point light source unit, a first display panel, and a second display panel. The point light source unit is disposed on one side of the light guide plate, and includes at least one first point light source for generating a first light, and a second point light source arranged on the same line as the first point light source to generate a second light. do. The first display panel is disposed on the light guide plate, and displays an image by using first light from the first point light source. The second display panel is disposed below the light guide plate to be adjacent to the point light source unit, and displays a sub-region displaying the image using any one of the first light and the second light and the first light. And a second display panel divided into a main area for displaying an image by using the same.

The sub region may be formed at a position adjacent to the point light source unit among the second display panels. In addition, the second point light source is disposed corresponding to the center of the sub-region.

The sub-region displays an image using the first light in a normal mode in which an image is displayed on the entire second display panel. In contrast, the sub region displays an image using the second light in the standby mode in which the image is displayed only in the sub region of the second display panel.

The first point light source is made of a light emitting diode which generates white light, and the second point light source is made of a light emitting diode which generates light of any one of red light, green light and blue light.

The liquid crystal display device may include a first optical sheet disposed between the light guide plate and the first display panel, a second optical sheet disposed below the light guide plate, and disposed between the light guide plate and the second optical sheet. It may further include a semi-transmissive reflective sheet for reflecting a portion of the light emitted to the bottom of the upper.

According to another aspect of the present invention, a liquid crystal display device includes a light guide plate and at least one first point light source disposed on one side of the light guide plate and arranged on the same line as the first point light source to generate a first light. A point light source unit including a second point light source for generating light, and a sub-region disposed on an upper portion of the light guide plate and displaying an image using any one of the first light and the second light; 1 includes a display panel divided into a main area for displaying an image using light.

The sub region may be formed at a position adjacent to the point light source unit of the display panel.

According to such a liquid crystal display device, power consumption can be reduced by using a second point light source made of one light emitting diode instead of the first point light source that can be made of a plurality of light emitting diodes to supply light to the sub area. have.

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

1 is an exploded perspective view showing a liquid crystal display device according to an embodiment of the present invention, FIG. 2 is a plan view showing a lower portion in combination with the liquid crystal display device shown in FIG. 1, and FIG. 3 is a point light source shown in FIG. A plan view showing a structure in which driving power is applied to a light generating portion from a driving chip through a point light source film.

1, 2 and 3, the liquid crystal display device 1000 according to an exemplary embodiment of the present invention may include a light guide plate 100, a point light source unit 200, a first display panel 300, and a second display. Panel 400.

The light guide plate 100 is made of a transparent material having excellent light transmittance. The light guide plate 100 serves to guide the light generated from the point light source unit 200 to the first display panel 300 and the second display panel 400. In this case, the point light source unit 200 is disposed on one side of the light guide plate 100.

The point light source unit 200 may include a light generating unit 210 and a point light source film 220 having a first point light source 212 generating a first light and a second point light source 214 generating a second light. Include. The first point light source 212 and the second point light source 214 are arranged on the same line.

The first point light source 212 is composed of a plurality of light emitting diodes (LEDs), and the second point light source 214 is formed of one light emitting diode. Here, the light emitting diode is one of light sources that generate light using semiconductor characteristics. The light emitting diode may include a white light emitting diode that emits white light including all of the red, green, and blue wavelength bands, or a red, green, and blue light emitting diode that emits red light, green light, and blue light, respectively.

The point light source film 220 is made of a thin and flexible material. The point light source film 220 is connected to the light emitting diode of the second point light source 214 in parallel with the first signal line 230 and the first signal line 230 that connect the light emitting diodes of the first point light source 212 in series. The second signal line 240 is formed.

As a result, the point light source film 220 applies driving power from the outside to the first point light source 212 and the second point light source 214.

The first display panel 300 is disposed on the light guide plate 100. The first display panel 300 displays an image by using the first light generated from the first point light source 212. For example, the first display panel 300 displays a main image such as an image signal and text information. The first display panel 300 has a size corresponding to the entire area of the light guide plate 100.

