JP2021167565A - Tsunami countermeasure float device - Google Patents

Abstract

To provide a tsunami countermeasure float device in which a float breakwater portion of a tsunami countermeasure float member becomes a breakwater by rotation when guided by a guide float member and when the guide float member gets closer to a shore due to a tsunami.SOLUTION: A tsunami countermeasure float device comprises: a guide float having a certain depth from the water surface; and a tsunami countermeasure float member which is connected with the guide float by a chain, which includes a bottom surface contact portion deeper than the guide float, and which includes a float breakwater portion having a certain width and length and comprising a float at a front surface or a rear surface. When the tsunami countermeasure float device gets closer to a shore, the float breakwater portion of the tsunami countermeasure float member is rotated to become a breakwater.SELECTED DRAWING: None

Description

An object of the present invention is to provide a tsunami countermeasure floating body device in which a tsunami countermeasure floating body member rotates to become a breakwater when approaching a shore due to a tsunami.

Japan is a disaster-prone country, and tsunami countermeasures for the Nankai earthquake are an urgent issue.

The applicant has already proposed a chain tsunami countermeasure floating island (Japanese Patent Laid-Open No. 2015-214861), a tsunami countermeasure annular fishery floating island (Patent No. 5969565), and a deep sea water temperature difference power generation tsunami countermeasure annular device (Patent No. 6318328). ..

JP 2015-214861 Patent 5969565 Patent 6318328

A first object of the present invention is to provide a tsunami countermeasure floating device in which the tsunami countermeasure floating member rotates to become a breakwater when the guided floating member is guided by the guided floating member and approaches the shore due to a tsunami.
A second object of the present invention is to provide a chain tsunami countermeasure floating device in which the tsunami countermeasure floating device is connected by a chain.

