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762results about "Steering by propulsive elements" patented technology

Portable dynamic positioning system with self-contained electric thrusters

The system is an integrated and self contained electric thruster system integral with a dynamic positioning control system for dynamic positioning of any waterborne vessel having a hull with at least two sides and a deck connecting the sides, at least two azimuthing thrusters, each removably mounted to the vessel, at least two self-contained electric power units removably secured to the deck, one for each thruster, at least one dynamic positioning computer connected to each of the self contained electric power units, at least one motion reference sensor connected to the dynamic positioning computer to correct reference position signals for motion of the vessel, at least one heading sensor, and at least one sensor that is either a position reference sensor connected to the dynamic positioning computer, environmental sensors connected to the dynamic positioning computer, or a combination thereof.
Owner:BEKKER JOANNES RAYMOND MARI

Marine vessel running controlling apparatus, marine vessel maneuvering supporting system and marine vessel each including the marine vessel running controlling apparatus, and marine vessel running controlling method

A marine vessel running controlling apparatus controls running of a marine vessel and includes a pair of propulsion systems which respectively generate propulsive forces on a rear port side and a rear starboard side of a hull, and a pair of steering mechanisms which respectively change steering angles defined by directions of the propulsive forces with respect to the hull. The apparatus includes a target combined propulsive force acquiring section, a target movement angle acquiring section, a steering controlling section which controls the steering angles of the respective steering mechanisms such that a turning angular speed of the hull is substantially equal to a predetermined target angular speed, a target propulsive force calculating section which calculates target propulsive forces to be generated from the respective propulsion systems based on the target combined propulsive force, the target movement angle and the steering angles of the respective steering mechanisms, and a propulsive force controlling section which controls the respective propulsion systems so as to attain the target propulsive forces.
Owner:YAMAHA MOTOR CO LTD

Propelling and driving system for boats

A propelling and driving system for boats having an outboard rudder propeller. The system provides the boat with reliable and comparatively good maneuverability. The system comprises at least two rudder propellers, each having driving motors configured in the form of a permanent magnet-excited synchronous machine. The stator winding of each synchronous machine has three winding phases connected to a three-phase alternating current, which are connected to the supply system of the boat. A modular controlling and regulating device comprising standardized modules is provided for each of the rudder propellers.
Owner:SIEMENS AG

System for sensing riser motion

A riser monitoring assembly is provided to monitor and manage a riser extending between subsea well equipment and a floating vessel. A riser measurement instrument module is connected adjacent a selected portion of the riser provides dynamic orientation data for the selected portion of the riser. A computer having a memory associated therewith and riser system analyzing management software stored thereon is in communication with the riser measurement module to process data received therefrom. The riser monitoring assembly can utilize real-time orientation data for the selected portion of the riser to analyze the riser dynamic behavior, to determine a model of the real-time structure of the riser, to determine and manage the existence of vortex induced vibration, to determine and manage riser stress levels, to manage riser inspection and riser maintenance, and to supplement determination and management of the position of the vessel.
Owner:VETCO GRAY

Wake control device for boat

A wake control device for a boat, including a mounting member pivotally securable to the boat aft for pivoting about a first axis substantially transverse to the boat aft, a rudder member secured to the mounting member for pivoting about a second axis substantially perpendicular to the first axis, a drive selectively controlling the pivotal position of the mounting member about the first axis, and a fin extending laterally relative to the rudder member. Such a wake control device, with or without pivoting about the second axis, may also be secured directly to an outboard drive as well. A control manually operable by a wake boarder while being towed remotely controls the pivotal position controlling drive.
Owner:MODINE MFG CO +1

Power generation plant ship

A power generation plant ship (1) of the present invention having a body (2) with a propulsion mechanism (7) includes a solar power generation system (3), a wind power generation system (4) for obtaining electric energy by driving a generator by rotating a windmill (4a) by receiving wind power, and a storage battery (6) for storing the electric energy generated by the respective power generation systems (3, 4).
Owner:TANAKA EITARO

Marine vessel maneuvering supporting apparatus, marine vessel including the marine vessel maneuvering supporting apparatus, and marine vessel maneuvering supporting method

