Patent application number | Description | Published |
20090296386 | LED ILLUMINATOR - An LED illuminator has a seat and multiple LED modules mounted on the seat. The seat has multiple chambers, each of which has two opposite sidewalls, a bottom, two through holes and an opening. The two through holes are respectively defined on the sidewalls and the opening is defined the bottom. The LED modules are respectively mounted on the sidewalls of the chambers on the seat and standing on the seat at an inclined angle to allow lights pass through the openings of the chambers. Therefore, each chamber has two light sources from two opposite sidewalls and the lights of the two lights source pass through the opening of the chamber. The LED illuminator provides a wide illuminating angle. | 12-03-2009 |
20100226129 | Method for Controlling Brightness and Increasing Uniformity of Light Generated By Lambertian Surface Sources - A method for controlling the brightness and increasing uniformity of light generated by Lambertian surface sources has the steps of providing multiple pairs of Lambertian surface sources to produce light emitting on a target surface, each pair of Lambertian surface sources consisting of two Lambertian surface sources; rotating the two Lambertian surface sources of the same pair by a same rotation angle relative to the target surface but in opposite directions; calculating a maximum illumination and a minimum illumination corresponding to the rotation angle; determining whether a ratio of the maximum illumination to the minimum illumination is lower than a threshold; and fixing the Lambertian surface sources at the rotation angle if the ratio is lower than the threshold. | 09-09-2010 |
20110149566 | Illumination Device - An illumination device includes a plurality of housings installed on a lamp holder, and each housing being arranged at the bottom of the lamp holder and tilted in a specific direction towards an exit aperture and having a light emitting diode device installed on each housing and opposite to two sidewalls on both sides of the inclined direction, and a reflection cover installed between adjacent housings, and each reflection cover having a plurality of first reflection surfaces and second reflection surfaces extended into each housing and towards the exterior of the housing. With the effect of the first and second reflection surfaces, the light source can be projected towards the exterior of the lamp holder effectively to increases the overall light projection range of the illumination device. | 06-23-2011 |
Patent application number | Description | Published |
20090167993 | METHOD FOR FORMING OPTICAL COMPENSATING FILMS, OPTICAL COMPENSATING FILMS FORMED THEREBY, STRUCTURE OF OPTICAL COMPENSATING FILMS, AND POLARIZING PLATES - The invention provides a method for forming optical compensating films, including: (a) providing a suspension containing clay; (b) adding a mono-functional acrylic oligomer of formula (I) in the suspension, wherein n | 07-02-2009 |
20090279176 | ANTIGLARE FILM AND MANUFACTURING METHOD THEREOF - The invention provides an antiglare film. A resin layer is disposed on a substrate. Micro-aggregates are distributed in an interior and over a surface of the resin layer. Each of the micro aggregates has a size of 0.1-3 μm and is formed by aggregating aggregated nano-particles. The micro-aggregates distributing over the surface result in a surface roughness of the resin layer. The weight ratio of the resin layer to the micro-aggregates is 1:0.1-0.7. | 11-12-2009 |
20150307732 | SUBSTRATE STRUCTURE, MANUFACTURING METHOD THEREOF, AND METHOD FOR MANUFACTURING AN ELECTRONIC DEVICE - According to embodiments of the disclosure, a substrate structure, a method for manufacturing the substrate structure, and a method for manufacturing an electronic device are disclosed. The substrate structure includes a carrier, a de-bonding layer, and a flexible substrate. The carrier has a top surface. The de-bonding layer contacts the carrier, wherein there is a first adhesion force between the de-bonding layer and the carrier. The de-bonding layer is prepared from a composition, and the composition includes at least one acrylate-based monomer and at least one acrylate-based oligomer, wherein the sum of acrylate group of the acrylate-based monomer and the acrylate-based oligomer is greater than or equal to 3. The flexible substrate covers and contacts the de-bonding layer, wherein there is a second adhesion force between the de-bonding layer and the flexible substrate. The second adhesion force is greater than the first adhesion force. | 10-29-2015 |
Patent application number | Description | Published |
20100075272 | HAND HELD APPARATUS FOR CURING MATERIALS - A hand held apparatus for curing materials with radiation of predetermined wavelength is disclosed. The apparatus includes a housing, a heat sink installed in the housing, a light emitting unit installed on the heat sink, the light emitting unit includes at least one light emitting element, a replaceable heat-dissipating module contacting the heat sink, and a light transmission unit coupled to the housing. The replaceable heat-dissipating module contains liquid for absorbing heat generated from the light emitting unit. The light transmission u nit is used for transmitting the radiation of the light emitting element to the materials. Whereby, the heat dissipation efficiency can be improved. | 03-25-2010 |
