Patent ID: 8233104

Claim:
A liquid crystal display (LCD) device having a thin polarizing film and a thin phase retardation film, wherein a backlight unit is disposed, a liquid crystal layer filled with liquid crystal is disposed between a first alignment film and a second alignment film, and a first transparent electrode connected to a thin film transistor (TFT) and a color filter are disposed at a front surface of the first alignment film, the LCD device characterized in that a third polarizing film formed of straight line polarizing films over its entire portions is disposed at a front surface of the backlight unit, wherein a second ½ phase retardation film and a transparent unit are integrally formed on a surface of the second transparent substrate in such a manner as to be alternately arranged with each other with a certain width and distance on the same plane, wherein a second insulation layer is disposed at the front surfaces of the second ½ phase retardation film and the transparent unit, wherein a second transparent electrode and a second alignment film are sequentially disposed at a front surface of the second insulation layer, wherein the liquid crystal layer, the first alignment film, the first transparent electrode, the color filter and a first insulation layer are sequentially disposed at a front surface of the second alignment film, wherein a first polarizing region and a second polarizing region are integrally formed on a surface of the first insulation layer in such a manner as to be alternately arranged with each other on the same plane, wherein a first transparent substrate is disposed at the front surfaces of the first polarizing region and the second polarizing region, wherein a non-reflection coating layer is disposed at the front-most surface of the liquid crystal display (LCD) device, wherein a ¼ phase retardation film is disposed at a front surface of the first transparent substrate for converting an incident light into a circularly polarized light, and wherein the non-reflection coating layer is disposed at a front surface of the ¼ phase retardation film so that a viewer can view a 3D image using circular-polarizing glasses.