Patent application number | Description | Published |
20090174097 | SYSTEM FOR MANUFACTURING MICRO-RETARDER AND METHOD FOR MANUFACTURING THE SAME - A system for manufacturing a micro-retarder and a method for manufacturing the same are provided. The system for manufacturing a micro-retarder includes a carrying device, a heating device and a movement control device. The carrying device is used for carrying a polymolecule film. The polymolecule film is selected from a polymolecule film having an arrangement direction. The heating device is used for providing a heating source. The energy formed in the central area of the heating source is smaller than that in the peripheral area of the heating source. The movement control device is used for controlling the heating source and the polymolecule film to relatively move along a first direction, so that the adjusted heating source heats at least one partial area of the polymolecule film along the first direction and resumes the partial area of the polymolecule film to be non-directional. | 07-09-2009 |
20090242661 | NOZZLE PLATE OF A SPRAY APPARATUS AND FABRICATION METHOD THEREOF - A nozzle plate for use with a spray apparatus and a fabrication method thereof are provided. The nozzle plate has a plurality of orifices each including an inlet end and an outlet end. The inlet end and the outlet end have a geometrical structure with mirror symmetry and a centroid with positional deviation from a pattern center. The pattern center is the center of an imaginary circle circumscribed about the geometrical structure. The geometrical structure controls the propagation direction of liquid spray, expands the nebulizing range per unit density of orifices, enables product miniaturization, and saves energy. | 10-01-2009 |
20090242662 | LIQUID NEBULIZATION SYSTEM - Disclosed is a liquid nebulization system comprising a power supply unit, a signal generating unit, a liquid storage unit and a nebulizing unit. The signal generating unit receives power from the power supply unit to generate a main signal and at least an auxiliary signal, wherein the main signal and the auxiliary signal are added together to constructively and destructively interfere with one another to form a driving signal, further causing the nebulizing unit to nebulize the liquid contained in the liquid storage unit using the driving signal. | 10-01-2009 |
20090250827 | SYSTEM FOR MANUFACTURING MICRO-RETARDER AND METHOD FOR MANUFACTURING THE SAME - A system for manufacturing a micro-retarder and a method for manufacturing the same are provided. The system for manufacturing a micro-retarder includes a carrying device, a heating device and a movement control device. The carrying device is used for carrying a polymolecule film. The polymolecule film is selected from a polymolecule film having an arrangement direction. The heating device is used for providing a heating source. The energy formed in the central area of the heating source is smaller than that in the peripheral area of the heating source. The movement control device is used for controlling the heating source and the polymolecule film to relatively move along a first direction, so that the adjusted heating source heats at least one partial area of the polymolecule film along the first direction and resumes the partial area of the polymolecule film to be non-directional. | 10-08-2009 |
20100001096 | MICRO-PUMP AND MICRO-PUMP SYSTEM - A micro-pump for atomizing and including a main-housing, a nozzle plate, at least an actuator, and a liquid transport pipe is provided. The main-housing has a liquid inlet, a liquid outlet, an air inlet, and a micro-droplet outlet. The nozzle plate is assembled to the main-housing and has at least one nozzle. The nozzle plate divides the interior of the main-housing into a first chamber and a second chamber. The nozzle and the liquid inlet are connected with the first chamber. The air inlet, the liquid outlet, and the micro-droplet outlet are connected with the second chamber. The actuator is disposed on at least one of the main-housing or the nozzle plate. The actuator drives the nozzle plate, so that liquid is filled into the first chamber and sprayed out through the nozzle into the second chamber. The liquid transport pipe connects the liquid inlet and the liquid outlet. | 01-07-2010 |
20100224499 | NOZZLE PLATE OF A SPRAY APPARATUS AND FABRICATION METHOD THEREOF - A nozzle plate for use with a spray apparatus and a fabrication method thereof are provided. The nozzle plate has a plurality of orifices each including an inlet end and an outlet end. The inlet end and the outlet end have a geometrical structure with mirror symmetry and a centroid with positional deviation from a pattern center. The pattern center is the center of an imaginary circle circumscribed about the geometrical structure. The geometrical structure controls the propagation direction of liquid spray, expands the nebulizing range per unit density of orifices, enables product miniaturization, and saves energy. | 09-09-2010 |
20110304909 | IMAGE DISPLAY - An image display adapted to provide a 3D image is provided. The image display includes an image displaying module, an image dividing unit, and a plurality of micro-optical structures. The image displaying module is adapted to emit a light beam including a left eye beam and a right eye beam, and the image displaying module has a displaying area. The image dividing unit is disposed on the transmission path of the light beam for dividing the left eye beam and the right eye beam from each other. The micro-optical structures are dispersed and disposed on part of the transmission path of the light beam, wherein a ratio calculated by dividing a projection area of the micro-optical structures orthogonally projected on the displaying area by the displaying area ranges from 5% to 85%. | 12-15-2011 |
20130293793 | DISPLAY APPARATUS AND CONTROL METHOD THEREOF - A display apparatus having a backlight module, a modulatable parallax barrier module, a polarizer film and a display panel is provided. The backlight module provides a linear polarized light having a first polarization direction. The modulatable parallax barrier module has an alignment state and a transparent state, and has a first alignment film with a first alignment direction on the light-emitting side. The linear polarized light passing through the modulatable parallax barrier module in the transparent state is kept in the first polarization direction, and passing through the modulatable parallax barrier module in the alignment state is transformed to a second polarization direction. The polarizer film has a transmission axis inclined toward either the first polarization direction or the second polarization direction. The modulatable parallax barrier module selects one of the alignment state and the transparent state according to an image information provided by the display panel. | 11-07-2013 |