JP2022183146A - Floating device or mega-float floating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a floating device or a mega-float floating device next to an adjacent floating body firstly and to provide a chain floating device or mega-float floating device connected with the floating device or the mega-float floating device by chain secondly.

SOLUTION: A floating device or a mega-float floating device of the invention comprises a floating member or a mega-float floating member including: a lower contact part having an adjacent floating member with a certain depth from a water level while contacting a lateral surface of the adjacent floating member at a same or deeper depth of that of the adjacent floating member; and an upper floating part having a film floating body or a mega-float floating body on a front surface or back surface, or on the front surface and the back surface.

SELECTED DRAWING: None

COPYRIGHT: (C)2023,JPO&INPIT

Description

SUMMARY OF THE INVENTION An object of the present invention is to provide a floating device or a mega-float floating device.

The conventional floating body device or mega-float floating body device has a problem of countermeasures against rolling. (JP S53-115534, etc.)

The present applicant has already proposed a circular fishery floating island (Patent No. 5969565) and a deep water temperature difference power generation circular device (Patent No. 6318328).

JP S53-115534 Patent No. 5969565 Patent No. 6318328

A first object of the present invention is to provide a floating body device or a mega-float floating body device that is adjacent to adjacent floating body members and moves only in the vertical direction along the adjacent floating body members even if a constant weight load is carried. be.
A second object of the present invention is to provide a chain-shaped floating body device or chain-shaped mega-float floating body device in which the floating body device or mega-float floating body device is connected by a chain.

The floating body device or mega-float floating body device of the present invention comprises an adjacent floating body member or a mega-float adjacent floating body member having a certain depth from the water surface, and the same degree of contact with the side surface of the adjacent floating body member or mega-float adjacent floating body device. or a deeper bottom contact part and an upper floating body part or mega-float upper floating body part with a floating body embedded in the back surface, and the adjacent floating body member or mega-float adjacent floating body device even if a constant weight load is mounted. It is characterized by comprising a floating member or a mega-float floating member that only moves up and down along the .
In the chain-shaped floating body device or the chain-shaped mega-float floating body device of the present invention, the positions of the upper floating body part or the mega-float upper floating body part of the floating body member are alternately changed so that the width of the upper floating body part or the mega-float upper floating body part is shorter than the width of the upper floating body part or the mega-float upper floating body part. (2) fixing a plurality of said adjacent floating body members or mega-float adjacent floating body members with a fixing member and connecting said adjacent floating body members or mega-float adjacent floating body members to provide said chain-shaped floating body members or mega-float floating body members; characterized by
The floating body device or mega-float floating body device according to claim 1 comprises an adjacent floating body member or mega-float adjacent floating body member having a predetermined height from the water surface and a certain depth from the water surface, and the adjacent floating body member or mega-float An upper floating body part or a megafloat upper floating body part having a lower contact part of the same depth or greater depth that contacts the inner side surface or the outer side surface of an adjacent floating body member and having a back floating body or a megafloat back floating body Equipped with a floating body member or mega-float floating body member that moves vertically along the side surface of the adjacent floating body member or mega-float adjacent floating body member and does not sway even when a constant weight load is mounted on the contact part. characterized by
The floating body device or mega-float floating body device according to claim 2 comprises a cylindrical adjacent floating body member or a mega-float cylindrical adjacent floating body member having a predetermined height from the water surface and a constant depth from the water surface, and Adjacent cylindrical floating body member or mega float A cylindrical lower contact portion penetrating with the inner side surface of the adjacent cylindrical floating member and having a similar depth or a greater depth is provided, and a back surface floating body or mega float is provided in the cylindrical lower contact portion. A floating body member or mega-float floating body member that has an upper floating body part or a mega-float upper floating body part that incorporates a floating body on the back of the float and penetrates through the tubular interior of the adjacent cylindrical floating body member or mega-float adjacent cylindrical floating body member. Characterized by
The floating body device according to claim 3 is the floating body device according to claim 2, wherein the floating member is an offshore wind power generation member or an offshore floating house.
The mega-float floating body device according to claim 4, wherein the mega-float tubular-shaped adjacent floating-body member is a large-sized mega-float adjacent floating-body member having a large-sized inner cylinder and an external aeronautical facility, and the mega-float floating-body member is an offshore airfield. 3. The mega-float floating body device according to claim 2, which is a mega-float floating body member.
The floating body device or mega-float floating body device according to claim 5 has an air layer of 5 meters or more (preferably 15 meters) above the water surface, has a predetermined height above the water surface, and has a certain weight at the bottom. and having an adjacent floating body member or mega-float adjacent floating body member having a cylinder that connects a chain with a certain depth from the water surface, and the same depth that contacts the outer side surface of the adjacent floating body member or mega-float adjacent floating body member, or It has a lower contact portion with a greater depth and an upper floating body portion or megafloat upper floating body portion having a predetermined width or mega-float width and a predetermined length, wherein the tube of the adjacent floating body member and the tip of the upper floating body portion are connected. It is characterized by comprising a floating body member or a mega-float floating body member connected by a chain.
The chain-shaped floating body device or the chain-shaped mega-float chain-shaped floating body device according to claim 6 has an air layer with a height of 5 meters or more (preferably 15 meters) above the water surface, a predetermined height from the water surface, and a bottom adjacent floating body members or mega-float adjacent floating body members having a tube connecting the chain with a constant weight and a constant depth from the water surface and the same degree of contact with the outer side surface of the adjacent floating body member or mega-float adjacent floating body member With a lower contact portion of depth or greater depth and an upper floating body portion or megafloat upper floating body portion having a predetermined width or megafloat width and a predetermined length, the tube of the adjacent floating body member and the upper floating body portion A floating body member or mega-float floating body member having a tip end connected by a chain is provided, and the height above the water surface of the upper floating body part or the mega-float upper floating body part is shorter than the width of the upper floating body part or the mega-float upper floating body part. A chain-shaped floating body member or a chain-shaped mega-float floating body member, in which a plurality of adjacent floating body members or mega-float cylindrical adjacent floating body members are fixed by a fixing member, the length of which is changed alternately is provided.
The floating body device or mega-float floating body device according to claim 7 has an air layer with a height of 5 meters or more (preferably 15 meters) above the sea surface, a predetermined height above the water surface, and a fixed weight of seawater at the bottom. an adjacent floating body member or a mega-float adjacent floating body member having a cylinder that connects a chain with a certain depth from the water surface, and a similar depth that contacts the outer side surface of the adjacent floating body member or mega-float adjacent floating body member or having a lower vertical bottom contacting portion of a predetermined width at a greater depth and an upper floating body portion having a predetermined width or megafloat width and a predetermined length. A floating body member or a mega-float floating body member having a chain connected to the tip of the floating body is provided.
The chain-shaped floating body device or chain-shaped mega-float floating body device according to claim 8 has an air layer of 5 meters or more (preferably 15 meters) above the sea surface, has a predetermined height above the water surface, and has a certain weight. of seawater, a certain depth from the surface of the water, and the same depth of contact with the adjacent floating body member or mega-float adjacent floating body member having a tube connected to the chain and the outer side surface of the adjacent floating body member or mega-float adjacent floating body member or having a lower vertical bottom contacting portion of a predetermined width at a greater depth and an upper floating body portion having a predetermined width or a megafloat width and a predetermined length. A floating body member or a mega-float floating body member is connected to the tip of the upper floating body part mega-float by a chain, and the position of the lower vertical bottom contact part of the floating body member or the mega-float floating body member is alternately changed so that the above-mentioned It is characterized by comprising a chain-shaped floating body member or a chain-shaped mega-float floating body member in which a plurality of said adjacent floating body members or mega-float adjacent floating body members are fixed by fixing members with a width shorter than the width of the upper floating body part mega-float. do.

