Patent application number | Description | Published |
20080234625 | Fuse Assembly For Single Use Medical Device - A disposable injection device includes a dispensing chamber, a plunger, a fuse in series with a light, and a housing. The dispensing chamber has an inner surface and an outer surface. The inner surface defines a cavity for receiving a quantity of a substance. The plunger is engaged with the inner surface of the dispensing chamber, is capable of sliding in the cavity of the dispensing chamber, and is fluidly sealed to the inner surface of the dispensing chamber. The housing at least partially encloses the dispensing chamber and the plunger. After the substance has been delivered from the dispensing chamber, the fuse is blown causing the light to go out and disabling the device. | 09-25-2008 |
20090036846 | Ophthalmic Injection System - An ophthalmic injection system has a tip segment attachable to and removable from a limited reuse assembly. The tip segment has a dispensing chamber housing, a plunger, a needle, a temperature control device, a thermal sensor, and a first housing at least partially enclosing the dispensing chamber housing, the temperature control device and the plunger. The limited reuse assembly has an actuator with a shaft, a power source for providing power to the actuator, a controller for controlling the actuator, a mechanical linkage interface, and a second housing at least partially enclosing the power source, the controller, and the actuator. The mechanical linkage interface is coupled to the actuator shaft and has a mating surface on one end. The substance is injected after the temperature of the substance is altered. | 02-05-2009 |
20090287150 | Universal Rechargeable Limited Reuse Assembly For Ophthalmic Hand Piece - The present invention is a universal limited reuse assembly for an ophthalmic hand piece having a power source for providing power to a tip segment, a controller for controlling the operation of the tip segment, a motor with a shaft, a mechanical linkage interface located on an end of the shaft, an interface for connecting the limited reuse assembly to the tip segment, and a housing at least partially enclosing the power source, the controller, and the motor. The limited reuse assembly is connectable to and removable from two or more types of tip segments. Each of the two or more types of tip segments is configured to perform a different procedure. | 11-19-2009 |
20100030136 | Ophthalmic Injection Device Including Dosage Control Device - An injection device includes a dispensing chamber, a plunger, a controller, a temperature control device, and a memory device. The dispensing chamber has an inner surface and an outer surface. The inner surface defines a cavity for receiving a quantity of a substance. The plunger is engaged with the inner surface of the dispensing chamber, is capable of sliding in the cavity of the dispensing chamber, and is fluidly sealed to the inner surface of the dispensing chamber. The controller controls the operation of the injection device. The temperature control device at least partially surrounds the dispensing chamber. The memory device has a parameter stored on it. The controller uses the parameter from the memory device to operate the injection device. | 02-04-2010 |
20100106083 | Method of Operating Ophthalmic Hand Piece with Disposable End - The present invention is a method of operating an ophthalmic hand piece. A connection between a tip segment and a limited reuse assembly is recognized. A type of tip segment connected to the limited reuse assembly is determined. Dosage information is received. A first input is received. In response to the first input, a heater is activated to heat a substance contained in a dispensing chamber. After the substance has reached a desired temperature range, the dosage information is used to control a distance a plunger travels. A second input is received. In response to the second input a motor is activated, and the drug is delivered into the eye. | 04-29-2010 |
20100211044 | BATTERY OPERATED SURGICAL HAND PIECE WITH DISPOSABLE END - The present invention is an ophthalmic injection system with a limited reuse assembly and a tip segment. The tip segment is connectable to and removable from the limited reuse assembly. The tip segment includes a dispensing chamber, a plunger, and a housing. The dispensing chamber holds a quantity of a substance to be injected into an eye. The proximate end of the plunger has a first mechanical linkage interface. The limited reuse assembly of the ophthalmic injection system has a power source, a controller, a motor, a second mechanical linkage interface located on an end of the motor shaft; and a second housing. The first mechanical linkage interface is mateable with the second mechanical linkage interface such that when the tip segment is connected to the limited reuse assembly, the first mechanical linkage interface mates with the second mechanical linkage interface so that motion of the shaft results in motion of the plunger. | 08-19-2010 |
