KR20020081757A - Back light for multi flat display device - Google Patents

Abstract

PURPOSE: A back light for a multi flat display is provided to obtain equal brightness of the whole multi screen by absorbing or dispersing a back light at a boundary part connecting a plurality of display panels, thereby improving the quality of the screen. CONSTITUTION: A back light for a multi flat display includes a light guide plate(18) installed at the backside of a plurality of display panels for inducing surface emitting, a light source(20) installed at the side of the light guide plate for irradiating a light, a reflecting plate(24) installed at the backside of the light guide plate for reflecting the light to the front, a brightness control element(26) installed at the opposite side of the light source and controlling traveling of the light reflected from the side of a boundary part of the display panels toward the display.

Description

Back light for multi flat display device

The present invention provides a multi-flat display device by connecting a plurality of display panels, in particular, the backlight for the multi-flat display device to solve the disadvantage that the display quality of the screen is reduced overall due to abnormally high luminance at the boundary portion where the display panel meets. It is about.

The multi display device is configured by connecting a plurality of flat panel display panels to efficiently use a narrow space of portable and office equipment and to realize a large screen at the same time.

An example of such a multi display apparatus is disclosed in Korean Patent Application Laid-Open No. 98-22273 (1998. 7. 6). Here, the flat panel display has an effect of expanding the screen of the display unit when both panels are unfolded.

As a flat panel display panel, a liquid crystal display (LCD), a thin film transistor (TFT) -LCD, a field emission display (FED), a plasma display panel (PDP) and an electro luminescent (EL) display may be used. Is mainly used.

In the liquid crystal display, an arrangement of liquid crystals affected by an electric field is changed in phase according to voltage application, and an image is displayed by selectively transmitting and blocking light of a backlight according to the phase change. The liquid crystal display has a problem in that the screen quality is lower than that of the cathode ray tube. In order to solve this problem, a backlight having high brightness and high brightness and achieving uniform light emission is required.

For example, Korean Patent Application Publication Nos. 2000-60377, 2001-2923, 2000-48432, and 2000-53425 disclose generally known backlight structures for liquid crystal displays.

The structure of the backlight for the liquid crystal display device introduced here includes a side light source made of a cold cathode tube or an LED, and a light guide plate, a reflecting plate, a diffuser plate, and the like to guide the side light to surface light emission.

In order to realize uniform surface emission, the liquid crystal display backlight is provided with a plurality of protrusions on the reflecting plate to diffusely reflect and scatter light, or to install the reflecting plate at the end portion (opposite side) of the light guide plate where the light of the light source is weak. To improve.

Although the above-mentioned backlight for a liquid crystal display device realizes surface uniformity to some degree and improves brightness, this is useful when using a single liquid crystal display device, while connecting a plurality of liquid crystal display devices to connect a multi-screen display. In the case of configuration, the quality of the entire screen is rather deteriorated.

For example, when a reflector is provided at an end portion of a light guide plate in which light of a light source is weak, in a single liquid crystal display device, the brightness of the screen may be improved and somewhat uniformed due to the increase of light caused by the reflector plate. In the screen, the brightness of the end part by the reflector is brighter than other parts, and thus there is a problem of protruding the boundary part of the screen and displaying heterogeneity.

The present invention is to solve the problems of the prior art, by controlling the light reflected from the side of the boundary portion is connected to the plurality of liquid crystal display device to the display to absorb or diffuse the backlight light uniform across the entire multi-screen The purpose of the present invention is to obtain luminance and, as a result, to solve the heterogeneity of the screen and to improve the screen quality.

1 is an exploded perspective view of a multi-flat display device according to the present invention.

2 is an exploded perspective view of a multi-flat display device according to the present invention.

3 is an exploded perspective view of a backlight of the multi-flat display device of the present invention.

4 is a cross-sectional view showing another embodiment of the present invention.

5 and 6 are perspective views showing an embodiment of the light guide plate of the present invention.

