Patent application number | Description | Published |
20100051103 | CASING OF ELECTRONIC DEVICE - A casing of an electronic device is located at an outermost layer of the electronic device and includes a photoelectric conversion film and a casing body. The photoelectric conversion film has an organic material. The casing body is used as a base plate of the photoelectric conversion film which is formed at the casing body. | 03-04-2010 |
20100282298 | ELECTRONIC DEVICE FOR IMPROVING SOLAR CONVERSION EFFICIENCY - An electronic device for improving solar conversion efficiency includes a main body and a reflecting element. The main body includes an operation module and a solar panel. The solar panel is electrically connected with the operation module for converting light energy to electrical energy. The reflecting element is connected with the main body and corresponds to the solar panel for reflecting light to the solar panel. | 11-11-2010 |
20110017270 | SOLAR TRACKING DEVICE FOR SOLAR CELLS - A solar tracking device for solar cells includes a supporting unit, a moving unit, a solar receiving unit, and a light sensing unit. The supporting unit has a supporting portion and a rotating portion, and the supporting portion is rotated by the rotating portion. The moving unit is supported by the supporting portion of the supporting unit, and the moving unit is capable of moving along an XY-axis plane. The solar receiving unit is disposed at the moving unit. The light sensing unit is disposed at the moving unit and outputs a light sensing signal. The solar tracking device for solar cells can reduce energy consumption and improve output efficiency of a solar power system during a solar tracking period. | 01-27-2011 |
20110023939 | PORTABLE SOLAR CELL APPARATUS - A portable solar cell apparatus includes a base, a plurality of solar cell units, a light guide element, and a plurality of lens units. The solar cell units are disposed at the base. The light guide element has a plurality of integrally formed funnel-shaped light guide units. The light guide element is disposed at the base, and each of the funnel-shaped light guide units guides light to the respective solar cell unit. Each of the lens units is disposed at the respective funnel-shaped light guide unit. | 02-03-2011 |
20120324511 | APPARATUS, SYSTEM FOR SCHEDULING AND BROADCASTING MEDIA, AUTOMATIC CHANNEL SCHEDULING METHOD AND RECORDING MEDIUM - Disclosed are an apparatus and a system for scheduling and broadcasting media, and an automatic channel scheduling method. In particular, the disclosure is applied to establishing a scheduling and broadcasting system for digital content over a data network, such as to an enterprise. An automatic channel scheduling method is disclosed. A step in the method is to generate a content broadcasting request. Then the step is to acquire information related to the content from a resource, and to store the content. The system is to configure the broadcasting channel, object to be distributed, type to broadcast, and the broadcasting time in accordance with the request and attribute of the content. Consequently, the content is broadcasted to the one or more chosen terminal display devices. | 12-20-2012 |
20130146794 | MAGNETIC VALVE AND FLUID SUPPLY SYSTEM USING THE SAME - A magnetic valve and a fluid supply system using the same are provided. The fluid supply system includes a flow channel and the magnetic valve. The magnetic valve penetrates through a pipe wall of the flow channel, and includes a driving unit, a first magnet and a second magnet, a cover plate, a first and second spools. A first leaning portion of the first spool is disposed at one end of a first sheath portion. The first sheath portion has a first outlet opening. The second magnet is disposed on a surface of the first leaning portion facing to the cover plate. The second spool sleeves the first spool and has a second outlet opening. The first spool rotates relative to the second spool through a magnetic force to control an overlapping area of the first and second outlet openings, so as to control a flow rate. | 06-13-2013 |
20140069626 | TEMPERATURE CONTROL SYSTEM AND TEMPERATURE CONTROL METHOD THEREOF - A temperature control system used for a server system includes a liquid cooling module used for performing heat exchange for the server system through a first fluid and a second fluid, an air-cooled module used for providing a heat-dissipating airflow to the server system; and a control unit coupling the liquid cooling module and the air-cooled module. The control unit is used for adjusting a plurality of temperature adjustment parameters based on the environmental condition of the server system and thereby controlling the liquid cooling module and the air-cooled module at the same time, so as to make the liquid cooling module and the air-cooled module perform a heat-dissipating process according to the corresponding temperature adjustment parameters, and to reduce a environment temperature of the server system. The control unit is further used for adjusting the order of the temperature adjustment parameters based on a scheduling condition. | 03-13-2014 |