20110022117 | Cytokine Production Via Electrical Stimulation to Treat Glaucoma - The present invention is a method of treating glaucoma by electrically stimulating the ciliary muscle to produce shear stress on the trabecular meshwork sufficient for cytokine production. A device for electrically stimulating the ciliary muscle includes a pair of electrodes configured to provide a voltage to the ciliary muscle. The electrodes are coupled to a voltage source. A controller operates to apply the voltage to the ciliary muscle. | 01-27-2011 |
20110230877 | Pulsed Electric Field Probe for Glaucoma Surgery - A small gauge pulsed electric field/aspirator probe. The probe has a generally cylindrical cannula with a generally smooth distal end. A port is located near a distal end of the cannula on a side of the cannula. A pair of electrodes is located at the port. An electric pulse generator is coupled to the pair of electrodes. A distance between the distal end of the cannula and the port is approximately equal to the distance between a back wall of Schlemm's canal and a trabecular meshwork in a human eye. The electric pulse generator applies a pulsed electric field to the pair of electrodes sufficient to dissociate protein bonds that hold the trabecular meshwork together. | 09-22-2011 |
Patent application number | Description | Published |
20120055490 | Implantable Punctal Plug - A punctal plug is disclosed, wherein the punctal plug includes a body portion and a retaining portion. The body portion is defined by an open distal end, an open proximal end and a wall portion. The wall portion further includes at least one window extending therethrough. The retaining flange is configured to have an outer periphery that is larger than the outer periphery of the body portion. A method of delivering a therapeutic agent to a patient using a punctal plug is also disclosed. | 03-08-2012 |
20120143052 | LASER TRABECULECTOMY WITH ENERGY DISSIPATING INJECTION - A method to perform high resolution tissue ablation including the steps of forming a beam to deliver optical energy and providing an energy dissipating material is provided. The steps of selecting an area of interest in a target tissue and placing the energy dissipating material adjacent to the area of interest may be included. The steps of directing the beam to the area of interest and scanning the beam across the area of interest to ablate the target tissue may be further included. Also provided is an apparatus and a system for high resolution tissue ablation including a beam to provide optical energy and an injector for placing an energy dissipating material adjacent to an area of interest. Further, the apparatus and system may include at least a mirror and a lens for directing the beam to the area of interest and scanning the beam to ablate target tissue. | 06-07-2012 |
20140107459 | DEVICES, SYSTEMS, AND METHODS FOR INTRAOCULAR MEASUREMENTS - An implantable sensor assembly sized for insertion within an eye of an average human is disclosed. The sensor assembly comprises a sensor and an antenna system coupled to the sensor, wherein the antenna system is pliable between an expanded condition and an unexpanded condition, and the expanded condition has a predetermined shape configured to interface with tissue within the eye in a manner that stabilizes the sensor assembly. | 04-17-2014 |
20140163448 | SUPRACHORIODAL DRAINAGE TUBE IN A FLOW CONTROL SYSTEM - Described herein is a treatment device for the drainage of fluid within an eye of a patient. The treatment device comprises a drainage tube and a flow system in fluid communication with the drainage tube. The drainage tube has a lumen and comprises an inlet tube portion and an outlet tube portion, and is configured to convey aqueous humor through the lumen from an anterior chamber of the eye to a suprachoroidal space of the eye. The inlet tube portion extends from the anterior chamber to the flow system, and the outlet tube portion is flexible to conform to the curvature of the suprachoroidal space and extends from the valve system to the suprachoroidal space. The flow system is configured to control intraocular pressure by throttling flow rates of the aqueous humor through the drainage tube. | 06-12-2014 |
20150057583 | TRABECULAR MESHWORK STIMULATION DEVICE - An implantable device for mechanically stimulating the trabecular meshwork is disclosed. The device is implanted in the eye adjacent the trabecular meshwork. The device imparts mechanical stimulating in the form of vibrations or movement to the trabecular meshwork. The imparted mechanical stimulation causes the trabecular meshwork to move in a manner that produces a pumping action to remove aqueous from the anterior chamber of the eye. | 02-26-2015 |
