KR20060039218A - A flat display device comprising a plurality of flat display panels - Google Patents

Abstract

The present invention relates to a flat panel display device including a plurality of flat panel display panels. To this end, the flat panel display device according to the present invention comprises at least two flat panel display panels arranged side by side so as to face each other to display an image, and supplying light to each flat panel display panel and supplying an area equal to or greater than the sum of the areas of each flat panel display panel. And a backlight assembly. The present invention can simplify the installation while minimizing the occupied area of the flat panel display.

Area, Backlight Assembly, Reflective, Large

Description

Flat panel display device including a plurality of flat panel display panel {A FLAT DISPLAY DEVICE COMPRISING A PLURALITY OF FLAT DISPLAY PANELS}

1 is an exploded perspective view of a flat panel display device according to a first embodiment of the present invention.

2 is a perspective view illustrating a flat panel display device according to a first exemplary embodiment of the present invention.

3 is a partial cross-sectional view taken along line AA of FIG. 2.

4 is a perspective view illustrating a flat panel display device according to a second exemplary embodiment of the present invention.

The present invention relates to a flat panel display device including a plurality of flat panel display panels, and more particularly, to a flat panel display device capable of supplying light to a plurality of flat panel display panels using one backlight assembly.

With the recent development of semiconductor technology, which is rapidly developing in recent years, the demand for flat panel display devices that are smaller and lighter and has improved performance is exploding.

The liquid crystal display (LCD), which has recently been in the spotlight among the flat panel display devices, has advantages such as miniaturization, light weight, and low power consumption, thereby overcoming the disadvantages of the conventional cathode ray tube (CRT). As an alternative means, it has been gradually attracting attention, and is currently used in almost all information processing apparatuses that require display devices.

A general liquid crystal display device applies voltage to a specific molecular array of a liquid crystal to convert it into another molecular array, and visually changes optical properties such as birefringence, photoreactivity, dichroism, and light scattering characteristics of the liquid crystal cell emitted by the molecular array. It is a light-receiving display device which converts into a change and displays information using the modulation of the light by a liquid crystal cell.

Such liquid crystal display devices are also used in places requiring multiple screens to display a large amount of information, such as airports, securities companies and shops, as demand increases. However, as many liquid crystal display devices are installed as many as necessary where the screens are needed, many problems occur, such as an increase in the number of other auxiliary devices accompanying the driving as well as an increase in the installation area. In addition, in the case of installing a plurality of liquid crystal display devices as described above, installation costs are high.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and provides a flat panel display device capable of simultaneously driving a plurality of flat panel display panels using one backlight assembly.

According to an aspect of the present invention, there is provided a flat panel display device including at least two flat panel display panels arranged side by side so as to face each other to display an image, and supplying light to each flat panel display panel and supplying light to each flat panel display panel. And a backlight assembly having an area equal to or greater than the sum thereof.

In this case, one backlight assembly may be used to supply light to each flat panel display panel.

In addition, the flat panel display device according to the present invention may further include a mold frame for holding and holding each flat panel display panel while being spaced apart from each other.

Here, it is preferable that a space is formed in the mold frame so that the space is inserted between the flat panel display panels.

And it is preferable that the reflecting plate is attached to the lower portion of the separation portion.

The flat panel display apparatus according to the present invention may further include a top chassis for covering and fixing each flat panel display panel at a time.

The light source may be arranged on an opposite surface of the backlight assembly to the flat panel display panel.

Here, the light source may be composed of a plurality of lamps arranged side by side.

The flat panel display panel is preferably a liquid crystal display panel.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 4. These embodiments of the present invention are merely for illustrating the present invention, but the present invention is not limited thereto.

FIG. 1 is an exploded perspective view of a flat panel display device 100 according to a first embodiment of the present invention, and shows a state in which two flat panel display panels are used as one backlight assembly 70.

Although the liquid crystal display panel 50 is shown in FIG. 1 as a flat panel display panel, this is merely to illustrate the present invention, and the present invention is not limited thereto. Therefore, other light receiving display panels can be used in addition to the liquid crystal display panel. In addition, the structure of the flat panel display device 100 shown in FIG. 1 is only for illustration of this invention, Comprising: This invention is not limited to this. Therefore, not only the structure of the flat panel display device may be modified in other forms, but also the shape of the light source may be variously modified.

The flat panel display device 100 according to the first embodiment of the present invention shown in FIG. 1 includes a backlight assembly 70 for guiding and supplying light and a liquid crystal display panel 50 for displaying an image corresponding to the light. do. The liquid crystal display panel assembly 40 includes a liquid crystal display panel 50, a chip on glass (COF) 44 for controlling the liquid crystal display panel 50, a printed circuit board, PCB) 42. Top chassis 60, mold frame 62, and bottom chassis 64 are coupled to securely support them.

The liquid crystal display panel 50 arranged side by side in one direction includes a TFT substrate 51 composed of a plurality of TFTs (thin film transistors), a color filter substrate 53 disposed on the TFT substrate 51, and the substrates. It is made of a liquid crystal (not shown) injected into. A polarizer (shown in FIG. 3) is attached to the upper portion of the color filter substrate 53 and the lower portion of the TFT substrate 51.                     