20140079536 | FAN MODULE - A fan module includes a module housing, a first set of stationary blades, a second set of stationary blades, a motor, and a dynamic blade combination. The module housing has a channel having an inlet. The first and second sets of stationary blades are disposed at the inner wall of the module housing. The motor is disposed in the channel and includes a rotor. The dynamic blade combination includes a hub fixed to a periphery of the rotor, and a first set of dynamic blades and a second set of dynamic blades that surround and are disposed to a periphery of the hub. The first set of dynamic blades is located between the inlet and the first set of stationary blades. The second set of dynamic blades is located between the first and second set of stationary blades. | 03-20-2014 |
20150114467 | DONOR-ACCEPTOR ALTERNATING CONJUGATED POLYMER AND SOLAR CELL DEVICE MANUFACTURED BY USING THE SAME - The present invention provides a donor-acceptor alternating conjugated polymer represented by the following chemical formula (1): | 04-30-2015 |
Patent application number | Description | Published |
20090117428 | Condensation device for a fuel cell - A condensation device for a fuel battery provides a condensation main member. The condensation main member has an opening at two lateral sides thereof and one of the lateral sides is joined to a fuel battery for a gas entering via one of the openings and removing via another one of the openings. A turnabout path is defined in the condensation main member for increasing heat dissipating surface area being impinged by the gas such that heat energy of the gas conducts to the outer surface of the condensation main member to perform heat exchange with outside air and moisture in the gas is reduced temperature thereof to condense as water for being recycled and reused. | 05-07-2009 |
20090266806 | MEMORY-LIKE HEAT SOURCE DEVICE - A memory-like heat source device includes a substrate, a conductive layer disposed on the substrate, and at least one simulative heat source region. The simulative heat source region has at least one passive element and a simulative package. The passive element is disposed on the conductive layer and electrically connected to the conductive layer. Once being powered on, the passive element generates thermal energy and is covered by the simulative package. Therefore, a structure extremely similar to a thermal state in a practical memory is constituted. | 10-29-2009 |
20090294429 | CHIP-LIKE HEAT SOURCE EQUIPMENT - A chip-like heat source equipment includes a simulation package, a thermal conductor, a heat source, a thermal grease, and an insulating pad. The thermal conductor is disposed in the simulation package, and has a simulated heat source region on one side. The heat source is disposed on another side of the thermal conductor having the simulated heat source region. The insulating pad is covered on the other side of the thermal conductor having the simulated heat source region and the heat source, such that the heat energy generated by the heat source is transferred to the simulated heat source region via the thermal conductor. In this manner, a structure having the heat generating states similar to that of the real chip is formed. | 12-03-2009 |
20100018597 | PRESSURE RELIEF VALVE STRUCTURE WITH PRESSURE RELIEF SEAM - The present invention is a pressure relief valve structure with pressure relief seam, which is composed of the pipe, and the elastic plug with the edge tightly attached on the pipe wall of the pipe, and the elastic plug is penetrated with slim seam. When the fluid is flowing to the elastic plug through the pipe, and the impact pressure from the fluid is larger than the slim seam of the elastic plug could resist, the intersection along the slim seam would be deformed as a hole to make the fluid flowing through the elastic plug and achieve the purpose of pressure relief. | 01-28-2010 |
20100052607 | Solar Charging Device and Method Thereof - A solar charging device and method for charging a power storage module are provided. The solar charging device includes a solar charging module, a control module, and a first connection interface. The solar charging module converts light to electricity to generate charging power. The control module is coupled to the solar charging module. One terminal of the first connection interface is coupled to the control module, and the other terminal is removably coupled to the power storage module for transmitting the charging power passing through the control module to the power storage module. | 03-04-2010 |
