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 |
20080285172 | Method for Transporting a Tape Cartridge Within a Tape Library Storage System - An apparatus for transporting a storage media cartridge in a data storage library is disclosed. The apparatus includes an accessor, a pinion and a rack having a straight section and a curved section. The curved section includes multiple rack teeth that are capable of rotating independently from each other to allow the pinion to travel along the straight section and onto the curved section of the rack, or vice versa, without any interruption. | 11-20-2008 |
20090040653 | VARIABLE SPRING-FORCE MECHANISM FOR ADVANCING TAPE MEDIA CARTRIDGES IN A DEEP SLOT CELL - An apparatus to generate a spring force increasing in accordance with a quantity of tape media cartridges stored in a deep slot cell. The apparatus may include a deep slot cell, a biasing element including a torsion spring, and an advancement element. The deep slot cell may store one or more cartridges. The biasing element may generate a spring force toward the front of the deep slot cell such that the spring force generated increases in accordance with a number of cartridges stored in the cell. The advancement element may be positioned to apply the spring force to the cartridges, thereby advancing the cartridges toward the front of the deep slot cell. | 02-12-2009 |
20090147394 | MANAGEMENT OF DATA CARTRIDGES IN MULTIPLE-CARTRIDGE CELLS IN AN AUTOMATED DATA STORAGE LIBRARY - In an automated library, data cartridges, such as magnetic tape cartridges, are stored in storage cells and accessed by data storage drives. An accessor with a gripper transports cartridges between storage cells and storage drives. Cartridges are prioritized according to their relative importance. A processor manages the placement of the cartridges in cells by having higher priority cartridges stored closer to the front of multi-cartridge cells than cartridges with a lower priority. Cartridges with a higher priority may also be stored closer to a storage drive than cartridges with a lower priority. A pusher may be used to push cartridges towards the front of multi-cartridge cells with an empty position to enable the gripper to reach the front cartridge. | 06-11-2009 |
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 |
20090213490 | PASS-THROUGH MECHANISM FOR LINEAR TAPE LIBRARY - A pass-through mechanism that couples a first linear tape library string to a second linear tape library string is maintained. A first robotic assembly associated with the first linear tape library string places a tape from the first linear tape library string into the pass-through mechanism. The pass-through mechanism moves the tape to a position where the tape can be removed by a second robotic assembly associated with the second linear tape library string. The second robotic assembly removes the tape from the pass-through mechanism and places the tape into the second linear tape library string. | 08-27-2009 |
20100027209 | STORAGE SLOT FOR PORTABLE DATA STORAGE CARTRIDGES - A storage slot for multiple data storage cartridges, comprising a planar member having a first end, a second end, a side interconnecting the first end and the second end, and a gate moveably connected to the side at the first end of the planar member, wherein the gate can be moved between a closed position and an open position. The storage slot farther comprises a secondary catch moveably disposed between the first end and the second end. When the gate is disposed in a closed position, the secondary catch is disposed in a retracted orientation, and when the gate is disposed in an open position, the secondary catch is disposed in an extended orientation. | 02-04-2010 |
20100053803 | BREADTH SPREADING PLACEMENT OF DATA STORAGE CARTRIDGES IN MULTI-CARTRIDGE DEEP SLOT CELLS OF AN AUTOMATED DATA STORAGE LIBRARY - In an automated data storage library having a plurality of multi-cartridge deep slot cells, each configured to store a plurality of data storage cartridges arranged in sequential order of tiers from front to rear, and having accessor(s) configured to selectively extract, place and transport cartridges with respect to the cells; operating the accessor(s) to selectively extract, place and transport data storage cartridges with respect to the multi-cartridge deep slot cells and with respect to other elements of the automated data storage library; filling at least the frontmost tier of vacant at least selected multi-cartridge deep slot cells in the selectively extracting, placing and transporting step in accordance with a predetermined algorithm, while leaving other tiers vacant. If the frontmost tier is full, a data storage cartridge is placed into the one of the selected multi-cartridge deep slot cells having the factored greatest number of tiers available to place a data storage cartridge. | 03-04-2010 |