20150057596 | PASSIVE TO ACTIVE STAGED DRAINAGE DEVICE - Described herein is an IOP control system for implantation in an eye of a patient, comprising a drainage device and a control device. The drainage system includes a housing including an inlet port and an outlet port, a fluid flow passageway extending from the inlet port to the outlet port to allow the flow of fluid therethrough, and at least one valve disposed within the housing. The at least one valve includes a first side and an opposing second side, and is configured to affect flow through the fluid flow passageway from the inlet port to the outlet port by moving in response to pressure differentials acting on the opposing sides. The control device comprises an actuator including an activated mode and a deactivated mode, and the actuator in the activated mode is configured to selectively adjust flow through the drainage device in response to changes in intraocular pressure. | 02-26-2015 |
20150057597 | EXTERNALLY ADJUSTABLE PASSIVE DRAINAGE DEVICE - Described herein is an IOP control device for implantation in an eye of a patient, comprising a housing including an inlet port and an outlet port, a fluid flow passageway configured to allow the flow of fluid from the inlet port to the outlet port, and at least one valve anchored within the housing. The at least one valve includes a first side and an opposing second side, and is configured to affect flow through the fluid flow passageway from the inlet port to the outlet port by moving in response to pressure differentials acting on the opposing first and second sides. The at least one valve is remotely adjustable between an active condition increasing resistance to the flow of fluid within the fluid flow passageway and an inactive condition decreasing resistance to the flow of fluid within the fluid flow passageway. | 02-26-2015 |
Patent application number | Description | Published |
20100295303 | Tethered system for power generation - A system for power generation comprises a wing, a turbine, a tether, and a tether tension sensor. The wing is for generating lift. The turbine is coupled to the wing and is used for generating power from rotation of a propeller or for generating thrust using the propeller. One end of the tether is coupled to the wing. The tether tension sensor is for determining a tension of the tether. | 11-25-2010 |
20140326831 | Bridles for Stability of a Powered Kite and a System and Method for Use of Same - The system may include a ground station, a tether attached to a ground station on a first end and to two or more bridles on a second, and a kite. The kite may include a main wing. Each bridle of the two or more bridles may be attached to the main wing, and the two or more bridles may be adapted to provide a torque on the kite to control a roll of the kite. | 11-06-2014 |
20150076289 | Methods and Systems for Transitioning an Aerial Vehicle Between Crosswind Flight and Hover Flight - A method may involve operating an aerial vehicle in a hover-flight orientation. The aerial vehicle may be connected to a tether that defines a tether sphere having a radius based on a length of the tether, and the tether may be connected to a ground station. The method may involve positioning the aerial vehicle at a first location that is substantially on the tether sphere. The method may involve transitioning the aerial vehicle from the hover-flight orientation to a forward-flight orientation, such that the aerial vehicle moves from the tether sphere. And the method may involve operating the aerial vehicle in the forward-flight orientation to ascend at an angle of ascent to a second location that is substantially on the tether sphere. The first and second locations may be substantially downwind of the ground station. | 03-19-2015 |
20150144733 | Motor Pylons for a Kite and Airborne Power Generation System Using Same - A motor pylon system adapted for use with an airborne power generations system is disclosed. The pylons may support turbine driven generators for wind based electrical power generation which also function as electric motors in some aspects. The pylons may be designed to provide side force useful for turning a tethered flying wing flying in a circular cross wind flight path. The pylons may be designed to minimize air flow disruptions over the main wing. | 05-28-2015 |
20150158585 | Systems and Apparatus for Tether Termination Mount for Tethered Aerial Vehicles - Wind energy systems, such as an Airborne Wind Turbine (“AWT”), may be used to facilitate conversion of kinetic energy to electrical energy. An AWT may include an aerial vehicle that flies in a path to convert kinetic wind energy to electrical energy. The aerial vehicle may be tethered to a ground station with a tether that terminates at a tether termination mount. In one aspect, the tether may be a conductive tether that can transmit electricity and/or electrical signals back and forth between the aerial vehicle and the ground station. The tether termination mount may include one or more gimbals that allow for the tether termination mount to rotate about one or more axis. In a further aspect, the tether termination mount may include a slip ring that allows for rotation of the tether without twisting the tether. | 06-11-2015 |