The first display panel 300 includes a first array substrate 310 in which thin film transistors (hereinafter, TFTs) are arranged in a matrix form and a first pixel formed in a thin film form while facing the first array substrate 310. A first color filter substrate 320 and a first liquid crystal layer 330 interposed between the first array substrate 310 and the first color filter substrate 320 are included. In addition, the first display panel 300 further includes a first panel driving chip 340 formed on the first array substrate 310 to drive the first display panel 300.

The liquid crystal display 1000 further includes a first flexible circuit board 500 connected to one end of the first array substrate 310. The first flexible printed circuit board 500 applies various control signals to the first array substrate 310.

In addition, the first flexible printed circuit board 500 is electrically connected to the first signal line 230 and the second signal line 240 of the point light source film 220 to apply driving power to the light generator 210. To this end, a first pad part 250 is formed at the ends of the first signal line 230 and the second signal line 240. In addition, a second pad part 510 corresponding to the first pad part 250 is formed on the first flexible printed circuit board 500.

The first pad part 250 may be bonded to the second pad part 510 by a soldering method. In contrast, the first pad part 250 may be bonded to the second pad part 510 through a separate adhesive member. For example, the adhesive member may be made of an anisotropic conductive film (ACF) having conductivity and excellent adhesion.

In this case, the point light source driving chip 520 is disposed on the first flexible circuit board 500 to control the application of the driving power to the first point light source 212 and the second point light source 214. The point light source driving chip 520 is electrically connected to the second pad part 510.

The point light source driving chip 520 applies driving power to only one of the first signal line 230 and the second signal line 240. In addition, a plurality of driving elements 530 for driving the plurality of first display panels 300 and the second display panel 400 may be disposed on the first flexible printed circuit board 500.

The second display panel 400 is disposed under the light guide plate 100. The second display panel 400 has the same configuration as the first display panel 300, and specifically includes the second array substrate 410, the second color filter substrate 420, and the second liquid crystal layer 430. do. However, unlike the first display panel 300, the second display panel 400 is disposed only to a part of the light guide plate 100. That is, the second display panel 400 has a smaller size than the first display panel 300. The second display panel 400 further includes a second panel driving chip 440 formed on the second array substrate 410 to drive the second display panel 400.

The liquid crystal display 1000 further includes a second flexible circuit board 600 connected to one end of the second array substrate 410. The second flexible printed circuit board 600 is generally soldered to the first flexible printed circuit board 500 to apply various control signals to the second array substrate 410.

The second display panel 400 is disposed adjacent to the center of the light generator 210. In this case, the second display panel 400 is divided into a sub area SA formed at a position adjacent to the light generator 210 and a main area MA in contact with the sub area SA.

As a result, the second display panel 400 may display an image using the first and second light generated from the first point light source 212 and the second point light source 214 most effectively. In particular, since the sub area SA is formed at the position closest to the first point light source 212 and the second point light source 214 of the second display panel 400, the first and second light can be used more effectively. have.

In the sub area SA, sub images such as a time, a battery state, and an icon are displayed. In the main area MA, a main image such as an image signal and character information as in the first display panel 300 is displayed.

In the sub area SA, an image is displayed using the first light or the second light from one of the first point light source 212 and the second point light source 214. In the main area MA, an image is displayed by using light from the first point light source 212.

As a result, an image may be displayed by the first light generated from the first point light source 212 in the main area MA of the first display panel 300 and the second display panel 400. On the contrary, the second light generated from the second point light source 214 is used only to display an image in the sub area SA of the second display panel 400.

In addition, the first point light source 212 and the second point light source 214 do not generate light at the same time by the point light source driving chip 520 disposed on the first flexible circuit board 500, and only one light is generated. And any one of them always generates light.

