LIQUID ROBOTICS, INC.
|LIQUID ROBOTICS, INC. Patent applications|
|Patent application number||Title||Published|
|20160023739||ADAPTABLE MODULAR POWER SYSTEM (AMPS) AND DEDICATED CONNECTOR; MODULAR PAYLOAD BOXES AND AUTONOMOUS WATER VEHICLE CONFIGURED TO ACCEPT SAME - An adaptable modular power system (AMPS) is hierarchical in a number of ways. AMPS modules connect to a backplane, and one or multiple AMPS backplanes can form an AMPS domain. At the same time, the vehicle electronics is modular, with various payload boxes needing to communicate with each other. A common power and signaling cable is provided to interconnect payload boxes. A dedicated connector system is also provided so that AMPS modules may communicate, control, receive data, and supply and receive power.||01-28-2016|
|20160023725||WATER VEHICLES - Equipment and methods that combine the use of wave powered vehicles and unmanned aerial vehicles (UAVs or drones). A UAV can be launched from a wave-powered vehicle, observe another vessel, and report the results of its observation to the wave-powered vehicle, and the wave-powered vehicle can report the results of the observation to a remote location. The UAV can land on water and can then be recovered by the wave-powered vehicle.||01-28-2016|
|20140284998||Adaptable Modular Power System (AMPS) - An adaptable modular power system (AMPS) is hierarchical in a number of ways. AMPS modules connect to a backplane, and one or multiple AMPS backplanes can form an AMPS domain. At the same time, the vehicle electronics is modular, with various payload boxes needing to communicate with each other. A common power and signaling cable is provided to interconnect payload boxes. A dedicated connector system is also provided so that AMPS modules may communicate, control, receive data, and supply and receive power.||09-25-2014|
|20140283726||Modular Payload Boxes and Autonomous Water Vehicle Configured to Accept Same - A modular payload system for an autonomous water vehicle includes a hull formed with a recessed portion that extends longitudinally over a region where a transverse cross section of a lower portion of the recess is constant along the region. A plurality of payload boxes are sized to fit in the recess and be distributed along the longitudinal axis. A transverse cross section of a lower portion of each payload box is configured complementarily with the lower portion of the recess. The payload boxes can be sized so that one payload box has a longitudinal dimension that is an integral multiple of the longitudinal dimension of the second payload box. The payload boxes can have complementarily positioned external electrical connectors to allow a jumper cable to serially connect the payload boxes.||09-25-2014|
|20140038477||Wave Power - A wave-powered water vehicle includes a surface float, a submerged swimmer, and a tether which connects the float and the swimmer, so that the swimmer moves up and down as a result of wave motion. The swimmer includes one or more fins which interact with the water as the swimmer moves up and down, and generate forces which propel the vehicle forward. The vehicle, which need not be manned, can carry communication and control equipment so that it can follow a course directed by signals sent to it, and so that it can record or transmit data from sensors on the vehicle.||02-06-2014|
|20130068153||WAVE-POWERED ENDURANCE EXTENSION MODULE FOR UNMANNED UNDERWATER VEHICLES - An Endurance Extension Module (EXM) for powering an Unmanned Underwater Vehicle. The EXM converts wave motion to locomotive thrust, towing the UUV from point to point or keeping it in place against an opposing current. The EXM may also supply the UUV with electricity for driving an electric motor or powering on-board electronics. The EXM can be refracted onto the UUV when not in use to minimize drag, or it can release the UUV as prologue to a subsequent rendezvous. The EXM-UUV combinations of this invention allow extended autonomous missions over wider territory for purposes such as surveying, monitoring conditions, or delivering cargo.||03-21-2013|
|20130059488||WATERCRAFT THAT HARVEST BOTH LOCOMOTIVE THRUST AND ELECTRICAL POWER FROM WAVE MOTION - This disclosure provides improved nautical craft that can travel and navigate on their own. A hybrid vessel is described that converts wave motion to locomotive thrust by mechanical means, and also converts wave motion to electrical power for storage in a battery. The electrical power can then be tapped to provide locomotive power during periods where wave motion is inadequate and during deployment. The electrical power can also be tapped to even out the undulating thrust that is created when locomotion of the vessel is powered by wave motion alone.||03-07-2013|
|20130006445||Autonomous Wave-Powered Substance Distribution Vessels for Fertilizing Plankton, Feeding Fish, and Sequestering Carbon from the Atmosphere - This invention provides a vessel system and methodology that can be used to promote growth of phytoplankton in the oceans. Unmanned self-controlled wave-powered vessels are equipped with storage units for dispensing a fertilizer, and with sensors to monitor ocean conditions and effects. Fleets of vessels move autonomously by on-board processing of GPS and directional information, piloting a path that is coordinated by a central processing unit. The vessels travel through a defined target area, creating a detailed survey of chemical and biological characteristics that affect grown. The data are processed in a computer model to identify precise locations and precise amounts of fertilizer that will produce the best results. Projected benefits of fertilizing plankton include sequestering CO||01-03-2013|
|20120295499||WAVE-POWERED DEVICE WITH ONE OR MORE TETHERS HAVING ONE OR MORE RIGID SECTIONS - Many of the known wave-powered devices (“WPDs”) comprise (1) a float, (2) a swimmer, and (3) a tether connecting the float and the swimmer. The swimmer generates thrust as the float moves up and down due to surface waves. A WPD is provided with a rigid tether that can be moved from (a) a first position (“adjacent position”) in which at least a part of the tether is adjacent to the float to (b) a second position (“extended position”) in which the tether (i) is extended below the float and (ii) is at least in part substantially rigid. The WPD can if desired be transported, stored, or launched while the tether is in the adjacent position, and the tether can be moved into the extended position after the device has been launched and remain in the extended position while the device is being operated.||11-22-2012|
|20120285160||WAVE-POWERED DEVICES CONFIGURED FOR NESTING - A wave-powered water vehicle includes a) a first component which is a float that travels on or near the water surface; b) a second component which is wave actuated and travels below the first component; and c) a means whereby the first component engages the second component and/or the second component engages the first component; wherein the engagement means provides lateral support of one component for the other, and thereby minimizes lateral movement of one against the other when the components are fitted together.||11-15-2012|
Patent applications by LIQUID ROBOTICS, INC.