43rd week of 2017 patent applcation highlights part 81 |
Patent application number | Title | Published |
20170311481 | COOLING SYSTEM AND ELECTRONIC DEVICE - The purpose of the present invention is to more efficiently cool exhaust heat, of an apparatus or the like that emits heat, by preventing a situation where a gas-phase medium is cooled and turns into a liquid-phase medium and thereby transfer of the gas-phase medium is hindered. For this purpose, a cooling system includes a heat receiving means for receiving a gas heated by heat emitted by an electronic apparatus and changing a liquid-phase heat medium into a gas-phase heat medium. a heat radiation means for cooling the gas-phase heat medium so as to be changed into the liquid-phase heat medium. a first transfer means for transferring the gas-phase heat medium from the heat receiving means to the heat radiation means. and a second transfer means for transferring the liquid-phase heat medium from the heat radiation means to the heat receiving means. wherein at least part of the first transfer means is heated by the heat emitted by the electronic apparatus. | 2017-10-26 |
20170311482 | HEAT DISSIPATING STRUCTURE - A heat sink according to one embodiment of the present invention includes: a base portion having a first surface and a second surface which oppose each other; at least one heat dissipating fin extending vertically from the first surface, each of the at least one heat dissipating fin having an insertion groove extending from an end portion thereof toward the base portion, and a first fin portion and a second fin portion which are separated by the insertion move; and a connector included in the base portion, the connector being above the insertion groove in plan view, and the connector being configured to electrically connect a first heat generating component to be inserted into the insertion groove from a side of the first surface and a second heat generating component to be disposed on a side of the second surface. | 2017-10-26 |
20170311483 | HEAD-MOUNTED DISPLAY AND GRIPPING APPARATUS - A head-mounted display configured to display an image to a user includes a protruding member disposed on an outer surface member of the head-mounted display, and in proximity to a heat generation source arranged inside the head-mounted display, and a heat transfer member disposed between the protruding member and the heat generation source, and arranged to be deformable along a shape of the protruding member. Therefore, the present invention is directed to providing a head-mounted display or a gripping apparatus capable of preventing the occurrence of thermal concentration without impairing an observer's feeling of use. | 2017-10-26 |
20170311484 | METHODS AND SYSTEM FOR OIL IMMERSION COOLING - A system for immersion cooling computing system equipment includes a container containing a volume of immersion cooling fluid. At least one heat generating computing system equipment component and a liquid-liquid heat exchanger are disposed in the volume of immersion cooling fluid. A manifold system is disposed between the heat generating computing system equipment component and the liquid-liquid heat exchanger to direct a flow of immersion cooling fluid between the heat generating computing system component and the liquid-liquid heat exchanger and to isolate the flow of immersion cooling fluid from a bulk amount of immersion cooling fluid. The flow of immersion cooling fluid and the bulk amount of immersion cooling fluid constitutes the volume of immersion cooling fluid. | 2017-10-26 |
20170311485 | COOLING DEVICE AND METHOD OF MANUFACTURING THE SAME - It is impossible to avoid the increase in device cost and maintenance cost in order to cool a heat source efficiently using a natural-circulation type phase-change cooling device; therefore, a cooling device according to an exemplary aspect of the present invention includes a heat receiving unit for receiving heat; a condensing unit for releasing heat; and a refrigerant intermediary unit for connecting the heat receiving unit with the condensing unit, and transporting refrigerant circulating between the heat receiving unit and the condensing unit, wherein the refrigerant intermediary unit includes a refrigerant retaining unit for retaining the refrigerant, a primary tube connecting the refrigerant retaining unit with the condensing unit, and a secondary tube connecting the refrigerant retaining unit with the heat receiving unit and including a bendable tube. | 2017-10-26 |
20170311486 | MODULAR FAN ASSEMBLY - A modular fan assembly for use in a multi-device storage enclosure. In some embodiments, the fan assembly has a rigid open frame with opposing first and second ends. A first fan is connected to the first end and a second fan is connected to the second end. The first and second fans are configured to establish a fluidic airflow through the frame. An airflow diverter positioned in an intermediate portion of the frame between the first and second ends divert at least a portion of the fluidic airflow through a first aperture of the frame to cool an active element outside the frame. | 2017-10-26 |