Since the depth from the water surface of the lower contact portion of the floating body member or mega-float floating body member is as deep as or deeper than the depth of the adjacent floating body member or mega-float adjacent floating body member, the center of gravity of said floating body member or mega-float floating body member moves downward, and there is a restoring force effect on the sideways movement of said floating body member or mega-float floating body member and said adjacent floating body member or mega-float adjacent floating body member.
In addition, even if the floating body member or the mega-float floating body member is loaded with a certain weight, the lower contact portion of the floating body member or the mega-float floating body member is in contact with the side surface of the adjacent floating body member or mega-float adjacent floating body member. Therefore, only the floating member or the mega-float floating member moves up and down.

The offshore wind power generation floating device, which is an example of the first embodiment according to the present invention, has a predetermined height from the water surface having an air layer with a height of 5 meters or more (preferably 15 meters) above the sea surface and A cylindrical adjacent floating body member having a constant weight of water and a constant depth (e.g., 15 meters) from the surface of the water, and penetrating the cylindrical inner surface of the cylindrical adjacent floating body member to the same depth or more An offshore wind power generation floating body member comprising a wind power generation blade upper floating body part having a deep cylindrical lower contact part and a back surface floating body such as a hollow membrane inside the cylindrical inner side of the cylindrical lower contact part. .
When the depth from the water surface of the cylindrical lower contact portion of the offshore wind power generation floating member is about the same as or deeper than the depth of the adjacent floating member, the center of gravity of the offshore wind power generation floating member moves downward. Therefore, there is a restoring force effect against lateral shaking of the offshore wind power generation floating body member, which has a floating body such as a hollow membrane inside the cylindrical inner side of the cylindrical lower contact portion of the back surface. Further, even if a constant weight load is loaded on the offshore wind power generation floating body member, the cylindrical lower contact portion is in contact with the cylindrical side surface of the cylindrical adjacent floating body member so that the floating body member does not tilt from any direction. Only the offshore wind turbine floating member moves up and down.

An offshore floating house, which is another example of the first embodiment according to the present invention, has an air layer with a height of 5 meters or more (preferably 15 meters) above the sea surface and has a predetermined height above the water surface. A cylindrical adjacent floating body member having a constant weight of water at the bottom and a constant depth (for example, 15 meters) from the water surface and penetrating the cylindrical inner side surface of the cylindrical adjacent floating body member to a similar depth Alternatively, a cylindrical lower contact portion having a deeper depth is provided, and a back surface floating body such as a hollow membrane body is included inside the cylinder of the cylindrical lower contact portion, and penetrates through the cylindrical interior of the cylindrical adjacent floating body member and to the upper part. It comprises an offshore floating house with an upper floating body section on which a solar power generation roof facility is installed.
Since the depth from the water surface of the cylindrical lower contact portion of the floating house is about the same as the depth of the adjacent floating member or deeper, the center of gravity of the floating house moves downward. The cylindrical lower contact portion on the back surface has a restoring force effect against lateral movement of the floating house on the sea containing a floating body such as a hollow membrane body. Further, even if the floating house is loaded with a certain weight, the floating house does not tilt in any direction because the cylindrical lower contact portion is in contact with the cylindrical side surface of the adjacent cylindrical floating member. only moves up and down.

The offshore airfield mega-float floating body device, which is an example of the first embodiment according to the present invention, has an air layer with a height of 5 meters or more (preferably 15 meters) above the sea surface and has a predetermined height above the water surface. A large square mega-float adjoining floating body with a large square mega-float cylinder with a constant weight of water at the bottom and a certain depth (e.g. 30 meters) from the surface of the water, and a large square external aeronautical facility with an internal mega-float external floating body on the back side. a cylindrical lower contact portion of equal depth or greater depth penetrating the inner side surface of the large megafloat cylinder of the large square megafloat adjacent floating body member; A large offshore airfield mega-float circular floating body member is provided with a large circular upper mega-float floating body section having a backside mega-flute floating body, such as a hollow membrane, inside the cylinder.
Since the depth from the surface of the water of the cylindrical lower contact portion of the mega-float circular floating member is as deep as or greater than the depth of the large mega-float cylinder of the adjacent large square mega-float floating member, the marine airfield The center of gravity of the circular mega-float floating body member moves downward, and there is a restoring force effect against the lateral shake of the said marine airfield circular mega-float floating body member. In addition, even if an airplane of a certain weight is mounted on the circular mega-float floating member at the offshore airport, the cylindrical lower contact portion of the floating member adjacent to the large cylindrical mega-float penetrates and contacts the cylindrical side surface of the large mega-float. The aerodrome megafloat circular floating member only moves up and down without tilting in any direction. Also, since the large square mega-float adjacent floating body members are also adjacent to the marine airfield mega-float circular floating body members, the same effect can be obtained.