The tsunami countermeasure floating device of the present invention includes an induced floating member having a certain depth from the water surface and a contact portion connected to the guided floating member by a chain and having a depth deeper than the depth of the induced floating member, and having a predetermined width and length. It is characterized in that it is provided with a tsunami countermeasure floating body member provided with a breakwater portion having a depth, and the tsunami countermeasure floating body member rotates to become a breakwater when approaching the shore.
The tsunami countermeasure floating device according to claim 1 includes an induction floating member having a predetermined height from the water surface and a certain depth from the water surface, and a contact portion having a depth larger than the depth of the induction floating member and having a predetermined width. A tsunami countermeasure buoy member having a predetermined length for preventing a tsunami, including a tsunami countermeasure buoyant member connected to the induction buoyant member by a chain, and the tsunami countermeasure buoyant member connected to the induction buoyant member by a chain. Is guided by the tsunami and moves, and when the contact portion and the sea bottom come into contact with each other, the floating breakwater portion moves from the water surface to the guided floating member having a predetermined height, so that the tsunami countermeasure floating member rotates. When approaching the shore due to a tsunami, the floating breakwater portion becomes a breakwater.
The tsunami countermeasure floating device according to claim 2 is an induction floating member having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 5 meters or more, and a cylinder connecting chains, and the above. A tsunami countermeasure floating body member having a contact portion having a depth larger than the depth of the guided floating body member and a floating body breakwater portion having a predetermined width and a length for preventing a tsunami is provided. When the tsunami countermeasure floating member whose tip end is connected by a chain is guided by the tsunami and moves and the contact portion and the sea bottom come into contact with each other, the floating breakwater portion has a predetermined height from the water surface due to the tsunami. After the tsunami countermeasure floating member rotates by moving to the guided floating member, the floating breakwater portion becomes a breakwater when approaching the shore due to the tsunami.
The chain tsunami countermeasure floating device according to claim 3 has an air layer having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 5 meters or more, and a cylinder connecting chains. A plurality of tsunami countermeasure floating members having a plurality of guided floating members and a contact portion having a depth larger than the depth of the plurality of guided floating members and a floating breakwater having a predetermined width and a length for preventing a tsunami. The height above the water surface of the floating breakwater portion of the plurality of tsunami countermeasure floating members, which is provided and the cylinder of the plurality of guided floating member members and the tip end portion of the floating breakwater portion are connected by a chain, is alternately changed. The plurality of guided floating members are fixed as chain-shaped guided floating members by a fixing member having a width shorter than the width of the above, and the plurality of tsunami countermeasure floating members are guided by the chain-shaped guided floating members and moved by the tsunami. When the contact portion and the bottom of the sea come into contact with each other, the tsunami causes the floating breakwater portion to move from the water surface to the guided floating body member having a predetermined height, so that the tsunami countermeasure floating body member rotates, and then when approaching the shore, the plurality of the floating bodies The feature is that the breakwater portion becomes a breakwater.
The tsunami countermeasure floating device according to claim 4 is an induction floating member having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a sea surface height of 5 meters or more, and a cylinder connecting chains. And a contact part having a depth larger than the depth of the induction floating member, a vertical breakwater part having a predetermined width and a depth for preventing a tsunami of 15 meters or more, and a predetermined width and further rotation due to the tsunami. The tsunami countermeasure floating body is provided with a tsunami countermeasure floating body member provided with a floating body rotation blocking portion having a length for blocking the tsunami, and the cylinder of the guided floating body member and the tip end portion of the floating body rotation blocking portion are connected by a chain. When the member moves due to the tsunami and the contact portion comes into contact with the sea bottom, the tsunami countermeasure floating member rotates and the tsunami countermeasure floating member rotates by moving the floating body rotation blocking portion from the water surface to the guided floating member having a predetermined height. After approaching, the floating body rotation blocking portion moves to the ground due to the tsunami, so that the tsunami countermeasure floating body member rotates and the guided floating body member moves, the breakwater breakwater portion becomes a breakwater, and the floating body rotation blocking portion serves as the tsunami countermeasure. It is characterized by preventing further rotation of the floating member.
The plurality of chain tsunami countermeasure floating devices according to claim 5 have an air layer having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a sea surface height of 5 meters or more, and a cylinder connecting chains. A contact portion having a depth larger than the depth of the guided floating member and the plurality of guided floating members, and a vertical breakwater having a predetermined width and a depth for preventing a tsunami of 15 meters or more are provided and a predetermined width is provided. A plurality of tsunami countermeasure floating body members provided with a floating body rotation blocking portion having a length for preventing further rotation due to the tsunami, and the cylinder of the plurality of guided floating body members and the tip portion of the floating body rotation blocking portion. The positions of the breakwaters of the plurality of tsunami countermeasure floating members connected by chains are alternately changed, and the plurality of guided floating members are fixed as chain-shaped guided floating members by a fixing member having a width shorter than the predetermined width. When the contact portion comes into contact with the bottom of the sea, the tsunami causes the floating body rotation blocking portion to move from the water surface to the guided floating body member having a predetermined height. After the tsunami countermeasure floating member rotates by moving from the water surface to the guided floating member having a predetermined height and approaches the shore, the floating body rotation blocking portion moves to the ground due to the tsunami, thereby causing the plurality of tsunamis. As the countermeasure floating body member rotates, the chain-shaped guided floating body member moves, and the plurality of the breakwater breakwater portions serve as a breakwater, and the plurality of the floating body rotation blocking portions prevent further rotation of the plurality of the tsunami countermeasure floating body members. And.
The tsunami countermeasure floating device or a chain tsunami countermeasure floating device according to claim 6, wherein the contact portion or a plurality of contact portions have a depth of 500 meters or more. It is a device or a chain tsunami countermeasure floating device.
The tsunami countermeasure floating device according to claim 7 is for preventing a tsunami with a predetermined width and a chain with the guided floating member having a predetermined height from the water surface and a certain depth from the water surface. A tsunami countermeasure floating body member provided with a floating body breakwater portion having a predetermined length is provided, and when the tsunami countermeasure floating body member moves together with the guided floating body member due to the tsunami and the contact portion contacts the sea floor, the floating body breakwater portion is raised to the water surface by the tsunami. It is characterized in that the tsunami countermeasure floating body member rotates and approaches the shore by moving from the to the guided floating body member having a predetermined height, and then the floating body breakwater portion becomes a breakwater.