20170311487 | FAN CONTROLLED AMBIENT AIR COOLING OF EQUIPMENT IN A CONTROLLED AIRFLOW ENVIRONMENT - In some examples, a system uses ambient air from outside a controlled airflow environment to cool equipment within the controlled airflow environment. The system can include ductwork that seals the ambient air from air outside of the ductwork within the controlled airflow environment. The system can further include a passive heat exchanger connected to the equipment and extending into an interior of the ductwork to allow heat exchange between the equipment and the ambient air. The system can further include a fan to flow the ambient air through the ductwork, the fan being connectable to the equipment to allow the equipment to control the operation of the fan. | 2017-10-26 |
20170311488 | WATER-ASSISTED AIR COOLING FOR A ROW OF CABINET - A cooling apparatus and method including a plurality of heat-producing devices positioned in a plurality of cabinets arranged in a row that allows flow of a first fluid through the heat-producing devices and cabinets where the flow is directed from an upstream end of the row to a downstream end of the row. The cabinets have a space therebetween wherein a heat exchanger is positioned between and adjacent to the cabinets, thereby the cabinets and heat exchangers alternate in the row. Each heat exchanger allows flow of a second fluid therethrough for cooling the first fluid. A fluid-moving device is positioned adjacent the heat-producing devices for encouraging flow of the first fluid through the cabinets' heat-producing devices and through the heat exchangers, thereby encouraging heat transfer in each of the heat exchangers from the first fluid to the second fluid. | 2017-10-26 |
20170311489 | REFRIGERANT SUPPLY DEVICE, COOLING DEVICE, AND COOLING SYSTEM | 2017-10-26 |
20170311490 | SYSTEM AND METHOD FOR COOLING POWER ELECTRONICS - A cooling system for power electronics of an engine-powered unit includes at least one power electronics component, a liquid chamber in thermal communication with a frame of the engine-powered unit, and a pump configured to circulate a cooling fluid through the at least one power electronics component and the liquid chamber. The liquid chamber is configured to conductively transfer heat from the cooling fluid to the frame to cool the cooling fluid. | 2017-10-26 |
20170311491 | POPULATION OF PRINTED CIRCUIT BOARDS - Populating printed circuit boards with components on a pick-and-place variant set-up is provided. Each set-up includes a number of components, stocks of which are brought to setting-up tables on the pick-and-place line, and a set-up family is associated with each set-up, the family system, a fixed set-up and multiple printed circuit board types which can be populated using the set-up. The fixed set-up is optimized with respect to a weighted parameter, before determining, by means of a simulation, how well variant set-ups, with which the remaining components of predefined pick-and-place orders are associated, can be implemented on the setting-up tables and brought to the pick-and-place line. The quality of each different weighting is determined in order to determine an optimized weighting. | 2017-10-26 |
20170311492 | COMPONENT CRIMPING DEVICE AND COMPONENT CRIMPING METHOD - An object of the present disclosure is to provide a component crimping device and a component crimping method that make it possible to improve accuracy of attaching a component onto a substrate by preventing the component from being excessively elongated due to rapid thermal expansion when the component is pressed against the substrate. A lower surface side of a substrate-side terminal part of a substrate held by a substrate holding table is supported by a support, a component placed on a placing table is picked up by a crimping head while heating the component, the component is compressed against a compressing table so as to be elongated, and then the component is pressed against the substrate-side terminal part. | 2017-10-26 |
20170311493 | COMPONENT PICKUP POSITION CORRECTION SYSTEM AND COMPONENT PICKUP POSITION CORRECTION METHOD FOR A ROTARY HEAD TYPE COMPONENT MOUNTER - In a rotary head type component mounter, before using two suction nozzles of rotary head to pick up the leading components in component supply tape set in two tape feeders, rotary head is moved in the XY directions by head moving mechanism and rotated by head rotating mechanism such that the pickup points of the two suction nozzles are positioned on two straight lines and extending in the tape feeding direction of each tape feeder passing through the ideal pickup points of the leading components of the two tape feeders, and the leading components are fed to component pickup positions and that are the pickup points of the suction nozzles on the two straight lines. Then, the two suction nozzles of rotary head are lowered simultaneously to pick up the two component simultaneously using the two suction nozzles. | 2017-10-26 |