Another floating body system or mega-float floating body system according to the present invention is an embodiment of the second embodiment in which the tsunami countermeasure floating body member is located outside the adjacent floating body member, and has a certain weight of seawater at the bottom and is A cylindrical adjacent floating body member having a tube on its upper surface and a cylindrical inner side surface of the cylindrical adjacent floating body member that connects an air layer with a certain depth and a height of 5 meters or more (preferably 15 meters) above the sea surface and a chain. In the upper floating body part which has a cylindrical lower contact part with a deeper depth than the cylindrical contact part and has a back surface floating body such as a hollow membrane inside the cylindrical lower contact part and penetrates the cylindrical interior of the cylindrical adjacent floating body member It has an installed offshore wind power generation floating member or an offshore floating house, has a lower contact part that contacts the outer side surface of the cylindrical adjacent floating member at a depth deeper than the depth of the cylindrical adjacent floating member, and is 15 meters or more. A countermeasure against tsunami in which an upper floating body portion having a floating body such as a hollow membrane on the front surface or on the front and back surfaces is provided with a length, and the cylinder of the cylindrical adjacent floating body member and the tip of the upper floating body portion are connected by a chain. A floating body member is provided, and the height above the water surface of the upper floating body part of the tsunami countermeasure floating body member is alternately changed, and the plurality of cylindrical adjacent floating body members are fixed by a fixing member with a width shorter than the width of the upper floating body part. It is characterized by comprising an offshore wind power generation floating body member or an offshore floating house composed of chain-like cylindrical adjacent floating body members.
In the offshore wind power generation floating member or the offshore floating house inside the cylindrical adjacent floating member, the bottom contact portion of the floating member is deeper than the cylindrical adjacent floating member. It becomes a tsunami countermeasure floating body member, and since the depth from the water surface of the lower contact part is deeper than the depth of the cylindrical adjacent floating body member, the lower contact part moves the center of gravity of the tsunami countermeasure floating body member downward, and the cylindrical shape adjacent to the front. There is a restoring force effect against lateral movement of the offshore wind power generation floating body member or the offshore floating house and the tsunami countermeasure floating body member inside the floating body member. In addition, even if the tsunami countermeasure floating member is loaded with a constant weight load, the lower contact portion is in contact with the outer side surface of the cylindrical adjacent floating member without tilting from the direction of the tip, so the tsunami countermeasure floating member. only moves up and down.
Since the depth of the lower contact portion of the anti-tsunami countermeasure floating body member is deeper than the depth of the adjacent cylindrical floating body member, when the lower contact portion is guided by the adjacent cylindrical floating body member by the tsunami and comes into contact with the sea floor, the upper floating body portion is raised from the sea surface by the tsunami, and the surfaced upper floating body portion contacts the outer side surface of the cylindrical adjacent floating member by the tsunami, thereby rotating the tsunami countermeasure floating body member, and when approaching the shore, the upper floating body portion It serves as a breakwater, and further rotation of the tsunami countermeasure floating member due to a tsunami is prevented by the chain-like cylindrical adjacent floating member. In order to prevent further rotation of the tsunami countermeasure floating body member, the cylindrical adjacent floating body member has, for example, a large circular shape, and when the upper floating body part rotates, the floating body of the hollow membrane acts as a buffer.
When the lower contact portion of the anti-tsunami floating member is set relatively deep, the upper floating body rotates due to the tsunami before it approaches the shore, and when it reaches the shore, the adjacent cylindrical floating member and the anti-tsunami floating member run on the shore. Also, if the lower contact portion of the tsunami countermeasure member is set at a depth of 500 meters or more, the upper floating body portion will rotate in contact with the outer side surface of the adjacent cylindrical floating member due to the tsunami offshore.
The height above the water surface of the upper floating body part of the tsunami countermeasure floating body member is alternately changed, and the cylindrical adjacent floating body member is fixed with a width smaller than the width of the upper floating body part, so the tsunami countermeasure floating body member rotates when approaching the shore. As a result, the upper floating body portions are alternately overlapped to form a breakwater, and the cylindrical adjacent floating body member prevents further rotation of the tsunami countermeasure floating body member due to the tsunami. When it reaches the shore, the adjacent cylindrical floating member and the tsunami countermeasure floating member run on the shore.

Another embodiment of the tsunami countermeasure floating device according to the present invention includes seawater having a certain depth from the water surface and a weight that can withstand a tsunami at the bottom and air at a height of 5 meters or more (preferably 15 meters) above the sea surface. A cylindrical adjacent floating body member connecting the layer and the chain, for example, having a tube on the upper surface, and a cylindrical lower contact part having a deeper depth in contact with the cylindrical inner side surface of the cylindrical adjacent floating body member, and the inner side of the cylindrical lower contact part For example, a floating body such as a hollow membrane is embedded in the back surface of the floating body member and penetrates through the cylindrical interior of the adjacent cylindrical floating body member. It has a bottom contact section with a depth greater than the depth of the floating member and a vertical bottom contact breakwater section with a given width and depth to prevent a tsunami of 15 meters or more and prevents further rotation with a given width. A floating body rotation-preventing part having a floating body such as a hollow membrane on the front surface or the front and back surfaces of the floating body member is connected by a chain. The position of the vertical bottom contact breakwater portion of the tsunami countermeasure floating member is alternately changed, and the plurality of cylindrical adjacent floating members are connected by a fixed member with a width shorter than the width of the float rotation prevention portion. It is characterized by comprising a fixed chain-like cylindrical adjacent floating body member and comprising an offshore wind power generation floating body member or an offshore floating house.
Since the depth of the bottom contact portion of the tsunami countermeasure floating body member is deeper than the depth of the cylindrical adjacent floating body member, when the tsunami induces the cylindrical adjacent floating body member and the bottom contact portion contacts the sea floor, the tsunami causes the floating body rotation prevention portion. rises above the sea surface, and the floating body rotation-preventing part moves until it comes into contact with the outer side surface of the cylindrical adjacent floating body member due to the tsunami, thereby rotating the tsunami countermeasure floating body member. The floating body rotation prevention part moves with the cylindrical adjacent floating body member by the tsunami, and the vertical bottom contact breakwater part becomes a breakwater, and since the length of the floating body rotation prevention part is large, the tsunami countermeasure floating body member is further rotated by the tsunami. is blocked. In addition, since the cylindrical adjacent floating member does not need to prevent further rotation of the tsunami countermeasure floating member, it does not have to be as large as in the first embodiment.
When the lower contact portion of the anti-tsunami floating body member is set relatively deep, the rotation-preventing portion of the floating body rotates before approaching the shore, and when it reaches the shore, the adjacent cylindrical floating body member and the anti-tsunami floating body member run on the shore. In addition, if the bottom contact part of the tsunami countermeasure floating body member is set to a depth of 500 meters or more and the floating body rotation prevention part is a floating body rotation prevention part having a floating body such as a hollow membrane body on the guidance floating body side, When the float rotation prevention part of the tsunami countermeasure floating member rotates and approaches the shore, when the tsunami countermeasure floating member runs on the shore, the float rotation prevention part is pushed by the tsunami, and the bottom contact floating breakwater part rotates further to become a breakwater, and the float rotates. The blocking portion blocks further rotation of the tsunami countermeasure floating body member.
In a second embodiment of the chain-shaped tsunami countermeasure floating body device according to the present invention, the position of the bottom contact breakwater section of the tsunami countermeasure floating body member is alternately changed, and a plurality of fixed members are provided with a width shorter than the width of the float rotation prevention section. It is characterized by comprising a chain-shaped tsunami countermeasure floating body member to which the cylindrical adjacent floating body member is fixed. Since the position of the bottom contact breakwater portion of the tsunami countermeasure floating member is alternately changed and the adjacent cylindrical floating member is fixed with a width smaller than the width of the bottom contact breakwater portion, the tsunami countermeasure floating member rotates when approaching the shore. As a result, the bottom contact breakwater portions alternately overlap to form a breakwater, and the floating body rotation preventing portion prevents further rotation of the tsunami countermeasure floating member due to a tsunami. When it reaches the shore, the adjacent cylindrical floating member and the tsunami countermeasure floating member run on the shore.

