ADVANCED GREEN ENERGY TECH. CORP. Patent applications |
Patent application number | Title | Published |
20110315205 | LIGHT CONCENTRATOR CUP MODULE - A light concentrator cup module, disposed on a carrying base, said carrying base is provided with a circuit board having a solar energy chip, said light concentrator cup module comprising: a dust-prevention-hood lower cover, disposed on said carrying base and is provided with a first open slot for exposing said circuit board; a dust-prevention-hood upper cover, placed on said dust-prevention-hood lower cover, and is provided with a second open slot corresponding to said solar energy chip; and a light concentrator cup, inserted into said second open slot and corresponds to said solar energy chip. Said light concentrator cup module is capable of guiding sunlight uniformly onto said solar energy chip, thus raising photoelectric conversion efficiency of sunlight. | 12-29-2011 |
20110311330 | EXPANSION BOLT AND FRAME USING THE SAME - An expansion bolt and a frame using the same, comprising: a main body piece, a sleeve, and a nut. One end of the main body piece is provided with a T-shape cone portion having double protrusion ribs, while the other end is provided with a threaded portion; said sleeve is sleeved onto said main body piece, with its one end disposed an expansion portion and is provided with double slots corresponding to said double protrusion ribs; and said nut is screwed and locked onto said threaded portion. When said nut is screwed up along said threaded portion, it will push said expansion portion of said sleeve to move toward said T-shape cone portion, thus pushing said double slots to expand, such that said expansion portion will expand and fix tightly onto said T-shape cone portion. Said frame assembled through using said expansion bolt mentioned above can be detached and reassembled without causing damages to said frame. | 12-22-2011 |
20110309537 | MULTI-CAVITY INJECTION MOLDING METHOD FOR FABRICATING SOLAR LENSES - The present invention discloses a multi-cavity injection molding method for fabricating solar lenses, which comprises steps: providing a mold set including a female mold and a male mold corresponding to the female mold, wherein the female mold has a receiving recess, and wherein the male mold has several lens cavities each having a lens pattern and connected with a cold runner; placing a glass substrate inside the receiving recess; injecting a silica gel to all the lens cavities via the cold runners; and heating the mold set to cure the silica gel, whereby to form several silica-gel lenses on the glass substrate in a single fabrication process. The present invention can effectively shorten the fabrication time and increase lens alignment. | 12-22-2011 |