Patent application number | Description | Published |
20110013367 | ELECTRONIC DISPLAY WITH MOUNT-ACCESSIBLE COMPONENTS - An electronic display assembly where the components can be removed and serviced or replaced without having to remove the display from its position. A backplane may be in electrical communication with the image producing assembly and may contain a plurality of blind mate connectors. Various electronic assemblies may be connected to the blind mate connectors. An access panel may provide access to the electronic assemblies so that they can be removed from the housing. N+1 power supplies may be used so that if one fails the unit would continue to operate until the failed power supply could be replaced. The electronic assemblies may be removed from the left side, right side, top, or bottom surfaces of the display housing. Any flat panel electronic display may be used. | 01-20-2011 |
20110116000 | THERMAL PLATE WITH OPTIONAL COOLING LOOP IN ELECTRONIC DISPLAY - An electronic display having one or more thermal plates in thermal communication with an image assembly and a thermally-conductive housing (and optional door frame). In some embodiments, the thermal plate is in thermal communication with the door frame which is in thermal communication with the housing. A channel may be defined between a transparent plate assembly and the image assembly where a fan may force cooling air through the channel. The cooling air may also pass through apertures in the thermal plate(s). An exemplary image assembly may provide an LED edge-lit LCD or an OLED display. In some embodiments, two displays may be provided in a back-to-back orientation within a single housing. The display may dissipate heat without the need to ingest ambient air. | 05-19-2011 |
20110116231 | FIELD SERVICEABLE ELECTRONIC DISPLAY - An electronic display which can be serviced without having to remove the display from its mounted position. A front housing and a rear housing are hingedly attached so that the front housing can rotate and allow access to the interior of the display. An axial force mechanism can be used to aid in rotating the front housing to an open position. A locking collar, support member, or axial locking member may be used to ensure that the front housing remains open. A removable front glass assembly or removable glass panel may be used with an exemplary embodiment. The front glass assembly or glass panel can be easily replaced if it becomes damaged by minimally-trained personnel. Gutters may be used between the front and rear housing as well as the front housing and front glass assembly to ensure an adequate seal against contaminates. | 05-19-2011 |
20110261523 | Expanded Heat Sink for Electronic Displays - A system for cooling various components of an electronic display. One or more heat-generating components are preferably placed in thermal communication with a plate and ribs. One or more fans are placed to draw cooling air along the ribs to remove the heat removed from the component. Some embodiments may place the electronic image assembly in thermal communication with the ribs to remove heat from the electronic image assembly. Exemplary embodiments have power modules and the electronic image assembly in thermal communication with the ribs. Conductive thermal communication is established between the ribs and the components in the exemplary embodiments. | 10-27-2011 |
20120206687 | SYSTEM AND METHOD FOR THERMALLY CONTROLLING AN ELECTRONIC DISPLAY WITH REDUCED NOISE EMISSIONS - An assembly for cooling an electronic image assembly having a rear channel placed behind the image assembly and a heat exchanger for accepting ambient air. The system contains a first fan placed within the heat exchanger to force ambient air through the heat exchanger and the rear channel. A second fan may be used to force circulating gas through an interior portion of the display housing and through the heat exchanger in order to transfer heat to the ingested ambient air. | 08-16-2012 |
20130270975 | FIELD SERVICEABLE ELECTRONIC DISPLAY - An in-field replaceable glass assembly for an electronic display placed within a housing is disclosed. The housing preferably contains a hanger at the top of the housing, where the glass assembly contains a frame surrounding a pane of glass and having a top and bottom. A tab is preferably placed at the top of the frame and adapted to hold the glass assembly in place when slipped over the hanger on the housing. The glass assembly also contains a means for attaching the bottom of the frame to the housing. In some embodiments this means is a threaded post which extends from the frame and passing through a portion of the housing. A nut may be tightened against the post. In other embodiments a threaded fastener may pass through the housing and thread into a female threaded hole within the frame. | 10-17-2013 |
20140111942 | THERMAL PLATE WITH OPTIONAL COOLING LOOP IN ELECTRONIC DISPLAY - Disclosed is a thermal plate assembly and method for cooling an electronic display. The thermal plate may contain a first portion which is in thermal communication with the electronic display. A second portion of the thermal plate may be in thermal communication with the housing. Apertures may be placed within the plate and a fan may be positioned to draw air through the apertures. A gap may be located between the electronic display and a transparent plate assembly, where the fan may be further positioned to force air through the gap as well. | 04-24-2014 |
20140321103 | Expanded Heat Sink for Electronic Displays - A system for cooling various components of an electronic display. One or more heat-generating components are preferably placed in thermal communication with a plate and ribs. One or more fans are placed to draw cooling air along the ribs to remove the heat removed from the component. Some embodiments may place the electronic image assembly in thermal communication with the ribs to remove heat from the electronic image assembly. Exemplary embodiments have power modules and the electronic image assembly in thermal communication with the ribs. Conductive thermal communication is established between the ribs and the components in the exemplary embodiments. | 10-30-2014 |