45th week of 2017 patent applcation highlights part 67 |
Patent application number | Title | Published |
20170325353 | RACK SIDECAR FOR ADDITIONAL IT EQUIPMENT AND CABLE MANAGEMENT - A structure of a server rack and sidecar combination. The structure may include; a server rack having an opening and a server door on a front side of the server rack; a sidecar mounted to a side of the server rack, the sidecar has an access area on a front side of the sidecar, wherein the server rack opening and the access area are accessible form a common side; an adapter mounted to the accessible common side, wherein the adapter does not restrict access to the server rack opening and the access area, the adapter has at least three vertical sides; and a cable management bar located within the at least three vertical sides. | 2017-11-09 |
20170325354 | RACKMOUNT SERVER SYSTEM AND METHOD FOR CONTROLLING SAME - Provided are a rack mount server system, which has no damage to computation equipment even if a disorder occurs in a cooling device, which is easy to maintain, minimize power consumption, which has a simple structure, and which performs an efficient cooling, and a control method thereof. The system comprises: a rack housing; and a cooling zone which is placed in the rack housing, which stores a server, and which is forcibly cooled. The rack housing comprises a heat exchanger and an evaporator, which cool the cooling zone. The cooling methods of the cooling structure may be different in accordance with the internal temperature of the cooling zone and the external temperature of the cooling zone. | 2017-11-09 |
20170325355 | IMMERSION COOLING - A method of apparatus for immersion cooling electronic equipment including immersing the electronic equipment in a pressure-sealed tank containing a heat transfer fluid and including a vapor space fluidicly coupled to a condenser; operating the electronic equipment to generate heat and evaporate some of the heat transfer fluid, causing heat transfer fluid vapor to enter the condenser; condensing the heat transfer fluid vapor in the condenser to produce a condensate; returning the condensate to the tank; and increasing power consumption to increase heat generated by the electronic equipment and develop an increased pressure of the heat transfer fluid vapor to bring the apparatus into an equilibrium condition. | 2017-11-09 |
20170325356 | ULTRATHIN HEAT DISSIPATION STRUCTURE AND A METHOD FOR MANUFACTURING SAME - An ultrathin heat dissipation structure includes a copper clad sheet, a cover, a number of bond blocks, and a phase-change material. The copper clad sheet is given containing grooves and a number of ribs round each containing groove. The containing grooves are formed by stamping. The copper clad sheet includes an insulation layer. The copper clad layer is inner surface of the containing groove. The bond blocks are arranged on the ribs and cover is pressed to the stamped copper clad sheet and secured using the bond blocks. The containing grooves form sealing cavities and the phase-change material in the sealed cavity gathers and transfers out any heat generated by components. | 2017-11-09 |
20170325357 | LIQUID COOLING SYSTEM - A liquid cooling system includes a liquid cooling head, a fixing member and a radiator. The fixing member is disposed on the liquid cooling head. The radiator is disposed on the liquid cooling head through the fixing member. The radiator moves with respect to the liquid cooling head between at least two different positions through the fixing member. | 2017-11-09 |
20170325358 | COOLING RACK - The present disclosure provides a system including a cooling rack for servers, a first enclosure, and a second enclosure. The first enclosure can be coupled to the cooling rack for servers and houses electronics. The second enclosure can be coupled to the cooling rack for servers beneath the first enclosure with a minimal sliding clearance in between the two enclosures. The second enclosure also holds an electronics cartridge and connects to the cooling rack for servers via a slide that enables the second enclosure to slide out from under the first enclosure so that the electronics cartridge can be removed from a top of the enclosure. Further, the second enclosure may contain a fluid to immerse components and absorb heat from the electronics cartridge. | 2017-11-09 |