20100084003 | SOLAR CELL MODULE - A solar cell module includes a circuit board and a plurality of solar cell elements. Each of the solar cell elements is partly fastened to the circuit board and is partly protrudent from the circuit board. | 04-08-2010 |
20120097368 | HEATING EXCHANGE CHAMBER FOR LIQUID STATE COOLING FLUID - A heat exchange chamber for liquid state cooling fluid is provided, which comprises a casing and a thermal dissipation device, the casing has a cavity and the thermal dissipation device is sited in the cavity. A cooling fluid flows through the cavity along a flow direction. The cross-sectional area of the cavity whose direction is perpendicular to the flow direction shows linear increase or non-linear increase gradually along the flow direction, and a part of the cooling fluid vaporizes after flowing through the thermal dissipation device. The chamber along the flow direction shows different pressures, and two phase fluid flows automatically due to the pressure difference. The heat exchange chamber for liquid state cooling fluid could lighten the loading of the pump which is for circulating the cooling fluid, and it also achieve the efficacy of saving energy and raising efficiency. | 04-26-2012 |
20120097382 | HEATING EXCHANGE CHAMBER FOR LIQUID STATE COOLING FLUID - A heat exchange chamber for liquid state cooling fluid is provided, which comprises a thermal dissipation device, and the thermal dissipation device sites in a cavity of the heat exchange chamber for liquid state cooling fluid. The thermal dissipation device comprises a plate and a plurality of heat dissipating fins formed on the plate, and the thermal dissipation device comprises at least one groove. After flowing through the heat dissipating fins, partial cooling fluid absorbs the heat of the heat dissipating fins and gasifies to bubbles. The design of the groove could discharge the bubbles trapped between heat dissipating fins helpfully and improve the efficiency of heat dissipation. | 04-26-2012 |
20120111533 | COOLING CIRCULATION SYSTEM OF SERVER - A cooling circulation system of a server includes a cabinet assembly, a plurality of first fan modules, a plurality of second fan modules, and two air guide hoods. The first fan modules and the second fan modules are disposed on the cabinet assembly. The first fan modules blow a first airflow towards a first direction, and the second fan modules blow a second airflow towards a second direction. The air guide hoods are respectively installed on two ends of the cabinet assembly. The first airflow and the second airflow join each other through the air guide hoods, so as to form a cooling circulation loop inside the cabinet assembly. | 05-10-2012 |
20120111534 | SERVER CABINET - A server cabinet includes a rack, at least one assembling frame, a radiator and at least one fan. The rack has a first frame and a second frame opposite to each other. The assembling frame and the radiator are mounted on the first frame in sequence. The radiator transfers a coolant to flow inside a plurality of heatsink fins thereof in a circulating manner. The fan is mounted in the assembling frame, and the fan guides an airflow to flow into the first frame from the radiator, and blows the airflow in the rack to the second frame, thus lowering the temperature inside the rack. | 05-10-2012 |
20120112611 | SERVER CABINET STRUCTURE - A server cabinet structure includes a rack, at least one tray and at least one fixing component. The rack has two opposite frame bars and at least two guide rails correspondingly disposed on the frame bars. The tray is disposed on the two guide rails, and is capable of sliding into the rack. The guide rails are accommodated in recessed portions of the tray exactly. The tray presses against the frame bars through a stop plate. One combining hole of the stop plate is corresponding to an assembly hole of the frame bar. The fixing component passes through the combining hole and the assembly hole, and is inserted into the frame bar, so as to limit and keep the tray inside the rack. | 05-10-2012 |
20120113584 | COOLING SYSTEM FOR SERVER AND COOLING METHOD FOR ELECTRONIC APPARATUS - A cooling system for a server includes at least one radiator and at least one cooling plate that are installed in a server cabinet, a cooling assembly, a storage tank, and a heat exchanger. The cooling assembly is connected to the radiator, and is carried with a first cooling fluid therein. The storage tank is connected to the cooling plate, and is carried with a second cooling fluid therein. The first cooling fluid enters the heat exchanger through the radiator, and the second cooling fluid enters the heat exchanger through the cooling plate. The first cooling fluid and the second cooling fluid perform heat exchange in the heat exchanger, so as to reduce the temperature of the second cooling fluid, thus reducing the required energy enabling the second cooling fluid to return to a set temperature. | 05-10-2012 |