In summary, in the normal mode in which the main image is to be displayed in the main area MA of the first display panel 300 and the second display panel 400, the point light source driving chip 520 causes the first point light source ( 212 generates first light and supplies the first light to the first display panel 300 and the second display panel 400. As a result, the first light is also supplied to the sub area SA of the second display panel 400 to display the sub image. At this time, since the driving power is not applied to the second point light source 214, the second light is not generated.

In addition, in the main area MA of the first display panel 300 and the second display panel 400, the standby mode in which the main image is not displayed in the main area MA, that is, the liquid crystal display device 1000 may not be used. In this case, the second point light source 214 emits light by the point light source driving chip 520 to supply light to the sub area SA of the second display panel 400. At this time, the driving power is not applied to the first point light source 212, and thus no light is generated.

Here, the second point light source 214 is preferably disposed corresponding to the center of the sub area SA in order to effectively supply light to the sub area SA of the second display panel 400. In the present exemplary embodiment, since the second display panel 400 is disposed adjacent to the center of the light generator 210, the second point light source 214 is disposed in the center of the first point light source 212. . For example, when the first point light source 212 is composed of four light emitting diodes, the second point light source 214 is disposed between the second and third of the first point light source 212.

Therefore, when the liquid crystal display device 1000 is not used, the driving power is applied only to the second point light source 214 made of one light emitting diode instead of the first point light source 212 made of the plurality of light emitting diodes. By generating, it is possible to reduce the power consumption relative to using a plurality of light emitting diodes as it is conventionally.

The liquid crystal display device 1000 having the first display panel 300 and the second display panel 400 may be used as a folder type mobile communication terminal. Accordingly, the first point light source 212 is preferably made of a white light emitting diode. In addition, although the second point light source 214 may be made of any light emitting diode, it may be more preferable that the second point light source 214 is made of red, green, and blue light emitting diodes.

Meanwhile, the liquid crystal display 1000 may include a bottom chassis 700 that accommodates the light guide plate 100 and the first display panel 300 between the light guide plate 100 and the first display panel 300 and the second display panel 400. ) May be further included. The first opening 720 corresponding to the size of the second display panel 400 is configured to pass light supplied from the point light source unit 200 to the second display panel 400 at the bottom 710 of the bottom chassis 700. ) And a second opening 730 for connecting the first flexible printed circuit board 500 to the first flexible printed circuit board 500.

In addition, the liquid crystal display 1000 may be disposed between the light guide plate 100 and the first display panel 300 to improve the characteristics of light emitted upward from the light guide plate 100 and the light guide plate 100. ) Is disposed between the second optical sheet 760, the light guide plate 100, and the second optical sheet 760 disposed between the bottom chassis 700 and the bottom chassis 700 to improve characteristics of light emitted downward from the light guide plate 100. The transflective reflective sheet 770 for reflecting a portion of the light emitted to the lower portion of the upper portion 100 and the top chassis 800 coupled to the bottom chassis 700 while fixing the edges of the first display panel 300 are fixed. It may further include.

4 is an exploded perspective view illustrating a liquid crystal display according to another exemplary embodiment of the present invention, and FIG. 5 is a plan view showing an upper portion of the liquid crystal display shown in FIG. 4 in combination.

In the present embodiment, since the liquid crystal display device is the same as the configuration shown in FIGS. 1 to 3 except for the configuration of including one display panel instead of the first and second display panels, the same reference numerals are used, Detailed description will be omitted.

4 and 5, the liquid crystal display device 1100 according to another exemplary embodiment of the present invention may include a light guide plate 100, a point light source unit 200, a display panel 900, and a point light source driving chip 960. Include.

The display panel 900 is disposed on the light guide plate 100. The display panel 900 includes an array substrate 910, a color filter substrate 920, and a liquid crystal layer 930. The panel driving chip 940 is formed on the array substrate 910. In addition, the liquid crystal display device 1100 further includes a flexible circuit board 950 connected from one end of the array substrate 910.