20150158586 | Systems and Apparatus for Tether Termination Mount for Tethered Aerial Vehicles - Wind energy systems, such as an Airborne Wind Turbine (“AWT”), may be used to facilitate conversion of kinetic energy to electrical energy. An AWT may include an aerial vehicle that flies in a path to convert kinetic wind energy to electrical energy. The aerial vehicle may be tethered to a ground station with a tether that terminates at a tether termination mount. In one aspect, the tether may be a conductive tether that can transmit electricity and/or electrical signals back and forth between the aerial vehicle and the ground station. The tether termination mount may include one or more gimbals that allow for the tether termination mount to rotate about one or more axis. In a further aspect, the tether termination mount may include a slip ring that allows for rotation of the tether without twisting the tether. | 06-11-2015 |
20150158600 | Ground Station with Shuttled Drum for Tethered Aerial Vehicles - A system may include an aerial vehicle, a perch platform configured to receive the aerial vehicle, and a ground station coupled to the aerial vehicle via a tether. The ground station may include a winch including a winch drum configured to move laterally and spin in a manner such that the tether is wound onto on the winch drum in a repeating pattern, possibly utilizing a fixed position levelwind. The system may additionally include a tower around which the winch and the perch platform can rotate about a vertical axis relative to the tower. The system may further utilize the tether forces on the levelwind to help move the perch platform around the vertical axis or be driven actively by a motor. | 06-11-2015 |
20150175261 | CURVATURE SENSING - A system may include a tether connected to a ground station. The tether may include at least two bridle segments. The system may further include an aerial vehicle connected to the at least two bridle segments. The system may also include at least one sensor and a control system. The control system may be configured to: a) receive sensor data from the at least one sensor; and b) determine a tether roll angle based on the sensor data. The tether roll angle may represent an angle between the tether and an axis of the aerial vehicle. Optionally, the control system may also be configured to determine a curvature of a path of the aerial vehicle based on the tether roll angle. The control system may additionally be configured to control at least one control surface of the aerial vehicle based on the curvature of the path. | 06-25-2015 |
20150175262 | Path Based Power Generation Control for an Aerial Vehicle - Methods and systems described herein relate to power generation control for an aerial vehicle. An example method may include operating an aerial vehicle in a crosswind-flight orientation substantially along a first flight path to generate power. The first flight path may include a substantially circular path that allows the aerial vehicle to generate the power. While the aerial vehicle is in the crosswind-flight orientation the method may include determining to reduce the power being generated by the aerial vehicle, and responsive to the determination, determining a second flight path that will reduce the power generated by the aerial vehicle when operating on the second flight path. Once determined, the aerial vehicle may operate substantially along the second flight path. | 06-25-2015 |
20150177737 | Path Based Power Generation Control for an Aerial Vehicle - Methods and systems described herein relate to power generation control for an aerial vehicle. An example method may include operating an aerial vehicle in a crosswind-flight orientation substantially along a first flight path to generate power. The first flight path may include a substantially circular path that allows the aerial vehicle to generate the power. While the aerial vehicle is in the crosswind-flight orientation the method may include determining to reduce the power being generated by the aerial vehicle, and responsive to the determination, determining a second flight path that will reduce the power generated by the aerial vehicle when operating on the second flight path. Once determined, the aerial vehicle may operate substantially along the second flight path. | 06-25-2015 |