20120113592 | SERVER RACK - A server rack includes a cabinet, at least one fan, and at least one circuit board, in which the cabinet has a first side surface and a second side surface arranged along a first direction and opposite to each other. The fan is installed on the first side surface of the cabinet and blows an airflow in the first direction, the circuit board is installed in the cabinet along the second direction, and the second direction and the first direction are perpendicular to each other, so the airflow generated by the fan is blown to the circuit board, thereby performing heat dissipation. | 05-10-2012 |
20120125448 | ADJUSTABLE COOLANT QUICK COUPLER - An adjustable coolant quick coupler has a coolant supplier seat and a transmission seat that can be optionally connected or disconnected. The coolant supplier seat has a regulator assembly. The regulator assembly is able to adjust quantity of flow-in coolant and quantity of flow-out coolant. When the coolant supplier seat is connected to the transmission seat, the coolant can flow automatically from the coolant supplier seat to the transmission seat, so as to cool down electronic components inside a rack. When the coolant supplier seat is disconnected from the transmission seat, the coolant instantly stops flowing into the transmission seat. Because of the quick coupler, the rack installed inside a narrow space is convenient to set up or disassemble. Furthermore, by adjusting the quantity of flow-in coolant and the quantity of flow-out coolant, the electronic components can have a better effect of heat-dissipation. | 05-24-2012 |
20120125586 | SEPARABLE LIQUID-COOLING HEAT-DISSIPATION MODULE - A separable liquid-cooling heat-dissipation module has a first flow pipe, a second flow pipe, and a plurality of heat conduction blocks. The second flow pipe is set on a top end of the first flow pipe. A bottom end of the second flow pipe has a gap, so that a heat-insulating structure is formed between the first flow pipe and the second flow pipe. The heat conduction blocks are installed on both sides of the first flow pipe and the second flow pipe. A combination of the first flow pipe, the second flow pipe, and the heat conduction blocks provides a modular heat-dissipation structure and also achieves effects of heat-dissipation and energy-saving. | 05-24-2012 |
20120126527 | QUICK COUPLER - A quick coupler has a coolant supplier seat and a transmission seat that can be optionally connected or disconnected. When the coolant supplier seat is connected to the transmission seat, the coolant can flow automatically from the coolant supplier seat to the transmission seat, so as to cool down electronic components inside a rack. When the coolant supplier seat is disconnected from the transmission seat, the coolant instantly stops flowing into the transmission seat. Because of the quick coupler, the rack installed inside a narrow space is convenient to set up or disassemble. | 05-24-2012 |
20120127655 | SERVER CABINET - A server cabinet is provided, which not only utilizes a first cooling fluid to flow through a heat exchanger of the cabinet to lower the temperature of entrances of fan modules without wasting additional energy, but also utilizes a cooling fluid pipe set to send a second cooling fluid to heat exchange apparatuses in a server to lower the temperature of heating elements inside the cabinet. The server cabinet could lower the heat dissipating loading of the heat exchanger of the cabinet and achieve the efficiency of saving energy. | 05-24-2012 |
20120136487 | MODULIZED HEAT-DISSIPATION CONTROL METHOD FOR DATACENTER - A modulized heat-dissipation control method for a datacenter is provided. In this method, a temperature sensor is used to sense inner temperatures of multiple servers and CPU temperatures in the multiple servers. If any one of the CPU temperatures is abnormal, a flow of a first coolant is adjusted. If any one of the inner temperatures is abnormal, a rotating speed of a fan module is adjusted. If the rotating speed of the fan module has reached its maximum, a flow of a second coolant is adjusted. | 05-31-2012 |
