Patent application number | Description | Published |
20110303358 | MANUFACTURING FIXTURES FOR SMALL FORM FACTOR DESKTOP COMPUTER - One automated process for evenly applying a thin layer within a device housing includes applying a vacuum hold from a curved surface applicator to the thin layer, pressing the thin layer against the device housing with the applicator, wherein said pressing includes applying pressure from the center of the applicator first and then radially expanding said pressure, and pressing the cylindrical outer housing against an outer region of the thin layer to effect a hard pressed application at the outer surface thereof. | 12-15-2011 |
20110304972 | SMALL FORM FACTOR DESK TOP COMPUTER - An aesthetically pleasing small form factor desktop computer is described. The small form factor desktop computer can be formed of a single piece seamless housing that in the described embodiment is machined from a single billet of aluminum. The single piece seamless housing includes an aesthetically pleasing foot support having at least a portion formed of RF transparent material that provides easy user access to selected internal components as well as offers electromagnetic (EM) shielding. This simplicity of design can accrue many advantages to the small form factor desktop computer besides those related to aesthetic look and feel. Fewer components and less time and effort can be required for assembly of the small form factor desktop computer and the absence of seams in the single piece housing can provide good protection against environmental contamination of internal components as well as EM shielding. | 12-15-2011 |
20110304973 | SILICONE BARRIER FOR DRIVE WINDOW - An optical drive dust guard can include an elongated strip of silicone having a front surface, a back surface and an adhesive along one of the surfaces, an elongated slit formed along and through a center portion of the elongated strip, and one or more elongated notches formed along the elongated strip. The elongated notches result in at least a portion of the elongated strip becoming hinged to another portion of the elongated strip about the notches, so as to allow a hinged frontwards or backwards passage of an optical media therethrough. The elongated slit can be formed after the silicone dust guard is already installed in the host device. | 12-15-2011 |
20110304974 | REMOVABLE HARD DRIVE IN A SMALL FORM FACTOR DESK TOP COMPUTER - An aesthetically pleasing small form factor desktop computer is described. The small form factor desktop computer can be formed of a single piece seamless housing that in the described embodiment is machined from a single billet of aluminum. The single piece seamless housing includes an aesthetically pleasing foot support having at least a portion formed of RF transparent material that provides easy user access to selected internal components as well as offers electromagnetic (EM) shielding. This simplicity of design can accrue many advantages to the small form factor desktop computer besides those related to aesthetic look and feel. Fewer components and less time and effort can be required for assembly of the small form factor desktop computer and the absence of seams in the single piece housing can provide good protection against environmental contamination of internal components as well as EM shielding. | 12-15-2011 |
20120106067 | SMALL FORM FACTOR DESK TOP COMPUTER - An aesthetically pleasing small form factor desktop computer is described. The small form factor desktop computer can be formed of a single piece seamless housing that in the described embodiment is machined from a single billet of aluminum. The single piece seamless housing includes an aesthetically pleasing foot support having at least a portion formed of RF transparent material that provides easy user access to selected internal components as well as offers electromagnetic (EM) shielding. This simplicity of design can accrue many advantages to the small form factor desktop computer besides those related to aesthetic look and feel. Fewer components and less time and effort can be required for assembly of the small form factor desktop computer and the absence of seams in the single piece housing can provide good protection against environmental contamination of internal components as well as EM shielding. | 05-03-2012 |
20130063920 | ELECTRONIC DEVICE DISPLAY ALIGNMENT SYSTEM - A display alignment system aligns an internal display device with an outer cover glass such that planes defined by both are substantially parallel. A subject electronic device includes an outer housing having a back portion and multiple mounting bosses, a transparent display cover coupled to the outer housing, a display device disposed between the back portion and the display cover, and mounting brackets coupling the display device to the mounting bosses. The exact positions of the mounting brackets are adjusted to compensate for the specific dimensions of the mounting bosses, outer housing and/or display device, which is done using a separate assembly fixture having spring-loaded and locking pins to record individual mounting boss heights. Recorded boss heights are used to position the mounting brackets on sides of the display device so that the combination thereof is customized for the recorded outer housing and mounting bosses. | 03-14-2013 |
20130077234 | INTERNAL CONNECTION RETENTION COMPONENTS FOR COMPUTING DEVICES - A computing device includes a Mini DisplayPort or other standardized plug and port connection that is fully internalized within the full device housing. The port can be affixed or coupled to a printed circuit board, with a display cable having a mating plug that is plugged into the port. To prevent the inadvertent uncoupling of the plug from the port, one or more clips, clamps, fixtures, or other cable retention components can hold the cable and/or plug in place at or near where the plug inserts into the Mini DisplayPort or other standardized communication port. Added stability to the cable can also be provided at or near such location. | 03-28-2013 |
