Patent application number | Description | Published |
20080246383 | LED-lamp heat-dissipation device - The present invention discloses an LED-lamp heat-dissipation device, which comprises LED lamps, an aluminum baseplate and a hollow heat-dissipation module. The hollow heat-dissipation module further comprises a hollow accommodation unit and a cooling fin unit, and the hollow accommodation unit has a plurality of heat-dissipation strips. The LED lamps are soldered on the aluminum baseplate. The aluminum baseplate together with the LED lamps is applied onto one side of the hollow heat-dissipation module; then liquid is filled into the hollow accommodation unit of the hollow heat-dissipation module. When the LED lamps are turned on, heat will be conducted to the aluminum baseplate and then conducted to the cooling fin unit via the liquid inside the hollow accommodation unit, which the aluminum baseplate is applied onto. Then, the cooling fin unit will dissipate heat out. Thereby, the present invention can achieve a fast heat-dissipation effect. | 10-09-2008 |
20080264611 | Heat plate - A heat plate mainly includes a hollow body and a plurality of caps. The hollow body is fabricated integrally by aluminum extrusion and has a hollow chamber inside. The hollow chamber has an inner side with a plurality of angular strips formed thereon to enhance heat dissipation efficiency and a plurality of spacing ribs to divide the hollow chamber into a plurality of housing space to hold a liquid to increase the heat dissipation efficiency. The hollow body has one surface with a plurality of sliding tracks formed thereon, a latch flute on the left side and right side to wedge in the sliding tracks of another heat plate to enhance the heat dissipation efficiency. The hollow body has another surface with a PCB circuit formed thereon. Electronic elements may be soldered on the PCB circuit to achieve optimal heat dissipation efficiency. | 10-30-2008 |
20090098342 | LED light structure and combination device thereof - An LED light structure with combination device has at least including plural LED lights and plural fixing bases, wherein the LED light having a protruding portion mounted at one side thereof and the protruding portion having a thread mounted thereon for fixing with the fixing base which is a metal base with high heat sinking efficiency, and the fixing base has a through trough with a thread mounted thereinside, which is matching to the thread on the protruding portion of the LED light, so as to screw with the protruding portion of the LED light in a tight matching. Here, the protruding portion of the LED light can be a T shaped track and the fixing base can correspondingly have a T shaped trough matching to the shape of the protruding portion of the LED light, so that the LED light and the fixing base can be tightly embedded together. | 04-16-2009 |
20090213583 | LED Module - The present invention discloses an LED (Light Emitting Diode) module, which comprises: a plurality of LED lamps, baseplates, heat-conduction blocks, heat-conduction elements, and fixing elements. The LED lamp has an electrode plate on one side and an LED on the other side. One face of the electrode plate has two electrodes respectively arranged in two edges. A protection ring annularly surrounds the LED. The baseplate is a printed circuit board having a plurality of through-holes and cascade circuits on one side. The heat-conduction block is a metal block having an appropriate thickness and a high thermal conductivity and is attached to one side of the electrode plate to dissipate the heat generated by the LED lamps. The heat-conduction block has a plurality of fixing holes. The fixing elements are fastened into the fixing holes to join together the heat-conduction block and the baseplate. The heat-conduction element is a heat-conduction body attached to the other side of the heat-conduction block. | 08-27-2009 |
20090296402 | LED LAMP BULB STRUCTURE - A LED lamp bulb structure is disclosed, wherein a lamp controller is installed inside a lamp head and the bottom surface thereof is fixed by an upper cover. At the bottom surface of the upper cover, a heat dispersing fin set, which has at least a heat conducting tube installed therein, and a lower cover are fixed therein. Furthermore, a bulb housing, which has a tray mounted therein, is screwed around the peripheral edge of the lower cover, and at the bottom of the tray, plural LED lamp sets corresponding to plural heat conducting tubes are outwardly extended. Therefore, the heat produced by the LED lamp set can have a heat exchange through plural heat conducting tubes and heat dispersing fin set for achieving a better heat dispersing efficiency and for more effectively dispersing the heat. | 12-03-2009 |
20090310381 | LED STREETLIGHT STRUCTURE - The present invention discloses an LED streetlight structure, which comprises: a heat-conduction pipe frame, an upper casing, a lower casing, a light concentration plate, and a transparent cover. The upper and lower casings are made of a plastic material and pivotally coupled to each other. The heat-conduction pipe frame has a heat-dissipation seat with main heat-dissipation fins. Two stabilizer boxes with fins are respectively arranged at two sides of the heat-dissipation seat. Heat-dissipation lamp sets insert through the bottom of the heat-dissipation seat. The present invention installs the main heat-dissipation fins on heat-conduction pipe frame and installs the fins on the stabilizer boxes to increase heat-dissipation area. Further, an auxiliary heat-dissipation ventilation device is arranged above the heat-conduction pipe frame and made of aluminum, and aluminum itself benefits heat dissipation. Furthermore, air can be compulsively conducted to the main heat-dissipation fins, then can enhance the dissipation effect. | 12-17-2009 |