InactiveUS20070017426A1Facilitate stationary marine vessel maneuvering operationEasy to operateAuxillariesOutboard propulsion unitsLocation detectionSteering angle
A marine vessel maneuvering supporting apparatus performs a stationary marine vessel maneuvering support operation, the marine vessel including a pair of propulsion systems which respectively generate propulsive forces on a rear port side and a rear starboard side of a hull, and a pair of steering mechanisms which respectively change steering angles. The apparatus includes a position detecting section which detects a position of the marine vessel, a marine vessel maneuvering support starting command section, a marine vessel maneuvering support starting position storing section, a steering controlling section which controls the steering angles of the respective steering mechanisms such that the marine vessel has a turning angular speed of zero in response to the marine vessel maneuvering support starting command, a target propulsive force calculating section which calculates target propulsive forces to be generated from the respective propulsion systems, such that at least one of x- and y-coordinates of the current marine vessel position is maintained substantially equal to a corresponding one of x- and y-coordinates of the marine vessel maneuvering support starting position, and a propulsive force controlling section which controls the propulsion systems to attain the target propulsive forces.
Owner:YAMAHA MOTOR CO LTD

Wind Power System

A system for capturing and converting and / or storing wind energy includes a vessel adapted to receive at least one wind machine for capturing wind and a device for converting wind energy to storable energy. A method of adapting a vessel, such as a surplus cargo ship or an oil tanker, for use as a offshore power generating system comprises equipping a vessel with devices for capturing a renewable energy source, positioning the vessel at sea to capture the renewable energy source, converting the renewable energy to a storable energy source, and storing the converted energy, and repositioning the vessel to capture further renewable energy or transport the stored, converted energy.
Owner:POLESTAR LTD LLC

Marine vessel running controlling apparatus, marine vessel maneuvering supporting system and marine vessel each including the marine vessel running controlling apparatus, and marine vessel running controlling method

A marine vessel running controlling apparatus controls running of a marine vessel and includes a pair of propulsion systems which respectively generate propulsive forces on a rear port side and a rear starboard side of a hull, and a pair of steering mechanisms which respectively change steering angles defined by directions of the propulsive forces with respect to the hull. The apparatus includes a target combined propulsive force acquiring section, a target movement angle acquiring section, a steering controlling section which controls the steering angles of the respective steering mechanisms such that a turning angular speed of the hull is substantially equal to a predetermined target angular speed, a target propulsive force calculating section which calculates target propulsive forces to be generated from the respective propulsion systems based on the target combined propulsive force, the target movement angle and the steering angles of the respective steering mechanisms, and a propulsive force controlling section which controls the respective propulsion systems so as to attain the target propulsive forces.
Owner:YAMAHA MOTOR CO LTD

Method for braking a vessel with two marine propulsion devices

A method for controlling the movement of a marine vessel comprises steps that rotate two marine propulsion devices about their respective axes in order to increase the hydrodynamic resistance of the marine propulsion devices as they move through the water with the marine vessel. This increased resistance exerts a braking thrust on the marine vessel. Various techniques and procedures can be used to determine the absolute magnitudes of the angular magnitudes by which the marine propulsion devices are rotated.
Owner:BRUNSWICK CORPORATION

System and method for dynamic stabilization and navigation in high sea states

A system is disclosed for dynamically stabilizing a ship in high sea states. A six degree-of-freedom robotic arm is attached to the ship, and a thruster is located at the distal end of the manipulator. The manipulator is be used to orient the thruster to counteract wave forces that act against the ship's hull in real time. This active balancing technique can be used to keep the ship substantially erect in rough seas by making continual corrections to the ship's body attitude. The center of gravity and the center of buoyancy of the ship are utilized, along with a precisely oriented and controlled thrust at the end of the manipulator, to optimally control the ship's state against impending waves.
Owner:LOCKHEED MARTIN CORP

Watercraft docking system and propulsion assembly

An improved docking system for a watercraft and a propulsion assembly therefor wherein the docking system comprises a plurality of the propulsion assemblies and wherein each propulsion assembly includes a motor and propeller assembly provided on the distal end of a steering column and each of the propulsion assemblies is attachable in an operating position such that the motor and propeller assembly thereof will extend into the water and can be turned for steering the watercraft.
Owner:BRUNSWICK CORPORATION

Method and system for steering watercraft

A method of steering a watercraft propulsion device mounted to a transom plate and having a steering drive unit which allows the watercraft propulsion device to rotationally move about a swivel shaft. The method can include calculating a steering control amount for the steering drive unit in accordance with the degree of operator's steering wheel displacement and a predetermined steering system response performance, and operating the steering drive unit based on the calculated control physical quantity, in which the predetermined steering system response performance can be selected from a plurality of plurality of predetermined steering system response performance options.
Owner:YAMAHA MARINE KK

System and method for controlling a waterjet driven vessel

A method for controlling a marine vessel having first and second steering nozzles and first and second trim deflectors comprises generating at least a first set of actuator control signals and a second set of actuator control signals. The first set of actuator control signals is coupled to and controls the first and second steering nozzles, and the second set of actuator control signals is coupled to and controls the first and second trim deflectors. The acts of generating and coupling the first set of actuator control signals and the second set of actuator control signals result in inducing any of a net yawing force, a net rolling force, and a net trimming force to the marine vessel without inducing any other substantial forces to the marine vessel by controlling the first and second steering nozzles and the first and second trim deflectors. Also disclosed is a system for controlling a marine vessel.
Owner:MORVILLO ROBERT A