The tsunami countermeasure floating device according to claim 8 is an induction floating member having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 15 meters or more, and a cylinder connecting chains. And a floating breakwater portion having a predetermined width and a length for preventing a tsunami and having a predetermined width and a length for preventing a tsunami, and having a contact portion having a depth larger than the depth of the guided floating body member and a tip portion connected by a chain. The tsunami countermeasure floating member is provided with a tsunami countermeasure floating member, and the cylinder of the guided floating member and the tip of the floating breakwater are connected by a chain. When the bottom of the sea comes into contact with the sea bottom, the tsunami causes the floating breakwater to move from the water surface to the guided floating member having a predetermined height, so that the tsunami countermeasure floating member rotates and approaches the shore. It is characterized by being a breakwater.
The plurality of chain tsunami countermeasure floating devices according to claim 9 have an air layer having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 15 meters or more, and a cylinder connecting chains. The guided floating member and the plurality of guided floating members have a contact portion having a depth larger than the depth of the plurality of guided floating members, and have a predetermined width and a length for preventing a tsunami. A plurality of tsunami countermeasure floating members having connected floating breakwaters are provided, and the height of the plurality of tsunami countermeasure floating members on the water surface is alternately changed to a width shorter than the predetermined width. A plurality of tsunami countermeasure floating members in which the cylinder of the chain-guided floating member and the tip of the floating breakwater are connected by a chain while fixing the guided floating member with a fixing member to form a chain-shaped guided floating member. When the chain guided floating body member is guided by the tsunami and the plurality of contact portions come into contact with the sea bottom, the floating body breakwater portion moves from the water surface to the guided floating body member having a predetermined height due to the tsunami. After the tsunami countermeasure floating member rotates and approaches the shore, the plurality of floating breakwaters become breakwaters.
The tsunami countermeasure floating device according to claim 10 is an induction floating member having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, and a cylinder connecting a chain with an air layer having a sea surface height of 15 meters or more. And a contact portion having a depth larger than the depth of the induction floating member, a vertical breakwater portion having a predetermined width and a depth for preventing a tsunami of 15 meters or more, and a predetermined width and further rotation due to the tsunami. A tsunami countermeasure floating body member having a length for blocking the guide floating body member and a floating body rotation blocking portion in which the tip portion is connected by a chain is provided, and the cylinder of the guided floating body member and the floating body rotation blocking portion are provided. The tsunami countermeasure floating member whose tip is connected by a chain is guided by the guided floating member and moves by the tsunami, and the contact portion and the sea bottom come into contact with each other and the floating body rotation blocking portion is raised from the water surface at a predetermined height. After the tsunami countermeasure floating member rotates and approaches the shore by moving to the guided floating member provided with the above, the tsunami countermeasure floating member rotates and the tsunami countermeasure floating member rotates by moving the floating body rotation blocking portion to the ground due to the tsunami. The guide floating body member moves and the breakwater portion becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating body member.
The chain tsunami countermeasure floating device according to claim 11 has a plurality of cylinders connecting a chain with an air layer having a certain depth from the water surface and having a weight capable of withstanding a tsunami and a height above the sea surface of 15 meters or more at the bottom. A contact portion having a depth larger than the depth of the guided floating member and the plurality of guided floating members, and a vertical breakwater having a predetermined width and a depth for preventing a tsunami of 15 meters or more are provided and a predetermined width is provided. It is provided with a plurality of tsunami countermeasure floating body members having a length for preventing further rotation due to the tsunami and a floating body rotation blocking portion in which the induction floating body member and the tip portion are connected by a chain, and the plurality of tsunamis. Countermeasure The position of the breakwater portion of the floating body member is alternately changed to fix the plurality of guided floating body members with a fixing member having a width shorter than the predetermined width to form a chain-shaped guided floating body member, and the cylinder and the floating body rotation blocking portion. The plurality of tsunami countermeasure floating members whose tips are connected by chains move due to the tsunami by the guidance of the chain-shaped guided floating member, and the plurality of contacting portions come into contact with the sea bottom to cause the floating body rotation blocking portion due to the tsunami. After the tsunami countermeasure floating member rotates by moving from the water surface to the guided floating member having a predetermined height, when approaching the shore, the floating body rotation blocking portion moves to the ground due to the tsunami, so that the plurality of tsunamis occur. The countermeasure floating body member rotates and the chain-shaped guided floating body member moves, the breakwater portion becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the plurality of the tsunami countermeasure floating body members.
The tsunami countermeasure floating device or chain tsunami countermeasure floating device according to claim 12 has the contact portion or a plurality of contact portions having a depth of 500 meters or more, and the guided floating body member or chain guided floating member approaches offshore. The contact portion or a plurality of contact portions come into contact with the seabed, and the tsunami countermeasure floating body member moves from the water surface to the guided floating body member or the chain guided floating body member having a predetermined height due to the tsunami. The tsunami countermeasure floating device or chain tsunami countermeasure floating device according to claims 7 to 9, wherein the floating breakwater portion becomes a breakwater after rotating offshore and approaching the shore.
The tsunami countermeasure floating device or chain tsunami countermeasure floating device according to claim 13 has a contact portion or a plurality of contact portions having a depth of 500 meters or more, and the cylinder of the induction floating body member and the tip of the floating body rotation blocking portion. When the tsunami countermeasure floating member or a plurality of tsunami countermeasure floating members whose portions are connected by a chain approaches offshore by the guidance of the guided floating member or the chain guided floating member, the contact portion or the plurality of contact portions and the sea bottom become After the floating body rotation blocking part comes into contact with the guided floating body member or the chain-shaped guided floating body member due to the tsunami and the tsunami countermeasure floating body member rotates and approaches the shore, the floating body rotation blocking part is brought to the ground by the tsunami. By moving, the tsunami countermeasure floating member or a plurality of tsunami countermeasure floating members rotate, and at the same time, the guided floating member or the chain guided floating member moves, the breakwater portion becomes a breakwater, and the floating body rotation blocking portion serves as the tsunami countermeasure floating body. The tsunami countermeasure floating device or chain tsunami countermeasure floating device according to claim 10 or 11, characterized in that the member or a plurality of tsunami countermeasure floating members are prevented from further rotating.

