A trolling motor assembly having improved shock absorption is provided. The trolling motor assembly includes a trolling motor, a first member, a second member, an actuator that is configured to be activated to cause the trolling motor to move between a first position and a second position, and a compliant member connected to the actuator. When the trolling motor is in a first position, the first member dampens shock loading at the actuator or transfers shock loading to a first shock absorber to dampen shock loading. When the trolling motor is in a second position, the second member dampens shock loading at the actuator or transfers shock loading to at least one of the first shock absorber or a second shock absorber to dampen shock loading. The compliant member dampens shock loading to protect the actuator from shock loading as the trolling motor moves between the first and second position.

A V-hull boat design having the engine placed forward of the longitudinal centerline offers advantages over traditional boat designs. The engine is placed forward of the longitudinal centerline of the boat and under the walking deck within the passenger cabin such that it does not interfere with the placement of passenger seating within the boat. Placement of the engine in a position forward of the longitudinal centerline of the boat moves the center of gravity of the boat forward compared with traditional I/O, V drives, and direct drives. By placing the engine forward of the longitudinal centerline, in a location that is generally not utilized in the hull of the boat, substantial passenger and cargo room is preserved in the aft half of the boat. Bow rise during acceleration is reduced; ride comfort is improved through chop or waves; and wake performance behind the boat is improved.

A V-hull boat design having the engine placed forward of the longitudinal centerline offers advantages over traditional boat designs. The engine is placed forward of the longitudinal centerline of the boat and under the walking deck within the passenger cabin such that it does not interfere with the placement of passenger seating within the boat. Placement of the engine in a position forward of the longitudinal centerline of the boat moves the center of gravity of the boat forward compared with traditional I/O, V drives, and direct drives. By placing the engine forward of the longitudinal centerline, in a location that is generally not utilized in the hull of the boat, substantial passenger and cargo room is preserved in the aft half of the boat. Bow rise during acceleration is reduced; ride comfort is improved through chop or waves; and wake performance behind the boat is improved.

This invention is for an actuator position sensing system that combines electronic and mechanical features in such a manner that are conducive to marine applications where the actuator and the sensing device are subject to submersion in water. Separating the mechanical and electronic aspects of the device into two sub-components, one being purely mechanical and the other being a converter of mechanical movement to electronic signals, the system allows for the purely mechanical portion to be attached to the actuator that operates under water, while the electronic portion remains in a relatively dry environment, usually within the confines of a vessel. The target application for the invention is for the trim/tilt position indication and trim limiting function of the outdrive unit of a vessel propulsion system known as an inboard/outboard motor.

A stowable propulsion device for a marine vessel having a deck. A base is configured to be coupled to the marine vessel below the deck. A propulsor is configured to propel the marine vessel in water. An arm couples the propulsor to the base such that moving the arm moves the propulsor into and between a stowed position located proximate to the marine vessel and a deployed position located relatively distal from the marine vessel as compared to the stowed position, and such that moving the arm rotates the propulsor about the arm. An actuator comprises a first link movably coupled to the base and a second link that movably couples the first link to the arm. An actuator moves the actuator linkage to thereby move the propulsor into and between the stowed position and the deployed position.

A stowable propulsion device for a marine vessel having a deck. A base is configured to be coupled to the marine vessel below the deck. A propulsor is configured to propel the marine vessel in water. An arm couples the propulsor to the base such that moving the arm moves the propulsor into and between a stowed position located proximate to the marine vessel and a deployed position located relatively distal from the marine vessel as compared to the stowed position, and such that moving the arm rotates the propulsor about the arm. An actuator comprises a first link movably coupled to the base and a second link that movably couples the first link to the arm. An actuator moves the actuator linkage to thereby move the propulsor into and between the stowed position and the deployed position.

An arrangement and a method for installing a propulsion unit to a hull of a ship. The propulsion unit comprises an upper part of the propulsion unit attachable to the hull of the ship and a lower part of the propulsion unit where to a propeller shaft is rotatably supported, and the upper part of the propulsion unit having flanges to attach the flanges tightly to the hull, and wherein there is an aperture in the bottom of the hull where to the propulsion unit is to be installed. The arrangement comprises a plurality of watertight covers covering openings in the bottom of the hull and a plurality of watertight covers covering openings in the top of the upper part of the propulsion unit, wherein the arrangement comprises a removable hull-side cover covering at least the opening under it, and at least one removable propulsion unit side cover covering the opening under it and facing the opening, and the removable covers are bolted from the hull-side.

An arrangement and a method for installing a propulsion unit to a hull of a ship. The propulsion unit comprises an upper part of the propulsion unit attachable to the hull of the ship and a lower part of the propulsion unit where to a propeller shaft is rotatably supported, and the upper part of the propulsion unit having flanges to attach the flanges tightly to the hull, and wherein there is an aperture in the bottom of the hull where to the propulsion unit is to be installed. The arrangement comprises a plurality of watertight covers covering openings in the bottom of the hull and a plurality of watertight covers covering openings in the top of the upper part of the propulsion unit, wherein the arrangement comprises a removable hull-side cover covering at least the opening under it, and at least one removable propulsion unit side cover covering the opening under it and facing the opening, and the removable covers are bolted from the hull-side.

A method for replacing a battery and a watercraft including a hull; a deck; an electric propulsion system including: a battery disposed in a rear portion of the watercraft, and an electric motor electrically connected the battery; an opening defined at least in part by at least one of the hull and the deck, the opening providing access to a space between the hull and the deck, the opening being sized to permit the passage of the battery therethrough; and a rear module selectively connected to at least one of the hull and the deck, the rear module selectively closing the opening, the rear module, the battery, the deck, and the hull being arranged such that the battery is selectively removable through the opening when the rear module is removed from the watercraft.

A method for replacing a battery and a watercraft including a hull; a deck; an electric propulsion system including: a battery disposed in a rear portion of the watercraft, and an electric motor electrically connected the battery; an opening defined at least in part by at least one of the hull and the deck, the opening providing access to a space between the hull and the deck, the opening being sized to permit the passage of the battery therethrough; and a rear module selectively connected to at least one of the hull and the deck, the rear module selectively closing the opening, the rear module, the battery, the deck, and the hull being arranged such that the battery is selectively removable through the opening when the rear module is removed from the watercraft.