20150180186 | Systems and Apparatus for Cable Management - Wind energy systems, such as an Airborne Wind Turbine (“AWT”), may be used to facilitate conversion of kinetic energy to electrical energy. An AWT may include an aerial vehicle that flies in a path to convert kinetic wind energy to electrical energy. The aerial vehicle may be tethered to a ground station via a tether. As a result of continuous circular flights paths, the tether may rotate continuously in one direction. Thus, it may be desirable to have a cable management apparatus that allows for tether rotation and helps reduce strain on the tether. | 06-25-2015 |
20150183510 | Dual-Pitch Support for a Propeller - Apparatus are disclosed that are configured to passively rotate a propeller blade from a first pitch angle to a second pitch angle. An example apparatus involves: (a) a rotor hub, (b) at least one dual-pitch support coupled to the rotor hub, wherein the dual-pitch support has a first surface, a second surface and a cavity defined there between, and (c) at least one propeller blade rotatably coupled to the rotor hub such that a blade root is disposed within the dual-pitch support's cavity, where the blade root's front face is positioned against the dual-pitch support's first surface in a first position and the blade root's back face is positioned against the dual-pitch support's second surface in a second position, and the propeller blade is oriented at a first pitch angle in the first position and is oriented at a second pitch angle in the second position. | 07-02-2015 |
20150183512 | Methods and Systems for Transitioning an Aerial Vehicle Between Crosswind Flight and Hover Flight - A method may involve operating an aerial vehicle to travel along a first closed path on a tether sphere while oriented in a crosswind-flight orientation. A tether may be connected to the aerial vehicle on a first end and may be connected to a ground station on a second end. Further, the tether sphere may have a radius corresponding to a length of the tether. The method may further involve while the aerial vehicle is in the crosswind-flight orientation, operating the aerial vehicle to travel along a second closed path on the tether sphere, such that a speed of the aerial vehicle is reduced. And the method may involve after or while the speed of the aerial vehicle is reduced, transitioning the aerial vehicle from traveling along the second closed path while in the crosswind-flight orientation to a hover-flight orientation. | 07-02-2015 |
20150183515 | Wiring Harness for an Aerial Vehicle - Systems and methods are provided for a wiring harness for an aerial vehicle. A wing of the aerial vehicle comprises a pocket for insertion of the wiring harness. The wiring harness provides wiring and associated connections capable to attach to and power various components. | 07-02-2015 |
20150183516 | Spar Buoy Platform - An offshore airborne wind turbine system including an aerial vehicle, an electrically conductive tether having a first end secured to the aerial vehicle and a second end secured to a platform, a rotatable drum positioned on the platform, an aerial vehicle perch extending from the platform, wherein the platform is positioned on a top of a spar buoy. | 07-02-2015 |
20150183517 | Methods and Systems for Transitioning an Aerial Vehicle Between Crosswind Flight and Hover Flight - A method may involve operating an aerial vehicle to travel along a first closed path on a tether sphere while oriented in a crosswind-flight orientation. A tether may be connected to the aerial vehicle on a first end and may be connected to a ground station on a second end. Further, the tether sphere may have a radius corresponding to a length of the tether. The method may further involve while the aerial vehicle is in the crosswind-flight orientation, operating the aerial vehicle to travel along a second closed path on the tether sphere, such that a speed of the aerial vehicle is reduced. And the method may involve after or while the speed of the aerial vehicle is reduced, transitioning the aerial vehicle from traveling along the second closed path while in the crosswind-flight orientation to a hover-flight orientation. | 07-02-2015 |
20150183527 | Methods for Perching - An airborne wind turbine system including an aerial vehicle having a fuselage, an electrically conductive tether having a first end secured to the aerial wing and a second end secured to a platform, a rotatable drum positioned on the platform onto which the tether is wrapped when the aerial vehicle is reeled in, a perch panel extending from the platform, first and second extensions extending from opposite sides of the perch panel, a peg positioned on the fuselage, first and second hooks extending from the aerial vehicle on opposite sides of the peg, wherein when the aerial vehicle is perched on the perch panel, the peg is in contact with the perch panel, the first hook is positioned over the first extension, and the second hook is positioned over the second extension. | 07-02-2015 |