An offshore airfield mega-float device according to the present invention comprises an upper air layer having large inner and outer diameters at the upper part of one end, an upper air discharge opening for discharging the air in the upper air layer, and a water discharge opening above the water surface. A deep-sea water intake structure having a large circumferential cylindrical deep-sea water storage tank containing a working gas condenser, a deep-sea water intake riser pipe at the other end of the large-sized circumferential cylindrical deep-sea water storage tank, and the large-sized deep-sea water intake structure. A cylinder having a specific gravity smaller than that of water, which passes through the inside of the circular cylindrical deep-sea water storage tank and closes the water discharge opening when the water surface inside is the same as the water surface outside the large circular cylindrical deep-sea water storage tank. and an internal penetrating member for exhausting the air in the upper air layer in the large circular cylindrical deep sea water storage tank by means of natural energy to evacuate the water surface in the large circular cylindrical deep sea water storage tank to the large circular cylindrical deep sea water storage tank. By moving above the water surface outside the cylindrical deep-sea water storage tank, the cylindrical inner penetrating member is moved to the upper part of the large-sized circular cylindrical deep-sea water storage tank, and the large-sized circular cylindrical deep-sea water is discharged from the water discharge opening. A large circular deep-sea water storage floating member that discharges the deep-sea water stored in the storage tank to the outside, and a natural energy power generation of the surface water that is placed outside the large circular cylindrical deep-sea water storage tank and inserted from the bottom. A large cylindrical surface water storage floating body member having a certain depth (for example, 30 meters) from the water surface and containing a heating means and a working gas evaporator for heating by means, and an outer cylinder of the large cylindrical surface water storage floating body member An upper square mega having a cylindrical lower contact part of the same depth or a deeper depth penetrating the side surface and having an upper square part having a backside megafloat floating body such as a hollow membrane body on top of the bona fide lower contact part A float-adjacent floating body member and a cylindrical lower contact portion having a similar depth or a deeper depth penetrating the cylindrical inner side surface of the large circular cylindrical deep water storage tank, and the cylindrical lower contact portion a large offshore airfield mega-float circular floating body member comprising a large circular upper mega-float floating body portion inside which a backside mega-flute floating body such as a hollow membrane is embedded; A large circular airtight space substantially parallel to the sea surface with large inner and outer diameters, which is disposed above the large cylindrical surface water storage floating body member and contains the gas of the working fluid, a plurality of intermediate balls or intermediate cylindrical rollers, and the plurality of intermediate balls or intermediate cylindrical rollers. A large external bearing member having an inner wall that engages with the intermediate balls or intermediate cylindrical rollers, and an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers and the flow of the working gas. a large inner rotating member having substantially equally spaced angular fixed rotor blades for rotation; A power generating device that generates electricity by electromagnetic effect as is known by arranging magnets and coils interlocking with the rotation of , and a first connecting pipe that connects the working gas space of the large circular airtight space and the condenser, for example 90 Four first airtight column members arranged at an angle of degree, and a second connection for connecting the working gas space of the large circular airtight space and the evaporator, which has a tip nozzle for injecting to the rotor blade. A plurality of second airtight column members containing pipes and arranged at substantially equal intervals on the circumference, and connecting the large deep water storage floating body member and the large cylindrical surface water storage floating body member, for example 45 and a working fluid connecting pipe disposed in the center of the heat insulating isolation coupling member and connecting the evaporator and the condenser, wherein the In the large circular cylindrical deep sea water storage tank, the air above the cylindrical inner penetrating member is exhausted, and the water surface inside the large circular cylindrical deep sea water storage tank is reduced to the water surface outside the large circular cylindrical deep sea water storage tank. By moving the inner cylindrical penetrating member upward, the deep seawater stored through the water discharge opening is discharged out of the large circular cylindrical deep seawater storage tank, and the seawater in the riser pipe is discharged. is moved upward to circulate seawater in the deep water intake structure, whereby deep water is taken into the large circular cylindrical deep water storage tank from the deep water intake opening and the large circular airtight space The working gas that has passed through the first connecting pipe that connects the working gas space and the condenser becomes a liquid working fluid by the condenser built in the large circumferential cylindrical deep water storage tank, and the liquid The working fluid passes through the evaporator built in the large cylindrical surface water storage floating body member via the working fluid connecting pipe, becomes a gaseous working fluid, and passes through the tip nozzle provided in the second connecting pipe to the large evaporator. It is characterized in that the jet is jetted to the rotor blades fixed at approximately equal intervals of the inner rotating member.
The marine airfield mega-float floating system can supply the electric power of the deep water power generation system to the airport facilities provided in the upper square mega-float floating member, and functions as a marine airfield mega-float floating city.

The mega-float fishery floating body device according to the present invention is a cylindrical adjacent floating body having a certain weight of water at the bottom and an air layer at a height of 5 meters or more (preferably 15 meters) above the sea surface and a cylinder for connecting chains on the upper surface. A member and a cylindrical lower contact portion having a similar depth or a deeper depth through the cylindrical inner side surface of the adjacent cylindrical floating member, and a hollow membrane or the like is provided inside the cylindrical lower contact portion. An offshore wind power generation floating body member having a wind power generation blade upper floating body part with a backside floating body embedded therein, an annular mega-float adjacent floating body member formed by annularly connecting a plurality of cylindrical adjacent floating body members, and the annular mega-float adjacent floating body member A fishing device or aquaculture device held by a member, and an upper deep-sea water storage pipe having an opening for discharging water at the lower part above the water surface arranged in the ring of the floating body member adjacent to the ring-shaped mega-float, and taking in deep sea water. and a water circulation pipe having a water intake opening at the bottom that is 200 meters or more below the water surface, and the water discharge when the water surface inside is the same as the water surface outside the upper deep water storage pipe. an annular inner penetrating member having a specific gravity smaller than that of water for closing the opening for water, an exhaust means for exhausting the air above the annular inner penetrating member in the upper deep-sea water storage pipe by electric power generated by the natural energy power generation, and the annular mega a floating body structure comprising a temporary water tank for holding the water circulation pipe disposed inside the float-adjacent floating body member and temporarily storing deep-sea water discharged from the water discharge opening and discharging it to the outside; a lower contact portion disposed outside the float-adjacent floating body member and contacting the outer side surface of the annular mega-float-adjacent floating body member at a depth greater than the depth of the annular mega-float-adjacent floating body member and having a predetermined mega-float width and surface; A mega-float upper floating body part with a length of 15 meters or more having a floating body on the back side or on the front and back sides and connected by a chain to the tip of the mega-float upper floating body part and the cylinder and the cylindrical adjacent floating body member and a steel tsunami countermeasure mega-float floating member, wherein the height above the water surface of the mega-float upper floating body portion of the tsunami countermeasure mega-float floating member is alternately changed to a width narrower than the predetermined mega-float width, for example, a metal A chain-like annular mega-float fishery floating body device comprising a chain-like annular mega-float adjacent floating body member that is connected by a chain so as to be able to bend the annular mega-float adjacent floating body members that are connected by a connecting member.

