Sail propulsion device for cargo and tanker vessels
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B63B-035/00
B63B-015/00
B63H-009/04
B63B-001/24
B63B-041/00
B63H-025/38
B63B-039/00
B63B-029/02
출원번호
US-0197968
(2014-03-05)
등록번호
US-9120537
(2015-09-01)
발명자
/ 주소
Berte, Frank Joseph
출원인 / 주소
Innovative Marine Technology, Inc.
대리인 / 주소
Nields, Lemack & Frame, LLC
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
The sailing space frame of the present invention is supported by three hulls, a rudder hull a dagger board hull and an outrigger hull. The space frame also includes two mast assemblies, a fore spar, and a crew's quarters. The space frame can couple with a vessel propelled by a fossil fueled engine,
The sailing space frame of the present invention is supported by three hulls, a rudder hull a dagger board hull and an outrigger hull. The space frame also includes two mast assemblies, a fore spar, and a crew's quarters. The space frame can couple with a vessel propelled by a fossil fueled engine, and convert the combined space frame/vessel into an efficient sailing vessel that does not require fossil fuel for the trans-ocean portion of its voyage between ports. The outrigger provides sufficient stability to the sail propelled vessel so that it can carry a large enough sail area to supplant the use of the fossil fueled engine on the open ocean between ports. When entering or leaving a port the vessel uses its own engines for propulsion.
대표청구항▼
1. A sailing space frame adapted to sailing on water in a sailing direction and configured to be coupled to a vessel to be propelled, comprising: a triangular base, a rudder board assembly, a dagger board assembly, a rudder board support structure, a dagger board support structure, an outrigger, at
1. A sailing space frame adapted to sailing on water in a sailing direction and configured to be coupled to a vessel to be propelled, comprising: a triangular base, a rudder board assembly, a dagger board assembly, a rudder board support structure, a dagger board support structure, an outrigger, at least two mast assemblies, a fore beam, an aft beam, central twin beams, a crew's quarters, a solar dome, and a vessel coupling system for coupling the sailing space frame to the vessel to be propelled;wherein said triangular base comprises said fore beam, said aft beam, and said central twin beams, each of which connect the vessel to be propelled to said outrigger, said at least two mast assemblies, said fore spar, said solar dome, and said crew's quarters;wherein each of said at least two mast assemblies comprises a mast core attached to a boom base, a boom, a counterweight, and a trolley translation mechanism, wherein said mast core having a cylindrical axis;wherein said fore soar is attached to said trolley translation mechanism;wherein each of said at least two mast assemblies comprises a mast core attached to a boom base, a boom, and a counterweight, said mast core having a cylindrical axis, wherein each of said counterweights is pivotable about said cylindrical axis to orient each mast core about the cylindrical axis;wherein said rudder board assembly and said dagger board assembly each comprise a rudder hull, a semi ring wing foil, and a central vertical shaft;wherein said rudder board assembly is connected to said central twin beams by the rudder board structure, and said dagger board assembly is connected to said central twin beams through said dagger board support structure, wherein both said rudder board support structure and said dagger board support structure are connected to said central twin beams;wherein said outrigger is attached to said triangular base by an outrigger connection shaft located at an outrigger vertex of said triangular base, said outrigger connection shaft in communication with a motor for elevating said triangular base above said outrigger, said outrigger further comprising a regenerative braking system to generate electricity;whereby said outrigger vertex is connected to said crew's quarters, and said solar dome is positioned on a roof of said crew's quarters;wherein each of said at least two mast assemblies further comprises an aero foil, said aero foil connected to two sail arms for a sail set, said sail arms holding cables attached to roller furling devices for unfurling and furling said sail set, said aero foil further connected to a strut connected to a canard winglet;wherein each counterweight of said at least two mast core assemblies further comprises a counterweight servo to balance each mast assembly relative to said cylindrical axis and to orient said aero foil relative to said cylindrical axis;whereby said sailing space frame may propel said vessel to be propelled without use of fossil fuels, reduces listing due to wind and wave loads, increases vessel leeward resistance, and improves directional control for the vessel to be propelled. 2. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1, wherein said fore beam, said central twin beams, and said aft beam of said triangular base join at said outrigger vertex, where each of said fore beam, said central twin beams, and said aft beam have rails mounted on a top surface, wherein each of said rails are connected to said at least two mast assemblies and said fore spar, wherein said vessel coupling system comprises: two magnetic clamp assemblies positioned on said central twin beams, said magnetic clamp assemblies configured to clamp to said vessel to be propelled:a mechanical coupling mechanism positioned on each of said central twin beams, said fore beam, and aft beam, said mechanical coupling mechanism comprising a hook configured to connect to a corresponding shaft on said vessel to be propelled;wherein said triangular base of said sailing space frame provides a single connection to said outrigger through said outrigger connection shaft, reduces the stresses induced in said sailing space frame, and also reduces stress in said vessel to be propelled. 3. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1, wherein said rudder board assembly and said dagger board assembly each further comprise a central shaft housing for said-central vertical shafts and a hydraulic cylinder, whereby, said hydraulic cylinder are configured to elevate said triangular base of said sailing space frame,whereby, said semi ring wing foils on said rudder board assembly and said dagger board assembly are configured to improve leeward resistance and directional control of the sailing space frame and the vessel to be propelled,wherein, the sailing space frame and vessel to be propelled are coupled in a viable sailing configuration. 4. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1, wherein, said outrigger is connected to said outrigger vertex of said triangular base through said outrigger connection shaft, which in turn is connected to a horizontal shaft which is connected to an outrigger hull of said outrigger, whereby said outrigger hull houses a thruster on each side of said outrigger hull, where each said thruster is connected to a thruster arm,whereby said thrusters are configured to propel and steer said sailing space frame,wherein electric energy generated by said outrigger is used for controlling said sailing space frame, propelling said sailing space frame when not under sail, and for assistance for tacking when said sailing space frame is coupled to said vessel to be propelled. 5. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1 wherein, each aero foil of said at least two mast assemblies surrounds said mast core, wherein said aero foil is connected to a canard winglet support strut, a canard winglet rotation servo, an aero foil rotation gear, an aero foil rotation servo, and an upper swivel coupling said roller furling devices to said aero foil,wherein said counterweight is attached to said aero foil and said counterweight servo comprises a ring gear on said counterweight in communication with a pinion gear and a solenoid on said triangular base, said counterweight servo configured to adjust said sail set to suit wind conditions,whereby said at least two mast assemblies are configured to weathervane when said sailing space frame is not under way, and reduce the energy required to adjust said at least two mast assemblies and said sail sets. 6. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1, wherein said vessel coupling system comprises mechanical coupling components mounted on the vessel to be propelled, and mechanical coupling mechanisms on said central twin beams, said fore beam, and said aft beam, said mechanical coupling mechanisms configured to connect to said mechanical coupling components to couple the vessel to be propelled to said sailing space frame, whereby said vessel coupling system is adjustable so as to accommodate vessels of different beam widths, as well as reduce obstructions on a deck area of said vessel to be propelled. 7. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1, wherein said fore spar is connected to said trolley translation mechanism, said trolley translation mechanism mounted on a rail of said rails on said central twin beams, and said fore soar is further connected to each mast assembly, allowing said sailing space frame and said mast assemblies to convert from a pre-deployed to deployed configuration. 8. The sailing space frame adapted to sailing on water in a sailing direction as claimed in claim 1further comprising a mechanical coupling mechanism, said mechanical coupling mechanism and said magnetic clamping assemblies configured for connection of said sailing space frame to said vessel to be propelled,wherein when said sailing space frame is coupled to said vessel to be propelled, said central twin beams pass through a single wide lane between a plurality of containers across a deck area of said vessel to be propelled, incurring only a small obstruction of the deck area.
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이 특허에 인용된 특허 (6)
Heinrich Bernd (Flat 27 ; 40 Spofforth St. Cremorne ; N.S.W. AUX 2090), Multi-hull steering system.
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