A data storage device fixing structure includes a mounting frame, a resisting member, and a limiting member. The resisting member is movably arranged on the mounting frame and configured to resist a data storage device. The resisting member includes a resisting portion. The limiting member is provided on the resisting member and provided with a fixing portion. The fixing portion extends into the data storage device located in the mounting frame to fixedly mount the data storage device. When the limiting member is moved, the fixing portion is separated from the data storage device, the resisting member is pulled, and the resisting portion drives the data storage device to move.

This invention relates to an adapter for recording to removable storage device from a certain family of digital video recorders. More particularly, this adapter allows AJA® Video Systems, Inc's Ki Pro® and Ki Pro® Rack digital video recorders to record to removable storage devices such as a hard disk drive or solid state drive.

Provided is a video recorder including a case body comprising a space for housing a plurality of electronic parts, the plurality of electronic parts including: an optical disk drive (ODD) holder attached to an ODD; and a hard disk drive (HDD) holder attached to an HDD; a front panel on which a front printed circuit board (PCB) is mounted and which covers a front side of the case body; and a rear panel on which a rear PCB is mounted and which covers a rear side of the case body.

A screwless hard disk drive (HDD) drawing box and a HDD swappable module are provided, which includes a HDD cartridge for receiving a hard disk drive. The HDD cartridge has a bottom board, and two sideboards connected to two opposite sides of the bottom board. The two side plates of the hard disk drive are close to the two sideboards. One of the sideboards has a plurality of fixing pins. The other sideboard of the HDD cartridge has a plurality of elastic snapping members opposite to the fixing pins. Each of the elastic snapping members has a snapping bump and an elastic element. Each snapping bump is arranged on the elastic element at the other sideboard of the HDD cartridge opposite to the fixing pins. The fixing pins and the snapping bumps are inserted in the thread holes of the two side plates of the hard disk drive.

Hard drive tray having a bracket with a front surface, a bottom surface, and a sidewall forming a receiving space configured to receive a hard disk drive. At least one protrusion extends into the receiving space from the sidewall and is configured to engage the hard disk drive. A securing wire is coupled with the bottom surface opposite the sidewall and the securing wire has a securing end configured to be at least partially received within the hard disk drive, thereby securing the hard disk drive to the bracket.

A removable storage cartridge system may include a linear push-push mechanism comprising a carriage having a lock bar and a lock bar spring, and an enclosure having a mounting bracket having a lock guide. The lock guide is configured to interact with the lock bar and spring such that, in response to a first pushing force, reception of the carriage into the mounting bracket positions the carriage into a locked position within the enclosure and, in response to a second pushing force, the carriage is released from the locked position and ejected from the system.

Disclosed is a two rack unit chassis and low profile tool-less hard disk drive carrier (HDD). The two rack chassis including a plurality of HDD bays and a backplane including a plurality of connectors corresponding to the plurality of bays, each bay configured to receive a low profile tool-less carrier. The low profile tool-less carriers each comprising a first latch configured to release a sidewall of the low profile tool-less carrier and receive an HDD, a second latch configured to release a lever having at least one protraction at an inward end, and the lever configured to couple the at least one protrusion of the low profile tool-less carrier to the connector of the corresponding bay to which the low profile tool-less carrier is inserted.

A component carrier may include a carrier front wall and a plurality of carrier side walls extending in a substantially parallel orientation to each other from opposite edges of the chassis front wall, and defining a component channel between them. The carrier side walls may include respective guide flanges extending substantially perpendicularly therefrom such that the guide flanges are in a substantially parallel orientation to each other and the guide flanges are oriented relative to the remainder of the component carrier such that when a component is mounted within the component channel to the component carrier, and the guide flanges may define a plane whereby a combined mass on a first side of the plane of the component carrier and the component is approximately equal to a combined mass on a second side of the component carrier and the component.

A carrierless mass storage device retainer assembly for retaining a carrierless mass storage device in a horizontal orientation comprises a base and first and second end surface receiving portions. The base defines a generally horizontal surface. The first end surface receiving portion is shaped to receive a first end of the drive and is movable between an at rest position and an engaged position. The second end surface receiving portion is shaped to receive a second end surface of the drive and has an at rest position spaced from the first end surface receiving portion. The second end surface receiving portion is movable to accommodate a length of the drive, and, with the first and second ends of the drive received therein, is movable back to the at rest position to retain the drive.

A fixing structure for a hard disk is provided, which includes a main body, a rotation member, and at least one latching post. The main body includes two first sidewalls and a second sidewall connecting therebetween. The main body defines a groove for receiving the hard disk. At least one first sidewall defines a limiting slot. The rotation member includes two rotation arms, at least one rotation arm defines a latching slot. The rotation arms are rotatably connected to the two first sidewalls, to cause the fixing structure to be capable of switching between a first state and a second state. Each latching post is movably disposed in one limiting slot and one latching slot. When the fixing structure is switched between the first direction and the second state, the main body can move along a first direction or a second direction.