Another Mega-Float fishery floating device according to the present invention has a cylindrical shape with a certain weight of water at the bottom and an air layer with a height of 5 meters or more (preferably 15 meters) above the sea surface and a tube for connecting chains on the top surface. An adjacent floating body member and a cylindrical lower contact part of the same depth or a deeper depth that penetrates and contacts the cylindrical inner side surface of the cylindrical adjacent floating body member, and a hollow membrane is provided inside the cylindrical lower contact part An offshore wind power generation floating body member having a wind power generation blade upper floating body portion that incorporates a back surface floating body such as a wind turbine, an annular mega-float adjacent floating body member in which a plurality of the cylindrical adjacent floating body members are annularly connected, and the annular mega-float adjacent floating body member. A fishing device or aquaculture device held by a mega-float-adjacent floating member, and an upper deep-sea water storage pipe having an upper water discharge opening above the water surface disposed in the ring of the annular mega-float-adjacent floating member. A water circulation pipe having a water intake opening below the water surface of 200 meters or more for taking in deep sea water, and a water surface inside the upper deep water storage pipe that penetrates the inside of the water circulation pipe and the water surface outside the upper deep water storage pipe. and an annular inner penetrating member having a specific gravity smaller than that of water for closing the water discharge opening, and exhausting the air above the annular inner penetrating member in the upper deep-sea water storage pipe by the electric power generated by the natural energy generation. A floating body comprising an exhaust means and a temporary water tank for holding the water circulation pipe arranged inside the annular mega-float adjacent floating body member and temporarily storing deep water discharged from the water discharge opening and discharging it to the outside. A structure and a lower contact portion contacting the outer side surface of said annular mega-float adjacent floating member at a depth greater than the depth of said annular mega-float adjacent floating member and for preventing tsunami of 15 meters or more with a predetermined mega-float width with a vertical bottom contact breakwater having a depth of 100 mm and having mega-float floating bodies, such as hollow membrane bodies, on the surface or on the surface and on the back surface with a predetermined mega-float width and a length to prevent further rotation. a steel-made tsunami countermeasure mega-float floating member comprising a blockage portion and a tsunami countermeasure mega-float floating member made of steel in which the tube of the cylindrical adjacent floating member and the tip of the float rotation-blocking portion are connected by a chain; Alternately changing the position of the bottom contact breakwater portion of the adjacent annular mega-float adjacent to the adjacent annular mega-float connected by a metal bonding member, for example, with a width narrower than the predetermined mega-float width Chain-like annular mega-float adjacent to which the floating member is connected by a chain so that the floating body member can be bent A chain-like annular mega-float fishery float device comprising a float member.

Since the floating structure holding the water circulation pipe is arranged inside the annular mega-float adjacent floating member, which is obtained by connecting the plurality of cylindrical adjacent floating members with a connecting member, the water intake opening is located at a depth of 200 meters or more below the surface of the water. Deep-sea water containing more unused nutrient salts is taken in, and the deep-sea water is discharged from the water discharge opening at the bottom of the water surface to the temporary water tank, and from the temporary water tank to the sea surface near the floating structure. Reservoir water is discharged and becomes a good fishing ground.
In addition, an upper floating body portion or floating body having a floating body on its front surface or back surface or both surfaces and having a length for preventing a tsunami and having the predetermined width and a length for preventing tsunamis outside the large number of adjacent cylindrical floating body members on the outside world side. A tsunami countermeasure mega-float floating body, for example made of steel, comprising a rotation preventing part and a bottom contact part or a bottom contact breakwater part that contacts the outer side surface of the cylindrical adjacent floating body member at a depth greater than the depth of the cylindrical adjacent floating body member. The position of the upper floating body part of the member is changed alternately, and the cylindrical adjacent floating body member is fixed by a fixing member with a width shorter than the width of the upper floating body part or the floating body rotation preventing part, and the upper floating body part of the tsunami countermeasure mega-float floating body member Alternatively, the end of the length of the floating body rotation blocking portion and the tube of the cylindrical adjacent floating body member are connected by a chain. If the annular mega-float adjacent floating member is connected by a chain and an arcuate chain-shaped annular mega-float adjacent floating member is arranged, the annular mega-float adjacent floating member will only float on the sea surface until it reaches the coast or sandy beach at the entrance of the bay, causing a tsunami. When it moves near the coast or sandy beach, the lower contact part of the tsunami countermeasure mega-float floating member first contacts the bottom, and the tsunami countermeasure mega-float floating member rotates, and the cylindrical Further rotation of the tsunami countermeasure mega-float floating member due to a tsunami is prevented by the shape-adjacent floating member or the float rotation-preventing portion. When reaching the seashore or sandy beach, the annular mega-float adjacent floating member and the tsunami countermeasure mega-float floating member run on the seashore or sandy beach. The annular mega-float-adjacent floating member that does not reach the shore, sandy beach or rocky reef is connected by bending the chain-like annular mega-float-adjacent floating member to the shore or sandy beach until it reaches the shore or sandy beach. move while
As for the fishing apparatus or aquaculture apparatus held by the annular mega-float-adjacent floating member, the fishing pen and the aquaculture pen serving as a fishing pen already proposed by the present applicant (Japanese Patent Application Laid-Open No. 2011-217615) are also examples. Without limitation, known fishing or aquaculture equipment can also be implemented.

In large cities and open seas such as Tokyo Bay, Osaka Bay, and Ise Bay, where there are many underground facilities, if the bow-shaped chain-shaped annular mega-float adjacent floating member is arranged, the annular mega-float adjacent floating member will be located on the coast or sandy beach at the entrance of the bay. until it reaches the sea surface and moves without being affected by the tsunami in any way, and when it approaches the coast or sandy beach, the tsunami countermeasure mega-float floating member rotates and the annular mega-float adjacent floating member and the tsunami countermeasure The mega-float floating member runs over the coast or sandy beach to mitigate or prevent the intrusion of tsunami, and the ring-shaped mega-float-adjacent floating member that does not reach the coast, sandy beach or rocky reef is chain-shaped until it reaches the seashore, sandy beach or rocky reef. The ring-shaped mega-float adjacent floating body members are bent and moved while being connected to each other by the connecting members. When the coast or sandy beach at the entrance of the bay is reached, the tsunami countermeasure mega-float floating member rotates, and the cylindrical adjacent floating member and the tsunami countermeasure mega-float floating member ride on the coast or sandy beach to mitigate the entry of tsunami into the bay. Or it can be blocked. Also, for example, by arranging a plurality of bow-shaped chain-like annular mega-float adjacent floating body members overlapping the end portions of the chain-like annular mega-float adjacent floating body members, In the event of a tsunami, without impeding ship operation, a plurality of arcuate chain-like ring-shaped mega-float adjacent floating members are overlapped at their ends, so that rotation of the tsunami countermeasure mega-float floating members allows the movement of water from the entrance of the bay. It becomes possible to mitigate or prevent the entry of tsunami into the bay.
A plurality of chain-like ring-shaped mega-float adjacent floating body members provided with the chain-like ring-shaped ring-shaped mega-float adjacent floating body members are arranged overlappingly at the ends even on the coast of the Pacific Ocean or the Sea of Japan coast that does not constitute a bay such as Tohoku. Then, during a tsunami, the plurality of arcuate chain-shaped ring-shaped mega-float adjacent floating members overlap at the ends and the rotation of the tsunami countermeasure mega-float floating member causes a tsunami without disturbing the operation of the ship in peacetime. It can be mitigated or prevented.
A plurality of chain-shaped annular mega-float adjacent floating body members arranged with overlapping ends according to the present invention mitigate or prevent tsunami intrusion to the coast and a plurality of chain-shaped chain members A power cable is laid on the floating member adjacent to the annular mega-float, and the end portions of the chain-shaped floating member adjacent to the annular mega-float are connected by the power cable in the sea to connect the floating member adjacent to the mega-float. It is also possible to construct a net.

