KR20010058680A - Liquid Crystal Display Module with a Common Voltage Control Element at its Side face - Google Patents

Abstract

PURPOSE: An LCD module having a side exposure type common voltage controlling device is to control the common voltage easily and remove a structural brittleness of the LCD panel. CONSTITUTION: A printed circuit board(34) has circuit parts for supplying a voltage signal including a common voltage necessary for an LCD panel(30), a control signal and a data signal. A common voltage controlling device(36) is established parallel to a side surface of the PCB(printed circuit board) at one sided edge of the PCB. A top case(32) covers edges of a front surface and side surfaces of the LCD panel. The top case includes a cut opening portion formed at a side portion of the top case and for exposing a part of the common voltage controlling device. The circuit parts of the PCB face the LCD panel. The common voltage controlling device is a variable resistance having a control tab(36A) exposed to the outside via the cut opening portion.

Description

Liquid crystal display module with a common voltage control element at its side face}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display module having an element for adjusting a common voltage to be supplied to a liquid crystal panel, and more particularly to a liquid crystal display module having a common voltage adjusting element provided on its side.

A typical liquid crystal display module displays an image corresponding to a video signal using a liquid crystal whose light transmittance varies depending on the magnitude of the electric field (ie, voltage level). To this end, the liquid crystal display module includes a backlight unit for generating light to be used in the liquid crystal panel, an optical sheet for guiding light from the backlight unit vertically toward the liquid crystal panel, a voltage signal and a control signal for driving the liquid crystal panel. And a printed circuit board (hereinafter, referred to as "PCB") that provides a data signal.

The liquid crystal panel has liquid crystal cells positioned between upper and lower glass substrates, pixel electrodes provided on the lower glass substrate to correspond to the liquid crystal cells, and a common electrode provided on the upper glass substrate. The pixel electrodes are located at intersections between the plurality of gate lines and the plurality of data lines, respectively. Further, these pixel electrodes are selectively connected to the data lines by the operation of thin film transistors (hereinafter referred to as "TFTs") connected in response to control signals on the gate lines. The liquid crystal panel thus constructed may be represented by an electrical equivalent circuit as shown in FIG.

The liquid crystal panel illustrated in FIG. 1 includes pixel cells PCE provided at respective intersections between the plurality of gate lines GL1 to GLm and the plurality of data lines DL1 to DLn. Each of the pixel cells PCE has a liquid crystal cell CLC connected to a common voltage line VCL and an auxiliary capacitor Ca connected to lower gate lines GL0 to GLm-1. These liquid crystal cells CLC and the auxiliary capacitor Ca are selectively applied to the data lines DL1 to DLn by a switching operation of the TFT MN which is selectively turned on in response to a control signal on the gate lines GL1 to GLm. Will be connected.

The liquid crystal cells arranged on the liquid crystal panel are charged with data signals having polarities opposite to adjacent pixels according to the driving method of the liquid crystal panel. In fact, when the liquid crystal panel is driven in a dot inversion method, the liquid crystal cells CLC on the liquid crystal panel have a data signal having a polarity opposite to that of the data signal charged in pixels located on the top, bottom, left, and right sides as shown in FIG. 2. Will charge. Secondly, when the liquid crystal panel is driven in a line inversion manner, the liquid crystal cells on the liquid crystal panel receive a data signal having a polarity opposite to that of the data signal charged in pixels adjacent to each other located above and below as shown in FIG. 3. Will be charged. Unlike these two driving methods, when the liquid crystal panel is driven in a column inversion manner, the liquid crystal cells CLC on the liquid crystal panel are filled in the liquid crystal cells CLC arranged adjacent to the left and right as shown in FIG. 4. The data signal of a polarity opposite to that of the data signal is charged.

As described above, when the liquid crystal panel is driven in a dot, line, or column inversion scheme, the data signal applied to any one liquid crystal cell CLC is displayed in a period (ie, a frame) in which one image is displayed as shown in FIG. In each period, the polarity is reversed based on the common voltage Vcom. In addition, the data signal has a frequency of 30 Hz when 60 images are displayed per second. When a specific pattern is displayed on the liquid crystal panel by this data signal, flicker noise such as the brightness of light in the specific pattern changes at a frequency of 30 Hz appears. This flicker noise is caused by the difference between the data signal of positive polarity and the data signal of negative polarity based on the common voltage Vcom is not " 0 ".

In order to prevent the occurrence of such flicker noise, a common voltage element such as a variable resistor is provided on the PCB to properly adjust the level of the common voltage supplied to the common electrode included in the liquid crystal panel. Accordingly, the manufacturer of the liquid crystal display module adjusts the common voltage element provided on the PCB during the final inspection of the liquid crystal display module to minimize the flicker noise.

