Patent ID: 9709841
Date: 2017-07-18
CPC Classifications: G02B,G02F

Claim:
1. A liquid crystal display device comprising: a liquid crystal panel that includes a pair of substrates, a liquid crystal layer disposed between the pair of substrates, and a pair of polarization plates respectively arranged in the liquid crystal layer on a light incident side and a light emission side; an illumination device that is arranged on the light incident side of the liquid crystal panel and emits light toward the liquid crystal panel; and a light diffusion member that is arranged on the light emission side of the liquid crystal panel and causes light emitted from the liquid crystal panel to be diffused in an azimuthal direction viewed from a normal direction of the liquid crystal panel, wherein the light diffusion member includes a base material which is optically transparent, a plurality of light shielding layers which are formed on one surface of the base material, and a light diffusion section which is formed in a region other than a forming region of the light shielding layer on the one surface of the base material, wherein the light diffusion section has a light emission end surface which is in contact with the base material, a light incident end surface which is opposite to the light emission end surface and has an area greater than the area of the light emission end surface, and a reflection surface which is in contact with the light emission end surface and the light incident end surface and reflects light incident from the light incident end surface, wherein a height of the light diffusion section from the light incident end surface to the light emission end surface is greater than a layer thickness of the light shielding layer, wherein when the total width of a polar angle when luminance is reduced to ⅓ of the maximum luminance in characteristics of polar angle luminance of the illumination device is referred to as a ⅓-total width, the ⅓-total width of the illumination device is equal to or greater than 60° in the azimuthal direction in which variations in luminance of the illumination device in a polar angle direction are the greatest, and wherein the azimuthal direction in which variations in luminance of the illumination device in a polar angle direction are the greatest substantially matches an azimuthal direction in which variations in transmittance in the polar angle direction are the greatest when a constant voltage is applied to the liquid crystal panel.