Patent application number | Description | Published |
20100101625 | Terrestrial Solar Tracking Photovoltaic Array - The terrestrial solar tracking photovoltaic array includes a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support in first and second directions about a first axis. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to the solar cell modules and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that each orthogonal to the first plane to further track the sun during the course of the day. The array may be configured to facilitate rotation about the first axis. The array may be constructed with a center of gravity of the array to extending through the longitudinal support. | 04-29-2010 |
20100102200 | Terrestrial Solar Tracking Photovoltaic Array - A terrestrial solar tracking photovoltaic array that may include an elongated frame configured to mount solar cell modules in a longitudinally-extending and spaced-apart arrangement. The frame is able to rotate each of the solar cell modules along a first axis to simultaneously track the elevation of the sun during the course of a day. The frame is also able to rotate each solar cell array module along second axes that are substantially perpendicular to the first axis to track the azimuthal position of the sun during the course of the day. | 04-29-2010 |
20100102202 | Solar Tracking for Terrestrial Solar Arrays with Variable Start and Stop Positions - An automated method causes a terrestrial solar cell array to track the sun. The solar cell system includes motors that adjust a position of the array along different respective axes with respect to the sun, wherein a first motor adjusts the inclination angle of the array relative to the surface of the earth and a second motor rotates the array about an axis substantially perpendicular to that surface. The method includes (a) using a software algorithm to predict a position of the sun at a future time; (b) using a computer model to determine respective positions for the motors corresponding to the solar cell array being substantially aligned with the sun at the future time; and (c) activating and operating the motors at respective particular speeds so that at the future time the solar cell array is substantially aligned with the sun. The future time may correspond to any time during operation. An initial future time may correspond to a start up time after sunrise at which point the solar cell is to begin tracking the sun. | 04-29-2010 |
20100108860 | Techniques for Monitoring Solar Array Performance and Applications Thereof - An automated method to monitor performance of a terrestrial solar cell array tracking the sun. The solar cell system includes drive means that adjust a position of the array along different respective axes with respect to the sun using the drive means. The techniques include predicting the position of the sun during a time period, and sampling an output parameter of the array indicative of performance. The sampled data may be used to identify a fault in the solar cell array, for example a misalignment or a failure of one or more solar cells, in which case a notification of that fault may be generated for the operator or a control signal may be output for correcting the fault. Alternatively, an output signal may be sent to an external system associated with the solar cell system. Various alignment testing routines for checking the solar tracking are described. These routines may involve moving a solar cell array to a reference position at the start of, or during, an alignment routine in order to improve accuracy of position measurement during the routine. | 05-06-2010 |
20100294337 | Periodic Alignment Adjustment Techniques for Terrestrial Solar Arrays - An automated method causes a terrestrial solar cell array to track the sun. The solar cell system may include motors that adjust a position of the array along different respective axes with respect to the sun. An alignment analysis procedure, e.g., a find sun routine, is performed to ensure that the solar cell system is properly aligned with the sun during solar tracking. This procedure may sweep the solar cell system along determined paths (e.g., azimuth and elevation paths) while measuring an output parameter indicative of system performance. The measured data is analyzed to determine if the solar cell system is in misalignment in which case the solar cell system is moved into proper alignment. The alignment procedure may be implemented on a periodic basis or using triggers, and maybe automatically executed or manually executed. | 11-25-2010 |
20120160991 | TERRESTRIAL SOLAR TRACKING PHOTOVOLTAIC ARRAY WITH CHAIN DRIVE - The terrestrial solar tracking photovoltaic array includes a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support in first and second directions about a first axis. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to the solar cell modules and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that each orthogonal to the first plane to further track the sun during the course of the day. The array may be configured to facilitate rotation about the first axis. The array may be constructed with a center of gravity of the array to extending through the longitudinal support. | 06-28-2012 |