20130043775 | SERVER CABINET COOLANT DISTRIBUTION SYSTEM - A cooling coolant pipe of a server cabinet includes multiple tube bodies interconnected in series and at least one adjustable valve. In each of the tube bodies a first chamber and a second chamber that are adjacent to and separated from each other, the second chambers of the two adjacent tube bodies are in communication with each other, and a wall surface of each of the tube bodies has at least one connection port in communication with the first chamber. The adjustable valve is disposed in one of the tube bodies. The first chamber in each of the tube bodies is in communication with the second chamber in the tube body through the adjustable valve. In this way, the adjustable valve adjusts the flow rate of a cooling fluid flowing from the second chamber to the first chamber. | 02-21-2013 |
20130118710 | HEAT DISSIPATION SYSTEM - A server rack heat dissipation system for a server including an electronic component comprises a first and a second heat dissipation assembly. The first heat dissipation assembly includes a first heat exchanger and a first pipeline. The first heat exchanger is inside the server rack and in thermal contact with the electronic component. The first pipeline is in thermal contact with the first heat exchanger and has a first coolant. The second heat dissipation assembly includes a second heat exchanger. The second heat exchanger is inside the server rack and in thermal contact with the first pipeline. The second heat exchanger can remove the heat of the electronic component in the first coolant in advance. Accordingly, the time of the first coolant being maintained in a vapor phase can be shortened, so that a power the fluid driving device used for driving the first coolant is reduced. | 05-16-2013 |
20130135822 | COOLING MODULE - A cooling module applicable in an electronic device is provided. The electronic device includes a plurality of first heat sources and a plurality of second heat sources. The cooling module includes a cooling loop and a plurality of heat pipes. The cooling loop includes a plurality of cooling units. The cooling units are connected in series through a plurality of connection tube and each cooling unit is thermally coupled to one of the first heat source. The heat pipes are thermally coupled to the second heat sources and the cooling units. When the cooling unit is in failure, the cooling units can be directly removed and replaced. Also, the second heat sources of the electronic device are capable of exchanging heat with the cooling unit through the heat pipe. | 05-30-2013 |
20130158738 | HEAT DISSIPATION CONTROL SYSTEM AND CONTROL METHOD THEREOF - A heat dissipation control system comprises a sensing unit, an artificial neural network computing unit, and two heat dissipation units. The artificial neural network computing unit performs computation for controlling based on a plurality of electronic-device temperatures sent out by the sensing unit. The computation for controlling performs a back propagation algorithm on an objective function which is defined a as the square of an error function. Accordingly, cooling effects suitable for the heat dissipation units are generated in order to achieve an optimum heat dissipation effect. | 06-20-2013 |
20130240194 | HEAT EXCHANGER AND METHOD FOR FABRICATING THE SAME - A heat exchanger comprises a base portion and a plurality of fins. The fins are disposed on the base portion in parallel along a processing direction. Each fin has a processing surface far away from the base portion. The processing surfaces sunken to form at least one groove, and the groove extends along a grooving direction which intersects with the processing direction. Furthermore, each fin has two upper valley sides at the groove, and the two upper valley sides connect the processing surface. The two upper valley sides and the processing surface form an obtuse angle. The structure of the heat exchanger can prevent processing waste filling in the passages between fins. | 09-19-2013 |
20130240195 | HEAT EXCHANGER AND METHOD FOR FABRICATING THE SAME - A heat exchanger comprises a base portion and a plurality of fins. The fins are disposed in parallel on the base portion. Each fin has an upper margin far away from the base portion. The distance between each upper margin and the base portion is substantially gradually reduced along a first direction. The upper margins sunken to form at least one groove. The groove extends along a second direction which intersects with the first direction. The structure of the heat exchanger can prevent cutting waste filling in the passages between fins and thus block of passages can be avoided. | 09-19-2013 |
20140104784 | SERVER SYSTEM AND METHOD FOR CONTROLLING THE SAME - A server system has an air inlet side and an air outlet side. The server system includes two server rack modules arranged side by side and a controller electrically connected to the server rack modules. Each server rack module includes a cabinet having a first side close to the air inlet side, multiple server hosts detachably disposed in the cabinet and a fan component. The fan component, disposed at the first side, includes multiple fans electrically connected to the controller. The first side of one of the cabinets abuts against the second side of the other cabinet. When the fan components operate, an air flow is formed in the cabinets. The server hosts are located in the flow path of the air flow. When one of the fans is failed, the controller is adapted for increasing a rotational speed of the fan component close to the air outlet side. | 04-17-2014 |