20170325359 | SELF COOLING STRETCHABLE ELECTRICAL CIRCUIT HAVING A CONDUIT FORMING AN ELECTRICAL COMPONENT AND CONTAINING ELECTRICALLY CONDUCTIVE LIQUID - Self-cooling stretchable electrical circuits with a conduit forming an electrical component and containing electrically conductive liquid are disclosed. They are formed of a platform made of a stretchable material. At least one fluid conduit is formed in the platform and the conduit is formed into an electrical component and filled with the electrically conductive liquid metal. A portion of the conduit is positioned adjacent a heat sink while a pump circulates the liquid through the conduit wherein the metal is cooled at the heat sink. | 2017-11-09 |
20170325360 | Power-Module Device, Power Conversion Device, and Method for Manufacturing Power-Module Device - In order to efficiently cool a heat-generating semiconductor element, it is desirable to cool a power semiconductor element from both surfaces. Therefore, in order to cool multiple power semiconductor elements, it is an effective way to alternately arrange a semiconductor component having the incorporated semiconductor element and a cooling device. A power conversion device for handling a high-power voltage needs to ensure pressure resistance between semiconductor elements or circuits inside the device. It is an effective way to seal the semiconductor component with a sealing material such as a silicone gel. Therefore, it is necessary to install the semiconductor component or the circuit having the incorporated semiconductor element, in a case from which a liquid silicone gel prior to curing does not leak even if the gel is injected. For these reasons, an object to be achieved by the invention is that the semiconductor element can be cooled from both surfaces by alternately arranging the semiconductor component having the incorporated semiconductor element and the cooling device. The above-described object can be achieved as follows. A substantially rectangular thin plate is subjected to mountain bending and valley bending so as to form a shape having as many recesses as the number of the mounted semiconductor components having the incorporated semiconductor element. Concurrently, a lateral side in a direction orthogonal to the above-described bending direction is bent so as to dispose the case in which all edges configuring an outer shape of the thin plate are arranged on substantially the same plane. The semiconductor component having the incorporated semiconductor element is arranged at a position serving as the recess of the case. The cooling devices are arranged so as to interpose the semiconductor component having the incorporated semiconductor element via the case. The semiconductor component having the incorporated semiconductor element is sealed with a silicone gel. In addition, preferably, the case is configured to include metal which has high heat conductivity. More preferably, the case is configured to include aluminum, copper, or an alloy whose principal components are both of these. | 2017-11-09 |
20170325361 | SYSTEM WITH FRESH AIR FLOW TOWARD DOWNSTREAM COMPONENTS FOR COOLING - The present technology provides a system for supplying fresh air to downstream components. The system comprises a housing with a first end and a second end, a first plurality of partitions disposed in the housing, and a second plurality of partitions disposed in the housing. The housing comprises a base portion and first and second opposing sidewalls extending from the first end to the second end. Each of the first plurality of partitions includes at least one first ventilation opening associated with each of the plurality of compartments. Each one of the second plurality of partitions comprises at least one partition duct extending through the plurality of partition rows and at least one second ventilation opening connecting the at least one partition duct to associated ones of the plurality of compartments. | 2017-11-09 |
20170325362 | SYSTEM AND METHOD OF PROVIDING COMPUTER RESOURCES - A data center system can include a mobile support structure; one or more enclosures for removable electronic equipment where the enclosures are housed by the support structure; a cooling system in fluid communication with the enclosures for cooling of the electronic equipment where the cooling system is housed by the support structure; and a power system operably connected to the electronic equipment and the cooling system for supplying power thereto where the power system comprises a generator housed by the support system. Other embodiments are disclosed. | 2017-11-09 |
