Multi touch flat display module

摘要

A display module including a touch panel configured to be touched so as to input information, a liquid crystal display panel disposed below the touch panel and configured to display the information to be touched on the touch panel, a plurality of emitting light units configured to emit infrared light formed in at least two sides of the touch panel, a plurality of image sensors disposed below the liquid crystal panel and configured to detect infrared rays redirected through the liquid crystal panel towards the image sensors based on a touching of the touch panel, and a controller configured to determine a portion of the touch panel that is touched based on signals received from the plurality of image sensors.

主权项

1. A display module, comprising:
a touch panel configured to be touched so as to input information; a liquid crystal display panel disposed below the touch panel and configured to display the information to be touched on the touch panel; a plurality of infrared emitting light units configured to emit infrared light formed in at least two sides of the touch panel; a plurality of image sensors disposed below the liquid crystal display panel and configured to detect infrared rays redirected through the liquid crystal display panel towards the image sensors based on a touching of the touch panel; a controller configured to determine a portion of the touch panel that is touched based on signals received from the plurality of image sensors; a transparent transmissive plate supporting the liquid crystal display panel at an upper part of a side frame; an outer frame formed along an outer circumference of the touch panel to fix the plurality of infrared emitting light units; a spacer maintaining a gap for the liquid crystal display panel between a light guide panel and the transparent transmissive plate, said light guide panel configured to guide infrared light emitted by the plurality of infrared emitting light units; and a backlight unit including a cover, a circuit board, a flat reflection plate, and a plurality of flat optical sheets, the cover housing a plurality of visible light sources connected to the circuit board, the plurality of visible light sources being configured to emit visible light towards the touch panel, the flat reflection plate being positioned above the circuit board so as to not be in contact with the circuit board, the plurality of flat optical sheets being positioned above the flat reflection plate so as to not be in contact with the flat reflection plate, wherein a surface of the flat reflection plate and a surface of each the plurality of flat optical sheets are in parallel to a surface of the circuit board, wherein each of the plurality of image sensors and the plurality of visible light sources are directly connected to the circuit board, each of the plurality of visible light sources extend through the flat reflection plate to emit light through the flat reflection plate and the plurality of flat optical sheets, and each of the plurality of image sensors extend through the flat reflection plate to detect infrared rays emitted by the plurality of infrared emitting light units, wherein the transparent transmissive plate is configured such that the redirected infrared rays are all transmitted substantially without loss, wherein corresponding infrared emitting light units included in the plurality of infrared emitting light units disposed in the at least two sides of the touch panel face each other and have a same cross-sectional center axis, wherein the plurality of infrared emitting light units emit infrared rays from one long side and one short side of the outer frame to the inside of the light guide panel so as to enable detection of spots touched, wherein the transmittance of the liquid crystal display panel is a wavelength of visible light of 460 nm˜700 nm, and the infrared rays of the plurality of infrared emitting light units have a wavelength greater than 850 nm, wherein the plurality of image sensors are configured to detect the infrared rays having a wavelength transmitted through the liquid crystal display panel of greater than 20% of the wavelength of the visible light transmitted through the liquid crystal display panel, wherein a height between the touch panel and the plurality of image sensors extended through the flat reflection plate is determined based on the equation:c=0.25×a2+b2×tan(π-θ2), where “a” is a horizontal distance of the liquid crystal panel, “b” is a vertical distance of the liquid crystal, and “θ” is a sensing angle of a corresponding image sensor of the plurality of image sensors, and wherein the height between the touch panel and the plurality of image sensors extended through the flat reflection plate is determined based on the equation to increase the emitted angle of the infrared light emitted from the plurality of infrared emitting light units and detected by the plurality of image sensors extended through the flat reflection plate.