Marine vessel propulsion structure and marine vessel driving apparatus

In an outboard drive or an inboard-outboard drive, power generated by a single engine is transmitted in left and right directions from a main drive shaft, thereby finally causing left and right propellers to be rotated, the left and right propellers being arranged about the main drive shaft so as to be spaced apart from the main drive shaft at approximately equal distances from the main drive shaft and facing a travel direction of a marine vessel, the outboard drive or inboard-outboard drive being provided with left and right shift cam assemblies for causing rotation situations of the propellers to be controlled dependently from each other, the rotation situations including normal rotation, reverse rotation and non-rotation situations of the propellers.
Owner:ARK SYST CORP

Watercraft with control system for controlling wake and method for controlling wake

A watercraft with a control system includes at least two propulsion units carried by a hull of the watercraft. Each propulsion unit is independently turnable. The watercraft includes a control system arranged to control orientation of the propulsion units. The control system includes a first control mode in which turning of two of the propulsion units is limited to turning through less than an entire range of motion of the two propulsion units, in equal amounts, and in opposite directions relative to a longitudinal centerline of the watercraft.
Owner:VOLVO PENTA AB

Electric steering apparatus for watercraft

An electric steering apparatus can include a rudder device driven by an electric motor, a steering wheel for operation by an operator to control the angle of the rudder device, a reaction torque motor for applying a reaction force to the steering wheel, a load sensor for detecting an external force acting on a boat or the rudder during steering, and a reaction torque calculator circuit for calculating a target torque for the reaction motor according to an input of the load sensor.
Owner:YAMAHA MARINE KK

Propulsion System for an Autonomous Underwater Vehicle

An underwater vehicle is provided to move in various orientations and directions, including pitch, yaw, roll, heave, surge and sway. The underwater vehicle comprises an upper body and a lower body, wherein both bodies are separated by two rudders. One rudder is positioned towards the fore of the underwater vehicle, while the other is positioned towards the aft. Each rudder forms the basis of a propulsion system, such that the underwater vehicle has at least two independently controlled propulsion systems. Each propulsion system further comprises an elevator extending horizontally from the sides of each rudder and a thrust generator attached to the elevator. The elevator and thrust generator are able to pitch about an axis extending horizontally through the sides of the rudder, and the rudder is able to yaw about an axis extending vertically through the top and bottom of said rudder.
Owner:NAT RES COUNCIL OF CANADA

Dynamic Positioning Architecture

The present invention provides an improved architecture for integrating an inertial navigation system (INS) into a dynamic positioning (DP) system for a vessel. The architecture includes an INS unit and a DP system having a Kalman filter or other algorithm for combining data supplied by a plurality of position measuring equipment (PME) and the INS unit to derive an estimate of the position or speed of the vessel. A switch array and a switch array controller are also provided. These may optionally form a part of the DP system. The switch array is operable under the control of the switch array controller to supply data supplied by one or more of the plurality of position measuring equipment to the INS unit for the purposes of correcting drift. The selection of which of the one or more PME is / are to be combined with the INS unit is made automatically, in real time, to dynamically optimise the DP system.
Owner:IXSEA +1

Stable offshore floating depot

ActiveUS8662000B2Exceptional heave damping characteristicsSteering by propulsive elementsAircraft carriersMachine shopMarine engineering
An offshore depot having a vertically symmetric hull, an upper inwardly-tapered wall and a lower outwardly-tapered wall that produce significant heave damping in response to heavy wave action. Ballast is added to the lower and outermost portions of the hull to lower the center of gravity below the center of buoyancy. The offshore depot includes a tunnel formed within or through the hull at the waterline that provides a sheltered area inside the hull for safe and easy launching / docking of boats and embarkation / debarkation of personnel. When the watertight tunnel doors are all shut, the tunnel may be drained to create a dry dock environment within the hull. The offshore depot includes berthing and dinning accommodations, medical facilities, workshops, machine shops, a heliport, and the like.
Owner:JURONG SHIPYARD

Steering system for boat

A steering system for a boat can include a main switch for turning power on and off, an emergency stop switch for stopping an engine, a steering wheel for operation by an operator, a steering wheel displacement sensor for detecting the operator's displacement of the steering wheel, a rudder device with an electric actuator for providing a force to move a rudder about a rotational shaft according to the detected steering wheel displacement, and a controller for outputting a signal to drive the electric actuator according to the detected steering wheel displacement. The controller can drive the electric actuator of the rudder device to return the rudder to its center position when the engine is stopped by the main switch or an auxiliary stop switch.
Owner:YAMAHA MARINE KK