The TFT substrate 51 is a transparent glass substrate on which a matrix thin film transistor is formed, a data line is connected to a source terminal, and a gate line is connected to a gate terminal. In the drain terminal, a pixel electrode made of transparent indium tin oxide (ITO) as a conductive material is formed.

When electrical signals are input from the printed circuit board 42 to data lines and gate lines of the liquid crystal display panel 50, electrical signals are input to the source terminal and the gate terminal of the TFT, and the TFTs are input according to the input of these electrical signals. Is turned on or turned off, and an electrical signal necessary for pixel formation is output to the drain terminal.

On the other hand, the color filter substrate 53 is disposed thereon opposite the TFT substrate 51. The color filter substrate 53 is a substrate in which RGB pixels, which are color pixels in which a predetermined color is expressed while light passes, are formed by a thin film process, and a common electrode made of ITO is coated on the entire surface thereof. When power is applied to the gate terminal and the source terminal of the TFT and the thin film transistor is turned on, an electric field is formed between the pixel electrode and the common electrode of the color filter substrate. By this electric field, the arrangement angle of the liquid crystal injected between the TFT substrate 51 and the color filter substrate 53 is changed, and the light transmittance is changed according to the changed arrangement angle to obtain a desired pixel.

In order to control the alignment angles of the liquid crystals and the timing at which the liquid crystals are arranged in the liquid crystal display panel 50, a driving signal and a timing signal are applied to the gate line and the data line of the TFT, and the timing of applying the data driving signal and the gate driving signal is determined. In order to do this, a COF 44 mounted with an integrated circuit chip (dotted line) is attached. The printed circuit board 42 generates a data signal for driving the flat panel display device 100, a gate driving signal, and a plurality of driving signals for applying these signals at an appropriate time, thereby generating a gate driving signal and a data driving signal by COF. Through 44, it is applied to the gate line and the data line of the liquid crystal display panel 50, respectively.

The backlight assembly 70 is received and fixed on the bottom chassis 64. The backlight assembly 70 reflects light emitted from the lamps 76 disposed on the bottom surface of the bottom chassis 64 and a plurality of lamps 76 arranged side by side at a predetermined distance on the bottom chassis 64. The reflective sheet 79, the frame mold side 78 for fixing both ends of the plurality of lamps 76, and the luminance characteristics of the light from the lamps 76, and the light is emitted to the liquid crystal display panel 50. An optical sheet 72 and a diffusion plate 74 are provided.

On the back of the bottom chassis 64, an inverter board 46, which is a printed circuit board for power supply, and a printed circuit board for signal conversion (not shown) are installed. Only one inverter board 46 may be provided. The inverter 461 mounted on the inverter board 46 converts an external power supply to a constant voltage level and provides the lamp 76 with a signal conversion printed circuit board connected to the printed circuit board 42 to connect analog data signals. Is converted into a digital data signal and provided to the liquid crystal display panel 50.

The top chassis 60 is provided on the liquid crystal display panel assembly 40 to prevent the liquid crystal display panel assembly 40 from escaping from the bottom chassis 64 while bending the COF 44 to the outside of the bottom chassis 64. do. Since the top chassis 60 covers and fixes each flat panel display panel 50 at once, the space between the panels can be reduced compared to covering each flat panel panel with each top chassis, thereby minimizing unnecessary occupying area. . The mold frame 62 is fixedly supported while separating each liquid crystal display panel 50 from each other. To this end, a spaced portion 621 is formed in the mold frame 62 to be inserted between the liquid crystal display panels 50. Although not shown in FIG. 1, a front case and a rear case are positioned at an upper portion of the top chassis 60 and a lower portion of the bottom chassis 64, respectively, to form a flat panel display device 100 by combining them.

As shown in FIG. 1, the flat panel display device 100 according to the first exemplary embodiment of the present invention is a dual liquid crystal display device, and has a flat panel display device 100 having a structure using two liquid crystal display panels 50. ). That is, the liquid crystal display panel 50 which displays an image is arranged side by side so that side surfaces may face along the X axis. Although two liquid crystal display panels are shown here, this is merely to illustrate the present invention and the present invention is not limited thereto. Therefore, only two flat panel display panels need be provided.

In the case of the backlight assembly 70 shown in FIG. 1, light is supplied to each of two liquid crystal display panels together using one large backlight assembly. Since the flat panel display device 100 has such a structure, the area of the backlight assembly 70 is equal to or larger than the sum of the areas of the liquid crystal display panels 50. Accordingly, the occupied area of the flat panel display device 100 is greatly reduced, and there is an advantage of minimizing the cost of installation.

As such, since one backlight assembly is used to supply light to several liquid crystal display panels, the backlight assembly is enlarged. Therefore, as shown in FIG. 1, it is preferable to use a direct backlight assembly in which a plurality of lamps 76 are arranged side by side as a light source.                     

