Patent application number | Description | Published |
20130076597 | SENSING THE SCREEN POSITIONS IN A DUAL SCREEN PHONE - A handheld communication device includes first and second screens, a hinge to rotate the first and second screens between open and closed positions, and a position sensor to determine the relative position of the first and second screens. The position sensor can be a Hall-Effect sensor. | 03-28-2013 |
20130077221 | L BRACKET FOR HANDHELD DEVICE ACTIVATORS - A housing for a handheld computing device can include an outer shell having a base and a sidewall connected to a periphery of the base, the sidewall having a port configured to receive a button and the outer shell having an inner surface and an outer surface and a backing plate connected to the inner surface of the outer shell, the backing plate having a front edge and a rear edge, the front edge being positioned a predetermined height above the base, the rear edge being positioned adjacent to the base, the backing plate being positioned adjacent to the sidewall having the port and spaced apart from the sidewall by a predetermined distance to provide rigidity to the button and to define a datum for positioning a component within the housing. | 03-28-2013 |
20130077236 | MAGNETICALLY SECURING TWO SCREENS OF A HANDHELD COMMUNICATION DEVICE - A handheld communication device includes first and second screens, a hinge to rotate the first and second screens between open and closed positions, and a permanent magnet to maintain the first and second screens in the closed position. | 03-28-2013 |
20130082585 | CORRUGATED STIFFENER FOR SIM MOUNTING - A housing for a handheld computing device can include a metallic outer shell having a substantially flat base and a sidewall connected to a periphery of the base, the sidewall having a card slot, the outer shell having an inner surface and an outer surface, and a corrugated stiffener connected to the inner surface of the base and positioned adjacent to the card slot, the stiffener including a series of substantially parallel ridges and troughs and configured to provide rigidity to the housing. | 04-04-2013 |
20130082955 | HANDHELD DUAL DISPLAY DEVICE HAVING FOLDOVER GROUND TABS - A handheld communication device includes a screen to receive input from and provide graphical output to a user, a processor to execute machine readable instructions and control operation of the device, a computer readable medium to store the machine readable instructions, an energy storage device to power the screen, processor, and computer readable medium, and a substantially planar electrically conductive member positioned between the screen, processor, and computer readable medium on one hand and the energy storage device on the other. The conductive member engages a first side of the energy storage device and comprises a flexible tab extending from the first side of the energy storage device, around a side of the energy storage device, and to a second terminal on an opposing second side of the energy storage device. | 04-04-2013 |
20130083464 | DISPLAY FRAME FOR HANDHELD DUAL DISPLAY DEVICE - A display frame for a communication device includes: a substantially planar body to receive a display panel for a screen of the device, plural clips positioned around a periphery of the body to engage at least one of a slot and lip of a housing of the device, and a cutout to pass a flexible circuit extending from a printed circuit board and to the display panel, thereby enabling the flexible circuit to bend to connect to the display panel. | 04-04-2013 |
20130083466 | HINGE FOR A HANDHELD COMPUTING DEVICE - A handheld computing device may include a first screen having a first display, a second screen having a second display, and a hinge connected to the first and second screens. The hinge may include a plurality of axes to enable the first and second screens to rotate about distinct axes. The hinge may include a hub having an internal passage configured to electrically couple the first and second screens. | 04-04-2013 |
20130083467 | SEAM MINIMIZATION IN A HANDHELD DUAL DISPLAY DEVICE - A handheld communication device includes first and second screen assemblies, each including a screen having an active display area and housing having a rear surface, and a side surface extending between a periphery of the screen and the rear surface of the housing and a hinge connected to the first and second screen assemblies, whereby, when the hinge is in the fully opened position, the hinge is configured to enable a distance between the first and second active display areas to be no more than about 10 mm. | 04-04-2013 |
20130083468 | MOUNTING STRUCTURE FOR BACK-TO-BACK BRACKET - A handheld computing device includes a screen to receive input from and provide graphical output to a user, a housing engaging a peripheral portion of the screen, a circuit board comprising a processor to execute machine readable instructions and control operation of the device and a computer readable medium to store the machine readable instructions, a flexible circuit connecting to a connector of the circuit board and to an electrical component of the device, a bracket, and a resilient gasket in physical contact with the bracket and connector and transferring pressure from the bracket to the flexible circuit at the connector, whereby the connection between the connector and flexible circuit is maintained during usage of the device. | 04-04-2013 |