Since the depth of the contact portion of the tsunami countermeasure floating member from the water surface is deeper than the depth of the guided floating member, the tsunami countermeasure floating member rotates to become a breakwater when approaching the shore, and then the guided floating member and the tsunami. Countermeasures Floating members ride on the shore.
Since the position of the breakwater portion of the tsunami countermeasure floating member is alternately changed and the induction floating member is fixed by a width shorter than a predetermined width of the breakwater portion, the breakwater is rotated by the tsunami countermeasure floating member when approaching the shore. The parts are alternately overlapped to form a breakwater, after which the guided floating body member and the tsunami countermeasure floating body member ride on the shore.

The first embodiment of the tsunami countermeasure floating device according to the present invention is seawater having a certain depth from the water surface and having a weight that can withstand the tsunami at the bottom and air having a height above the sea surface of 5 meters or more (preferably 15 meters). To provide a guided floating body member having a cylinder provided on the upper surface, for example, to connect layers and chains, and to prevent a bottom contact portion having a depth larger than the depth of the guided floating body member and a tsunami having a predetermined width and 15 meters or more. A tsunami countermeasure floating body member provided with a floating breakwater portion having a floating body such as a hollow film body on the front surface or the front surface and the back surface in length, and the cylinder of the induction floating body member and the tip end portion of the floating body breakwater portion are connected by a chain. It is characterized by having.
When guided by the guided floating body member and approaching the shore, the depth of the bottom contact portion of the tsunami countermeasure floating body member is deeper than the depth of the guided floating body member, so that the floating body breakwater portion rotates to become a breakwater, and the guided floating body member causes the breakwater. Further rotation of the floating breakwater portion of the tsunami countermeasure floating member due to the tsunami is prevented. In addition, in order to prevent the floating body breakwater portion from further rotating, the guided floating body member has a large circular shape, for example, and the floating body of the hollow film body acts as a buffer when the floating body breakwater portion rotates.
Further, in order to prevent further rotation of the floating breakwater portion of the tsunami countermeasure floating member, the guided floating member may have an annular shape formed by the floating member and a large annular coupling shape in which adjacent floating members are joined by a hard coupling member.
When the bottom contact portion of the tsunami countermeasure floating body member is set relatively deeply, the floating body breakwater portion rotates before approaching the shore, and when the tsunami countermeasure floating body member reaches the shore, the guided floating body member and the tsunami countermeasure floating body member ride on the shore. Further, if the bottom contact portion of the tsunami countermeasure floating body member is set to a depth of 500 meters or more, the floating body breakwater portion rotates offshore.
In the chain tsunami countermeasure floating device according to the present invention, the height above the water surface of the floating breakwater portion of the tsunami countermeasure floating member is alternately changed, and a plurality of the guided floating member members are fixed by the fixing member with a width shorter than the predetermined width. It is characterized by being equipped with a chain-shaped tsunami countermeasure floating member.
Since the height of the floating breakwater of the tsunami countermeasure floating member is alternately changed and the guided floating member is fixed at a width smaller than the width of the floating breakwater, the tsunami countermeasure floating member rotates when approaching the shore. As a result, the floating breakwater portions are alternately overlapped to form a breakwater, and the guided floating body member prevents further rotation due to the tsunami. When it reaches the shore, the guided floating member and the tsunami countermeasure floating member ride on the shore.

The second embodiment of the tsunami countermeasure floating device according to the present invention is seawater having a certain depth from the water surface and having a weight that can withstand the tsunami at the bottom and air having a sea level of 5 meters or more (preferably 15 meters). A guide floating member having a cylinder provided on the upper surface, for example, for connecting layers and chains, and a contact portion having a depth larger than the depth of the guided floating member, a predetermined width, and a depth for preventing a tsunami of 15 meters or more. The induction floating body is provided with a vertical bottom contact breakwater part having a tsunami and a floating body rotation blocking part having a floating body such as a hollow film body on the front surface or the front surface and the back surface having a predetermined width and a length for preventing further rotation. It is characterized by comprising a tsunami countermeasure floating body member in which the cylinder of the member and the tip end portion of the floating body rotation blocking portion are connected by a chain.
When guided by the guided floating body member and approaching the shore, the depth of the contact portion of the tsunami countermeasure floating body member is deeper than the depth of the guided floating body member, so that the tsunami countermeasure floating body member rotates and the length of the floating body rotation blocking portion. Is large, so that further rotation of the bottom contact breakwater portion due to the tsunami is prevented. The guided floating body member does not have to be large as in the first embodiment because it is not necessary to prevent further rotation of the bottom contact breakwater portion.
When the contact portion of the tsunami countermeasure floating body member is set relatively deeply, the bottom contact breakwater portion rotates before approaching the shore, and when the contact portion reaches the shore, the guided floating body member and the tsunami countermeasure floating body member ride on the shore. Further, if the contact portion of the tsunami countermeasure floating body member is set to a depth of 500 meters or more and the bottom contact floating breakwater portion having a floating body such as a hollow fiber membrane on the induction floating body side of the bottom contact breakwater portion is used, a tsunami occurs offshore. Countermeasure The floating body rotation blocking portion of the floating body member rotates, and the bottom contact floating body breakwater portion becomes a floating body. When the tsunami countermeasure floating body member rides on the shore, the floating body rotation blocking portion is pushed by the tsunami and the bottom contact floating body breakwater portion further rotates to become a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating body member.
In the second embodiment of the chain tsunami countermeasure floating device according to the present invention, the positions of the bottom contact breakwater portion of the tsunami countermeasure floating member member are alternately changed, and a plurality of the guided floating bodies are formed by a fixing member having a width shorter than the predetermined width. It is characterized by being provided with a chain-shaped tsunami countermeasure floating member with the member fixed. Since the position of the bottom contact breakwater of the tsunami countermeasure floating member is alternately changed and the induction floating member is fixed with a width smaller than the width of the bottom contact breakwater, the tsunami countermeasure floating member rotates when approaching the shore. The bottom contact breakwater portions are alternately overlapped to form a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating body member due to the tsunami. When it reaches the shore, the guided floating member and the tsunami countermeasure floating member ride on the shore.