20170325363 | CONTROLLING IMPEDANCE OF BLANK CARTRIDGES - A blank cartridge includes an impedance portion to control a flow of cooling media through the blank cartridge to a plurality of computing components, and an actuator to change an impedance level of the impedance portion. The actuator receives a control signal to change the impedance level of the impedance portion based on a location of the plurality of computing components relative to the blank cartridge. | 2017-11-09 |
20170325364 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a display panel including a top surface and a bottom surface facing the top surface in a normal direction, a mold member including a seat surface and an outer surface, the bottom surface of the display panel being positioned on the seat surface of the mold member, an adhesion member between the bottom surface and the seat surface to fix the bottom surface to the seat surface, a heating wire contacting the adhesion member, and an accommodation member coupled to the mold member. | 2017-11-09 |
20170325365 | HOLLOW SHIELDING STRUCTURE FOR DIFFERENT TYPES OF CIRCUIT ELEMENTS AND MANUFACTURING METHOD THEREOF - A hollow shielding structure for different types of circuit elements is provided. The hollow shielding structure includes at least one element mounted on a printed circuit board (PCB), a shield dam surrounding the at least one element, and a shield cover is configured to be electrically coupled to an upper portion of the shield dam and cover the at least one element, with a gap formed between the at least one element and the shield cover. | 2017-11-09 |
20170325366 | Circuit shielding structure - A circuit shielding structure, relating to a technical field of electronics, includes a substrate, wherein: at least one radio frequency component circuit is fixed on the substrate; a wave-absorbing material layer is embedded in the substrate; a shielding wall made of wave-absorbing material is arranged on the substrate and around the radio frequency component circuit; a conductive material layer covers the shielding wall; a closed space is formed among the substrate in which the wave-absorbing material layer is embedded, the shielding wall and the conductive material layer, and the radio frequency component circuit is sealed in the closed space, so that omnidirectional shielding is achieved. | 2017-11-09 |
20170325367 | NOISE CURRENT ABSORBER - A noise current absorber including a pair of housing parts capable of housing each of the pair of magnetic bodies, wherein the pair of magnetic bodies forms an overall cylindrical shape or a ring shape when abutted against each other; an engaging portion and an engaged portion capable of maintaining a closed state of the pair of housing parts; and a wall molded integrally with at least a first housing part of the pair of housing parts, adjacent to an abutting surface of at least the first housing part against a second housing part of the pair of housing parts, the wall protruding to a side where the second housing part abuts. | 2017-11-09 |
20170325368 | CONVEYANCE ROBOT APPARATUS - A conveyance robot apparatus of this disclosure includes: a plurality of modules arranged in a row in a first direction; a robot capable of moving each of the plurality of modules in the first direction; a pinion mounted on the robot; a plurality of racks which are respectively supported on the plurality of modules in a slidable manner in the first direction, are meshable with the pinion, and are arranged in a row in the first direction; and a rack connecting mechanism configured to connect adjacent racks each other with respect to the plurality of racks arranged in a row in the first direction, by making at least one of the racks positioned at one terminal end slide toward at least one of the racks positioned at another terminal end. | 2017-11-09 |
20170325369 | ROTARY HEAD TYPE COMPONENT MOUNTER - In rotary head type component mounter, provided at two locations around rotary head are Z1-axis drive mechanism and Z2-axis drive mechanism that lower suction nozzles, and in a case in which the interval between two suction nozzles is a multiple two times or greater than the arrangement pitch of components in tray, component mounter performs consecutive simultaneous pickup operation repeatedly for a quantity corresponding to the quantity of component arrangement pitches between the two suction nozzles, the consecutive simultaneous pickup operation being that of lowering the two suction nozzles simultaneously such that two of the components on tray are picked up simultaneously, then rotating rotary head by one nozzle pitch, moving rotary head in the arrangement direction of the components on tray by one component arrangement pitch, and then lowering the next two suction nozzles simultaneously such that another two of the components on tray are picked up simultaneously. | 2017-11-09 |