20130083469 | BEVELED HANDHELD COMMUNICATION DEVICE EDGE - A handheld computing device can include a substantially rectangular first screen having a front surface, a rear surface, and a beveled edge extending between the front and rear surfaces of the first screen and a substantially rectangular second screen rotatably connected to the first screen so that the device is foldable between an open position and a closed position, the second screen having a front surface, a rear surface, and a beveled edge extending between the front and rear surfaces of the second screen. When the device is in the closed position, the first and second screens are positioned back-to-back and the beveled edges of the first and second screens angle inwardly toward the other respective screen to provide an angled surface configured to facilitate opening the device. | 04-04-2013 |
20130083470 | METAL HOUSING WITH MOULDED PLASTIC - A housing for a handheld computing device can include a metallic outer shell having a substantially flat base and a sidewall connected to a periphery of the base, the metallic outer shell having an inner surface and an outer surface and a polymeric portion nanomolded on the inner surface of the metallic outer shell in a predetermined location to provide rigidity to the metallic outer shell. | 04-04-2013 |
20130083477 | BRACKET FOR HANDHELD DEVICE INPUT/OUTPUT PORT - A handheld computing device may include a housing having a base and a sidewall connected to a periphery of the base, the sidewall having an input/output port configured to accommodate connection to a peripheral device, and a retainer bracket connected to the housing and positioned proximate to the port. The retainer bracket includes a frame having a top plate and opposing side plates and being configured to secure a dock connector between the frame, the base, and the sidewall having the port. | 04-04-2013 |
20130083558 | DUAL LIGHT PIPE BRACKET - A handheld computing device includes a screen to receive input from and provide graphical output to a user, a housing engaging a peripheral portion of the screen, a light source, at least one light guide to receive incident light from the light source and direct the incident light to the screen to illuminate a portion of the screen, and a light guide bracket to engage the housing and the at least one light guide, the light guide bracket maintaining a position and orientation of the light guide relative to the light source. | 04-04-2013 |
20130088447 | HINGE OVERTRAVEL IN A DUAL SCREEN HANDHELD COMMUNICATION DEVICE - A handheld communication device includes first and second screen assemblies, each including a screen having an active display area and housing having a rear surface, and a side surface extending between a periphery of the screen and the rear surface of the housing and a hinge connected to the first and second screen assemblies, whereby the hinge has a range of motion of more than 180 degrees. | 04-11-2013 |
20130318790 | METHOD OF MANUFACTURE AND ASSEMBLY FOR MODULAR WATER RECOVERY SYSTEM - A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays. | 12-05-2013 |
20130319021 | METHOD OF CONTROLLING AIRFLOW THROUGH A WATER RECOVERY DEVICE - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to dynamically control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319022 | SURFACE TREATMENTS FOR DESSICANT MEDIA IN A WATER RECOVERY DEVICE - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319023 | METHOD FOR WATER RECOVERY FROM ATMOSPHERE - A method to recover water from the atmosphere is provided. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319032 | SYSTEM FOR WATER RECOVERY INCLUDING MULTIPLE POWER SOURCES - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger, powered by a variety of power sources, adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319033 | DYNAMIC CONTROL OF DESICCANT CONCENTRATIONS IN A WATER RECOVERY DEVICE - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray, the concentration of the liquid desiccant may be dynamically changed based on changes within the system. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319226 | DESICCANT CARTRIDGE FOR WATER RECOVERY DEVICE - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A media material absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. The configuration of the media material enables maximal water extraction and is dynamically configurable. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319227 | System and Method of Water Recovery Including Automated Monitoring and Control - A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays. User interfaces are provided to monitor and control operation of the device. | 12-05-2013 |
20130319233 | HEAT TRANSFER DEVICE FOR WATER RECOVERY SYSTEM - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. A heat source adds heat to the chamber before and/or during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319243 | CONFIGURABLE MANIFOLDS FOR WATER RECOVERY DEVICE - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. Fans, valves, and manifolds are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. The airflow within the chamber and/or each tray is altered depending upon the settings of configurable airflow manifolds. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319244 | WATER RECOVERY SYSTEM AND METHOD - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319245 | WATER RECOVERY SYSTEM AND METHOD - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319246 | WATER RECOVERY SYSTEM AND METHOD - A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection. | 12-05-2013 |
20130319250 | APPARATUS FOR WATER RECOVERY INCLUDING STACKABLE DESICCANT TRAYS - A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays. | 12-05-2013 |