The deep water temperature difference power generation chain mega-float fishery float device according to the present invention has an upper air layer with a large inner and outer diameter at the upper part of one end, an upper air discharge opening for discharging the air of the upper air layer, and an upper air discharge opening for discharging water above the water surface. A deep-sea water intake structure having a large circular cylindrical deep-sea water storage tank with an opening and a built-in working gas condenser, and a deep-sea water intake riser pipe at the other end at the lower part of the large circular cylindrical deep-sea water storage tank. The specific gravity that penetrates the material and the inside of the large circular cylindrical deep water storage tank and closes the water discharge opening when the water surface inside is the same as the water surface outside the large circular cylindrical deep water storage tank a cylindrical inner penetrating member smaller than water, and exhausting the air in the upper air layer in the large circular cylindrical deep sea water storage tank by means of natural energy to evacuate the water surface in the large circular cylindrical deep sea water storage tank. By moving above the water surface outside the large circular cylindrical deep water storage tank, the cylindrical inner penetrating member is moved to the upper part of the large circular cylindrical deep water storage tank, and the large circular circumference is removed from the water discharge opening. A large circular deep-sea water storage floating body member for discharging the deep-sea water stored in the circular cylindrical deep-sea water storage tank to the outside, and surface water placed outside the large circular cylindrical deep-sea water storage tank and inserted from the bottom. A large cylindrical surface water storage floating body member that is heated by natural energy power generation means and has a built-in working gas evaporator and has a certain depth (for example, 30 meters) from the water surface, and the upper part of the large cylindrical surface water storage floating body member A large circumferential airtight space substantially parallel to the sea surface and having large inner and outer diameters containing gas of the working fluid, and a plurality of intermediate balls or intermediate cylindrical rollers engaged with the plurality of intermediate balls or intermediate cylindrical rollers. It has an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers and fixed rotor blades that are rotated by the flow of the working gas and are angled at substantially equal intervals. A large circular rotating body structure provided with a large inner rotating member and incorporated in the large circular airtight space, and magnets and coils interlocking with the rotation of the large inner rotating member are arranged to create a known electromagnetic effect. Four first airtight columns arranged at an angle of 90 degrees, for example, containing a power generating device that generates electricity as described above and a first connecting pipe that connects the working gas space of the large circular airtight space and the condenser. and a second connecting pipe that connects the working gas space of the large circular airtight space and the evaporator, which is provided with a tip nozzle for injecting to the rotor blade, and is arranged at approximately equal intervals on the circumference. a plurality of second airtight column members and the large deep water storage float An eight-segment adiabatic isolation joint member connecting the body member and the large cylindrical surface water storage floating body member at an angle of, for example, 45 degrees; A working fluid connecting pipe that connects the vessel and the condenser, and an air layer that is located outside the large cylindrical surface water storage floating member and has a height of 10 meters or more above the sea surface and a weight that can withstand a tsunami and a tensile force. an outer wall mega-float cylindrical adjacent floating body member having a thickness and height capable of withstanding water pressure, and an outer wall mega-float cylindrical adjacent floating body member provided in any of the plurality of said outer wall mega-float cylindrical adjacent floating body members and having fresh water at the bottom Adjacent floating body members, fishing equipment or aquaculture equipment held by the outer wall mega-float cylindrical adjacent floating body members, and a mega-float width disposed outside the outer wall mega-float cylindrical adjacent floating body members to prevent tsunami The outer wall mega-float cylindrical adjacent floating body member has a length and is connected by a chain to the tip end of the outer wall mega-float cylindrical adjacent floating body member. a steel mega-float tsunami countermeasure mega-float floating member having a lower contact portion contacting the outer side surface of said outer wall mega-float cylindrical adjacent floating member at a depth greater than the depth of said outer wall mega-float cylindrical adjacent floating member; For example, the height above the water surface of the upper floating body portion of the mega-float tsunami countermeasure mega-float floating member is alternately changed by a metal joint member, and a plurality of mega-float cylindrical outer walls are joined with a width narrower than the predetermined mega-float width. A chain-shaped outer wall mega-float cylindrical adjacent floating body member is provided in which the adjacent floating body members are connected by a chain so as to be bendable, and the air above the cylindrical inner penetrating member is exhausted in the large-sized circular cylindrical deep water storage tank. By moving the water surface in the large circular cylindrical deep-sea water storage tank above the water surface outside the large circular cylindrical deep-sea water storage tank, the cylindrical inner penetrating member is moved upward and the water is stored through the water discharge opening. The deep sea water thus obtained is discharged outside the large circular cylindrical deep sea water storage tank, the sea water or lake water in the riser pipe is moved upward, and the sea water or lake water in the deep sea water intake structure is circulated. Deep-sea water is taken into the large-sized circular cylindrical deep-sea water storage tank from the deep-sea water intake opening and passed through the first connecting pipe that connects the working gas space of the large-sized circular airtight space and the condenser. The working gas becomes a liquid working fluid by the condenser built in the large circumferential cylindrical deep water storage tank, and the working flow of the liquid becomes The body passes through the evaporator built in the large cylindrical surface water storage floating body member via the working fluid connecting pipe to become a gaseous working fluid, and passes through the tip nozzle provided in the second connecting pipe to the large inner side. It is characterized in that the jet is jetted to the rotating blades fixed at substantially equal intervals of the rotating member.

