Patent application number | Description | Published |
20080266798 | SYSTEM AND METHOD FOR LIQUID COOLING OF AN ELECTRONIC SYSTEM - A liquid cooled electronic system and method includes a first component rotably connected to a second component via a coolant pathway. The coolant pathway includes at least one hinge assembly disposed and configured to convey coolant from the first component through the hinge assembly to the second component. The hinge assembly includes a first hinge portion in operable communication with the first component, a second hinge portion in operable communication with the second component; and a hinge pin disposed and configured to convey fluid therethrough and connecting the first hinge portion to the second hinge portion. | 10-30-2008 |
20090308033 | MODIFIED HEXAGONAL PERFORATED PATTERN - Described herein are various embodiments of a modified hexagonal perforated pattern and objects within which the pattern is formed. For example, according to one representative embodiment, an apparatus includes an object and a perforated pattern formed in the object. The perforated pattern includes a plurality of perforations through which matter is flowable. Each of the perforations includes a modified hexagonal shape including a hexagon having six rounded corners. | 12-17-2009 |
20120155018 | Rotatable Latch For Compressing Thermal Interface Material Between A Heat Generating Electrical Component And A Cooling Electrical Component - Apparatuses are provided for compressing a thermal interface material between a heat generating electronic component and a cooling electrical component. Embodiments include a rotatable latch fastened to the heat generating electrical component, the rotatable latch including a hook; wherein when the rotatable latch is in an engaged position, the hook of the rotatable latch engages a pin extending from the cooling electrical component such that the thermal interface material adhered to the heat generating electrical component is coupled to the cooling component; when the rotatable latch is in an unengaged position, the hook of the rotatable latch is not engaged with the pin of the cooling electrical component; a load screw; wherein when the rotatable latch is in the engaged position, threading the load screw into the rotatable latch moves the rotatable latch into a locked state; and a spring leaf that is coupled to the heat generating electrical component. | 06-21-2012 |
20120162920 | Rotatable Latch For Compressing Thermal Interface Material Between A Heat Generating Electrical Component And A Cooling Electrical Component - Apparatuses are provided for compressing a thermal interface material between a heat generating electrical component and a cooling electrical component. Embodiments include a draw rod coupled at one end to the cooling electrical component, the draw rod passing through the heat generating electrical component; wherein the draw rod includes a pin on the end opposite the end coupled to the cooling electrical component; and a rotatable latch coupled to the heat generating electrical component, the rotatable latch including a hook at one end; wherein when the rotatable latch is in an engaged position, the hook of the rotatable latch engages the pin of the draw rod such that the thermal interface material adhered to the heat generating component is coupled to the cooling electrical component; wherein when the rotatable latch is in an unengaged position, the hook of the rotatable latch is not engaged with the pin of the draw rod. | 06-28-2012 |
20130182391 | Rotatable Latch For Compressing Thermal Interface Material Between A Heat Generating Electrical Component And A Cooling Electrical Component - Apparatuses for compressing a thermal interface material between a heat generating electrical component and a cooling electrical component are provided. Embodiments include a draw rod coupled at one end to the cooling electrical component, the draw rod passing through the heat generating electrical component; wherein the draw rod includes a pin on the end opposite the end coupled to the cooling electrical component; and a rotatable latch coupled to the heat generating electrical component, the rotatable latch including a hook at one end; wherein when the rotatable latch is in an engaged position, the hook of the rotatable latch engages the pin of the draw rod such that the thermal interface material adhered to the heat generating component is coupled to the cooling electrical component. | 07-18-2013 |
20140140001 | VARIABLE THICKNESS EMI SHIELD WITH VARIABLE COOLING CHANNEL SIZE - An EMI shield for an electronic system enclosure is disclosed. The EMI shield may include an electrically conductive panel with a plurality of air ventilation channels, which has an upstream airflow side and a downstream airflow side. The EMI shield may also include a first air ventilation channel with a first cross-sectional shape having a first cross-sectional area and a first depth. The EMI shield may further include a second air ventilation channel with a second cross-sectional shape, having a cross-sectional area greater than the first cross-sectional area, and a second depth larger than the first depth. | 05-22-2014 |
20140182923 | MULTIPLE-LAYERED ELECTROMAGNETIC SHIELDING - An apparatus for electromagnetic compatibility (EMC) shielding, the apparatus comprising a first EMC shield with a plurality of substantially parallel interconnected finger elements spaced apart from one another. A second EMC shield with a plurality of substantially parallel interconnected finger elements spaced apart from one another. The first EMC shield coupled to the second EMC shield, wherein at least one finger element of the plurality of finger elements of the first EMC shield is situated between at least two finger elements of the plurality of finger elements of the second EMC shield and in parallel with the at least two finger elements such that a space is formed between the at least one finger element and at least one of the at least two finger elements. | 07-03-2014 |
20140353919 | SURFACE POSITIONING FOR COMPRESSIBLE SEAL ARRANGEMENT - An apparatus is disclosed, which may include a first member having a first planar surface, and a first displacing structure. The first displacing structure may have a displacing surface and a latching surface. The apparatus may also include a second member having a second planar surface and a second displacing structure. The second displacing structure may have a displacing surface and a latching surface. A compressible seal may be affixed to the second planar surface. Contact between the displacing surfaces during parallel movement of the first planar surface relative to the second planar surface may create a separation between the planar surfaces greater than the compressible seal height. Positioning of the displacing surfaces past each other during parallel movement of the first planar surface relative to the second planar surface may initiate the compression of the compressible seal between the planar surfaces. | 12-04-2014 |
20150076839 | COMPONENT AND LOW PROFILE FLEXIBLE LATCH ASSEMBLY - Latch assembly including a latch arm, having first and second length edges and first and second width edges. The latch arm includes a latch pawl, a pivot connector, and a stabilizing member, positioned in a plane. The latch pawl connected to the first width edge and providing spring force resisting deflection non-parallel to the plane. The pivot connector and stabilizing member formed within an area of the latch arm. The stabilizing member extending distally relative to the second width edge to the pivot connector, and providing spring force resisting deflection parallel to the plane. The component and latch assembly including a component having first and second faces being adjacent and perpendicular. The latch arm rotatably mounted on the second face between latched and unlatched positions. Assembly including an embossment positioned to deflect the latch pawl during latching so the latch arm sits raised upon the embossment in the latched position. | 03-19-2015 |