Ship and Method for Conveying and Setting Up Offshore Structures

A ship according to the invention for conveying and setting up offshore structures having:a hull with a U-shaped cross-section having an open stern and projections of the side walls extending at the rear beyond the rear edge of the floor,jack-up leg systems with jack-up legs integrated in the hull that are movable in a vertical direction with their bottom ends in positions below the floor, anda crane that can move on the top edges of the side walls.
Owner:NORDIC YARDS HLDG

Evasive autopilot system for vessels

The present disclosure relates to an autopilot device (2) which actuates, at least, on the course controls (3) of the bearing vessel (6), and which comprises an electronic evasion module (4) capable of generating evasive manoeuvre orders for the autopilot device (2) in the event of taking a collision course; as well as a radar (7) connected to said an electronic evasion module (4) in order to detect the existence of obstacles (5, 5′) which generate collision courses, as well as comprising a laser telemeter (16) and an AIS system (17), to support the radar (7), and means of detecting (18) the turning degrees of the steering wheel, as well as sensors (19) that measure the revolutions of the engine.
Owner:BENDITO VALLORI JUAN MARIANO

Outboard motor control system

In an outboard motor control system having two outboard motors each mounted on a stern of a boat, there is provided a controller that controls operation of steering actuators to regulate steering angles of the outboard motors such that lines extending from axes of rotation of the propellers of the outboard motors intersect at a desired point. With this, it becomes possible to freely adjust the stream confluence point of the outboard motors, thereby improving boat driving stability and providing enhanced auto-spanker performance.
Owner:HONDA MOTOR CO LTD

Vessel steering apparatus

For a vessel steering apparatus for performing a movement control to move a vessel to a target position on the basis of a signal of a GPS apparatus, a movement control stop area, a buffer area adjacent to the movement control stop area, and a movement-controlling area adjacent to the buffer area are set on the basis of the distance from the target position, wherein in the movement control stop area, thrust generation by a propulsion apparatus is stopped; in the movement-controlling area, thrust is generated by the propulsion apparatus; and in the buffer area, thrust is generated by the propulsion apparatus of the vessel for movement control only in the case where the vessel moves from the movement-controlling area to the buffer area, then stays in the buffer area, and moves in a direction away from the target position.
Owner:YANMAR POWER TECHNOLOGY CO LTD

Counter-porpoising watercraft attitude control system

A watercraft attitude control system using GPS and other motion inputs in order to predictively control thrust, steering and hull characteristics in ways that will prevent and minimize porpoising motion of a watercraft.
Owner:ENOVATION CONTROLS

Method and system for maneuvering aquatic vessels

An aquatic vessel (500) includes a hull (20) and two engines (30, 50), the engine (30, 50) outputs being rotationally couplable to corresponding propeller units (332, 352) which are mounted so as to be angularly moveable in respect of the hull (20). The vessel (500) includes a control unit (70) for controlling operation of the engines (30, 50) and angles (α1, α2) of the propeller units (332, 352) with respect to the hull (20). The vessel (500) is configurable to operate in a first mode wherein directions of thrust developed by the propeller units (332, 352) are mutually substantially parallel for propelling the vessel (500) through water, and a second “fishing” mode of operation wherein the directions of thrust developed by the propeller units (332, 352) are configured to mutually diverge with respect to a longitudinal axis from a rear end of the vessel (500) to a forward end thereof for providing the vessel (500) with a turning characteristic (160) in operation. The control unit (70) is configured to receive in operation user-instructions for commanding the control unit (70) to operate in the second mode for causing the propeller units (3320, 352) to be angularly orientated in a divergent manner in respect of the longitudinal direction. The control unit (70) controls rotation of the vessel (500) by controlling power coupled from the two engines (30, 50) and delivered to their propeller units (332, 352) and forward / reverse coupling of the propeller units (332, 352).
Owner:VOLVO PENTA AB

Dynamic positioning of marine vessels

Dynamic positioning of a vessel 10 connected to the seafloor 14 by a riser 12 utilises a measurement of riser 12 bottom angle combined with a measurement of vessel 10 velocity, optionally obtained from a Doppler log 16. These two signals are combined to produce a single position estimate using an algorithm such as a Kalman filter. Using riser bottom angle only would result in an unstable control system, since the bottom angle lags the vessel motion by a considerable amount and the relationship is non-linear. Using the velocity measurement alone would result in a slow drift of position. The combination of the two eliminates the disadvantages of the individual measurements.
Owner:GE POWER CONVERSION
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