2 is a perspective view illustrating a flat panel display device 100 according to a first embodiment of the present invention in which all internal components of the flat panel display device 100 shown in FIG. 1 are combined.

Since the flat panel display 100 can display the same or different images at once through the two liquid crystal display panels 50 as shown in FIG. 2, the flat panel display apparatus 100 is suitable for installation in a place requiring a lot of information. . The backlight assembly positioned below the liquid crystal display panel 50 may implement a clear image by arranging a lamp, which is a light source, on an opposite surface thereof, that is, an opposite surface to the liquid crystal display panel 50.

3 is a partial cross-sectional view taken along line AA of FIG. 2 and illustrates a process in which light emitted from a light source is supplied to the liquid crystal display panel 40 through the inside of the flat panel display 100.

As indicated by the arrow, the light emitted from the lamp 76 is reflected by the reflecting sheet 79 or the luminance is improved while passing through the diffusion plate 74 and the optical sheet 72 to the both liquid crystal display panel 50. Supplied. In this case, the reflection plate 623 is attached to the lower portion of the spaced portion 621 of the mold frame inserted between the two liquid crystal display panels 40 to reflect the light rising from the lower portion. Accordingly, since the light is not reflected between the two liquid crystal display panels 40 without being lost, the light is reflected to both liquid crystal display panels 50, thereby minimizing light loss inside the flat panel display device 100. Here, the reflective plate 623 may be used by coating silver (Ag) on the surface.

As described above, the flat panel display according to the first exemplary embodiment of the present invention shown in FIGS. 1 to 3 uses two liquid crystal display panels as one backlight assembly, thereby minimizing the occupied area of the flat panel display. There is an advantage that can be simply installed. Hereinafter, another modified example of the present invention will be described.

4 is a perspective view illustrating a flat panel display device 200 according to a second exemplary embodiment of the present invention, showing the flat panel display device 200 using four liquid crystal display panels 50.

In the flat panel display 200, four liquid crystal display panels 50 are arranged side by side so that their side surfaces face each other along the X-axis direction and the Y-axis direction. Even when four liquid crystal display panels 50 are used as described above, light may be supplied to each liquid crystal display panel 50 using one top chassis 61 and one backlight assembly. The shape of the top chassis 61 and the mold frame (not shown) is the same as the top chassis and the mold frame according to the first embodiment of the present invention described above. Accordingly, the occupied area can be greatly reduced than dividing into four flat panel display devices separately. This is due to the decrease in the distance between the liquid crystal display panels 50.

Thus, by arranging two or more flat panel display panels side by side and supplying light through a backlight assembly having a larger area than the sum of the areas of the flat panel display panel, not only the installation is easy but also the installation area is greatly reduced.

As described above, the flat panel display device according to the present invention supplies light to each flat panel display panel using a backlight assembly having an area equal to or greater than the sum of the areas of two or more flat panel display panels, thereby reducing the occupied area of the flat panel display device. There is an advantage that can be minimized.

In addition, since one backlight assembly is used, only one inverter board or the like may be installed, thereby simplifying the installation and minimizing the consumption of the accompanying device.

Since the flat display panel includes a mold frame spaced apart from each other, there is no risk of colliding and damaging the flat panel display panel during transportation.

Since the separation part formed in the mold frame is inserted between the flat panel display panels, each flat panel display panel can be firmly supported.

A reflective plate may be installed below the separation unit to minimize light loss in the flat panel display, thereby realizing a clear screen.

The top chassis has the advantage of significantly reducing the installation area by covering and fixing each flat panel display panel at once.

Since the light sources are arranged on the opposite surface of the backlight assembly with respect to the flat panel display panel, the display quality may be improved by supplying light having improved brightness.

Since the light source is composed of a plurality of lamps arranged side by side, it is suitable for a large flat panel display.

As a flat panel display panel uses a liquid crystal display panel which is currently used a lot, it is possible to practically apply to the actual product.

Although the present invention has been described above, it will be readily understood by those skilled in the art that various modifications and variations are possible without departing from the spirit and scope of the claims set out below.

Claims (9)

At least two flat panel display panels arranged side by side so as to face each other to display an image, and A backlight assembly supplying light to each of the flat panel display panels, the backlight assembly having an area equal to or greater than the sum of the areas of the flat panel display panels Flat display device comprising a. In claim 1, A flat panel display device which supplies light to each of the flat panel display panels using one backlight assembly. In claim 1, And a mold frame which fixes and holds each of the flat panel display panels apart from each other. In claim 3, And a separation part is formed in the mold frame, and the separation part is inserted between the flat panel display panels. In claim 3, A flat panel display device having a reflective plate attached to a lower portion of the separation unit. In claim 1, And a top chassis which covers and fixes each of the flat panel display panels at once. In claim 1, And a light source arranged on an opposite surface of the backlight assembly to the flat panel display panel. In claim 7, The light source includes a plurality of lamps arranged side by side. In claim 1, And the flat panel display panel is a liquid crystal display panel.

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