JPWO2020261240A5 - - Google Patents

Claims (15)

A floating region (10) comprising a flexible structure (20) and an upper structure (12), comprising:
Said flexible structure (20) is configured to float on water (100), said flexible structure (20) comprising a plurality of elements, said elements comprising at least one buoy (210) and at least one a mast (230, 312, 314) and at least one ballast weight (220), wherein said at least one ballast weight (220) interacts with said at least one buoy (210) to cause said at least one mast to said at least one buoy (210), said at least one mast (230, 312, 314) and said at least one ballast weight (220) such that (230, 312, 314) are in a substantially vertical orientation; is positioned thereby defining a substantially vertical axis, said element being configured to follow wave motion with sufficient vertical degrees of freedom when positioned on the surface of the water;
Said superstructure (12) is a rigid superstructure (12), said superstructure (12) is directly or indirectly supported in a horizontal plane by said buoy (210) of said flexible structure (20), said A buoy (210) is guided by said at least one mast (230, 312, 314) for movement along said substantially vertical axis, and said buoy (210) is normally not submerged in said water. (210) is adapted to float on each crest of a wave above said water;
The upper structure (12) includes a substantially flat bottom surface (300), a substantially flat top surface (500) and a lightweight structure (400), wherein the substantially flat top surface (500) is capable of human activity. wherein said substantially flat bottom surface (300) is configured to rest on said flexible structure (20), said substantially flat top surface (500) and said substantially flat bottom surface ( 300) are secured together by said lightweight structure (400) so as to stiffen said superstructure (12) sufficiently to form a bridge from one crest to another; is between said substantially planar bottom surface (300) and said substantially planar top surface (500), said substantially planar bottom surface (300) extending from said flexible structure (20) to said upper structure (12) and said superstructure (12) includes a guideway, said guideway configured to slidably receive at least one mast (230, 312, 314). and said at least one mast (230, 312, 314) is guided through said substantially flat bottom surface (300) to access said guideway. In combination with a power generation system (322) that uses the motion of said buoy to power a dynamo or induction coil that generates electricity from wave motion , said power generation system (322) from a power dynamo, an induction coil and a pull generator. A floating region (10) according to claim 1, comprising one from the group of components . Said superstructure (12) comprises one or more facilities (900) for human or other activity, said facilities (900) being above said plane (500) and/or above said plane (500). 3. Floating area (10) according to claim 1 or 2 , located below and wherein said superstructure (12) comprises one or more agricultural surfaces, such as land on which edible plants are grown. Said buoy (210) is optionally prismatic in shape and is made of one material selected from the list of materials consisting of bamboo poles, metal, recycled materials, materials recovered from said water, or any combination of the above materials. Said buoys (210) are prismatic and have a shape whose base is a regular polygon, circle, triangle, square, pentagon or hexagon, and at least one buoy (210) has a dovetail interface (211 ), the adjacent buoys including grooves for sliding attachment of the dovetail to adjacent buoys (210), the attached buoys (210) being configured to move up and down relative to each other, said flexible Floating area (10) according to any one of the preceding claims , wherein the structure (20) is enabled to follow up and down movements of waves of said water (100) . Floating area according to claim 4 , further comprising a plurality of said buoys (210) comprising at least one mast (230), wherein said bottom surface (300) of said superstructure (12) has at least one guide hole ( 310), wherein said at least one mast (230) is adapted to slidably fit into said guide hole (310) to ensure controlled vertical movement, and said support for said rigid superstructure (10). configured to prevent horizontal displacement of the flexible structure (20), at least one buoy (210) comprising a guide hole (232), said bottom surface (300) of said superstructure (12) having said guide hole; (232) and configured to ensure controlled vertical movement and prevent horizontal displacement of said flexible structure (20) relative to said rigid superstructure (12). An energy generation system (322) is connected to said buoy (210), comprising a mast (312), for generating energy from said vertical movement of said buoy, said energy being directed to one or more of said floating regions (10). A floating area that powers the facility (900), said energy being electrical and/or mechanical energy . Said bottom surface (300) or said top surface (500) or said lightweight structure (400) is selected from the group of materials consisting of bamboo poles, metal, reclaimed materials, materials recovered from said water, or any combination of the above materials. 