20100103666 | LED LAMP BULB STRUCTURE - An LED lamp bulb structure is disclosed, in which a lamp controller is installed inside a lamp head and the bottom surface of the lamp controller is fixed by an upper cover. At the bottom surface of the upper cover, a heat dispersing fin set, which has at least one heat conducting tube installed therein, and a lower cover are fixed. Furthermore, a bulb housing, which has a tray mounted therein, is screwed around the peripheral edge of the lower cover, and at the bottom of the tray, plural LED lamp sets corresponding to plural heat conducting tubes are outwardly extended. Therefore, the heat produced by the LED lamp sets can have a heat exchange through plural heat conducting tubes and the heat dispersing fin set for achieving a better heat dispersing effect and for more effectively dispersing the heat. | 04-29-2010 |
20100186933 | HEAT DISPERSING MODULE - The present invention is related to a heat dispersing module which is designed based on the property of heat convection of the heat dispersing tube set, wherein plural fixing pieces around the heat conductor are used to fix the heat dispersing module, so that the heat conductor can absorb heat from heat source and then transmit to the heat dispersing tube set, and a fan engaged at the tube ends of the heat dispersing tube set can enhance the air convection inside the heat dispersing tube set. | 07-29-2010 |
20100212875 | TUBULAR HEAT DISPERSING STRUCTURE - The present invention discloses a tubular heat dispersing structure which utilizes tubular channel to contact with the heat source(s) and the heat conductor for restricting the heated air. When the flowing air flows into the channel, it is to produce the flowing naturally, and the heated air flows toward the opening rapidly. Therefore, the structure of the present invention can form air flowing actively for achieving the heat dispersing effect. Besides, the structure of the present invention also can have varied geometric shapes and sizes for corresponding to different shapes of different heat sources and heat conductors, so that a better stacked attachment therebetween can be achieved, thereby saving the cost of building the molds and corresponding to the heat dispersing requirements of various power. | 08-26-2010 |
20100253199 | LED LIGHTING TUBE - The LED lighting tube of the present invention utilizes a tubular heat dispersing structure and arranges the LED module in a light-tube manner, characterized in that the tubular heat dispersing structure can produce the airflow to increase the heat dispersing effect, and also, the closed structure thereof can prevent dust accumulation, so as to protect the LED module and extend the lifetime of the LED module. Besides, the present invention also employs plural electric controllers to control LED bulbs in multiple LED modules so as to achieve a section control of LED bulbs of different positions or different colors and satisfy multiple illumination requirements. | 10-07-2010 |
20110002124 | WIDE ANGLE LED LAMP STRUCTURE - A wide angle LED lamp structure provides a LED holder, which can be adjusted to have wide angle illumination range, embedded in a LED room of a heat dissipation base, cooperating with lamp cover and light reflection board, so that the illumination range becomes wider while maintaining the brightness even, and also the dazzle from LED lamp can be reduced. Besides, the LED holder can be replaced according to the different needs of illumination range, and the number of LED bulbs on the inclined plane of LED holder also can be varied in accordance with a user's demands, thereby enhancing the efficiency of each lamp. | 01-06-2011 |
20110007508 | METHOD FOR FORMING RANDOM LIGHT PATTERN AND LAMP FOR THE SAME - A method for forming random light pattern and a lamp therefor according to the present invention can control the brightness and the light pattern of the light according to the user's need, emphasis the boundary between light and dark, and avoid energy consumption caused by illuminating to undesired region. In the present invention, based on the counter-projection technology, the number, the positions and the angles of the lighting elements in the holder can be inversely calculated from the desired light pattern, so that the test time and the cost both can be reduced. | 01-13-2011 |
20110062848 | LED LAMP ELECTRODE STRUCTURE - An LED lamp electrode structure includes a jutting coupling portion at a lower side of an LED lamp and two electrode passages corresponding to and communicating with LED chip electrodes. The electrode passages are filled with silver paste or hold electric wires to establish electric connection with the chip electrodes. Thus wiring can be concealed and aesthetic appealing improves, and safety and practicality are enhanced. | 03-17-2011 |
20110220338 | LED HEAT SINK AND METHOD OF MANUFACTURING SAME - A LED heat sink and a method of manufacturing same are disclosed. The LED heat sink includes a holding zone bordered by one or more anchor portion of a higher elevation. The anchor zone has an upper side formed a compact stamping zone. The compact stamping zone is stamped forcefully through a mold in a diagonal direction towards the holding zone such that the material of the anchor zone is squeezed above the holding zone to form a latch hook to latch and press a LED lamp onto the holding zone so that the LED lamp is tightly in contact with the heat sink. Thus a forced transfer effect can be achieved to rapidly reduce the temperature of the LED lamp. | 09-15-2011 |
20110299286 | LED LAMP - An LED lamp at least includes an LED lamp set and an adjustment assembly. The LED lamp set includes an LED set and a cooling set. The LED set includes at least one LED lamp element which is replaceable individually and a holder to hold the LED lamp element. The cooling set is fastened to the holder. The adjustment assembly includes an adjustment member and an adjustment holder that contain mating engaging portions engageable with each other. The adjustment member is coupled with the adjustment holder and the LED lamp set to provide adjustment function of light illumination angle. The invention further includes an assembly dock coupled with a plurality of LED lamp sets and adjustment assemblies according to requirements to enhance expandability and usability. The structure thus formed can be assembled and disassembled easily, and also provides greater expandability, replacement capability and practicality. | 12-08-2011 |