Patent application number | Description | Published |
20140304975 | SPLIT BEZEL HINGE IN A DOUBLE DENSE BLADE SERVER - A method comprises engaging hinge members on a first housing portion with hinge members on a second housing portion so that the first and second housing portions are pivotally engaged in an open position. The first housing portion includes a first cover securing a first server and a first bezel portion secured along a proximal end of the first housing portion, and the second housing portion includes a second cover securing a second server and a second bezel portion secured along a proximal end of the first housing portion. The method further comprises pivoting the first housing portion relative to the second housing portion about a pivot axis of the hinge members until the first and second housing portions are in a closed position forming a common housing with the first server facing the second server. The first and second housing portions are then latched in the closed position. | 10-16-2014 |
20140307386 | SPLIT BEZEL HINGE IN A DOUBLE DENSE BLADE SERVER - A blade server comprises first and second housing portions. Each housing portion includes a cover securing a first printed circuit board assembly, two sides extending from the cover, a bezel portion secured along a proximal end of the cover between the two sides, a first hinge member formed near the proximal end of one side, and a second hinge member formed near the proximal end of the other side. The hinge members on the first housing portion are selectively engagable with the hinge members on the second housing portion to enable the housing portions to pivot between an open position and a closed position with the first and second printed circuit board assemblies disposed between the first and second housing portions. | 10-16-2014 |
20150146372 | HANDLE LOCKOUT MECHANISM FOR SCALING BLADE-STYLE SERVERS - A system includes a chassis, first and second blade servers, and a scalability device. Each blade server is securable within the chassis and includes a scalability port, cam handle for selectively securing the blade server in the chassis, and handle latch for selectively latching the cam handle in a closed position, and lockout mechanism moveable into a position that blocks the handle latch in a latched position. The scalability device includes first and second scalability connectors, wherein positioning the scalability device so that the first scalability connector is coupled to a scalability port of the first blade server and the second scalability connector is coupled to a scalability port of the second blade server causes each lockout mechanism to move into the position that blocks the handle latches in the latched position. Accordingly, the scalability device must be removed before either of the blade servers can be removed. | 05-28-2015 |
20150195946 | LIFT HANDLES HAVING SAFETY INTERLOCKS FOR A RACK-MOUNTED ENCLOSURE - According to one embodiment, a system includes an enclosure configured to be removable from a rack system, the enclosure including at least one bay for insertion of a component therein, a horizontally-oriented upper wall, a horizontally-oriented lower wall, two vertically-oriented sidewalls coupled to the upper and lower walls, and a set of integrated handles, each handle being configured to transition from a recessed position to an extended position, and each handle being configured to be gripped by a hand when in the extended position, wherein each handle is configured to extend higher than the upper wall of the enclosure when in the extended position, and wherein each handle is configured to retract to within an outer profile of the enclosure when in the recessed position. Other systems and enclosures are described according to more embodiments that have improved retractable handles. | 07-09-2015 |
Patent application number | Description | Published |
20130204812 | METHOD FOR COMPUTER-AIDED CLOSED-LOOP AND/OR OPEN-LOOP CONTROL OF A TECHNICAL SYSTEM - A method for computer-aided closed and/or open-loop control of a technical system is provided. A first value of an output quantity is predicted on a data-based model at a current point in time. A second value of the output quantity is determined from an analytical model. The state of the technical system at the current point is assigned a confidence score in the correctness of prediction of the data-based model. A third value of the output quantity is determined from the first and second value as a function of the confidence score for controlling the technical system. A suitable value for the output quantity can be derived from the analytical model even for regions of the technical system in which the quality of prediction of the data-based model is low because of a small set of training data. The technical systems can be turbines, such as gas turbines. | 08-08-2013 |
20140123656 | MODULAR DROP-IN TRANSITION ASSEMBLY FOR INDUSTRIAL GAS TURBINE AND METHOD FOR INSTALLATION - A preassembled modular drop-in transition having internal components in conformity with assembly and function specifications prior to and after insertion into an industrial gas turbine access port. The transition assembly maintains conformity with those specifications after insertion into the combustor case if it does not inadvertently impact other turbine components during its installation. Inadvertent impact is avoided by having a combustor service zone proximal the combustor case, enabling slidable insertion of each transition and/or combustor assembly into its corresponding access port along its corresponding insertion path without contacting other turbine system components. A multi-axis motion transition handling tool (THT) in the combustor service zone, preferably under automatic control, is coupled to a transition and facilitates precise alignment along the insertion path. Automatic control facilitates consistent repetitive transition installation and removal by executing a sequence of stored pre-determined manipulation steps. | 05-08-2014 |
20140123680 | MODULAR DROP-IN COMBUSTOR ASSEMBLY FOR INDUSTIAL GAS TURBINE AND METHOD FOR INSTALLATION - A preassembled modular drop-in combustor having internal components in conformity with assembly and function specifications prior to and after insertion into an industrial gas turbine access port and internal combustor transition. The combustor assembly maintains conformity with those specifications after insertion into the combustor case if it does not inadvertently impact other turbine components during its installation. Inadvertent impact is avoided by having a combustor service zone proximal the combustor case, enabling slidable insertion of each combustor assembly into its corresponding access port and transition along its corresponding insertion path without contacting other turbine system components. A multi-axis motion combustor handling tool in the combustor service zone, preferably under automatic control, is coupled to each combustor and facilitates precise alignment along the insertion path. Automatic control facilitates consistent repetitive combustor installation and removal by executing a sequence of stored pre-determined manipulation steps. | 05-08-2014 |
20140214733 | Method And Apparatus For Deriving Diagnostic Data About A Technical System - A method and apparatus for deriving diagnostic data about a technical system utilizing learning metrics gained by at least one data driven learning process while generating and updating soft sensor models of said technical system. | 07-31-2014 |