| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 361679600 | For desktop computer | 22 |
| 20090073645 | COMPUTER ENCLOSURE FOR SECURING RISER CARD - A computer enclosure includes a bottom plate ( | 03-19-2009 |
| 20090231790 | COMPUTER APPARATUS - A computer apparatus includes a chassis and a motherboard. The chassis includes a top panel with a plurality of openings formed thereon. The motherboard is mounted inside the chassis and includes a plurality of I/O port connectors respectively exposed through the openings. This invention facilitates the operation of establishing connection between the I/O port connectors and peripheral devices. | 09-17-2009 |
| 20090273892 | COUPLING STRUCTURE FOR MICROCOMPUTER CASES - A coupling structure for microcomputer cases includes at least two microcomputer cases and at least two coupling units for coupling the two cases together. Each of the cases is provided along four longitudinal outer corners with a slide channel each. The coupling units each include a longitudinally extended body portion and two insertion ribs separately extended along and from two longitudinal sides of the body portion. The insertion ribs are configured corresponding to the slide channels on the cases to be slidably fitted in the slide channels on two adjoining sides of the two cases that are juxtaposed or stacked, so as to firmly couple the two cases together. | 11-05-2009 |
| 20100027205 | COMPUTER FRONT BEZEL - A computer front bezel is made of color-changeable material, or includes a layer of color-changeable material attached to an out surface of the bezel. The color-changeable material includes a mixture of a heat-sensitive color-changing material and a plastic material. | 02-04-2010 |
| 20100053869 | Computer Housing and Computer Including the Same - A computer housing is adapted for receiving a motherboard and at least one electronic component therein, and includes a housing unit and a support board. The housing unit has an opening, and includes at least one first sliding portion that is provided at each of two opposite sides of an inner surface of the housing unit, that extends along a sliding direction, and that is connected to the opening. The support board is adapted for securing the motherboard and the electronic component, and includes a second sliding portion provided at each of two opposite edges of the support board and slidable relative to the first sliding portion in the sliding direction. | 03-04-2010 |
| 20110110025 | HOST COMPUTER ATTACHED TO MONITOR - A computer includes a monitor and a host computer coupled to a monitor. The monitor includes a back cover and a plurality of sides extending forwards form the back cover. The host computer includes a computer enclosure and a plurality electronic element. The computer enclosure includes a bottom board and a plurality of sideboard extending forward from the bottom board to abut against the plurality of sides of the monitor. A receiving space is formed between the back cover of the monitor and the bottom board of the computer enclosure. The number of electronic elements are received in the receiving space and mounted on the bottom board of the computer enclosure. | 05-12-2011 |
| 20110110026 | Wall Mounted Modular Workstation System and Method - A wall mounted modular workstation system utilizes individually mountable modules, such as a keyboard/monitor module, a CPU module, and a medical supply module, that may be each be selectively positioned, mounted, rearranged, used or not used, and/or added or removed at a later time. The individually mountable modules are formed with mountings and vertically located openings for electrical lines and module to module ventilation, which reduce/prevent creation of dust during mounting or later modification of the system. | 05-12-2011 |
| 20110157803 | TOP ANGLED OFFSET MULTI-MEDIA AND USER INTERFACE - A computer enclosure with a user interface having an improved user-accessibility. The user interface is located at the upper front corner of the computer enclosure box. In the preferred embodiment, the interface is located on a protrusion extending out of the upper front corner of the enclosure box. The user interface has a surface plane that is preferably angled between 20-70 degrees to the ground to which the enclosure sits on. In other preferred embodiments, the user interface has a surface plane that is preferably angled between 40-60 degrees to the ground to which the enclosure sits on. | 06-30-2011 |