20170311494 | COMPONENT MOUNTING SYSTEM AND ERROR STOPPAGE DIAGNOSIS METHOD FOR COMPONENT MOUNTING DEVICE - In a component mounting system, recovery processing is repeated until a recovery count number Nr is larger than or equal to a defined count number Nth in a case where a pickup defect of a component occurs, an elapsed time is measured from error stoppage of a component mounting machine to canceling of the error stoppage in which the component mounting machine is error-stopped when the recovery count number Nr is larger than or equal to the defined count number Nth, the defined count number Nth is increased within a range in which the defined count number does not exceed the upper limit value Nmax in a case where the elapsed time is shorter than a defined time Tth, and the defined count number Nth returns to an initial value in a case where the elapsed time is longer than or equal to the defined time Tth. | 2017-10-26 |
20170311495 | Rose plant named 'RNF Cream 01' - A new and distinct rose plant having a strong fragrance and creamy yellow-colored flowers. | 2017-10-26 |
20170311496 | Rose plant named 'RNF Yellow 01' - A new and distinct rose plant having a strong fragrance and creamy yellow-colored flowers. | 2017-10-26 |
20170311497 | Rose plant named 'RNF Pink 01' - A new and distinct rose plant having a strong fragrance and deep pink-colored flowers. | 2017-10-26 |
20170311498 | Rose plant named 'RNF Pink 02' - A new and distinct rose plant having a strong fragrance and pink-colored flowers. | 2017-10-26 |
20170311499 | Rose plant named 'RNF Pink 03WL' - A new and distinct rose plant having a strong fragrance and brink pink colored flowers with numerous petals. | 2017-10-26 |
20170311500 | Vaccinium Plant Named 'VacBri1' - A new cultivar of | 2017-10-26 |
20170311501 | Raspberry Plant Named 'DrisRaspNine' - A new and distinct variety of raspberry plant named ‘DrisRaspNine’ particularly distinguished by having a self-fruitful plant that bears medium-sized, strongly red berries, is disclosed. | 2017-10-26 |
20170311502 | Broussonetia plant named 'JINFENG' - ‘Jinfeng’ is a distinctive variety of | 2017-10-26 |
20170311503 | Chinese redbud plant named 'Chongyang' - ‘Chongyang’ is a distinctive variety of Chinese redbud plant, which is characterized by its florescence. | 2017-10-26 |
20170311504 | Broussonetia plant named 'Jinhudie' - ‘Jinhudie’ is a distinctive variety of | 2017-10-26 |
20170311505 | Nandina plant named 'NanSid6' - A new cultivar of | 2017-10-26 |
20170311506 | Nandina plant named 'NanSid3' - A new cultivar of | 2017-10-26 |
20170311507 | Arctotis plant named `bonarc 1107' - A new and distinct cultivar of | 2017-10-26 |
20170311508 | ARCTOTIS PLANT NAMED 'BONARC 1116' - A new and distinct cultivar of | 2017-10-26 |
20170311509 | ARCTOTIS PLANT NAMED 'BONARC 0729' - A new and distinct cultivar of | 2017-10-26 |
20170311510 | EUPHORBIA PLANT NAMED 'BONPRI 1049' - A new and distinct cultivar of | 2017-10-26 |
20170311511 | Euphorbia plant named 'Bonpri 585' - A new and distinct cultivar of | 2017-10-26 |
20170311512 | EUPHORBIA PLANT NAMED 'BONPRI 1069' - A new and distinct cultivar of | 2017-10-26 |
20170311513 | Verbena plant named 'Balendurim' - A new and distinct cultivar of | 2017-10-26 |
20170311514 | Phalaenopsis Orchid Plant Named 'Phalfamzol' - A new and distinct variety of | 2017-10-26 |
20170311515 | PHALAENOPSIS ORCHID PLANT NAMED 'DAY TRIPPER' - A new and distinct | 2017-10-26 |
20170311516 | PHALAENOPSIS ORCHID PLANT NAMED 'SWEET DAY' - A new and distinct | 2017-10-26 |
20170311517 | Phalaenopsis orchid plant named 'golden story' - A new and distinct | 2017-10-26 |
20170311518 | Phalaenopsis orchid plant named 'Sunshower' - A new and distinct | 2017-10-26 |
20170311519 | Phalaenopsis orchid plant named 'Penny Love' - A new and distinct | 2017-10-26 |
20170311520 | Phalaenopsis orchid plant named `Mellowstar' - A new and distinct | 2017-10-26 |
20170311521 | Phalaenopsis orchid plant named 'FUNKY LOVE' - A new and distinct | 2017-10-26 |
20170311522 | Phalaenopsis orchid plant named 'Freeride' - A new and distinct | 2017-10-26 |
20170311523 | Aster plant named 'Zanaslisu' - A new and distinct cultivar of Aster plant named ‘Zanaslisu’, characterized by its compact, upright to slightly spreading and mounding plant habit; moderately vigorous growth habit; freely branching growth habit; dense and bushy appearance; freely flowering habit; double-type inflorescences with light violet blue-colored ray florets; good postproduction longevity and good container performance. | 2017-10-26 |
20170311524 | Aster plant named 'ZANASNOWHI' - A new and distinct cultivar of Aster plant named ‘Zanasnowhi’, characterized by its compact, upright to slightly spreading and mounding plant habit; moderately vigorous growth habit; freely branching growth habit; dense and bushy appearance; freely flowering habit; double-type inflorescences with white-colored ray florets; good postproduction longevity and good container performance. | 2017-10-26 |
20170311525 | Scaevola plant named 'Bonsca 1219' - A new and distinct cultivar of | 2017-10-26 |
20170311526 | Scaevola plant named 'BONSCA 1419' - A new and distinct cultivar of | 2017-10-26 |
20170311527 | Scaevola plant named 'BONSCA 1430' - A new and distinct cultivar of | 2017-10-26 |
20170311528 | SCAEVOLA PLANT NAME 'BONSCA 1433' - A new and distinct cultivar of | 2017-10-26 |
20170311529 | Caladium plant named `Berries N' Burgundy' - A new and distinct cultivar of | 2017-10-26 |
20170311530 | Zamioculcas plant named 'Dark Zamicro' - A new and distinct | 2017-10-26 |