In the first embodiment of the tsunami countermeasure chain ring fishing float device according to the present invention, seawater having a weight capable of withstanding a tsunami at the bottom, an air layer having a sea surface height of 5 meters or more (preferably 15 meters), and a chain on the upper surface. A guided floating body member having a cylinder for connecting the water, a bottom contact portion having a depth larger than the depth of the guided floating body member arranged outside the guided floating body member, and a predetermined width and a length for preventing tsunami. A steel tsunami countermeasure floating member having a floating breakwater on the back surface or on the front surface and the back surface and being connected to the tip of the floating breakwater by a cylinder and a chain of the induction floating member, and a floating body of the tsunami countermeasure floating member. The height above the water surface of the breakwater was alternately changed, and the width was narrower than the predetermined width. A renewable energy power generation device, an annular inductive floating member in which the plurality of inductive floating members are connected in an annular shape, a chained annular inductive floating member in which the annular inductive floating member is connected by a chain so as to be bendable, and the annular inductive floating member. A fishing device or a cultivating device held by a water circulation device, a water circulation pipe having a lower water discharge opening on the water surface at the upper part and a water intake opening at the lower part for taking in deep water, and the inside of the water circulation pipe. An annular internal penetrating member having a specific gravity smaller than that of water that closes the water discharge opening when the water surface inside the penetrating water surface is the same as the water surface outside the water circulation pipe, and an upper portion of the annular internal penetrating member inside the water circulation pipe. A floating structure including an exhaust means for exhausting air by the electric power of the natural energy power generation and a temporary water storage tank for holding the water circulation pipe and temporarily storing the deep water discharged from the water discharge opening and discharging it to the outside. It is characterized in that an object is arranged inside the annular guided floating body member.

A second embodiment of the tsunami countermeasure chained annular fishery floating device according to the present invention includes seawater having a weight capable of withstanding a tsunami at the bottom, an air layer having a sea surface height of 5 meters or more (preferably 15 meters), and a chain on the upper surface. A vertical bottom contact breakwater with a contact portion having a depth larger than the depth of the induction float member and a predetermined width and a depth for preventing a tsunami of 15 meters or more. And the cylinder of the induction floating member and the floating body rotation blocking portion provided with a floating body rotation blocking portion having a floating body such as a hollow film body on the front surface or the front surface and the back surface having a predetermined width and a length for preventing further rotation. The positions of the steel tsunami countermeasure floating body member whose tip is connected by a chain and the bottom contact breakwater of the tsunami countermeasure floating member member are alternately changed and joined by, for example, a metal coupling member with a width narrower than the predetermined width. A plurality of induced floating members, a natural energy power generation device arranged in any of the plurality of guided floating members, an annular guided floating member in which the plurality of guided floating members are coupled in an annular shape, and the annular guided member. Deep water provided with a chain-shaped annular guided floating member in which the floating member is foldably connected by a chain, a fishing device or a cultivation device held by the annular guided floating member, and a lower water discharge opening on the water surface. A water circulation pipe having a water intake opening at the bottom and a specific gravity that closes the water discharge opening when the water surface inside the water circulation pipe is the same as the water surface outside the water circulation pipe. An annular internal penetrating member smaller than water, an exhaust means for exhausting the air above the annular internal penetrating member in the water circulation pipe by the power of the natural energy power generation, and an opening for holding the water circulation pipe and discharging the water. It is characterized in that a floating structure including a temporary water storage tank for temporarily storing deep water discharged from the water and discharging it to the outside is arranged inside the annular guided floating body member.

Since the floating structure for holding the water circulation pipe is arranged inside the annular guided floating member in which the large number of guided floating members are connected by the coupling member, it is unused from the water intake opening 200 meters or more below the water surface. Deep water containing a large amount of nutrients is taken in, deep water is discharged from the water discharge opening at the bottom of the water surface to the temporary water tank, and the stored water is discharged from the temporary water tank to the sea surface near the floating structure. It becomes a good fishing ground.
Further, a floating breakwater portion or a floating body rotation blocking portion having a predetermined width and a length for preventing a tsunami on the outside of the plurality of guided floating body members on the outer world side and having floating bodies on the front surface or the back surface or on the front surface and the back surface. The position of the breakwater portion of, for example, a steel tsunami countermeasure floating body member provided with a bottom contact portion or a bottom contact breakwater portion having a depth larger than the depth of the portion and the induction floating body member is alternately changed to a width shorter than the predetermined width. The induction floating member is fixed by the fixing member. Tsunami countermeasures The tip of the floating body breakwater portion or the floating body rotation blocking portion of the floating body member and the cylinder of the guided floating body member are connected by a chain.
If the annular guided floating member is connected by a chain and the arched chained annular guided floating member is arranged, the annular guided floating member only floats on the sea surface until it reaches the shore or the sandy beach at the entrance of the bay, and the tsunami has no effect on the strength. When moving without receiving and approaching the coast or near a sandy beach, the bottom contact portion of the tsunami countermeasure floating member first contacts the bottom, so that the tsunami countermeasure floating member rotates, and the guided floating member or the floating body rotation blocking portion causes a tsunami. Further rotation is blocked. When it reaches the shore or the beach, the annular guided floating member and the tsunami countermeasure floating member ride on the shore or the beach. The annular guided floating member that does not reach the shore or sandy beach or reef moves while the annular guided floating member having a bow shape is bent and joined to each other by the connecting member until the annular guided floating member reaches the coast or sandy beach.
The fishing device or aquaculture device held by the annular floating member is also an embodiment of a fishing cage already proposed by the present applicant and a farming cage (Japanese Patent Laid-Open No. 2011-217615) that also serves as a fishing cage, but the present invention is not limited thereto. Known fishing or aquaculture equipment can also be implemented.

In the open sea such as Tokyo Bay, Osaka Bay, and Ise Bay, where there are many large cities and underground facilities, if the arch-shaped chain-shaped annular guided floating member is placed, the annular guided floating member will reach the coast or sandy beach at the entrance of the bay. It only floats on the surface of the sea and moves without being affected by the tsunami, and when it approaches the beach or sandy beach, the tsunami countermeasure floating body member rotates and the annular guided floating body member and the tsunami countermeasure floating body member ride on the beach or sandy beach. The annular guided floating member that does not reach the shore, sandy beach or reef while mitigating or preventing the invasion of the tsunami is arched until the annular guided floating member reaches the coast, sandy beach or reef. It bends and moves while being connected by the connecting member. When it reaches the shore or sandy beach at the entrance of the bay, the tsunami countermeasure floating member rotates, and the guided floating body member and the tsunami countermeasure floating body member can ride on the coast or sandy beach to mitigate or prevent the invasion of the tsunami into the bay. Is. Further, for example, by arranging the chain-shaped annular guided floating member by overlapping the ends of the chain-shaped annular guided floating member and arranging a plurality of bow-shaped chain-shaped annular guided floating members, the operation of the ship is hindered in normal times. In the event of a tsunami without giving, since the ends of the plurality of arch-shaped annular guided floating members overlap, the rotation of the tsunami countermeasure floating members alleviates or prevents the entry of the tsunami from the entrance of the bay into the bay. It becomes possible to do.
Even on the Pacific coast or the coast of the Sea of Japan, which does not constitute the Tohoku region bay, if a plurality of arch-shaped chain ring-guided floating members having the chain-shaped ring-shaped guided floating members are arranged with overlapping ends, in normal times In the event of a tsunami, it is possible to mitigate or prevent the tsunami by rotating the tsunami countermeasure floating member members, with the plurality of arch-shaped annular guided floating members overlapping at the ends without impeding the operation of the ship. be.
A plurality of bow-shaped chain-shaped annular induction floating members having overlapping ends according to the present invention alleviate or prevent the invasion of tsunami to the coast, and a plurality of bow-shaped chain-like annular guidance. It is also possible to lay a power cable on the floating body member and connect the induction floating body members at the ends of the plurality of bow-shaped chain-shaped annular guided floating body members in the sea with a power cable to form a power cable network. ..