Explanation of symbols on the main parts of the drawings

2,4-display panel 14-backlit

18-light guide plate 20-light source

22-spread plate

26-Absorption Plate 28-Reflective Film

30-permeability control means 32-unit transmittance control means

In order to achieve the above object, in the present invention, in order to implement a multi-flat display device having a large screen by connecting a plurality of display panels, a light guide plate for inducing surface light emission is installed on a rear surface of the display panel, and a light source is provided on a side of the light guide plate. The present invention provides a backlight for a multi-flat panel display device having a reflection plate for reflecting light on a rear surface of the light guide plate and a light brightness adjusting means on a side opposite to the light source.

Here, a diffusion plate for uniformly dispersing light is provided on the front surface of the light guide plate.

The light intensity control means controls the light reflected from the side of the boundary proceeds toward the display, and preferably uses a back reflection film for scattering and reflecting light toward the light absorbing plate or the reflecting plate. The back reflection film may be composed of a transparent or semitransparent film having an inclined surface for dispersing and reflecting light toward the reflecting plate.

In addition, as another embodiment of the present invention, the front surface of the light guide plate is provided with transmittance adjusting means for lowering the light transmittance near the light source and increasing the light transmittance toward the opposite side. The transmittance adjusting means may be formed by printing an aluminum film or a translucent film on the surface of the light guide plate, and particularly, the aluminum film or the translucent film may be formed so that the side adjacent to the light source is wider and narrower toward the opposite side.

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described based on an accompanying drawing.

In the present invention, the display panel will be described as an example.

1 and 2 show a multi-flat display device implemented by the present invention.

As shown in the drawing, the multi-flat display apparatus of the present invention has a panel housing (6) (8) for dividing the two display panels (2) and (4) into two sides, respectively, and the panel housing (6) ( 8) is configured to include a connecting means (10) for foldably coupled support to be folded in a completely parallel state or to be expanded at least 180 degrees.

The connecting means 10 consists of a hinge which is installed at the center of rotation of the panel housing 6, 8.

The display panels 2 and 4 are housed in the panel housings 6 and 8 so that at least one side thereof is in contact with each other. In the structure of the display panels 2 and 4 housed inside the panel housings 6 and 8, the module is formed together with the driving circuit board 12, and the backlight 14 is installed on the rear surface of the panel housing 6. These components are assembled by using the chassis 16.

In the multi-flat display device configured as described above, in the present invention, in order to solve the abnormal luminance occurring at the boundary of the display panel (2) and (4) which are in contact with each other, light brightness adjusting means for absorbing and dispersing backlight light at the boundary. It is characterized by the installation. In this case, the abnormal luminance mainly means that the light reflected from the side of the boundary portion is advanced toward the display, thereby increasing the luminance of the display boundary portion.

Referring to the configuration of the backlight 14 in more detail based on FIG. 3, a light guide plate 18 for inducing surface light emission is installed on the rear surface of the display panel 2 and 4, and the side surface of the light guide plate 18 is provided. The light source 20 is installed in the light guide plate, and the diffuser plate 22 is provided on the front surface of the light guide plate 18, and the reflector plate 24 reflects light on the rear surface of the light guide plate 18. As the light source 20, a cold cathode tube or an LED may be used.

In particular, the backlight 14 according to the present invention has a brightness control means for absorbing or scattering and reflecting the light irradiated from the light source 20, unlike the prior art in which a reflector for increasing the brightness is provided on the opposite side of the light source 20. It is done by installing it.

Preferably, the above-described brightness control means may be composed of a light absorbing plate 26 coated with graphite or a material having a color for absorbing light.

In addition, as shown in FIG. 4, the light brightness adjusting means may be configured as a back reflection film 28 that scatters and reflects light toward the reflecting plate 24. The back reflection film 28 is provided with a plurality of inclined surfaces 28a to diffusely reflect the light toward the reflecting plate. At this time, the inclined surface 28a may be formed to have different angles to prevent the reflected light from being concentrated as a part and to disperse the light. In addition, the back reflection film 28 is preferably composed of a transparent or semi-transparent film in order to suppress the increase in luminance due to the reflected light.

5 and 6 show another embodiment of the present invention.

As shown, in another embodiment of the present invention, the light transmittance adjusting means 30 for adjusting the amount of light emitted through the light guide plate 18 toward the front surface, that is, toward the display panel 2 and 4 together with the above-described light brightness adjusting means 30. ) Is installed more.

