Patent application number | Description | Published |
20080218960 | Techniques for Safely Shipping Tape Drives While Mounted Inside a Frame of an Automated Tape Library - A system of shipping tape drives while they are mounted to a frame uses shipment brackets to retain the drives within the frame in retracted positions during shipment. The brackets allow the drives to be shipped inside the frame. The brackets hold the drives in the retracted position within the frame by clipping into the drives and the shelves above the drives. Tabs on each bracket snap into a drive such that the drive cannot move with respect to the bracket or the shelf. The drive is pushed into position until the bracket is fully engaged with the shelf above the drive and the tabs have prevented the drive from further insertion. Because the bracket is engaged, the drive no longer can move in or out of the shelf. | 09-11-2008 |
20080231988 | Retaining Gate for Deep Storage Slot Retention of Storage Cartridges - A storage cartridge retention device employs a deep storage slot for storing one or more storage cartridge(s) through its front opening and biases the stored storage cartridge(s) in a direction of its front opening. The storage cartridge retention device further employs a retaining gate external to the deep storage slot and movable relative to the front opening of the deep storage slot between a retaining position and a releasing position. The retaining position engages a front storage cartridge to retain the storage cartridge(s) within the deep storage slot based on the bias of the storage cartridge(s) in the direction of the front opening of the deep storage slot, and the releasing position disengages the front storage cartridge to facilitate movement of the one storage cartridge(s) within the deep storage slot based on the bias of the storage cartridge(s) in the direction of the front opening of the deep storage slot. | 09-25-2008 |
20080247074 | Fiber Brush for Cable-Less Accessors in a Tape Library - A tape library system includes a plurality of conductive track assemblies including at least one linear conductive strip, and at least one guide track. The system further includes a first fiber brush assembly and a second fiber brush assembly separated from each other by a predetermined separation distance, each of the first and second fiber brush assemblies comprising a spring biasing a track wheel, and a fiber brush attached to the fiber brush assembly and in electrical contact with the conductive strip. The fiber brush assembly linearly translates along the conductive track assembly on an axis parallel to the conductive strip. | 10-09-2008 |
20090073820 | METHOD FOR INVENTORY OF AN AUTOMATED DATA STORAGE LIBRARY - An automated data library system employing a plurality of cartridges, one or more cartridge storage slots and an inventory controller. Each cartridge includes a cartridge memory. The cartridge storage slot(s) is(are) physically configured to store the cartridges. The inventory controller is operable to generate an inventory of the cartridges as stored within the cartridge storage slot(s). A generation by the inventory controller of the inventory of the cartridges as stored within the cartridge storage slot(s) involves the inventory controller simultaneously accessing cartridge identification information on two or more cartridge memories, and generating the inventory including two or more cartridges corresponding to the cartridge identification information. | 03-19-2009 |
20090147398 | Accessor and Rails for a Data Storage Library - Data storage libraries as disclosed that provide for accessors that turn upon angled rails. In the library, a first rail and a second rail form an angle. The first and second rail each have a drive surface, but the drive surfaces are on different vertical planes. A switching mechanism of the accessor is then configured to move a drive mechanism between the different vertical planes of the drive surfaces. If the switching mechanism positions the drive mechanism adjacent to the drive surface of the first rail, then the drive mechanism engages the drive surface of the first rail to move the accessor along the first rail. If the switching mechanism switches the position of the drive mechanism adjacent to the drive surface of the second rail, then the drive mechanism engages the drive surface of the second rail to move the accessor along the second rail. | 06-11-2009 |