The first embodiment of the chain ring fishing floating body device for deep water temperature difference power generation tsunami countermeasures according to the present invention includes a condenser that passes through the working fluid gas deep water, an evaporator that passes through the working fluid gas surface water, and an operation. A large circular airtight space with a large inner and outer diameter that allows sunlight to pass through while containing a fluid gas, and a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. It is equipped with a large external support member having a matching inner side wall, an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers, and rotating blades having fixed angles at approximately equal intervals because they are rotated by the flow of working gas. A large circumferential rotating body structure provided with a large inner rotating member and built in the large circumferential airtight space substantially parallel to the sea surface, and a magnet and a coil interlocking with the rotation of the large inner rotating member are arranged. A power generation device that generates gas as is known by electromagnetic induction, an upper air layer having a large inner and outer diameter at one end, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface. A deep water intake structure including a large circumferential cylindrical deep water storage tank containing the condenser and a riser tube having a deep water intake opening at the other end at the lower part of the large circumferential cylindrical deep water storage tank. The specific gravity that penetrates the object and the inside of the large circumferential 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 circumferential cylindrical deep water storage tank. It has a cylindrical internal penetrating member smaller than water, and the air in the upper air layer is exhausted by natural energy means in the large circumferential cylindrical deep water storage tank, and the water surface in the large circumferential cylindrical deep water storage tank is exhausted. By moving the member above the water surface outside the large circumferential cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the upper part of the large circumferential cylindrical deep water storage tank, and the size is larger than the water discharge opening. A large deep water storage floating member that discharges the deep water stored in the circumferential cylindrical deep water storage tank to the outside, and surface water that is arranged outside the large circumferential cylindrical deep water storage tank and inserted from the bottom. A cylindrical surface water storage floating body member having a built-in heating means for heating by a natural energy power generation means, and a first connecting pipe for connecting the working gas space of the large circumferential airtight space and the condenser, for example, at 90 degrees. A second connecting pipe for connecting the working gas space of the large circumferential airtight space and the evaporator, which is provided with four first airtight column members arranged at an angle and a tip nozzle for injecting into the rotary blade. A plurality of second airtight column members built-in and arranged at substantially equal intervals on the circumference, and the large size A heat insulating blocking coupling member in an eight-equal direction that connects the deep water storage floating body member and the cylindrical surface water storage floating body member at an angle of, for example, 45 degrees, and a heat insulating blocking coupling member arranged at the center of the heat insulating blocking coupling member. A working fluid connecting pipe that connects the evaporator and the condenser, an air layer that is located outside the cylindrical surface water storage floating body member and has a sea surface height of 10 meters or more, and a weight that can withstand a tsunami and has a tensile force. An outer wall-guided floating member having a thickness and a height that can withstand the water, and an annular outer wall-guided floating member in which a large number of the outer wall-guided floating members are arranged in an annular shape on the outside of the cylindrical surface water storage floating member. An outer wall-guided floating member provided in any of a large number of outer wall-guided floating members and having fresh water at the bottom, a renewable energy power generation device such as a wind power generator arranged in any of the large number of outer wall-guided floating members, and the above. A fishing device or a cultivation device held by an annular outer wall guided floating member, and a cylinder and a tip of the outer wall guided floating member having a predetermined width and a length for preventing a tsunami, which are arranged outside the outer wall guided floating member. A steel tsunami countermeasure floating body member having a floating breakwater portion connected by a chain and having a floating body on the front surface or the back surface or a floating body on the front surface and the back surface, and a bottom contact portion having a depth larger than the depth of the guided floating body, and the outer wall. A plurality of annular outer wall guided floating members in which the induced floating member is joined by, for example, a metal coupling member by alternately changing the height of the floating breakwater of the tsunami countermeasure floating member on the water surface and having a width narrower than the predetermined width. And a chain-shaped annular outer wall guiding member in which the plurality of annular outer wall guiding floating members are foldably connected by a chain, and the upper part of the cylindrical internal penetrating member in the large circumferential cylindrical deep water storage tank. By exhausting air and moving the water surface inside the large circumferential cylindrical deep water storage tank above the water surface outside the large circumferential cylindrical deep water storage tank, the cylindrical internal penetrating member is moved upward and the water The deep water stored from the discharge opening is discharged to the outside of the large circumferential cylindrical deep water storage tank, the seawater or lake water in the riser pipe is moved to the upper part, and the seawater or lake water in the deep water intake structure is discharged. By circulating, deep water is taken into the large circumferential cylindrical deep water storage tank from the deep water intake opening, and the first connection for connecting the working gas space of the large circumferential airtight space and the condenser. The working gas that has passed through the pipe becomes a liquid working fluid by the condenser built in the large circumferential cylindrical deep water storage tank, and the working fluid of the liquid becomes the cylindrical surface layer via the working fluid connecting pipe. Steam built into the water storage floating member It is characterized in that it passes through a generator, becomes a working fluid of gas, and is injected into the rotary blades of a large inner rotating member having a fixed angle at substantially equal intervals via a tip nozzle provided in the second connecting pipe. ..