20150183529 | Systems and Methods for a Winch Drum and Drum Door - Wind energy systems, such as an Airborne Wind Turbine (“AWT”), may be used to facilitate conversion of kinetic energy to electrical energy. An AWT may include an aerial vehicle that flies in a path, such as a substantially circular path, to convert kinetic wind energy to electrical energy. The aerial vehicle may be coupled to a winch assembly via a tether. The winch assembly may include a winch drum and a drum door. The winch assembly may be configured such that the drum door may operate in two or more positions, such as an open position and a closed position, to reduce the likelihood of stability problems occurring at the aerial vehicle during winding or unwinding of the tether. | 07-02-2015 |
20150183615 | Methods and Systems for Winding a Tether - Methods and systems are provided to wrap a faired tether around a drum. The tether may be connected to an aerial vehicle. The method may involve guiding a faired tether around an exterior surface of a drum, wherein the drum comprises a helical shaped step around the exterior surface that is configured to mate with at least part of the faired tether, and to stack subsequent layers of wrapped tether in a staggered manner along the longitudinal axis of the drum. The faired tether may be guided onto the step using one or more level winds. | 07-02-2015 |
20150183617 | Extruded Drum Surface for Storage of Tether - A drum for storing an electrically conductive tether having a first end secured to an aerial vehicle and a second end secured to a ground station that includes a drum frame rotatable about a drum axis, a drum surface positioned over the drum frame comprising a spiral extrusion wrapped around the drum frame, wherein the extrusion has a cross-section having an upper surface that is shaped to conform to an outer surface of the electrically conductive tether, and wherein the extrusion is adapted for dissipating heat generated through a transfer of electricity from the aerial vehicle to a ground station through the electrically conductive tether. | 07-02-2015 |
20150184629 | Airfoil for a Flying Wind Turbine - An airfoil for an airborne wind turbine including a main wing adapted for attachment to an electrically conductive tether, a pivotable trailing element positioned behind the main wing, wherein a chord line of the airfoil has a length that is measured from the leading edge of the main wing to a trailing edge of the trailing element, wherein when the main wing and trailing element are positioned in a first flying position, a slot gap exists between a trailing edge of the main wing and the leading edge of the trailing element, wherein the main wing has a thickness that is 15-28% of the length of the chord line; and wherein a spar bulge exists in the main wing such that 15-25% of the overall length of the chord line has a thickness that is 95% or more of a maximum thickness of the main wing. | 07-02-2015 |
20150184633 | Power Generation using Rotor Speed Control for an Aerial Vehicle - Methods and systems described herein relate to power generation control for an aerial vehicle of an air wind turbine (AWT). More specifically, the methods described herein relate to balancing power generation or preventing a component of the aerial vehicle using rotor speed control. An example method may include operating an aerial vehicle in a crosswind-flight mode to generate power. The aerial vehicle may include a rotor configured to help generate the power. While the aerial vehicle is in the crosswind-flight mode the method may include comparing a power output level of the aerial vehicle to a power threshold and, based on the comparison, adjusting operation of the rotor in a manner that generates an optimal amount of power or minimizes overheating of the aerial vehicle. | 07-02-2015 |
20150184637 | Power Generation using Rotor Speed Control for an Aerial Vehicle - Methods and systems described herein relate to power generation control for an aerial vehicle of an air wind turbine (AWT). More specifically, the methods described herein relate to balancing power generation or preventing a component of the aerial vehicle using rotor speed control. An example method may include operating an aerial vehicle in a crosswind-flight mode to generate power. The aerial vehicle may include a rotor configured to help generate the power. While the aerial vehicle is in the crosswind-flight mode the method may include comparing a power output level of the aerial vehicle to a power threshold and, based on the comparison, adjusting operation of the rotor in a manner that generates an optimal amount of power or minimizes overheating of the aerial vehicle. | 07-02-2015 |