| 20110176265 | CASING FOR ALL-IN-ONE ELECTRONIC DEVICE - A casing for all-in-one electronic devices includes a main body and a rail assembly. The main body has a bottom surface and a through hole disposed opposite to the bottom surface. The through hole communicates an interior of the main body. The rail assembly has a guide member and a slide member. The guide member is disposed in the main body, and extends toward the through hole. The slide member is movably combined with the guide member to be moved in a longitudinal direction to pass through the through hole, so as to protrude out of the main body. A display is fixed to one end of the slide member to be driven by the slide member, so as to change a height of the display relative to the bottom surface of the main body. | 07-21-2011 |
| 20110261521 | COMPUTER CASE WITH ADJUSTABLE HARD DISK DRIVE AND INTERFACE CARD ACCOMMODATION SPACE - A computer case with adjustable hard disk drive and interface card accommodation space is provided. The computer case includes a frame, an optic disk drive rack, two fixed hard disk drive racks, and interface card slots into which interface cards may be plugged. A removable hard disk drive holder that carries hard disk drives is additionally arranged inside the computer case in a removable manner. By removing the removable hard disk drive holder, an open and unoccupied space is left inside the computer case to partly receive the interface cards that are plugged to the interface card slots. Thus, in an attempt to adopt high performance interface cards that are of a great size, the removable hard disk drive holder is removed and the unoccupied space so formed is turned into a space for partly accommodating the interface cards. In this way, flexible modification of the internal space of the computer case can be realized, to enable the computer case to selectively accommodate a computer that adopts high performance interface cards or a computer that requires a large storage space of multiple hard disk drives. | 10-27-2011 |
| 20110267755 | SIDE PANEL FORMING METHOD AND SIDE PANEL - The disclosure provides a side panel forming method and a side panel. The side panel forming method includes following steps. An original panel with a straight side edge is provided. The original panel is punched to form a tab with an edge of the tab aligned with the straight side edge. The tab is bent about a line parallel to the straight side edge in a first direction to form a securing portion. A first part of the original panel, is folded about a straight bending line, defined in the original panel in a second direction opposite to the first direction, to contact a second part of the original side panel to form a side panel. Wherein the first part of the original panel is defined between the straight bending line and the straight side edge, the straight bending line is substantially parallel to the straight side edge, and the securing portion is disposed between the straight bending line and the straight side edge. | 11-03-2011 |
| 20110304968 | INTERNAL ELECTRONICS OF 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 |
| 20120063080 | SERVER - A server includes a casing, a motherboard, a power supply unit and a pair of expansion modules. The motherboard is disposed in the casing, and the motherboard includes two slots disposed in the casing. The power supply unit is disposed in the casing and under the motherboard. The expansion modules are disposed in the casing, and each of the expansion modules includes a connecting card and a plurality of expansion cards. When the connecting card is electrically coupled to one of the slots of the motherboard, the expansion modules are disposed at two opposite sides of the motherboard correspondingly. | 03-15-2012 |
| 20120170197 | ALL IN ONE COMPUTER - An all in one computer includes an enclosure and a support module attached to the enclosure. The support module includes a leg stand rotatably attached to a rear panel of the enclosure about an axis perpendicular to the rear panel. The leg stand includes a shorter base and a longer base. An operation opening is defined in the leg stand and located adjacent to the longer base. The leg stand is rotatable between a first position where the longer base faces downward to support the enclosure, and a second position where the longer base faces upwards for facilitating using the operation opening to carry the all in one computer. | 07-05-2012 |
| 20120327579 | COMPUTER CHASSIS FOR MOUNTING MOTHERBOARD THEREIN - A computer chassis includes an enclosure and a motherboard. The enclosure includes a bottom plate and a rear plate. A plurality of convex projections is located on the bottom plate. Each of the plurality of convex projections defines a first mounting hole. A first restricting piece is located on the bottom plate. The motherboard defines a plurality of second mounting holes. The motherboard is located on the plurality of convex projections and between the rear plate and the first restricting piece with a front edge of the motherboard abutting the first restricting piece and a rear edge of the motherboard abutting the rear plate. The plurality of second mounting holes of the motherboard is aligned to the first mounting holes of the plurality of convex projections. | 12-27-2012 |
