Abstract: A guiding assembly in a tape drive employing a single reel for preventing damage to a tape head during the loading and unloading of magnetic tape media from a tape cartridge also employing a single reel. The guiding assembly having a cam that controls the rotational acceleration of a tape guide to obtain a mechanical advantage as the tape guide is pivoted between a retracted position defining a first tape path for reading and writing data and an engaged position defining a second tape path for loading and unloading the tape media.
Abstract: The present method for unlocking a single reel tape cartridge locking mechanism in a tape cartridge load operation aids the release of the tape cartridge locking mechanism by manipulating the supply reel motor which is engaged to the single reel tape cartridge in a manner that causes the stuck tape cartridge locking mechanism to release. In order to aid the release of the tape cartridge locking mechanism during the tape cartridge loading procedure, the supply reel motor is operated cyclically to cause the supply reel to vibrate. This vibration is held for a predetermined period of time. At the end of the vibration cycle, the tape drive attempts to pull the tape cartridge leader out of the tape cartridge. If the tape drive again detects that the tape cartridge locking mechanism is not released, it repeats the vibration sequence. The drive can execute a predetermined number of attempts to release the tape cartridge locking mechanism in this manner.
Abstract: A sliding door assembly for a singe reel tape cartridge for enclosing the tape media and retracting the leader tab when the tape cartridge is not in use. The sliding door assembly includes a sliding door to enclose the tape media, an auxiliary leader retractor to retract the leader tab, and an actuator integrally connected between the sliding door and the auxiliary leader retractor. When the sliding door is moved between the open and closed position it actuates the auxiliary leader retractor that pivots to a corresponding open or closed position.
Abstract: The present method for unlocking a single reel tape cartridge locking mechanism in a tape cartridge load operation aids the release of the tape cartridge locking mechanism by manipulating the supply reel motor which is engaged to the single reel tape cartridge in a manner that causes the stuck tape cartridge locking mechanism to release. In order to aid the release of the tape cartridge locking mechanism during the tape cartridge loading procedure, the supply reel motor is operated cyclically to cause the supply reel to vibrate. This vibration is held for a predetermined period of time. At the end of the vibration cycle, the tape drive attempts to pull the tape cartridge leader out of the tape cartridge. If the tape drive again detects that the tape cartridge locking mechanism is not released, it repeats the vibration sequence. The drive can execute a predetermined number of attempts to release the tape cartridge locking mechanism in this manner.