20150184638 | Extruded Drum Surface for Storage of Tether - A drum for storing an electrically conductive tether having a first end secured to an aerial vehicle and a second end secured to a ground station that includes a drum frame rotatable about a drum axis, a drum surface positioned over the drum frame comprising a spiral extrusion wrapped around the drum frame, wherein the extrusion has a cross-section having an upper surface that is shaped to conform to an outer surface of the electrically conductive tether, and wherein the extrusion is adapted for dissipating heat generated through a transfer of electricity from the aerial vehicle to a ground station through the electrically conductive tether. | 07-02-2015 |
20150188367 | Electrically-Isolated and Liquid-Cooled Rotor and Stator Assemblies - Disclosed are systems and rotor/stator assemblies with improved electrical isolation. An example rotor/stator assembly may include a rotor, a rotor housing, a rotor insulator, a stator, a stator plate, and a stator insulator. The rotor may be electrically isolated from the rotor housing by the rotor insulator, and the stator may be electrically isolated from the stator plate by the stator insulator. The stator may be disposed coaxial to the rotor. In some embodiments, the rotor/stator assembly may function as a motor, and the stator may be configured to cause the rotor to rotate about the stator in response to an input of electrical energy to the stator. Alternatively or additionally, the rotor/stator may function as an electrical generator. The rotor may be configured to rotate about the stator, and the stator may be configured to produce electrical energy in response to rotation of the rotor relative to the stator. | 07-02-2015 |
20150232200 | Spar Buoy Platform - An offshore airborne wind turbine system including an aerial vehicle, an electrically conductive tether having a first end secured to the aerial vehicle and a second end secured to a platform, a rotatable drum positioned on the platform, an aerial vehicle perch extending from the platform, wherein the platform is positioned on a top of a spar buoy. | 08-20-2015 |
20150251763 | Radiator Configuration for a Flying Wind Turbine that Passively Controls Airflow - In order to increase efficiency in aerial wind turbine vehicles, it is desirable to reduce the system drag associated with airflow across radiator in those cases where airflow exceeds the necessary flow to sufficiently cool the motor/generators. Exemplary embodiments herein include passive flow restrictors that can activate under varying flight conditions associated with known states of excessing cooling capacity. | 09-10-2015 |
20150252788 | Radiator and Duct Configuration on an Airborne Wind Turbine for Maximum Effectiveness - In order to maximize cooling while minimizing drag in aerial vehicles of airborne wind turbines, it may be preferable to dissipate the cooling energy of the motors via a radiator in a region with advantageous airflow parameters. Aerial vehicle rotors operating in thrust mode may produce relatively more airflow velocity in certain regions further away from the center of the rotor blades, both radially and longitudinally. Placing a radiator in a rotor-supporting pylon and offset from the center of the rotor blades and aft of the rotor blades may allow for greater cooling while the aerial vehicle while in thrust mode. | 09-10-2015 |
Patent application number | Description | Published |
20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
20100072656 | FLEXIBLE SILICONE CABLE JUNCTION SYSTEM AND METHOD - The present invention is comprised of a system and method to fabricate custom shaped flat silicone encased cable assemblies. The cable assemblies can include various numbers and types of multiple individual flexible systems, for example, communication cables, optic fibers, junction devices, tubing and electrical conductors arranged into a shaped grouping. The custom shaping allows for very precise cable routing. The silicone encasement maintains the custom shape and provides protection against contamination. The result is a single silicone encased flexible shaped cable for use in efficient space saving installations in the cable routing space available in a device or series of devices and can be customized for a wide range of applications. | 03-25-2010 |
20100072657 | FLEXIBLE SELF SUPPORTING ENCASED SILICONE CABLE SYSTEM AND METHOD - The present invention is comprised of a system and method to fabricate custom shaped flat silicone encased cable assemblies. The cable assemblies can include various numbers and types of multiple individual flexible systems, for example, communication cables, optic fibers, junction devices, tubing and electrical conductors arranged into a shaped grouping. The custom shaping allows for very precise cable routing. The silicone encasement maintains the custom shape and provides protection against contamination. The result is a single silicone encased flexible shaped cable for use in efficient space saving installations in the cable routing space available in a device or series of devices and can be customized for a wide range of applications. | 03-25-2010 |