20130306836 | TECHNIQUES FOR MONITORING SOLAR ARRAY PERFORMANCE AND APPLICATIONS THEREOF - An automated method to monitor performance of a terrestrial solar cell array tracking the sun. The solar cell system includes drive means that adjust a position of the array along different respective axes with respect to the sun using the drive means. The techniques include predicting the position of the sun during a time period, and sampling an output parameter of the array indicative of performance. The sampled data may be used to identify a fault in the solar cell array, for example a misalignment or a failure of one or more solar cells, in which case a notification of that fault may be generated for the operator or a control signal may be output for correcting the fault. Alternatively, an output signal may be sent to an external system associated with the solar cell system. Various alignment testing routines for checking the solar tracking are described. These routines may involve moving a solar cell array to a reference position at the start of, or during, an alignment routine in order to improve accuracy of position measurement during the routine. | 11-21-2013 |
20130333745 | SOLAR TRACKING FOR TERRESTRIAL SOLAR ARRAYS WITH VARIABLE START AND STOP POSITIONS - An automated method causes a terrestrial solar cell array to track the sun. The solar cell system includes motors that adjust a position of the array along different respective axes with respect to the sun, wherein a first motor adjusts the inclination angle of the array relative to the surface of the earth and a second motor rotates the array about an axis substantially perpendicular to that surface. The method includes (a) using a software algorithm to predict a position of the sun at a future time; (b) using a computer model to determine respective positions for the motors corresponding to the solar cell array being substantially aligned with the sun at the future time; and (c) activating and operating the motors at respective particular speeds so that at the future time the solar cell array is substantially aligned with the sun. The future time may correspond to any time during operation. An initial future time may correspond to a start up time after sunrise at which point the solar cell is to begin tracking the sun. | 12-19-2013 |
20150075584 | TECHNIQUES FOR MONITORING SOLAR ARRAY PERFORMANCE AND APPLICATIONS THEREOF - An automated method to monitor performance of a terrestrial solar cell array tracking the sun. The solar cell system includes drive means that adjust a position of the array along different respective axes with respect to the sun using the drive means. The techniques include predicting the position of the sun during a time period, and sampling an output parameter of the array indicative of performance. The sampled data may be used to identify a fault in the solar cell array, for example a misalignment or a failure of one or more solar cells, in which case a notification of that fault may be generated for the operator or a control signal may be output for correcting the fault. Alternatively, an output signal may be sent to an external system associated with the solar cell system. Various alignment testing routines for checking the solar tracking are described. These routines may involve moving a solar cell array to a reference position at the start of, or during, an alignment routine in order to improve accuracy of position measurement during the routine. | 03-19-2015 |
Patent application number | Description | Published |
20100146702 | LITTER ATTACHMENT BRACKET - A modular bracket assembly is provided for use with a field hospital portable bed or a NATO litter. The assembly includes a clamp that can be releasably attached to the pole of a litter. The clamp is formed with a mounting aperture. The assembly also includes a lower support that can be mounted in the mounting aperture of the clamp or in attachment holes of field hospital portable beds or the socket that is formed within each hinge when a collapsible litter. An accessory mount is provided on the lower support and can receive a mounting flange affixed to a medical accessory. An upper support can be mounted on the top end of the lower support and can be used to support medical equipment items and/or IV solutions. | 06-17-2010 |
20100186742 | MEDICAL VENTILATOR WITH AUTONOMOUS CONTROL OF OXYGENATION - A portable critical care medical ventilator with autonomous control of oxygenation is provided. The system and method provide for significantly reducing the O | 07-29-2010 |
20100292544 | LIFE SUPPORT AND MONITORING APPARATUS WITH MALFUNCTION CORRECTION GUIDANCE - A life support and monitoring apparatus with malfunction correction guidance is provided. The life support and monitoring apparatus of the present disclosure identifies the root cause or potential cause of a fault/failure and then prompts an operator to take appropriate steps to assure the continuance of life support and critical physiologic monitoring. When multiple faults/failures exist, the apparatus automatically prioritizes them based on risk to the patient and prompts the operator to do the most appropriate intervention to assure patient safety. | 11-18-2010 |
20110009061 | APPARATUS, SYSTEM AND METHOD FOR MONITORING AND MAINTAINING CRITICAL MEDICAL EQUIPMENT - An apparatus, system and method for maintaining critical medical equipment for stockpile applications are provided. The apparatus, system and method of the present disclosure can be used to monitor and maintain critical medical equipment in a continuous state of readiness. The apparatus includes a storage case which protects a medical device disposed therein and the accessories required for its immediate application while also providing for constant or intermittent charging of the device's internal battery and serial data monitoring of the primary systems. The system and method also incorporate design features in the medical device which enable performance testing via a remote interface while the device is secured within the storage case. | 01-13-2011 |