20100252753 | MEDICAL LIGHT SOLIDIFYING DEVICE - A medical light solidifying device includes a housing box, a rotary work table, a lighting source reflection body, and an LED lighting source set. The rotary work table is rotatably located in the housing box for being placed with a target material. The lighting source reflection body includes at least two reflection masks. Each mask has a reflection wall surrounding the rotary work table. Each of the reflection walls of the two reflection masks respectively has at least one reflection surface. The LED lighting source set is located above the rotary work table and the lighting source reflection body, and includes a plurality of LED units for emitting a beam with a specific wavelength for solidifying the target material. Thereby, the dead zone of the LED lighting source set is reduced so that the usage efficiency thereof is increase, and furthermore the target material can be efficiently and uniformly solidified. | 10-07-2010 |
20110248187 | HAND-HELD APPARATUS FOR CURING RESINS - A hand-held apparatus for curing resins includes a housing, a heat sink, a light-emitting unit, a power supply unit and a light transmission unit. The heat sink is installed in the housing. The light-emitting unit is installed on the heat sink. The light-emitting unit has at least one first light-emitting element for generating first wavelength light to cure the resins, at least one second light-emitting element for generating second wavelength light to generate white light, and at least one light-reflecting element surrounding the at least one first light-emitting element and the at least one second light-emitting element for reflecting the first wavelength light and the second wavelength light. The power supply unit provides power for the light-emitting unit. The light transmission unit is coupled to the housing for transmitting the first wavelength light and the second wavelength light to the resins. | 10-13-2011 |
Patent application number | Description | Published |
20120055530 | JUNCTION BOX AND SOLAR POWER SYSTEM - A solar power system includes a plurality of photovoltaic (PV) modules and a control device. Each PV module includes a plurality of solar cell panels connected in series and a junction box. The junction box detects parameters of the corresponding PV module, generates a reporting signal, and transmits the reporting signal to the control device. The control device receives the reporting signals from the plurality of PV modules, compares a stored amount of the plurality of PV modules with an amount of the received reporting signals to determine if the plurality of PV modules are abnormal, and generates a state indication signal according to the determination. The control device further transmits the state indication signal to corresponding junction boxes according to identifications of the corresponding PV modules in the received reporting signals to make the corresponding junction boxes indicate states accordingly. | 03-08-2012 |
20120236604 | FLYBACK CONVERTER WITH LEADING EDGE BLANKING MECHANISM - A flyback converter having a leading edge blanking (LEB) element keeps detecting whether or not primary-side current of the flyback converter reaches a predetermined threshold, beyond which the flyback converter could be damaged, in a predetermined LEB time corresponding to a leading edge of primary-side current. The flyback converter is turned off when the primary-side current exceeds the predetermined threshold. | 09-20-2012 |
20120274389 | JUNCTION BOX - A junction box electronically connected to a solar panel and connected to a plurality of solar cell strings connected in series includes a first bypass diode string and at least one second bypass diode. The first bypass diode string includes a plurality of first bypass diodes forwardly connected in series, and each of the plurality of first bypass diodes is connected to a corresponding one of the plurality of solar cell strings in parallel. The at least one second bypass diode connected to at least two neighboring solar cell strings in parallel, turns on to bypass the at least two neighboring solar cell strings upon the condition that the at least two neighboring solar cell strings are abnormal simultaneously. | 11-01-2012 |
20130014970 | PHOTOVOLTAIC JUNCTION BOXAANM GER; CHIH-CHANAACI Jhongli CityAACO TWAAGP GER; CHIH-CHAN Jhongli City TWAANM LIAO; YU-HSIANGAACI Jhongli CityAACO TWAAGP LIAO; YU-HSIANG Jhongli City TWAANM CHEN; SHANG-TINGAACI Jhongli CityAACO TWAAGP CHEN; SHANG-TING Jhongli City TWAANM WANG; YUN-BINGAACI Jhongli CityAACO TWAAGP WANG; YUN-BING Jhongli City TW - A photovoltaic junction box includes a housing, a circuit board received in the housing, a plurality of metal brackets, and a plurality of bypass diodes. The plurality of metal brackets are secured to the circuit board, each of the plurality of metal brackets defines a receiving space receiving a spring sheet. The plurality of bypass diodes are respectively secured to the plurality of metal brackets and electrically connected to the circuit board. Each of a plurality of ribbons is clamped between the spring sheet and a corresponding metal bracket, and the ribbon directly and electrically contacts the corresponding metal bracket. | 01-17-2013 |