20100077528 | CLOTHING AND APPAREL INTEGRATED WITH FLEXIBLE SILICONE ENCASED CABLE SYSTEMS - The present invention is comprised of a system and method to fabricate custom shaped flat silicone encased cable assemblies. The cable assemblies can include various numbers and types of multiple individual flexible systems for example communication cables, optic fibers, junction devices, tubing and electrical conductors arranged into a shaped grouping. The custom shaping allows for very precise cable routing. The silicone encasement maintains the custom shape and provides protection against contamination. The result is a single silicone encased flexible shaped cable for use in efficient space saving installations in the cable routing space available in a device or series of devices and can be customized for a wide range of applications. | 04-01-2010 |
20100078847 | FLEXIBLE SILICONE CABLE SYSTEM INTEGRATED WITH SNAP WASHER - The present invention is comprised of a system and method to fabricate custom shaped flat silicone encased cable assemblies. The cable assemblies can include various numbers and types of multiple individual flexible systems for example communication cables, optic fibers, junction devices, tubing and electrical conductors arranged into a shaped grouping. The custom shaping allows for very precise cable routing. The silicone encasement maintains the custom shape and provides protection against contamination. The result is a single silicone encased flexible shaped cable for use in efficient space saving installations in the cable routing space available in a device or series of devices and can be customized for a wide range of applications. | 04-01-2010 |
20100080520 | FLEXIBLE SILICONE CABLE SYSTEM INTEGRATED WITH HOLLOW TUBING FOR FLUID DELIVERY - The present invention is comprised of a system and method to fabricate custom shaped flat silicone encased cable assemblies. The cable assemblies can include various numbers and types of multiple individual flexible systems, for example, communication cables, optic fibers, junction devices, tubing and electrical conductors arranged into a shaped grouping. The custom shaping allows for very precise cable routing. The silicone encasement maintains the custom shape and provides protection against contamination. The result is a single silicone encased flexible shaped cable for use in efficient space saving installations in the cable routing space available in a device or series of devices and can be customized for a wide range of applications. | 04-01-2010 |
20130009018 | METHOD OF CABLE FABRICATION - The embodiments disclose a method of cable fabrication, achieved by encasing a flat piece of steel in silicone to form a flexrail, attaching two or more flexrails to a cable in a secondary bonding operation to create a flexible self-supporting cable and encasing two or more flat pieces of steel and one or more flat cable elements in a continuous automated encasement bonding operation to create a flexible self-supporting cable of any length. | 01-10-2013 |
20130201647 | FLEXIBLE SILICONE CABLE JUNCTION SYSTEM AND METHOD - The embodiments disclose a method for creating a silicone encased flexible cable using manufacturing machinery including automatically arranging plural individual conduits, into custom grouped arrangements including electrical wiring, pneumatic tubing and fluid tubing, inserting the custom grouped arrangements including connectors and flexible silicone junction devices into a shaped silicone encasement extrusion apparatus, depositing a mixture of silicone and additives to the custom grouped arrangements encasement using the extrusion apparatus, customizing the mixture of silicone and additives to create differing characteristics of the custom grouped arrangements, using the extrusion apparatus to create a singular encasement and to cure the singular encasement to a desired shape of the custom grouped arrangements and integrating one or more encased flexible junction box to the custom grouped arrangements, wherein the one or more flexible junction box contains at least one incoming and two outgoing conduit connections and one or more functional devices. | 08-08-2013 |
20140262472 | INTEGRATED GROUNDED GROMMET - The embodiments disclose an integrated grounded grommet for anchoring a cable using a bulkhead opening, including a customized grommet mechanically bonded onto a cable creating a pressure seal, a customized grommet extended boss insertion guiding feature, a grounding path electrically bonded through the grommet to a cable shield, and a cable protection against EMI/RFI using the grounding path from the cable shield to a bulk head. | 09-18-2014 |