The display panel 900 includes a sub area SA1 and a first point displaying a sub image using the first light or the second light from any one of the first point light source 212 and the second point light source 214. It is divided into a main area MA1 that displays a main image using the first light from the light source 212.

The sub area SA1 is a first point of the point light source unit 200 among the display panels in order to more effectively use the light from the first point light source 212 and the second point light source 214 of the point light source unit 200. The light source 212 is formed at a position adjacent to the second point light source 214. Accordingly, the main area MA1 is formed at a position spaced apart from the light generating unit 210 by the sub area SA1.

The point light source driving chip 960 is formed on the flexible circuit board 950 of the display panel 900. That is, in the point light source driving chip 960, since the flexible circuit board 950 is electrically connected to the point light source film 220 of the point light source unit 200, the first point light source 212 of the point light source unit 200 is provided. ) And the second point light source 214 may be controlled to apply the driving power.

Specifically, the point light source driving chip 960 is connected in parallel with the first point light source 212 and the second point light source 214 to be driven separately from the first point light source 212 and the second point light source 214, respectively. Power can be applied. That is, when the main image is displayed, driving power is applied to the first point light source 212 so that the main image and the sub image are displayed at the same time. When the main image is not displayed, the driving power is supplied to the second point light source 214. Only the sub-image may be displayed. The liquid crystal display device 1100 may be used in a slide type or flip type mobile communication terminal.

The liquid crystal display 1100 may further include a reflective sheet 780 disposed between the light guide plate 100 and the bottom chassis 700 to reflect light emitted downward from the light guide plate 100 upward.

According to the liquid crystal display device as described above, the driving power is individually applied by the point light source driving chip to the first point light source consisting of the plurality of light emitting diodes of the point light source unit and the second point light source consisting of one light emitting diode. When displaying an image only in an area, light may be generated only in a second point light source. Therefore, power consumption can be reduced.

In the detailed description of the present invention described above with reference to the preferred embodiments of the present invention, those skilled in the art or those skilled in the art having ordinary skill in the art will be described in the claims to be described later It will be understood that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

Claims (9)

Light guide plate; A point light source unit disposed on one side of the light guide plate and including at least one first point light source generating first light and a second point light source arranged on the same line as the first point light source to generate a second light; A first display panel disposed on the light guide plate and configured to display an image using first light from the first point light source; And A sub-area disposed below the light guide plate to be adjacent to the point light source unit and displaying an image using any one of the first light and the second light and an image using the first light; A liquid crystal display comprising a second display panel divided into a main area. The liquid crystal display of claim 1, wherein the sub-region is formed at a position adjacent to the point light source unit of the second display panel. The liquid crystal display device according to claim 2, wherein the second point light source is disposed corresponding to the center of the sub-region. The liquid crystal display of claim 3, wherein the sub-region displays an image using the first light in a normal mode in which an image is displayed on the entire second display panel. The liquid crystal display of claim 4, wherein the sub-region displays an image using the second light in a standby mode in which an image is displayed only in a sub-region of the second display panel. 6. The liquid crystal of claim 5, wherein the first point light source is made of a light emitting diode which generates white light, and the second point light source is made of a light emitting diode which generates light of any one of red light, green light and blue light. Display. The method of claim 1, A first optical sheet disposed between the light guide plate and the first display panel; A second optical sheet disposed below the light guide plate; And And a semi-transmissive reflective sheet disposed between the light guide plate and the second optical sheet to reflect a portion of the light emitted to the lower portion of the light guide plate to an upper portion thereof. Light guide plate; A point light source unit disposed on one side of the light guide plate and including at least one first point light source generating first light and a second point light source arranged on the same line as the first point light source to generate a second light; And A display panel disposed on the light guide plate and divided into a sub area displaying an image using one of the first light and the second light and a main area displaying an image using the first light; Liquid crystal display comprising a. The liquid crystal display of claim 8, wherein the sub-region is formed at a position adjacent to the point light source unit of the display panel.

Images