The second embodiment of the chain ring fishing floating body device for deep water temperature difference power generation tsunami countermeasures according to the present invention is an operation of a condenser that passes through the working fluid gas deep water and an evaporator that passes through the working fluid gas surface water. A large circular airtight space with a large inner and outer diameter that allows sunlight to pass through while containing a fluid gas, and a plurality of intermediate balls or intermediate cylindrical rollers and the plurality of intermediate balls or intermediate cylindrical rollers. It is equipped with a large external support member having a matching inner side wall, an outer wall that engages with the plurality of intermediate balls or intermediate cylindrical rollers, and rotating blades having fixed angles at approximately equal intervals because they are rotated by the flow of working gas. A large circumferential rotating body structure provided with a large inner rotating member and built in the large circumferential airtight space substantially parallel to the sea surface, and a magnet and a coil interlocking with the rotation of the large inner rotating member are arranged. A power generation device that generates gas as is known by electromagnetic induction, an upper air layer having a large inner and outer diameter at one end, an upper air discharge opening for discharging air from the upper air layer, and a water discharge opening on the water surface. A deep water intake structure including a large circumferential cylindrical deep water storage tank containing the condenser and a riser tube having a deep water intake opening at the other end at the lower part of the large circumferential cylindrical deep water storage tank. The specific gravity that penetrates the object and the inside of the large circumferential 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 circumferential cylindrical deep water storage tank. It has a cylindrical internal penetrating member smaller than water, and the air in the upper air layer is exhausted by natural energy means in the large circumferential cylindrical deep water storage tank, and the water surface in the large circumferential cylindrical deep water storage tank is exhausted. By moving the member above the water surface outside the large circumferential cylindrical deep water storage tank, the cylindrical internal penetrating member is moved to the upper part of the large circumferential cylindrical deep water storage tank, and the size is larger than the water discharge opening. A large deep water storage floating member that discharges the deep water stored in the circumferential cylindrical deep water storage tank to the outside, and surface water that is arranged outside the large circumferential cylindrical deep water storage tank and inserted from the bottom. A cylindrical surface water storage floating body member having a built-in heating means for heating by a natural energy power generation means, and a first connecting pipe for connecting the working gas space of the large circumferential airtight space and the condenser, for example, at 90 degrees. A second connecting pipe for connecting the working gas space of the large circumferential airtight space and the evaporator, which is provided with four first airtight column members arranged at an angle and a tip nozzle for injecting into the rotary blade. A plurality of second airtight column members built-in and arranged at substantially equal intervals on the circumference, and the large size A heat insulating blocking coupling member in an eight-equal direction that connects the deep water storage floating member and the cylindrical surface water storage floating member, for example, at an angle of 45 degrees, and a heat insulating blocking coupling member arranged at the center of the insulating blocking coupling member. A working fluid connecting pipe that connects the evaporator and the condenser, an air layer that is located outside the cylindrical surface water storage floating body member and has a sea surface height of 10 meters or more, and a weight that can withstand a tsunami and has a tensile force. An outer wall-guided floating member having a thickness and a height that can withstand the water, and an annular outer wall-guided floating member in which a large number of the outer wall-guided floating members are arranged in an annular shape on the outside of the cylindrical surface water storage floating member. An outer wall-guided floating member provided in any of a large number of outer wall-guided floating members and having fresh water at the bottom, a renewable energy power generation device such as a wind power generator arranged in any of the large number of outer wall-guided floating members, and the above. A bottom having a contact portion having a depth larger than the depth of the induction floating member, a fishing device held by an annular outer wall induction floating member, a predetermined width, and a depth for preventing a tsunami of 15 meters or more. The cylinder and the floating body of the guided floating body member are provided with a contact breakwater portion and a floating body rotation blocking portion having a floating body such as a hollow film body on the front surface or the front surface and the back surface having a predetermined width and a length for preventing further rotation. The position of the bottom contact breakwater of the tsunami countermeasure floating body member is alternately changed by, for example, a metal coupling member for the steel tsunami countermeasure floating body member in which the tip of the rotation blocking portion is connected by a chain and the outer wall guided floating body member. The large circular outer wall-guided floating member is provided with a plurality of annular outer wall-guided floating members joined in a width narrower than the predetermined width and a chain-shaped annular outer wall-guided member in which the plurality of annular outer wall-guided floating members are foldably joined by a chain. The air above the inner cylinder penetrating member is exhausted in the circumferential cylindrical deep water storage tank, and the water surface in the large circumferential cylindrical deep water storage tank is above the water surface outside the large circumferential cylindrical deep water storage tank. By moving the inner penetrating member of the cylinder to the upper part, the deep water stored from the water discharge opening is discharged to the outside of the large circumferential cylindrical deep water storage tank, and the seawater or lake water in the riser pipe is discharged. Is moved to the upper part to circulate the seawater or lake water in the deep water intake structure, so that deep water is taken into the large circumferential cylindrical deep water storage tank from the deep water intake opening and the large circumferential type. The working gas that has passed through the first connecting pipe that connects the working gas space in the airtight space and the condenser becomes a liquid working fluid by the condenser built in the large circumferential cylindrical deep water storage tank. The working fluid of the liquid is the working flow. An abbreviation for a large inner rotating member, etc., via a body connecting pipe, passing through an evaporator built in the cylindrical surface water storage floating body member, becoming a working fluid of gas, and passing through a tip nozzle provided in the second connecting pipe. It is characterized by injecting into the rotary blade having a fixed interval angle.

In the above embodiment of the chain ring fishing apparatus for deep water temperature difference power generation tsunami countermeasures according to the present invention, the chain ring outer wall guided floating body member only floats on the sea surface until it reaches the shore or sandy beach at the entrance of the bay, and has no strength due to the tsunami. When the chain-shaped annular outer wall-guided floating member approaches the shore or the beach, the tsunami countermeasure floating member rotates and reaches the shore or the beach, the chain-shaped annular outer wall-guided floating member and the tsunami move. Countermeasures The floating body member rides on the shore or sandy beach, and the guided floating body member or the floating body rotation blocking portion prevents further rotation due to the tsunami and does not reach the shore or sandy beach or reef. Until the sandy beach is reached, the arch-shaped chain-shaped annular outer wall-guided floating body member bends and moves while the chain-shaped annular outer wall-guided floating body members are connected to each other by the connecting member. When the chain-shaped annular outer wall guided floating member approaches the shore or sandy beach at the entrance of the bay, the tsunami countermeasure floating member rotates and when it reaches the coast or sandy beach, the chained annular outer wall guided floating member and the tsunami countermeasure floating member It is possible to ride on the coast or beach and mitigate or prevent the invasion of tsunami into the bay. Further, for example, by arranging a plurality of bow-shaped chain-shaped annular outer wall-guided floating members by overlapping the ends of the chain-shaped annular outer wall-guided floating members, the tsunami can occur in normal times without impeding the operation of the ship. In such a case, the chain-shaped annular outer wall guided floating member overlaps at the end, and the tsunami countermeasure floating member rotates to mitigate or prevent the invasion of the tsunami from the entrance of the bay into the bay.
Further, since it is provided in any of the plurality of annular outer wall induction floating members and has fresh water at the bottom, fresh water can be supplied on 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 annular outer wall-guided floating member is placed, the chain-shaped ring-shaped outer wall-guided floating member can be placed on the coast or sandy beach at the entrance of the bay. It only floats on the surface of the sea until it reaches the beach, and moves without being affected by the tsunami. The chain-shaped annular outer wall-guided floating member does not reach Moving. Then, when the chain-shaped annular outer wall-guided floating member approaches the shore or sandy beach at the entrance of the bay, the chain-shaped annular outer wall-guided floating member and the tsunami-resistant floating member rotate to reach the beach or sandy beach. It is possible to mitigate or prevent the invasion of tsunamis into the landing bay. Further, for example, by arranging a plurality of bow-shaped chain-shaped annular outer wall-guided floating members by overlapping the ends of the chain-shaped annular outer wall-guided floating members, the tsunami can occur in normal times without impeding the operation of the ship. In such a case, the chain-shaped annular outer wall-guided floating body member overlaps at the end portion, and the tsunami countermeasure floating body member rotates to mitigate or prevent the invasion of the tsunami from the entrance of the riding bay into the bay.
Even on the Pacific coast or the coast of the Sea of Japan, which does not constitute the Tohoku Bay, the ends of the chain-shaped annular outer wall-guided floating member having a plurality of arch-shaped annular outer wall-guided floating members are overlapped to form the bow-shaped chain ring. If a plurality of outer wall guided floating members are arranged, it is possible to mitigate or prevent the tsunami by rotating the tsunami countermeasure floating members in the event of a tsunami without impeding the operation of the ship in normal times.