20170325370 | COMPONENT MOUNTER - A component mounter for holding a component and for mounting the component on a surface of a board includes a head, a horizontal moving device, a vertical moving device, a mounting control device, and an imaging device. The imaging device is configured to image an imaging target by receiving incident light from the imaging target on an imaging element via an optical system. The optical system includes a first optical system configured to guide incident light from a direction of a side surface of a nozzle tip to a first region of the imaging element, and a second optical system configured to guide incident light from a direction of the surface of the board to a second region of the imaging element. The imaging device is configured to image an image via the first optical system and the second optical system. | 2017-11-09 |
20170325371 | CONTROL DEVICE OF ELECTRONIC COMPONENT MOUNTING MACHINE AND DATA INPUT DEVICE FOR CONTROL DEVICE THEREOF - The control device controls an operation of a mounting head of an electronic component mounting machine. The control device is used when an electronic component is mounted on a printed circuit board including multiple divided boards by using the mounting head having multiple suction nozzles. In the control device, some of the multiple divided boards within the printed circuit board are set as one group based on positions of the multiple suction nozzles and positions of the multiple divided boards within the printed circuit board. In addition, in the control device, the multiple suction nozzles suck the electronic components to be mounted on the divided board within one group at the same time. | 2017-11-09 |
20170325372 | Metasequoia plant named 'WAH-08AG' - A new and distinct cultivar of | 2017-11-09 |
20170325373 | Anemone plant named 'APANFARRH' - A new and distinct cultivar of | 2017-11-09 |
20170325374 | PERICALLIS PLANT NAMED 'DPRIMBLUBR' - A new and distinct | 2017-11-09 |
20170325375 | Pericallis plant named 'DPRIMFUCHS' - A new and distinct | 2017-11-09 |
20170325376 | Pericallis plant named 'DPRIMDENIM' - A new and distinct | 2017-11-09 |
20170325377 | Grevillea Plant Named 'TWD02' - A new and distinct | 2017-11-09 |
20170325378 | Verbena plant named 'DVERDEPINK' - A new and distinct | 2017-11-09 |
20170325379 | Dahlia plant named 'BKDAOBI' - A new and distinct cultivar of | 2017-11-09 |
20170325380 | DAHLIA PLANT NAMED 'BKDAMDR' - A new and distinct cultivar of | 2017-11-09 |
20170325381 | Dahlia Plant Named 'Bkdamge' - A new and distinct cultivar of | 2017-11-09 |
20170325382 | Dahlia plant named 'BKDAMPE' - A new and distinct cultivar of | 2017-11-09 |
20170325383 | Dahlia plant named 'BKDAMWT' - A new and distinct cultivar of | 2017-11-09 |
20170325384 | Dahlia plant named 'BKDAMYL' - A new and distinct cultivar of | 2017-11-09 |
20170325385 | Pelargonium plant named 'PACAMY' - A new and distinct Ivy Geranium plant named ‘Pacamy’, characterized by its uniformly mounding, rounded and cascading plant habit; moderately vigorous growth habit; freely basal branching habit; freely flowering habit; purple violet semi-double flowers that are positioned above and beyond the foliar plane. | 2017-11-09 |
20170325386 | Pelargonium plant named 'PACPOLLY' - A new and distinct Ivy Geranium plant named ‘Pacpolly’, characterized by its uniformly mounding, rounded and cascading plant habit; moderately vigorous growth habit; freely basal branching habit; dark green-colored leaves; freely flowering habit; and dark orange semi-double flowers that are positioned above and beyond the foliar plane. | 2017-11-09 |
20170325387 | Pelargonium plant named 'Pacperosy' - A new and distinct Ivy Geranium plant named ‘Pacperosy’, characterized by its uniformly mounding, rounded and slightly cascading plant habit; moderately vigorous growth habit; freely basal branching habit; dark green-colored leaves; freely flowering habit; and large soft pink semi-double flowers that are positioned above and beyond the foliar plane. | 2017-11-09 |
20170325388 | Begonia plant named 'Bkpbecrm' - A new and distinct cultivar of | 2017-11-09 |
20170325389 | Begonia plant named 'BKPBECLR' - A new and distinct cultivar of | 2017-11-09 |
20170325390 | Nemesia plant named 'DNEMSANGEL' - A new and distinct | 2017-11-09 |