Patent application number | Description | Published |
20080209991 | FUEL TANK DEVICE CAPABLE OF DETECTING CONSISTENCY - A fuel tank device capable of detecting consistency includes a fuel storage tank and a consistency detecting box. The fuel storage tank provides fuel needed by a fuel cell as a fuel supply source for the fuel cell. A consistency detecting passage is disposed near the bottom of the fuel storage tank for the fuel flowing outward to the consistency detecting box. The consistency detecting box further includes a signal emitting component, which is disposed in the consistency detecting box and capable of emitting a signal piercing the fuel in the consistency detecting box, a signal receiving component, which is disposed in the consistency detecting box and capable of collecting the signal after piercing the fuel in the consistency detecting box and a consistency detecting component, which is attached to the consistency detecting box, compares the emitted signal with the collected signal for detecting a consistency of the fuel. | 09-04-2008 |
20090116332 | MULTI-FUNCTIONAL FUEL MIXING TANK - The present invention discloses a multi-functional fuel mixing tank, which comprises: a case, a condenser, a fan, a first sheet, and a second sheet; wherein, the case is configured with a first accommodation portion, a second accommodation portion, a third accommodation portion, a first channel, a second channel, a third channel, a fourth channel, a fuel inlet, an air inlet, a fuel outlet, and a product inlet. The fuel inlet, the air inlet, the fuel outlet and the product inlet are configured on the sidewall of the case. The second accommodation portion is used as a mixing tank. The first channel is connected with the fuel inlet and the second accommodation portion. The fourth channel is connected with the first accommodation portion and the second accommodation portion. The condenser is fixed with the first accommodation portion, and used to condense the steam from the air inlet into water, and the condensed water flows to the second accommodation portion through the third channel and the second channel. The fan is fixed with the third accommodation portion, and used to reduce the temperature of the condenser. The first sheet and the second sheet are tightly joined on the upper surface and the lower surface of the case. | 05-07-2009 |
20140134296 | METHOD OF MAKING HIGH-OXYGENATED WATER AND THE APPARATUS OF MAKING THE SAME - An apparatus of making high-oxygenated water includes an oxygen supply, an exchange tank, and a pressure tank. The oxygen supply respectively supplies pure oxygen to the exchange tank and the pressure tank. The pure oxygen is dissolved in water in the exchange tank in a normal pressure environment to obtain oxygenated water. A slow-down unit is provided in the exchange tank to extend the time of the pure oxygen staying in the exchange to raise the dissolved oxygen of the oxygenated water. Next, the oxygenated water is drained to the pressure tank, and then the pure oxygen is dissolved in the oxygenated water in the exchange tank in a high pressure environment to obtain high-oxygenated water. | 05-15-2014 |
20140251388 | CLEANING SYSTEM AND METHOD OF CLEANING - A method of supplying oxygenated water is performed on a water tank, in which oxygenated water is received. The method lets the water tank supply a constant amount of the oxygenated water once, and then supply the water tank with water and pure oxygen to recover the dissolution ratio of oxygen of the oxygenated water in the water tank. The method may supply a constant amount of oxygenated water every time for the user to drink it up once. | 09-11-2014 |
20140252665 | DISTURBING DEVICE OF OXYGENATED WATER MACHINE - A disturbing device of an oxygenated water machine includes a frame, two wing board, and a separating board. The wing boards are connected to an inner side of the frame, and slope downward. A gap is formed between the wing boards. Each wing board is provided with several ribs on a bottom sides. The separating board is connected to the inner side of the frame and is right under the gap. Therefore, water falls down from the wing board and onto the separating board, and oxygen goes up in a S path from a bottom edge of the frame. It is helpful to the dissolution of oxygen to obtain high oxygenated water. | 09-11-2014 |