Claims (13)

A guide floating member having a predetermined height from the water surface and a certain depth from the water surface, and a contact portion having a depth larger than the depth of the guided floating member, and having a predetermined width and a predetermined length for preventing a tsunami. It is provided with a tsunami countermeasure floating body member which is connected to the guided floating body member by a chain.
When the tsunami countermeasure floating member connected to the guided floating member by a chain is guided by the tsunami and moves and the contact portion and the seabed come into contact with each other, the tsunami causes the floating breakwater portion to have a predetermined height from the water surface. A tsunami countermeasure floating body device, characterized in that the floating body breakwater portion becomes a breakwater when the tsunami countermeasure floating body member rotates by moving to a member and then approaches the shore due to a tsunami. An induction floating member having a certain depth from the water surface, a weight that can withstand a tsunami at the bottom, an air layer having a height above the water surface of 5 meters or more, and a cylinder connecting chains, and a depth greater than the depth of the induction floating member. A tsunami countermeasure floating body member having a contact portion and a floating body breakwater portion having a predetermined width and a length to prevent a tsunami is provided.
When the cylinder of the guided floating body member and the tip of the floating body breakwater portion are connected by a chain, the tsunami countermeasure floating body member is guided by the tsunami and moves, and when the contact portion and the sea bottom come into contact with each other, the floating body breakwater portion is brought to the water surface by the tsunami. A tsunami countermeasure buoyant device characterized in that the tsunami countermeasure buoyant member rotates by moving from the tsunami to the induction buoyant member having a predetermined height, and then the tsunami breakwater portion becomes a breakwater when approaching the shore due to a tsunami. .. A plurality of guided floating members having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 5 meters or more, and a cylinder connecting chains, and the depths of the plurality of guided floating members. It is provided with a plurality of tsunami countermeasure floating members having a contact portion having a greater depth and a floating breakwater portion having a predetermined width and a length for preventing a tsunami.
The height above the water surface of the floating breakwaters of the plurality of tsunami countermeasure floating members in which the cylinder of the plurality of guided floating members and the tips of the floating breakwaters are connected by a chain is alternately changed from the predetermined width. The plurality of guided floating members are fixed as chain-shaped guided floating members by a fixing member with a short width, and the plurality of tsunami countermeasure floating members are guided by the chain-shaped guided floating members and moved by the tsunami to meet with the plurality of contact portions. When the bottom of the sea comes into contact, the tsunami causes the floating breakwater to move from the water surface to the guided floating member having a predetermined height, so that the tsunami countermeasure floating member rotates, and then when approaching the shore, the plurality of floating breakwaters A chain tsunami countermeasure floating device characterized by serving as a breakwater. A guided buoyant member having a certain depth from the water surface, a weight that can withstand a tsunami at the bottom, an air layer having a sea surface height of 5 meters or more and a cylinder connecting chains, and a depth greater than the depth of the guided buoyant member. A floating body rotation blocking part with a contact part, a predetermined width and a vertical breakwater part with a depth to prevent a tsunami of 15 meters or more, and a predetermined width and a length to prevent further rotation due to the tsunami. Equipped with a tsunami countermeasure floating member equipped with
When the cylinder of the guided floating body member and the tip of the floating body rotation blocking portion are connected by a chain, the tsunami countermeasure floating body member moves due to the tsunami and the contact portion and the sea bottom come into contact with each other, the floating body rotation blocking portion is raised to the water surface by the tsunami. After the tsunami countermeasure floating member rotates and approaches the shore by moving from the to the guided floating member having a predetermined height, the tsunami countermeasure floating member moves to the ground due to the tsunami. A tsunami countermeasure floating device, characterized in that the guided floating member moves and the breakwater portion becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating member. From the depths of a plurality of guided floating members having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the sea surface of 5 meters or more, and a cylinder connecting chains, and the depths of the plurality of guided floating members. It is equipped with a large depth of contact and a vertical breakwater with a predetermined width and a depth to prevent a tsunami of 15 meters or more, and a predetermined width and a length to prevent further rotation due to the tsunami. Multiple tsunami countermeasure floating members with floating body rotation blocking parts
Equipped with
The positions of the breakwaters of the plurality of tsunami countermeasure floating members in which the cylinder of the plurality of guided floating members and the tips of the floating body rotation blocking portions are connected by a chain are alternately changed to a width shorter than the predetermined width. The plurality of guided floating members are fixed as chain guided floating members by the fixing member, and when the contact portion and the sea bottom come into contact with each other, the floating body rotation blocking portion moves from the water surface to the guided floating member having a predetermined height due to the tsunami. When the contact portion and the sea bottom come into contact with each other, the tsunami-preventing floating body member moves from the water surface to the guided floating body member having a predetermined height due to the tsunami, so that the tsunami countermeasure floating body member rotates and approaches the shore. Later, when the floating body rotation blocking portion moves to the ground due to the tsunami, the plurality of tsunami countermeasure floating body members rotate and the chain-shaped guided floating body member moves, and the plurality of the breakwater portions serve as breakwaters to prevent the plurality of floating body rotations. A chain-shaped tsunami countermeasure floating body device, characterized in that a portion prevents further rotation of the plurality of the tsunami countermeasure floating body members. The tsunami countermeasure floating device or chain tsunami countermeasure floating device according to claim 1 to 5, wherein the contact portion or a plurality of contact portions has a depth of 500 meters or more. It is provided with an induction floating member having a predetermined height from the water surface and a certain depth from the water surface, and a floating breakwater portion having a predetermined width and a predetermined length to prevent a tsunami from flowing in a chain with the induction floating member. Equipped with tsunami countermeasure floating member,
When the tsunami countermeasure floating member moves together with the guided floating member due to the tsunami and the contact portion contacts the seabed, the floating breakwater portion moves from the water surface to the guided floating member having a predetermined height due to the tsunami, thereby causing the tsunami countermeasure. A tsunami countermeasure floating device characterized in that the floating breakwater portion becomes a breakwater after the floating member rotates and approaches the shore. An induction floating member having a certain depth from the water surface and having a weight that can withstand a tsunami at the bottom and a cylinder connecting an air layer and a chain having a height above the water surface of 15 meters or more, and a depth larger than the depth of the induction floating member. It is provided with a tsunami countermeasure floating body member having a contact portion, a predetermined width and a length for preventing a tsunami, and a floating body breakwater portion in which the induction floating body member and the tip portion are connected by a chain.
The tsunami countermeasure floating member in which the cylinder of the guided floating member and the tip of the floating breakwater are connected by a chain is guided by the guided floating member and moved by the tsunami, and when the contact portion and the seabed come into contact with each other, the floating body is caused by the tsunami. A tsunami characterized in that the breakwater portion moves from the water surface to the guided floating member having a predetermined height, so that the tsunami countermeasure floating member rotates and approaches the shore, and then the floating breakwater portion becomes a breakwater. Countermeasure floating device. From the depths of a plurality of guided floating members having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, an air layer having a height above the water surface of 15 meters or more, and a cylinder connecting chains, and the depths of the plurality of guided floating members. A plurality of tsunami countermeasure floating bodies having a large depth of contact portion, a predetermined width and a length for preventing a tsunami, and a floating body breakwater portion in which a plurality of the guided floating body members and a tip portion are connected by a chain. Equipped with members
The height of the floating breakwater portion of the plurality of tsunami countermeasure floating members is alternately changed, and the guided floating member is fixed by the fixing member with a width shorter than the predetermined width to form a chain guided floating member. A plurality of tsunami countermeasure floating members in which the cylinder of the chain-guided floating member and the tip of the floating breakwater are connected by a chain are guided by the chain-guided floating member and moved by the tsunami, and the plurality of contact portions. When the bottom of the sea comes into contact with each other, the tsunami causes the floating breakwater to move from the water surface to the guided floating member having a predetermined height, so that the tsunami countermeasure floating member rotates and approaches the shore, and then the plurality of floating breakwaters. A chain tsunami countermeasure floating device characterized in that the part serves as a breakwater. An induction floating member having a certain depth from the water surface, a weight that can withstand a tsunami at the bottom, and a cylinder connecting an air layer and a chain having a sea surface height of 15 meters or more, and a depth greater than the depth of the induction floating member. The guidance is provided with a contact portion, a predetermined width, and a vertical breakwater portion having a depth for preventing a tsunami of 15 meters or more, and also having a predetermined width and a length for preventing further rotation due to the tsunami. A tsunami countermeasure floating body member having a floating body rotation blocking part in which the floating body member and the tip portion are connected by a chain is provided.
The tsunami countermeasure floating member in which the cylinder of the guided floating member and the tip of the floating rotation blocking portion are connected by a chain is guided by the guided floating member and moved by the tsunami, and the contact portion and the sea bottom come into contact with each other to cause a tsunami. As a result, the floating body rotation blocking part moves from the water surface to the guided floating body member having a predetermined height, so that the tsunami countermeasure floating body member rotates and approaches the shore, and then the floating body rotation blocking part moves to the ground due to the tsunami. The tsunami countermeasure floating body is characterized in that the tsunami countermeasure floating member rotates and the guided floating body member moves and the breakwater portion becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating body member. Device. From the depths of a plurality of guided floating members having a certain depth from the water surface, a weight capable of withstanding a tsunami at the bottom, and a cylinder connecting an air layer having a sea level of 15 meters or more and a chain, and the depths of the plurality of guided floating members. It is equipped with a large depth of contact and a vertical breakwater with a predetermined width and a depth to prevent a tsunami of 15 meters or more, and a predetermined width and a length to prevent further rotation due to the tsunami. It is provided with a plurality of tsunami countermeasure floating body members having a floating body rotation blocking portion in which the induction floating body member and the tip portion are connected by a chain.
The positions of the breakwaters of the plurality of tsunami countermeasure floating members are alternately changed to fix the plurality of guided floating members with a fixing member having a width shorter than the predetermined width to form a chain guided floating member, and the cylinder and the said. The plurality of tsunami countermeasure buoyant members in which the tips of the buoyant rotation blocking portions are connected by a chain move due to the tsunami by the guidance of the chain-shaped guided tsunami member, and the plurality of contact portions come into contact with the sea bottom to float due to the tsunami. After the rotation blocking part moves from the water surface to the guided floating body member having a predetermined height, the tsunami countermeasure floating body member rotates, and then when approaching the shore, the floating body rotation blocking part moves to the ground due to the tsunami. The feature is that the plurality of the tsunami countermeasure floating members rotate and the chain guided floating member moves, the breakwater portion becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the plurality of the tsunami countermeasure floating members. Chain tsunami countermeasure floating device. The contact portion or a plurality of contact portions have a depth of 500 meters or more, the guided floating body member or the chain-shaped guided floating body member approaches offshore, and the contact portion or the plurality of contact portions contact the seabed to contact the floating breakwater portion. After the tsunami moves from the water surface to the guided floating body member or the chain-shaped guided floating body member, the tsunami countermeasure floating body member rotates offshore and approaches the shore, and then the floating body breakwater portion becomes a breakwater. The tsunami countermeasure floating device or the chain tsunami countermeasure floating device according to claim 7 to 9, wherein the tsunami countermeasure floating device or the chain tsunami countermeasure floating device. The tsunami countermeasure floating member or a plurality of tsunamis in which the contact portion or the plurality of contact portions has a depth of 500 meters or more and the cylinder of the induction floating body member and the tip end portion of the floating body rotation blocking portion are connected by a chain. Countermeasure When the floating body member approaches offshore by the guidance of the guided floating body member or the chain-shaped guided floating body member, the contact portion or a plurality of contact portions and the sea bottom come into contact with each other, and the floating body rotation blocking portion causes the guided floating body member or chain due to the tsunami. After the tsunami countermeasure floating member rotates and approaches the shore in contact with the shape-guided floating member, the tsunami countermeasure floating member or a plurality of tsunami countermeasure floating members are moved by the tsunami moving the floating body rotation blocking portion to the ground. As it rotates, the guided floating member or the chain-shaped guided floating member moves, the breakwater becomes a breakwater, and the floating body rotation blocking portion prevents further rotation of the tsunami countermeasure floating member or a plurality of tsunami countermeasure floating members. The tsunami countermeasure floating device or the chain tsunami countermeasure floating device according to claim 10 or 11.