20100053880 | DEPTH SPREADING PLACEMENT OF DATA STORAGE CARTRIDGES IN MULTI-CARTRIDGE DEEP SLOT CELLS OF AN AUTOMATED DATA STORAGE LIBRARY - In an automated data storage library having a plurality of multi-cartridge deep slot cells, each configured to store a plurality of data storage cartridges arranged in sequential order of tiers from front to rear, and having accessor(s) configured to selectively extract, place and transport cartridges with respect to the cells; operating the accessor(s) to selectively extract, place and transport cartridges with respect to the cells and with respect to other elements of the library. If all tiers of the selected cells except the rearmost tier are full, added cartridges are placed to fill the rearmost tier of an evenly spread selection of the cells. | 03-04-2010 |
20100058374 | PLACEMENT OF DATA STORAGE CARTRIDGES IN SINGLE CARTRIDGE SLOTS AND IN MULTI-CARTRIDGE DEEP SLOT CELLS OF AN AUTOMATED DATA STORAGE LIBRARY - In an automated data storage library having a plurality of multi-cartridge deep slot cells, each configured to store a plurality of data storage cartridges arranged in sequential order of tiers from front to rear; having a plurality of single cartridge storage slots; and having accessor(s) configured to selectively extract, place and transport cartridges with respect to the cells; operating the accessor(s) to selectively extract, place and transport data storage cartridges with respect to the multi-cartridge deep slot cells and the storage slots, and with respect to other elements of the automated data storage library; and, if a data storage cartridge is recently used by and is to be demounted from a selected other element of the automated data storage library: first, extracting another data storage cartridge from the storage slots, vacating one of the storage slots; and second, extracting, transporting and placing the demounted data storage cartridge in the vacated storage slot. | 03-04-2010 |
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 |
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 |
20120082533 | 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. | 04-05-2012 |
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 |
20120236434 | BREADTH SPREADING PLACEMENT OF DATA STORAGE CARTRIDGES IN MULTI-CARTRIDGE DEEP SLOT CELLS OF AN AUTOMATED DATA STORAGE LIBRARY - An automated data storage library having a plurality of multi-cartridge deep slot cells, each configured to store a plurality of data storage cartridges arranged in sequential order of tiers from front to rear, and having accessor(s) to selectively extract, place and transport cartridges with respect to the cells; operating the accessor(s) to selectively extract, place and transport cartridges with respect to the multi-cartridge deep slot cells and with respect to other elements of the automated data storage library; filling at least the frontmost tier of vacant at least selected multi-cartridge deep slot cells in the selectively extracting, placing and transporting step in accordance with a predetermined algorithm, while leaving other tiers vacant. If the frontmost tier is full, a cartridge is placed into the one of the selected multi-cartridge deep slot cells having the factored greatest number of tiers available to place a cartridge. | 09-20-2012 |
20120259453 | PASS-THROUGH MECHANISM FOR LINEAR TAPE LIBRARY - A pass-through mechanism that couples a first linear tape library string to a second linear tape library string is maintained. A first robotic assembly associated with the first linear tape library string places a tape from the first linear tape library string into the pass-through mechanism. The pass-through mechanism moves the tape to a position where the tape can be removed by a second robotic assembly associated with the second linear tape library string. The second robotic assembly removes the tape from the pass-through mechanism and places the tape into the second linear tape library string. | 10-11-2012 |
20120259454 | PASS-THROUGH MECHANISM FOR LINEAR TAPE LIBRARY - A pass-through mechanism that couples a first linear tape library string to a second linear tape library string is maintained. A first robotic assembly associated with the first linear tape library string places a tape from the first linear tape library string into the pass-through mechanism. The pass-through mechanism moves the tape to a position where the tape can be removed by a second robotic assembly associated with the second linear tape library string. The second robotic assembly removes the tape from the pass-through mechanism and places the tape into the second linear tape library string. | 10-11-2012 |
20120265334 | PASS-THROUGH MECHANISM FOR LINEAR TAPE LIBRARY - A pass-through mechanism that couples a first linear tape library string to a second linear tape library string is maintained. A first robotic assembly associated with the first linear tape library string places a tape from the first linear tape library string into the pass-through mechanism. The pass-through mechanism moves the tape to a position where the tape can be removed by a second robotic assembly associated with the second linear tape library string. The second robotic assembly removes the tape from the pass-through mechanism and places the tape into the second linear tape library string. | 10-18-2012 |