| 20130170122 | ELECTRONIC APPARATUS AND HINGE STRUCTURE THEREOF - An electronic apparatus includes a first casing, a second casing and a hinge structure. The hinge structure is pivotally connected to the first and second casings, and has a base, a rotating base, a first connecting element and a second connecting element. The base is disposed on the first casing. The rotating base is disposed on the second casing. Two ends of the first connecting element are pivotally connected to the base and the rotating base, respectively, and two ends of the second connecting element are also pivotally connected to the base and the rotating base, respectively. The rotating base rotates with respect to the base between a first position and a second position through the first and second connecting elements. When the first connecting element contacts the second connecting element, the rotating base is located at the second position. | 07-04-2013 |
| 20130286577 | 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. | 10-31-2013 |
| 20140293526 | COMPUTER HOUSING AND ARRANGEMENT - A computer housing that accommodates at least one motherboard, a power supply and further modules, wherein the housing includes at least a first level and a second level, wherein the second level is arranged horizontally above the first level, and an at least two-part motherboard carrier is arranged on the second level, wherein a first part of the motherboard carrier fixedly connects to the housing and a second part of the motherboard carrier is removable. | 10-02-2014 |
| 20150109724 | ELECTRONIC DEVICE WITH ROTARY POSITIONING FUNCTION - An electronic device includes a bezel, a door and a resilient component. The bezel includes an accommodating portion and a fixing portion. The accommodating portion has a lateral wall whereon a pivot hole is formed. The fixing portion is disposed on the lateral wall. The door is rotatably disposed on the bezel. The door includes a supporting arm, a pivoting portion and at least one engaging portion. The supporting arm is detachably disposed on the accommodating portion. The pivoting portion passes through the pivot hole. The engaging portion is disposed on the pivoting portion. The resilient component is disposed on the bezel by the fixing portion and presses the pivoting portion. The supporting arm rotates relative to the accommodating portion via the pivoting portion to engage the resilient component with the engaging portion, so as to constrain a relatively rotary angle between the door and the bezel. | 04-23-2015 |
| 20150138705 | HOLDING FRAME AND HOUSING ASSEMBLY FOR ELECTRONIC DEVICE - A holding frame and a housing assembly for an electronic device. The holding frame is used to hold a motherboard and at least one peripheral device. The holding frame includes a main holder, a linkage member, and a rotational holder. The motherboard is mounted onto the main holder via the linkage member. The peripheral device is mounted onto the rotational holder. The rotational holder is pivoted to the main holder to rotate on the main holder. The installation of the motherboard or the peripheral device will not be interfered by the structure of the holding frame. The housing assembly includes a case body and the holding frame. The holding frame is disposed within the case body. The installation of mounting the motherboard and the peripheral device onto the holding frame can be performed outside the case body without being interfered by the case body. | 05-21-2015 |
| 20160029797 | Shelf for a Desktop Computer - A shelf for a desktop computer is disclosed, as are shelf and desktop computer combinations. The desktop computer is generally of the type having a computing unit and a support arm that extends downward at an angle and tapers. The shelf has an open slot along a rear edge. The slot allows the shelf to be placed on the support arm, where it remains, cantilevered, extending generally horizontally from the support arm at a defined vertical position. The shelf is without external mounting hardware, support flanges, or other such elements, although in some embodiments, small, internal set screws may be included. | 02-04-2016 |
| 20160070315 | COMPUTER HOUSING - A desktop computing system having at least a central core surrounded by housing having a shape that defines a volume in which the central core resides is described. The housing includes a first opening and a second opening axially displaced from the first opening. The first opening having a size and shape in accordance with an amount of airflow used as a heat transfer medium for cooling internal components, the second opening defined by a lip that engages a portion of the airflow in such a way that at least some of the heat transferred to the air flow from the internal components is passed to the housing. | 03-10-2016 |
