MSI COMPUTER (SHENZHEN) CO., LTD. Patent applications |
Patent application number | Title | Published |
20150070844 | LIQUID-COOLING MODULE AND ELECTRONIC DEVICE USING THE SAME - A liquid-cooling module includes a liquid-providing component, a liquid-receiving component and at least one heat dissipating assembly. The liquid-providing component has a liquid inlet and a plurality of liquid-providing openings, while the liquid inlet is used for being connected to a cooler. The liquid-receiving component has a plurality of liquid-receiving openings and a liquid outlet, and the liquid outlet is used for being connected to the cooler. The at least one heat dissipating assembly includes a flow tube. One end of the flow tube is detachably connected to one of the plurality of liquid-providing openings, and the other end of the flow tube is connected on one of the plurality of liquid-receiving openings. | 03-12-2015 |
20140343783 | MOBILE DEVICE - A mobile device moving in a specific area including a driving unit, an environment sensing unit, a control unit and a transmittal unit is disclosed. The driving unit moves according to a first driving signal. The environment sensing unit detects an outline of the specific area to generate detection information. The control unit processes the detection information to generate first map information and position information. The transmittal unit transmits the first map information to an electronic device. The electronic device generates second map information according to the first map information, and the control unit generates the first driving signal according to the first map information, the second map information and the position information. | 11-20-2014 |
20140324270 | MOBILE ROBOT - A mobile robot including a light emitting unit, a processing unit, an optical component, an image sensing unit, a control unit and a moving unit is provided. The light emitting unit emits a main beam. The processing unit diverges the main beam to a plurality of sub-beams. The sub-beams constitute a light covering an area. When a portion of the sub-beams irradiate a first object, the first object reflects the sub-beam and a plurality of reflected beams are reflected. The optical component receives the reflected beams and converges it to a first collected beam. The image sensing unit converts the first collected beam into a first detection result. The control unit calculates depth information according to the first detection result. The control unit activates the relevant behavior of the mobile robot according to the depth information and controls the mobile robot through the moving unit. | 10-30-2014 |
20140195050 | CLEANING ROBOT AND SYSTEM UTILIZING THE SAME - A cleaning robot is disclosed. A first sensing unit generates a sensing signal to a transmittal line according to an external wireless signal. When the external wireless signal is sensed by the first sensing unit, a state of the transmittal line does not match with a pre-determined state. When the external wireless signal is not sensed by the first sensing unit, the state of the transmittal line matches with the pre-determined state. A control unit generates a movement signal when the state of the transmittal line matches with the pre-determined state. A plurality of wheels rotate according to the movement signal. A second sensing unit generates a second sensing signal according to the external environment of the cleaning robot. When the state of the transmittal line does not match with the pre-determined state, the control unit adjusts the movement signal according to the second sensing signal. | 07-10-2014 |
20140116659 | HEAT DISSIPATION DEVICE AND HEAT DISSIPATION FINS THEREOF - A heat dissipation device for being in thermal contact with a heat source includes multiple heat dissipation fins, a heat pipe and a fan. Each of the heat dissipation fins includes a plate and an air guiding body. The plate has a thermal contact side used for being in thermal contact with the heat source. An acute angle is formed between an extension side of the air guiding body and the thermal contact side. The heat pipe penetrates through the plates. The fan used for forming an air current is installed at a side of the heat dissipation fin opposite to the thermal contact side. The air guiding body and the heat pipe are disposed in a flowing path of the air current. Thereby, the air current is guided toward the heat pipe and the amount of air flowing through the heat pipe is increased. | 05-01-2014 |
20140030104 | FAN DEVICE AND VANE THEREOF - A fan device includes a frame including an axle base and a vane including a hub disposed on the axle base pivotally and blade assemblies disposed circumferentially on the sidewall surface. The hub includes a windward side and a sidewall surface. Each blade assemblies includes a first blade and a second blade protruded from the sidewall surface radially. The second blade is farther away than the first blade from the windward side. The angle of between an extending surface of a second side edge of the second blade extending and the windward side is greater than another angle of between an extending surface of a first side edge of the first blade extending and the windward side. The gap between the partial second side edge and the windward side is less than another gap between the first side edge and the windward side. | 01-30-2014 |
20130231819 | CLEANING ROBOT AND CONTROL METHOD THEREOF - A cleaning robot cleaning a specific region and including a movement module, a sound wave module, a cleaning module and a controlling module is disclosed. The movement module includes a plurality of wheels. The sound wave module emits a sound wave and receives a plurality of reflected waves. The cleaning module performs a cleaning function. The controlling module generates a contour according to the reflected waves and controls at least one of the movement module and the cleaning module according to the contour. | 09-05-2013 |
20130228199 | CLEANING ROBOT AND CONTROL METHOD THEREOF - A cleaning robot including a movement module, a cleaning module, a shock sensor module and a control module is disclosed. The movement module includes a plurality of rollers. The cleaning module includes a suction aperture, a cleaning brush, and a dust collection box. The shock sensor module detects a shock and generates a detection signal. The control module controls at least one of the movement module and the cleaning module according to the detection signal. | 09-05-2013 |
20130228198 | CLEANING SYSTEM AND CONTROL METHOD THEREOF - A cleaning system including a guiding object and a cleaning robot is disclosed. The guiding object includes a magnet to form a magnetic field. The cleaning robot includes an operation module, a first sense module and a control module. The operation module performs a cleaning action and a moving action according to a control signal. The first sense module generates a first sensed signal according to the magnetic field. The control module generates the control signal to adjust an efficiency of at least one of the cleaning action and the moving action according to the first sensed signal. | 09-05-2013 |