Patent application number | Description | Published |
20100039772 | Cooling device and electronic device - In a cooling device, an electronic component is attached to one surface on one side of a heat pipe so that heat can be conveyed, a first heat-radiating fin is provided on another surface on another side of the heat pipe, a first fan unit that sends an airflow to the first heat-radiating fin is provided on one side of the heat pipe, and a first duct that guides the airflow produced by the first fan unit to the first heat-radiating fin is provided on the other surface of the heat pipe. | 02-18-2010 |
20100142148 | Liquid cooling unit and electronic apparatus - A liquid cooling unit includes a pump body. A nipple is formed in the pump body. The nipple defines an outflow passage for coolant. An elastic tube has the tip end receiving insertion of the nipple so that the elastic tube is coupled to the nipple. A fixation member defines a groove supporting the nipple inside the elastic tube over a first predetermined length from the tip end of the nipple. The groove receives the elastic tube alone ahead of the tip end of the nipple over a second predetermined length from the tip end of the nipple. | 06-10-2010 |
20100294385 | FAN UNIT - A fan unit includes a housing having an air inlet and an air outlet; a first fan and second fan mounted in the air inlet and the air outlet respectively and arranged in tandem so as to generate an air flow; a first valve mounted adjacent to the air inlet for allowing air to flow into the housing and preventing air from flowing out of the housing; and a second valve mounted adjacent to the air outlet for allowing air to flow out of the housing and preventing air from flowing into the housing. | 11-25-2010 |
20100296945 | FAN CONTROL APPARATUS AND FAN CONTROL METHOD - A fan controlling apparatus for controlling a plurality of fans which are tandemly arranged in ventilation direction of a chamber to control a temperature of a hot generating object placed in the chamber, the apparatus includes a memory for storing data of the rotational speed each of fans in relation to the temperature of the heat generating object, and a controller for controlling the rotational speed of each of the fans respectively in dependence on the temperature of the heat generating object in reference to the data stored in the memory. | 11-25-2010 |
20110079462 | MUFFLING DEVICE - A muffling device has a muffling piece that is placed in an airflow path and muffles sound caused by airflow, and a drive unit that performs one of rotation and movement of the muffling piece. | 04-07-2011 |
20110155675 | VENTILATION SYSTEM AND RACK APPARATUS - A ventilation system includes a plurality of fan units. Each of the fan units includes a fan to generate an air stream, and a duct disposed on an upstream of the air stream with respect to the fan and defining a flow channel having a square-shaped section to guide an air into the fan, the flow channel being coaxial with a rotating shaft of the fan. The fan units are arranged in a direction crossing the shaft so that the rotating shafts are disposed in parallel to each other. | 06-30-2011 |
20120063606 | SOUND PRESSURE PREDICTION APPARATUS, SOUND PRESSURE PREDICTION METHOD, AND INFORMATION STORAGE MEDIUM - A sound pressure level prediction apparatus includes a storage unit for storing measured sound pressure levels. The sound pressure level prediction apparatus also includes an acquisition unit configured to acquire sound pressure levels measured at a plurality of locations for a first fan and at least one sound pressure level for a second fan, and the at least one sound pressure level being measured at the same location as at least one of the plurality of locations used for measuring the sound pressure levels for the first fan. The sound pressure level prediction apparatus further includes a prediction unit configured to predict, based on the acquired sound pressure levels of the first fan and the at least one sound pressure level for the second fan, a sound pressure level for the second fan at a location where the sound pressure level for the second fan has not yet been measured. | 03-15-2012 |
20120072132 | STORAGE MEDIUM, PREDICTING APPARATUS, AND PREDICTING METHOD - A predicting apparatus includes an obtaining unit and a predicting unit. The obtaining unit included in the predicting apparatus obtains actual measurements of data about a fan being rotated at a predetermined revolution frequency N [rpm]. The predicting apparatus then predicts data about the fan to be rotated at a revolution frequency N′ that is different from the predetermined revolution frequency N based on the actual measurements of the data thus obtained. | 03-22-2012 |
20120243985 | AXIAL BLOWER - An axial blower includes a moving vane generating air flow by rotation, a casing accommodating said moving vane, and an adapter detachably attached to the casing. The adapter includes a fitting part to be fit to an inner surface of the casing. The adapter forms a protrusion or a step on the inner surface of the casing. | 09-27-2012 |
20130131886 | BLOWER CONTROL DEVICE, BLOWER CONTROL METHOD, AND COMPUTER-READABLE RECORDING MEDIUM - A blower control device changes a PQ characteristic in a second table so that an operating point (Q | 05-23-2013 |
20130151213 | DESIGN SUPPORT METHOD, RECORDING MEDIUM, AND DESIGN SUPPORT DEVICE - A design support method includes: executing by a computer operations of: moving, in an arbitrary direction, a first particle that is placed at a position in an internal space of a three-dimensional model of a design target and has a diameter of a size; recording a movement trace of the first particle; and calculating a volume of a first spatial region formed by the recorded movement trace. | 06-13-2013 |
20130197871 | PREDICTED VALUE CALCULATION METHOD AND DESIGN SUPPORT APPARATUS - A design support apparatus includes an extraction unit that extracts component models having a connection relationship with a position specified inside a predetermined component model, from a plurality of component models that are hollow and are included in the three-dimensional model of a device to be designed, depending on whether each of the plurality of component models satisfies predetermined conditions on cross-sectional areas of the component models, and a calculation unit that calculates a predicted value of the acoustic characteristics of the component models extracted by the extraction unit. | 08-01-2013 |
20140288889 | COMPUTER PRODUCT, ANALYSIS MODEL GENERATING METHOD, AND ANALYSIS MODEL GENERATING APPARATUS - An analysis model generating apparatus includes a processor that is configured to generate based on three-dimensional design information of an object under analysis, first information that represents a rectangular parallelepiped surrounding the object; generate for each direction of three orthogonal sides of the rectangular parallelepiped indicated by the first information, second information that indicates cross sections of the rectangular parallelepiped orthogonal to the direction; calculate based on the design information and for each of the cross sections indicated by the second information, an index value corresponding to a proportion of the object in a cross section; detect among the cross sections, adjacent cross sections having a difference in the calculated index value greater than a predetermined value; and generate for each of the detected adjacent cross sections, a plate model representative of a plate that is disposed orthogonal to the direction at a position corresponding to the adjacent cross section. | 09-25-2014 |
20140324380 | INFORMATION PROCESSING APPARATUS AND COOLING PERFORMANCE EVALUATION METHOD - A calculating unit calculates, using information indicating temperatures of a fluid mixture at individual locations across a space, heat quantities transferred to the fluid mixture at the individual locations. The fluid mixture is a blend of a plurality of fluids allowed to flow in by a plurality of cooling apparatuses. The calculating unit calculates heat quantities transferred to each of the fluids at the individual locations based on the heat quantities transferred to the fluid mixture at the individual locations, a velocity distribution of the fluid mixture, and flow rate distributions of the individual fluids. The calculating unit evaluates, using the heat quantities transferred to each of the fluids at the individual locations, the degree of contribution of each of the cooling apparatuses to cooling of an object disposed in the space. | 10-30-2014 |