20100073184 | TRACKING DEEP CELL GATE/SPRING MECHANICAL SUB ASSEMBLY UTILIZING SIGNED EMPTY CELL BARCODE LABELS - A method, system, and computer program product for sensing the presence and/or misplacement of mechanical sub assemblies (MSAs) within storage slots of automated storage libraries. Each MSA is tracked based on signed empty cell barcode labels. Signed empty cell barcode labels are utilized to uniquely identify the frame, column, and row coordinates of one or more MSAs. The storage library automatically scans all signed empty cell barcode labels utilizing a scanner mounted on a robotic device. The system provides a counter for each MSA, allowing the storage library to track the usage of the MSA. As usage of the MSA reaches a predefined lifecycle, the library automatically generates an alert to replace the MSA. When a MSA is rearranged within the storage library, the library automatically maps the new frame, column, and row coordinates of the MSA. The counter dynamically modifies the usage count of the MSA according to the unique cell barcode label, thereby tracking all current and previous cartridges, and/or other items that may be scanned during MSA activity. | 03-25-2010 |
20110116187 | Contactless Method for Power and Communications in a Tape Library - A tape library is provided with a fixed coupling mechanism so that the tape library includes discrete locations via which power and communication are provided to an accessor. The use of such a coupling mechanism in a vertical tape library allows for the use of gravity to ensure that the accessor can couple with the fixed coupling mechanism even when no power is present in the accessor. | 05-19-2011 |
20110167589 | ROBOTIC SAFETY STOP FOR AUTOMATED STORAGE LIBRARY - Various apparatus and method embodiments directed to a safety stop mechanism for a robotic accessor are provided. In one such embodiment, a connector has first and second ends. The first end is configured to contact a door of the automated storage library when the door is in at least a first position. A safety stop is connected to the second end of the connector and adapted to move from a down position to an up position. The safety stop is in the down position when the door is in the first position. The connector is adapted to travel in a lateral direction corresponding to a similar movement of the door as the door is opened between the first position and a second position, causing the safety stop to move from the down position to an up position to prevent travel of the robotic accessor beyond the safety stop. | 07-14-2011 |
20120080274 | WEDGE SHAPE SAFETY STOP - A safety stop is provided for stopping a movable member having at least one set of opposed wheels for gripping a rail. The stop has a track on each of opposite sides forming a wedge shape of a narrow end progressively widening to a wide end in a direction of travel of the movable member. With the opposed wheels of the movable member respectively at opposite sides of the wedge shape member, the tracks of the wedge shape member engage and impart a spreading strain to the opposed wheels as the movable member moves in the direction of travel. The opposed wheels of the movable member comprise a deformable material to absorb the kinetic energy of the movable member. The tracks of the stop additionally may have undulating features comprising concave and convex surfaces in the direction of motion. | 04-05-2012 |
20120204408 | ROBOTIC SAFETY STOP FOR AUTOMATED STORAGE LIBRARY - A connector has first and second ends. The first end is configured to contact a door of the automated storage library when the door is in at least a first position. A safety stop is connected to the second end of the connector and adapted to move from a down position to an up position. The safety stop is in the down position when the door is in the first position. The connector is adapted to travel in a lateral direction corresponding to a similar movement of the door as the door is opened between the first position and a second position, causing the safety stop to move from the down position to an up position to prevent travel of the robotic accessor beyond the safety stop. | 08-16-2012 |
20120205201 | WEDGE SHAPE SAFETY STOP - A safety stop is provided for stopping a movable member having at least one set of opposed wheels for gripping a rail. The stop has a track on each of opposite sides forming a wedge shape of a narrow end progressively widening to a wide end in a direction of travel of the movable member. With the opposed wheels of the movable member respectively at opposite sides of the wedge shape member, the tracks of the wedge shape member engage and impart a spreading strain to the opposed wheels as the movable member moves in the direction of travel. The opposed wheels of the movable member comprise a deformable material to absorb the kinetic energy of the movable member. The tracks of the stop additionally may have undulating features comprising concave and convex surfaces in the direction of motion. | 08-16-2012 |