The common voltage regulation element provided on the PCB is installed so as to be exposed to the rear side. In this case, the common voltage adjusting element is not shown in FIG. 6 where only the front and side surfaces of the liquid crystal panel 10 and the top case 12, that is, the liquid crystal display module, are shown. However, the common voltage adjustment is performed on the back of the liquid crystal display module, that is, Fig. 7 showing the top case 12, the frame assay 14 and the PCB 16, and Fig. 8 showing the top case 12 and the PCB 16. Element 18 is revealed.

In order to expose the common voltage adjusting element 18 to the rear side of the liquid crystal display module, the PCB 16 has to be installed so that the solder surface thereof faces the frame assay 14 as shown in FIG. In other words, the PCB 16 exposes not only the common voltage regulating element 18 but also all other circuit elements 16A to the back side. For reference, in FIG. 9, the backlight unit 20 is located above the frame assay 14, and the optical sheet 24 is provided between the backlight unit 20 and the liquid crystal panel 10. In addition, the polarizing sheet 20 is attached to the upper portion of the liquid crystal panel 10.

When the adjusting tab 18A of the common voltage adjusting element 18 is exposed to the rear side of the liquid crystal display module, all the circuit elements 16A and 16B on the PCB 16 are exposed to the outside, which may be easily damaged. There is. In addition, the manufacturer may change the common voltage Vcom to minimize flicker noise only by adjusting the adjusting tap 18A of the common voltage adjusting element 18 while looking at the front of the liquid crystal display module, that is, the liquid crystal panel. . In other words, adjustment of the common voltage Vcom for minimizing flicker noise becomes very difficult.

Alternatively, the common voltage regulating element provided on the PCB may be installed to be exposed to the front side as shown in FIG. In this case, the PCB 16 is provided with circuit elements such that the solder surface is exposed to the outside, i.e., the common voltage regulation element 18A and all other circuit elements 16A are installed toward the frame assay 14 side. To minimize damage to (16A). However, in order for the common voltage adjusting element 18 to be exposed to the front side, a through hole must be provided in the front wing of the frame assay 14 and the top case 12. Since the through holes are formed in the wing portions of the frame assay 14 and the top case 12, the frame assay 14 and the top case 12 are mechanically weak.

Accordingly, an object of the present invention is to provide a liquid crystal display module having a side exposed type common voltage adjusting element suitable for facilitating adjustment of the common voltage and minimizing mechanical weakness.

1 is a diagram schematically showing a conventional liquid crystal panel.

2 is a view for explaining a dot inversion driving method.

3 is a view for explaining a driving method of the line inversion method.

4 is a view for explaining a column inversion driving method.

Fig. 5 is a waveform diagram showing data signals charged in liquid crystal cells by an inversion driving method.

Fig. 6 is a perspective view showing a liquid crystal display module having a back exposure type common voltage adjusting element.

FIG. 7 is a rear view of the liquid crystal display module shown in FIG. 6.

8 is a side view of the liquid crystal display module shown in FIG. 6;

FIG. 9 is a cross-sectional view of the liquid crystal display of FIG. 8 taken along the line AA ′. FIG.

10 is a cross-sectional view showing a liquid crystal display module having a front-side exposure type common voltage adjusting element.

11 is a perspective view illustrating a liquid crystal display module having a side exposed type common voltage adjusting element according to an embodiment of the present invention.

FIG. 12 is a cross-sectional view of the liquid crystal display module of FIG. 11 taken along the line B-B '. FIG.

FIG. 13 is a diagram showing details of the printed circuit board and the variable resistor shown in FIG.

<Description of Symbols for Main Parts of Drawings>

PCE: pixel cell CLC: liquid crystal cell

Ca: auxiliary capacitor MN: thin film transistor

DL1 to DLn: data line GL1 to GLm: gate line

10,30: liquid crystal panel 12,32: top case

14,38: Frame Assay 16,34: Printed Circuit Board

16A, 34A: circuit element 18, 36: common voltage adjusting element

18A, 36A: Adjustment Tab 20,44: Polarizing Sheet

22,40 Backlight unit 24,42 Optical sheets

In order to achieve the above object, a liquid crystal display module having a side exposed type common voltage adjusting element according to an exemplary embodiment of the present invention has printed circuits for supplying a voltage signal, a control signal, and a data signal including a common voltage required for the liquid crystal panel. The circuit board, a common voltage regulating element installed laterally on one side edge of the printed circuit board, and a cutout portion which wraps the edges and sides of the front surface of the liquid crystal panel and exposes a part of the common voltage regulating element is provided on the side wall. It is characterized by including a top case.