The second embodiment of the deep water temperature difference power generation chain mega-float fishing float device according to the present invention has a large inner and outer diameter at the upper part of one end, and an upper air discharge for discharging the air of the upper air layer and the upper air layer A large circumferential cylindrical deep water storage tank having an opening and a water discharge opening above the surface of the water containing a working gas condenser and a deep water intake riser at the other end at the bottom of said large circumferential cylindrical deep water storage tank. The deep water intake structure having a pipe penetrates through the inside of the large circular cylindrical deep water storage tank, and the water is discharged when the water surface inside is the same as the water surface outside the large circular cylindrical deep water storage tank. and a cylindrical inner penetrating member having a specific gravity smaller than that of water for closing the opening of the large-sized circular cylindrical deep-sea water storage tank. By moving the water surface in the storage tank higher than the water surface outside the large circular cylindrical deep water storage tank, the cylindrical inner penetrating member is moved to the upper part of the large circular cylindrical deep water storage tank and the water is discharged. A large circular deep-sea water storage floating body member for discharging the deep-sea water stored in the large circular cylindrical deep-sea water storage tank from the opening, and a large circular deep-sea water storage tank disposed outside the large circular cylindrical deep-sea water storage tank. A large cylindrical surface water storage floating body member that heats surface water inserted from the bottom by natural energy power generation means, has a built-in working gas evaporator, and has a certain depth (for example, 30 meters) from the water surface; A large circular airtight space substantially parallel to the sea surface with large inner and outer diameters, which is placed on the upper part of the surface water storage floating body member and contains the gas of the working fluid, a plurality of intermediate balls or intermediate cylindrical rollers, and the plurality of intermediates A large external support member having an inner wall that engages with the balls or intermediate cylindrical rollers is provided, and the outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers is rotated by the flow of the working gas, so that the angle is substantially equal. a large inner rotating member having fixed rotor blades, a large circular rotating body structure built in the large circular airtight space, and magnets and coils interlocking with the rotation of the large inner rotating member 4 arranged at an angle of 90 degrees, for example, containing a power generation device that generates electricity by electromagnetic effect as is known, and a first connecting pipe that connects the working gas space of the large circular airtight space and the condenser. A first airtight column member and a second connecting pipe that has a tip nozzle for injecting to the rotor blade and connects the working gas space of the large circumferential airtight space and the evaporator is built in and is approximately on the circumference. a plurality of second airtight column members arranged at evenly spaced angles; An eight-segmented heat insulating isolation joint member that connects the deep-sea water storage floating body member and the large cylindrical surface water storage floating body member at an angle of, for example, 45 degrees, and is arranged in the center of the heat insulating isolation joint member. a working fluid connecting pipe connecting the evaporator and the condenser; an outer wall mega-float cylindrical adjacent floating body member having a thickness and height capable of withstanding the tensile force, and an outer wall mega-float having fresh water at the bottom provided on any one of the outer wall mega-float cylindrical adjacent floating body members. a fishing or aquaculture device held by a cylindrical adjacent float member, a front outer wall megafloat cylindrical adjacent float member, and said megafloat cylindrical adjacent float member at a depth greater than the depth of said megafloat cylindrical adjacent float member. and a bottom contact breakwater section with a prescribed mega-float width and depth to prevent a tsunami of 15 meters or more, and to prevent further rotation with a prescribed mega-float width. A floating body rotation-preventing part having a floating body such as a hollow membrane on the front surface or the front and back surfaces is provided with a length, and the cylinder of the mega-float cylindrical adjacent floating body member and the tip of the floating body rotation-preventing part are connected by a chain. The position of the bottom contact breakwater portion of the mega-float tsunami countermeasure mega-float floating member is alternately changed by, for example, a metal coupling member between the steel mega-float tsunami countermeasure mega-float member and the outer wall mega-float cylindrical adjacent floating member. and a chain-like outer wall mega-float cylindrical adjacent floating body member that is bendably connected by a chain to a plurality of outer wall mega-float cylindrical adjacent floating body members that are connected with a width narrower than the predetermined mega-float width, and the large circumference In the cylindrical deep-sea water storage tank, the air above the cylindrical inner penetrating member is exhausted, and the water surface in the large circular cylindrical deep-sea water storage tank is raised above the water surface outside the large circular cylindrical deep-sea water storage tank. By moving, the cylindrical inner penetrating member is moved upward, and the stored deep water is discharged from the water discharge opening to the outside of the large circular cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is discharged. By moving it upward and circulating seawater or lake water in the deep water intake structure, deep water is taken into the large circular cylindrical deep water storage tank from the deep water intake opening and the large circular airtight The working gas passes through the first connecting pipe connecting the working gas space of the space and the condenser, and the working gas passes through the large circumferential cylinder depth. The condenser built in the stratum water storage tank turns the liquid working fluid into a liquid working fluid, and the liquid working fluid passes through the evaporator built in the large cylindrical surface water storage floating body member through the working fluid connecting pipe. It is characterized in that it becomes a gaseous working fluid and is jetted through the tip nozzle provided in the second connecting pipe to the rotary blades fixed at approximately equal intervals of the large inner rotating member.

The above embodiment of the deep water temperature difference power chain mega-float fishing equipment according to the present invention is not affected by a tsunami only by floating on the surface of the sea until the chain outer wall mega-float cylindrical adjacent floating body member reaches the shore or sandy beach at the entrance of the bay. When the chain-like outer wall mega-float cylindrically adjacent floating member approaches the coast or sandy beach, the tsunami countermeasure mega-float floating member rotates and reaches the coast or sandy beach. The mega-float cylindrical adjacent floating member and the tsunami countermeasure mega-float floating member run on the seashore or sandy beach, and the tsunami countermeasure mega-float floating member is further rotated by the mega-float cylindrical adjacent floating member or the float rotation prevention part due to the tsunami. said chain-shaped outer wall megafloat cylindrically-adjacent floating body member is blocked and does not reach the shore or beach or reef said chain-shaped outer wall mega-float cylindrically-adjacent floating body member is arched until it reaches said chain-like outer wall Adjacent mega-float cylindrical floating members are connected to each other by the connecting member and bent to move. When the chain-like outer wall mega-float adjacent floating member approaches the coast or sandy beach at the entrance of the bay, the tsunami countermeasure mega-float floating member rotates and reaches the coast or sandy beach. Countermeasures Mega-float floating members run over the coast or sandy beach and can mitigate or prevent tsunamis from entering the bay. In addition, for example, by arranging a plurality of bow-shaped chain-like outer wall mega-float-adjacent floating members overlapping the ends of the chain-like outer wall mega-float-adjacent floating members, there is no obstacle to the operation of the ship in peacetime. In the event of a tsunami, the chain-shaped outer wall mega-float adjacent floating member overlaps at the end, and the tsunami countermeasure mega-float floating member rotates, making it possible to mitigate or prevent tsunami from entering the bay from the entrance of the bay. becomes.
In addition, fresh water is provided at the bottom of any one of the plurality of outer wall mega-float adjacent floating members, so fresh water can be supplied at the coast when a tsunami occurs.