20120207580 | CELL ENGAGEMENT AND RETENTION CARRIAGE - A carriage with a cell carrier engages and retains a vertically driven cell so that the cell and its contents, such as a data storage cartridge, may be moved laterally from one linear library to another. A portal engagement device of the cell carrier includes a movable rack so that a pinion of the cell may move up or down the rack, and has pins that, when the device is down, engage a library vertical portal having a fixed rack. A cam state machine of the cell carrier guides a spring loaded cam follower hook of the cell in a pattern to lock the hook in position and, when hooked, attempted downward movement of the vertically driven cell moves the portal engagement device upward to disengage the pins of the portal engagement device from the vertical portal. The carriage may then transport the cell to another vertical portal. | 08-16-2012 |
20140069250 | TEXTURING OF A STORAGE CELL FOR REDUCED FRICTION RETENTION OF A DATA STORAGE CARTRIDGE - Described are embodiments of an invention for a method and a tool to produce a textured surface on the retention tab of a storage cell. The tool has a form that fits within the storage cell. The form has a hard material with a hard surface with contacts a surface of the retention tab within the storage cell. The movement of the hard surface across the surface of the retention tab produces a textured surface on the retention tab. The textured interface between a notch of a data storage cartridge and a retention tab of a storage cell provides a consistent and low friction force that retains the data storage cartridge within the cell but allows the accessor to easily remove the data storage cartridge when needed. | 03-13-2014 |
20140071609 | REDUCED FRICTION RETENTION OF A DATA STORAGE CARTRIDGE WITHIN A STORAGE CELL - Described are embodiments of an invention for a textured interface between a notch of a data storage cartridge and a retention tab of a storage cell. The textured surface reduces the contact surface between the retention tab and the notch of the data storage cartridge. The reduced contact surface between the retention tab and notch of the data storage cartridge reduces the amount of friction between the retention tab and the notch of the data storage cartridge. The data storage cartridge can thus be removed from the storage cell with less force than that required by the prior art having a generally smooth interface between the notch of the data storage cartridge and the retention tab of the storage cell. | 03-13-2014 |
20140085800 | SLIM PROFILE, REAR DOCKING TAPE DRIVE CANISTER - In one embodiment, an automated tape library includes an array of tape drive canister bays which each allow insertion of a tape drive canister therein that supports a tape drive, a power system, a communications system, and a robotic accessor adapted for accessing through insertion and/or removal tape cartridges in tape drives in the array of tape drive canister bays, wherein each tape drive canister bay includes a latching mechanism adapted for securing a tape drive canister into the tape drive canister bay when the latching mechanism is in a latched close position and releasing the tape drive canister from the tape drive canister bay when the latching mechanism is in an unlatched open position, and a library docking connector adapted for connecting a docking connector of the tape drive canister to the power system and the communications system when the latching mechanism is in the latched close position. | 03-27-2014 |
20140347764 | APPARATUS, SYSTEM, AND METHOD FOR OPTIMALLY POSITIONING AN IDLE ROBOTIC ACCESSOR IN A TAPE LIBRARY - In one embodiment, a system includes a robotic accessor for transporting media between multiple storage slots and one or more data storage drives; a controller for controlling the robotic accessor; a memory in communication with and/or integrated with the controller for storing information about the media and the storage slots, the information including data corresponding to a physical distribution of the media in the storage slots; and logic integrated with and/or executable by the controller, the logic being adapted to: position the robotic accessor at a computed optimal position during an idle period of the robotic accessor, the computed optimal position being based at least in part on the physical distribution of the media in the storage slots. | 11-27-2014 |
20150076834 | ROBOTIC SAFETY STOP FOR AUTOMATED STORAGE LIBRARY - A safety stop mechanism for an automated storage library in which a connector has first and second ends. The first end is configured to contact a door of the automated storage library when the door is in at least a first position. A safety stop is connected to the second end of the connector and adapted to move from a down position to an up position. The safety stop is in the down position when the door is in the first position allowing for travel of the robotic accessor over the safety stop. | 03-19-2015 |