The transmittance adjusting means 30 reduces the light transmittance of the side (right side in the drawing) adjacent to the light source 20 and the light on the front surface of the light guide plate 18 in order to increase the light transmittance toward the other side (left side of the drawing). It is made by installing a blocking member.

More specifically, the transmittance adjusting means 30 may be configured by printing an aluminum film or a semi-transparent film on the surface of the light guide plate 18, in particular, the side adjacent to the light source 20 is wider and narrower toward the opposite side. do.

In addition, when the brightness of the end portion of the light guide plate 18 is high, as shown in FIG. 6, an additional unit transmittance adjusting means 32 is further provided on the boundary of the display panel 2 and 4 to reduce light transmittance. Can be. The unit transmittance adjusting means 32 is configured such that the end portion end side (the left side of the drawing) is wider and becomes narrower toward the opposite side (the right side of the drawing).

Based on the structure of this invention demonstrated above, the effect | action is as follows.

In the multi-flat display device, a liquid crystal display device is used as the display panels 2 and 4, and in this case, a high brightness is generated at the boundary of the liquid crystal display device, resulting in a heterogeneity of the screen.

In order to prevent this, the brightness control means of the present invention absorbs or scatters and reflects the light irradiated from the light source 20 and reaches the end portion through the light guide plate 18, in particular, the boundary of the display panel 2, 4. This is to prevent the brightness from increasing.

In addition, according to the transmittance control means 30 of the present invention can realize a uniform brightness in the entire surface of the surface-emitting backlight, in particular to block a lot of light transmittance of the portion adjacent to the light source 20 and the opposite (end part) The light transmittance is improved to compensate for the lowering of the luminance of the boundary between the display panels 2 and 4 by the light intensity adjusting means. In this case, the brightness of the boundary of the display panel (2) (4) may be increased, in which case the unit transmittance adjusting means 32 is formed on the boundary side to block the light transmittance of the opposite end portion of the light source and block the light transmittance toward the opposite side. Adjust to slightly reduce.

As can be seen through the embodiments described above, the present invention absorbs or disperses the backlight light at the boundary portion between the plurality of display panels, particularly the liquid crystal display device, thereby realizing uniform luminance across the entire multi-screen. The effect of eliminating the heterogeneity of the screen and improving the screen quality can be obtained.

On the other hand, the present invention is not limited to the above-described specific embodiments, it is apparent to those skilled in the art that the present invention can be modified or changed within the scope of the technical idea of the present invention, such modifications and changes are It will belong to the claims of the invention.

Claims (7)

In connecting a plurality of display panels to implement a large flat screen display device, A light guide plate disposed on a rear surface of the display panel to induce surface emission, a light source disposed on a side surface of the light guide plate to irradiate light, a reflector plate disposed on a rear surface of the light guide plate to reflect light to the front surface, and an opposite side of the light source. A backlight for a multi-flat panel display device, which is installed at a side surface and includes light brightness adjusting means for controlling the light reflected from the side of the boundary of the display panel to be directed toward the display. The backlight of claim 1, further comprising a diffuser plate disposed in front of the light guide plate. The backlight of claim 1, wherein a light absorbing plate is used as the light intensity adjusting means. The backlight for a multi-flat display device according to claim 1, wherein the light brightness adjusting means is a post-reflection film that scatters and reflects light toward a reflecting plate. The backlight of claim 4, wherein the back reflection film is a transparent or translucent film having an inclined surface for dispersing and reflecting light toward a reflecting plate. 2. The multi-flat display device according to claim 1, wherein the front surface of the light guide plate is provided with unit transmittance adjusting means for lowering light transmittance near the opposite end of the light source and increasing light transmittance toward the opposite side. Backlight. The method of claim 6, wherein the unit transmittance adjusting means is obtained by printing an aluminum film or a translucent film on the surface of the light guide plate, wherein the aluminum film or translucent film is wider adjacent to the opposite end portion of the light source and narrowed toward the opposite side. Backlight for multi flat panel display devices.