In large cities and open seas such as Tokyo Bay, Osaka Bay, and Ise Bay, where there are many underground facilities, if the bow-shaped chain-shaped outer wall mega-float adjacent floating member is arranged, the chain-shaped outer wall mega-float adjacent floating member will be located on the coast of the entrance of the bay. Alternatively, the floating mega-float member adjacent to the chain-shaped outer wall mega-float simply floats on the sea surface until it reaches a sandy beach and moves without being affected by the tsunami. The chain-like outer wall mega-float adjacent floating member which rotates and does not reach the shore or sandy beach is bow-shaped until it reaches the shore or sandy beach. are bent and moved while being connected by the connecting member. When the chain-shaped outer wall mega-float adjacent floating member approaches the coast or sandy beach of the bay entrance, the tsunami countermeasure mega-float floating member rotates and reaches the chain-shaped outer wall mega-float adjacent floating member and the tsunami countermeasure mega-float floating member. It is possible for the members to run over the coast or sandy beach and mitigate or prevent the entry of tsunamis into the bay. In addition, for example, by arranging a plurality of bow-shaped chain-like outer wall mega-float-adjacent floating members overlapping the ends of the chain-like outer wall mega-float-adjacent floating members, there is no obstacle to the operation of the ship in peacetime. In the event of a tsunami, the floating member adjacent to the chain-shaped outer wall mega-float overlaps at the end, and the tsunami countermeasure mega-float floating member rotates to mitigate or prevent the tsunami from entering the bay from the entrance of the bay. It becomes possible.
Even on the coasts of the Pacific Ocean or the Sea of Japan that do not constitute a bay such as Tohoku, a plurality of bow-shaped chain-shaped outer wall mega-float adjacent floating body members provided with chain-shaped outer wall mega-float adjacent floating body members overlap the ends of said chain-shaped outer wall mega-float adjacent floating body members. By arranging a plurality of floating members adjacent to the mega-float on the outer wall, it is possible to mitigate or prevent the tsunami by rotating the tsunami countermeasure mega-float floating member in the event of a tsunami without impeding the operation of the ship in normal times. .

Claims (8)

Equipped with an adjacent floating body member or mega-float adjacent floating body member having a predetermined height above the water surface and a certain depth from the water surface, and
said adjacent floating body member or mega-float an upper floating body part or mega-float having a lower contact part of equal depth or greater depth that contacts the inner side or outer side of said adjacent floating body member and having a back floating body or mega-float back floating body A float upper floating body part is provided on the upper part of the lower contact part, and even if a load of a certain weight is loaded, the floating body member or mega-float moves vertically along the side surface of the adjacent floating body member or mega-float and does not roll. A floating device or a mega-float floating device comprising a float member. A cylindrical adjacent floating body member or mega-float cylindrical adjacent floating body member having a predetermined height from the water surface and a constant depth from the water surface, and
A cylindrical lower contact portion having a similar depth or a greater depth that penetrates the cylindrical inner side surface of the adjacent cylindrical floating body member or mega-float adjacent cylindrical floating member is provided, and the back surface floating body or the back surface floating body or the A floating body member or a mega-float floating body member that has an upper floating body part that incorporates a mega-float back surface floating body or a mega-float upper floating body part that penetrates the tubular interior of the adjacent tubular floating body member or mega-float tubular adjacent floating body member A floating device or a mega-float floating device characterized by: 3. The floating device according to claim 2, wherein the floating member is an offshore wind power generation member or an offshore floating house. Said mega-float tubular-shaped adjacent floating body member is a large-sized mega-float adjacent floating body member having a large internal cylinder and external aeronautical equipment, and said mega-float floating body member is an offshore airfield mega-float floating body member. Item 2. The mega-float floating body device according to item 2. It has an air layer of 5 meters or more (preferably 15 meters) above the water surface, has a predetermined height above the water surface, and has a cylinder that has a certain weight at the bottom, a certain depth from the water surface, and connects chains. An adjacent floating body member or mega-float adjacent floating body member is provided with a lower contact portion of equal depth or greater depth for contacting the outer side surface of said adjacent floating body member or mega-float adjacent floating body member and having a predetermined width or width. A floating body member or mega-float floating body member having an upper floating body portion or a mega-float upper floating body portion having a mega-float width and a predetermined length, and having the tube of the adjacent floating body member and the tip of the upper floating body portion connected by a chain. A floating device or a mega-float floating device characterized by: It has an air layer of 5 meters or more (preferably 15 meters) above the water surface, has a predetermined height above the water surface, and has a cylinder that has a certain weight at the bottom, a certain depth from the water surface, and connects chains. An adjacent floating body member or mega-float adjacent floating body member and a lower contact portion of equal depth or greater depth that contacts the outer side surface of said adjacent floating body member or mega-float adjacent floating body member and having a predetermined width or mega-float width and an upper floating body part or mega-float upper floating body part of a predetermined length, and a floating body member or mega-float floating body member in which the tube of the adjacent floating body member and the tip of the upper floating body part are connected by a chain, and the upper part The height above the water surface of the upper floating body portion or mega-float upper floating body portion is alternately changed by a width shorter than the width of the floating body portion or the mega-float upper floating-body portion, and the plurality of adjacent floating body members or mega-float tubular shapes are adjacent to each other by fixing members. A chain-shaped floating body device or a chain-shaped mega-float chain-shaped floating body device comprising a chain-shaped floating body member or a chain-shaped mega-float floating body member to which a floating body member is fixed. A cylinder that has an air layer of 5 meters or more (preferably 15 meters) above the sea surface, has a predetermined height above the water surface, has a certain weight of sea water at the bottom, has a certain depth from the water surface, and connects the chain. and a lower vertical bottom contact portion of equal depth or greater depth and predetermined width in contact with the outer side surface of said adjacent floating body member or megafloat adjacent floating body member. and an upper floating body portion having a predetermined width or mega-float width and a predetermined length. A floating device or a mega-float floating device comprising a float member. It has an air layer at a height of 5 meters or more (preferably 15 meters) above the sea surface, has a predetermined height above the water surface, has a certain weight of seawater, has a certain depth from the water surface, and has a cylinder connected to a chain. a lower vertical bottom contacting portion of a predetermined width with the same depth or a greater depth in contact with the adjacent floating body member or mega-float adjacent floating body member and the outer side surface of said adjacent floating body member or mega-float adjacent floating body member and a predetermined width; or a mega-float width and a predetermined length of the upper floating body part mega-float upper floating body part, and the tube of the adjacent floating body member and the tip of the upper floating body part mega-float upper floating body part are connected by a chain The position of the lower vertical bottom contact portion of the floating member or mega-float floating member is alternately changed, and the upper floating member has a width shorter than the width of the upper floating member of the mega-float, and is fixed by a plurality of fixed members. A chain-shaped floating body device or a chain-shaped mega-float chain-shaped floating body device comprising a chain-shaped floating body member or a chain-shaped mega-float floating body member to which the adjacent floating body member or the mega-float adjacent floating body member is fixed.