20130078052 | FLOATING FASTNERS - One or more fastenings can be used to fasten components together, such as housing components on a computing device. Each fastening can include a first opening associated with a first component, a second opening associated with a second component, a floating fastener, and a screw. The floating fastener is inserted into the first opening and/or second opening, and includes a threaded opening therein having a primary axis therethrough. The screw is inserted through first and/or second openings and into the threaded opening in the floating fastener. The screw and threaded opening combination is defined by contact between the screw and threaded opening about a thread surface that is substantially perpendicular to the primary axis, a screw thread return angle of 45 degrees or less, and a thread depth that is less than about triple the float between the major diameters of the screw and the threaded opening. | 03-28-2013 |
20130279107 | DEVICES AND METHODS FOR ATTACHING COMPONENTS TO COMPUTER HOUSINGS - An aesthetically pleasing small form factor desktop computer is described. The small form factor desktop computer can be formed of a single piece seamless housing that in the described embodiment is machined from a single billet of aluminum. In some embodiments, the housing includes a fastening system for securing and electrically grounding internal components to the housing. Fewer components and less time and effort can be required for assembly of the small form factor desktop computer and the absence of seams in the single piece housing can provide good protection against environmental contamination of internal components as well as EM shielding. | 10-24-2013 |
20140000427 | MANUFACTURING FIXTURES FOR SMALL FORM FACTOR DESKTOP COMPUTER | 01-02-2014 |
20140079508 | FLOATING FASTENERS - One or more fastenings can be used to fasten components together, such as housing components on a computing device. Each fastening can include a first opening associated with a first component, a second opening associated with a second component, a floating fastener, and a screw. The floating fastener is inserted into the first opening and/or second opening, and includes a threaded opening therein having a primary axis therethrough. The screw is inserted through first and/or second openings and into the threaded opening in the floating fastener. The screw and threaded opening combination is defined by contact between the screw and threaded opening about a thread surface that is substantially perpendicular to the primary axis, a screw thread return angle of 45 degrees or less, and a thread depth that is less than about triple the float between the major diameters of the screw and the threaded opening. | 03-20-2014 |
20140109379 | FLOATING FASTENERS - One or more floating fastener assemblies used to fasten components together are described. In some embodiments, the components are top and bottom portions of an enclosure of a computing device. Each floating fastener assembly can include a fastener having at least one surface that can engage with a surface of the enclosure to limit the rotation of the fastener during fastening. Each floating fastener can also include a clearance area for the fastener to “float” in a lateral direction with respect to the enclosure. Thus, when corresponding openings in the top and bottom portions of the enclosure are not exactly aligned, each fastener can shift laterally to allow screws to engage to fasten the top and bottom portions together. | 04-24-2014 |
20140111928 | GROUNDING FEATURES OF A PORTABLE COMPUTING DEVICE - A portable computing device can include one or more clutch assemblies that can include a conductive elastomer configured to contact at least a portion of the clutch assembly of the portable computing device. The conductive elastomer can be configured to also contact at least one region of the base portion of the portable computing device and can include highly conductive regions. A USB grounding plate can be attached to a portion of a case for the portable computing device and can be configured to provide a ground pathway between the case and a ground sheath of a USB connector inserted into an opening in a side wall of the case. | 04-24-2014 |
20140111929 | ENCLOSURE FEATURES FOR A PORTABLE COMPUTING DEVICE - The present application describes various embodiments regarding systems and methods for providing a lightweight and durable portable computing device having a thin profile. The portable computing device can take the form of a laptop computer. The portable computing device can include a case snap system configured to movably attach two portions of a base of the computing device together. The portable computing device can include a lid portion with a support structure having a shaped profile configured to support a display. The portable computing device can include locating features disposed within the base portion configured to locate internal components. | 04-24-2014 |
20140111933 | SSD (SOLID STATE DRIVE) RELATED FEATURES OF A PORTABLE COMPUTER - A removable assembly for quickly inserting and removing a mass storage device from a compartment situated on the case of a portable computing device is described. The removable assembly is made of a mass storage device, a bracket which serves as a carrier for the mass storage device, and a metal plate. The mass storage device can be a solid state drive (SSD) card. The bracket is a single-piece plastic structure that can be deflected for snap insertion into the compartment and snap removal from the compartment. The metal plate conducts heat from the solid state drive (SSD) card to prevent it from overheating. | 04-24-2014 |
20140112517 | MICROPHONE FEATURES RELATED TO A PORTABLE COMPUTING DEVICE - A portable computing device includes one or more microphones that function seamlessly with other components within the portable computing device. In one embodiment, a microphone opening is disposed on a side of the personal computing device and configured to be substantially perpendicular to a user. In another embodiment, two microphones can be disposed on an upper region above a keyboard section and can include a third microphone facing toward a rear portion of the portable computing device. In yet another embodiment, a fixture for providing a bonding pressure to microphones is described. | 04-24-2014 |