6. The floating region (10) according to any one of claims 1 or 5 , made of a sintered material. One or more ballast weights (220) are structurally fixed to at least one of said one or more buoys (210), said ballast weights (220) ensuring a substantially vertical orientation of said buoys (210). wherein said one or more ballast weights (220) are structurally secured to said at least one of said one or more buoys (210) below and/or within said buoy (210); A floating area (1) according to any preceding claim, wherein one or more of said one or more ballast weights (220) is shaped to act as a rudder to maneuver said floating area. 10). Said floating area is moved by a motor (555) located on or below said buoy ( 210) and said floating area (10) is moved by a motor (667) directly attached to said superstructure (20). A floating region (10) according to any one of claims 1 or 6 . said motors (555, 667) are used to propel said floating area (10) so as to compensate for ocean currents and/or winds and ensure permanent geo-localization of said floating area (10); Floating area (10) according to claim 8 , referencing a GPS or similar localization system , the GPS system (669) providing input to a propulsion system (555, 667) controlling the position of the floating area. . The floating region comprises a weight (600) and a support (650), the weight (600) attached to the superstructure (12) via the support (650), the weight (600) Floating region (10) according to any one of the preceding claims, arranged at a sufficient depth so as not to follow tides or ocean currents in order to fix the position of the region ( 10 ). Said floating area (10) includes posts (750) which are attached to said superstructure (12) so as to provide limited horizontal freedom of movement and substantially vertical freedom of movement. Mounted, said near vertical freedom of movement allows said superstructure (12) to follow waves and tides, while said post (750) is fixed to the ground (700) or floats essentially neutrally. so that anchoring to the ground is not necessarily required, and the energy generation system (322) harvests energy from relative movement between at least one post (750) and said superstructure (12). , connected to said pillars (750) and said superstructure (12), said energy powering one or more installations (900) of said floating area (10), said energy being electrical energy and/or Floating region (10) according to any one of claims 1 to 10 , which is mechanical energy . Said superstructure (12) consists of a modular section (320) connected to at least one other modular section (320), said modular section (320) from one or all of its adjacent modular sections (320). A modular section (320), or group of modular sections (320) configured to disassemble to allow maintenance of said floating structure (20), a buoy (210), or buoy (210) 12. The modular section (320) is disassembled or removed to allow free access to the buoy (210). floating region (10). A flexible structure (20) constraining at least two buoys (210), each including a dovetail interface (211) for sliding attachment of said dovetail to an adjacent buoy (210). The buoys (210), comprising grooves, are adapted to move up and down relative to each other, allowing said flexible structure (20) to follow the up and down motion of the waves of said water (100). Said buoy (210) is prism-shaped and the floating area (10) whose base has a regular polygonal, circular, triangular, square, pentagonal or hexagonal cross-section . 14. The floating area (10) of claim 13 , comprising a rigid superstructure (12), comprising:
Said superstructure (12) is directly or indirectly supported in a horizontal plane by said buoy (210) of said flexible structure (20), said buoy (210) adapted to float in water, optionally said Adapted to float on each crest of a wave on the water,
The upper structure (12) includes a substantially flat bottom surface (300), a substantially flat top surface (500) and a lightweight structure (400), wherein the substantially flat top surface (500) is capable of human activity. said substantially flat bottom surface (300) is configured to rest on said flexible structure (20), said substantially flat top surface (500) and said substantially flat bottom surface (300 ) are secured together by said lightweight structure (400) so as to stiffen said superstructure (12) sufficiently to form a bridge from one crest to another crest, said lightweight structure (400) , between said substantially planar bottom surface (300) and said substantially planar top surface (500), said substantially planar bottom surface (300) extending from said flexible structure (20) to said upper structure (12). A floating area that provides sufficient support to transfer lift. A floating region (10) comprising a flexible structure (20) and an upper structure (12), comprising:
Said flexible structure (20) is configured to float on water (100), said flexible structure (20) comprising a plurality of elements, said elements comprising at least one buoy (210), said elements adjoins adjacent elements and is loosely coupled to each other such that, when placed on the surface of the water, sufficient vertical degrees of freedom allow it to follow the movement of waves, said superstructure (12) said flexible directly or indirectly supported in a horizontal plane by said buoys (210) of said structure (20), said buoys (210) being adapted to float in water, optionally on respective crests of waves above said water. adapted to float on
The upper structure (12) includes a substantially flat bottom surface (300), a substantially flat top surface (500) and a lightweight structure (400), wherein the substantially flat top surface (500) is capable of human activity. said substantially flat bottom surface (300) is configured to rest on said flexible structure (20), said substantially flat top surface (500) and said substantially flat bottom surface (300 ) are secured together by said lightweight structure (400) so as to stiffen said superstructure (12) sufficiently to form a bridge from one crest to another crest, said lightweight structure (400) , between said substantially planar bottom surface (300) and said substantially planar top surface (500), said substantially planar bottom surface (300) extending from said flexible structure (20) to said upper structure (12). A floating area that provides sufficient support to transfer lift.