Other objects and features of the present invention in addition to the above object will be apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, with reference to Figures 11 and 13 attached to a preferred embodiment of the present invention will be described in detail.

FIG. 11 illustrates a liquid crystal display module having a side exposed type common voltage adjusting element according to an exemplary embodiment of the present disclosure. Referring to FIG. 11, the liquid crystal display module includes a top case 32 surrounding the front edge and side surfaces of the liquid crystal panel 30, and a PCB 34 installed at an upper half of the rear surface of the top case 32. The PCB 34 is provided with a common voltage adjusting element (for example, a variable resistor) 36 to face the liquid crystal panel 30 and the adjustment tab 36A toward the side wall of the top case 32. . A semi-elliptic cutout 32A is formed on the side wall of the top case 32 so that a part of the common voltage adjusting element 36 including the adjusting tab 36A of the common voltage adjusting element 36 is exposed. . Therefore, the manufacturer looks at the front surface of the liquid crystal display module, that is, the liquid crystal panel 30 during the final inspection of the liquid crystal display module, but via the cutout 32A formed on the side wall of the top case 32. It is possible to easily adjust the adjustment tab 36A. Accordingly, the liquid crystal display module having the common voltage adjusting element 36 on the side enables the manufacturer to easily adjust the common voltage Vcom for minimizing flicker noise. The cutout 32A is formed in a region from the rear side to the center of the side wall of the top case 32, thereby minimizing mechanical weakening of the top case 32.

FIG. 12 is a cross-sectional view illustrating a surface of the liquid crystal display module illustrated in FIG. 11 taken along a line BB ′. Referring to Fig. 12, the top case 32 includes a backlight unit 40, an optical sheet 42, and a liquid crystal panel, which are sequentially stacked on top of the frame assay 38 including the frame assay 38. 30 and side surfaces of the polarizing sheet 44 and the front edge of the polarizing sheet 44. The PCB 34 is installed such that the common voltage regulating element 36 and other circuit elements 34A face the bottom of the frame assay 38. The common voltage adjusting element 36 is installed on the PCB 34 to protrude upward from the frame assay 38 in the cutout 32A formed in the top case 32. At this time, the adjustment tab 36A of the common voltage adjusting element 36 (not shown) is exposed through the cutout 32A of the top case 32. Thus, the common voltage regulating element 36 and the other circuit elements 34A are installed so as not to be exposed to the outside, thereby minimizing damage to the PCB 34. In addition, as the common voltage regulating element 36, a variable resistor capable of exposing the adjusting tab 36A to the outside via the cutout 32A formed in the top case 32 may be used.

Fig. 13 is a diagram showing details of the PCB 34 on which the common voltage adjusting element 36 is installed. In Fig. 13, the common voltage regulating element 36 is installed so that the adjusting tab 36A faces to the right at the right edge of the surface of the PCB 34. As shown in Figs. The other circuit elements 34A will be disposed on the entire surface of the remaining PCB 34 on the left side of the common voltage regulating element 36.

As described above, the liquid crystal display module having the side exposed type common voltage adjusting element according to the present invention is installed at the side end of the PCB so that the common voltage adjusting element corresponds to the frame assay and faces the side wall of the top case. This allows the side wall of the top case to be cut away. Accordingly, the manufacturer may easily manipulate the common voltage adjusting element exposed from the side of the liquid crystal display module while looking at the front surface of the liquid crystal display module, that is, the liquid crystal panel, to adjust the common voltage Vcom for minimizing flicker noise. In addition, the liquid crystal display module having the side-exposed common voltage adjusting element according to the present invention can minimize damages to circuit elements and PCBs, and can also minimize mechanical fragility of the frame assembly and the top case.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (6)

A printed circuit board having circuit parts for supplying a voltage signal, a control signal and a data signal including a common voltage required for the liquid crystal panel; A common voltage regulating element which is installed to face side at one edge of the printed circuit board; And a top case provided on sidewalls of the front side of the liquid crystal panel to cover the edges and side surfaces of the liquid crystal panel and to expose a portion of the common voltage regulating element. The method of claim 1, And the common voltage regulating element is a variable resistor having a regulating tab exposed to the outside via the cutout. The method of claim 2, The printed circuit board has a side exposed type common voltage adjusting element, wherein the circuit portions are disposed to face the liquid crystal panel. The method of claim 2, And the circuit parts on the printed circuit board drive the liquid crystal panel in a dot inversion manner. The method of claim 2, And the circuit parts on the printed circuit board drive the liquid crystal panel in a line inversion manner. The method of claim 2, And the circuit parts on the printed circuit board drive the liquid crystal panel in a column inversion manner.