JP2013167238A - Installation of "submarine buoyant rotary container" in submarine space portion - Google Patents
Installation of "submarine buoyant rotary container" in submarine space portion Download PDFInfo
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- JP2013167238A JP2013167238A JP2012066310A JP2012066310A JP2013167238A JP 2013167238 A JP2013167238 A JP 2013167238A JP 2012066310 A JP2012066310 A JP 2012066310A JP 2012066310 A JP2012066310 A JP 2012066310A JP 2013167238 A JP2013167238 A JP 2013167238A
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Description
海上部分に海中容器船を設置をし、その海面下部分に設置をされる発電施設の高効率を狙った設備である。 It is a facility aimed at high efficiency of a power generation facility installed under the sea surface with a submarine vessel in the sea.
本設備の発見により重量感のある各海中発電船内の各発電設備が本浮力設備の活用に依りより強力な設備となるものである。 With the discovery of this facility, each power generation facility in each submarine power generation ship with a heavy feeling becomes a more powerful facility by utilizing this buoyancy facility.
図1、2、3にて説明をする。 This will be described with reference to FIGS.
海中、海上船発電に於いてより高効率な発電方法を探求中に海中空間に浮力容器の設置を行なえば、強力な浮力に依る高効率の発電設備となるものであり、まず海中容器船内の船底部分に設置がされる海中空間部分に上部船上船中部分に設置をされる各回転扇発電機の高い稼動力を得る為に「深海中回転主力筒」の設置を行ない、その主力筒の回転を行なう為に、まず上部部分に回転モーター又は各種発動機等のいづれかの設備を行ないその主力筒中心部分に強力な持続回転力を得る為に「遠心力強化分銅筒」部分の設置を行ない発電船の各設備の回転力を強化する為と同時に「深海中回転主力筒」の高速回転の為に「高水圧ジェット噴出機の設置を行なうものとし、同時に上記筒の深海海中空間部分には浮力回転容器の接続設置を行ない、その強大な浮力に依る「遠心力強化分銅」等の重量物の負荷の軽減を図り、より高効率の海中発電を目指す新設備の開発設置が行なわれる事となる。 If a buoyancy vessel is installed between the hollows of the ocean while searching for a more efficient power generation method in the sea and offshore power generation, it will become a highly efficient power generation facility based on strong buoyancy. In order to obtain the high operating power of each rotating fan generator installed in the middle part of the upper shipboard in the underwater space part that is installed on the bottom part of the ship, the `` deep sea rotating main cylinder '' is installed. To perform rotation, first install either a rotary motor or various motors in the upper part, and install a "centrifugal force-enhanced weight cylinder" part in order to obtain a strong sustained rotational force in the main cylinder center part. In order to strengthen the rotational power of each facility of the power ship, and at the same time, for the high-speed rotation of the “Deep Sea Underwater Rotating Main Pipe”, a “high water pressure jet blower shall be installed. Connect and install the buoyancy rotating container, Aims to reduce the load of the mighty buoyancy to depend "centrifugal force strengthening weight" heavy object such as of, and that the more developed the installation of new equipment aimed at subsea power generation of high efficiency is performed.
海中船内に1階〜2階部分に回転扇に依る発電設備を行なうもので、その時に高効率の為の「遠心力強化分銅」の設置等を行なえば、大変な重量が下方行に懸かる事となり、思案中に本深海海中空間部分に海中空間浮力回転容器」の設置を考えたものである。
又海中船に於いて最大の不要素である水圧の対策と発生する強力な浮力えの対策の発見に依り大きく前進する事となるものである。A power generation facility that uses a rotating fan is installed on the first and second floors of an underwater ship. If a “centrifugal force-enhanced weight” is installed for high efficiency at that time, heavy weight will hang on the lower line. Then, I thought about the installation of the underwater space buoyancy rotating container in this deep sea underwater space part.
In addition, it will be greatly advanced by the discovery of countermeasures for water pressure, which is the biggest factor in subsea ships, and the countermeasures for the strong buoyancy that occurs.
海上船内での回転扇のみの回転力では少し発電能力に限界が生じるが本設備の発見により強大な発電力が期待出来る事となる。
そして耐水圧壁の強化方法と最大の難問題であった浮力への対策が水より比重の重たい山石の活用に依り大きく解消される事となる。Although the power generation capacity is slightly limited by the rotational force of only a rotating fan in a marine vessel, the discovery of this facility can be expected to generate a large amount of power.
And the countermeasures against buoyancy, which is the most difficult problem, and the method of strengthening the pressure-resistant wall will be greatly eliminated by the use of mountain stones, which are heavier than water.
船内での回転扇発電の数段の強力化が本「海中浮力容器」の発見に依り、より強大で強力な「遠心力強化分銅」等発電力の向上となり本海中浮力容器の活用による発電力の課題が大きく解消される事となる。
又海中船での水圧の解消、浮力の軽減が比重の重い山石の活用で大きく軽減される事となる。Several stages of power generation in the ship's rotating fan power generation are based on the discovery of this `` submarine buoyancy vessel '', and the generation of electric power by utilizing this buoyancy vessel in the ocean will be improved, such as the stronger and more powerful `` centrifugal force strengthening weight ''. This problem will be greatly solved.
In addition, the elimination of water pressure and the reduction of buoyancy in submarine ships will be greatly reduced by utilizing heavy stones.
回転扇発電の場合は船底部分の海中移入を深くする必要が少なく、喫水線部分より数m〜数十mの沈下効果で依く、そして広い船底部分さえ確保出来れば多くの空間の確保(海中空間)が簡単に出来る事になり、高効率の海中発電が可能となり同時に設置コストも大きく軽減がなされる事となり、将来に於いてより開発が進めば全世界中にて設置がされる可能性も出てくる事となり、湖、海上部分の浅い海中部分に於いても強大な発電が行なわれる事となるものである。 In the case of rotating fan power generation, it is not necessary to deepen the bottom of the ship into the sea, and it depends on the subsidence effect of several meters to several tens of meters from the draft line. ) Can be easily performed, and high-efficiency underwater power generation becomes possible, and at the same time, installation costs are greatly reduced. If development progresses in the future, there is a possibility that it will be installed all over the world. It will come out, and powerful power generation will be performed even in the shallow underwater part of the lake and the sea.
[図1]海上部分に広大な海中容器船を設置をする。
その時の船底部分は僅か数十mの深さで充分であり普通の大型タンカーの水深レベルの設置で充分であり場合によっては廃船タンカー等の活用でも充分であり、大変に低コストにて設置が可能となる。
[図2]各海中発電船内に於ける排海水部分のより詳細図と本申請部分の深海海中空間部分の共通喫水線部分迄の海中空間海水の上昇に対する各対策設置図と図内の作業員の深海空間1気圧部分での活動図を記したものである。
[図3]海中船内の外海部分に面する各四方周囲部分の壁部分と船底部分にも同様に船内空間部分を設置しその中に山石、山土等の投入を行なうものとする。[Fig.1] A vast underwater container ship is installed on the sea.
At that time, the depth of only a few tens of meters is sufficient for the bottom of the ship, and it is sufficient to install a normal large tanker at a water depth level. Is possible.
[Fig. 2] More detailed view of the seawater discharge in each submarine power generation ship and each countermeasure installation diagram for the rise of the seawater to the common waterline in the deepwater underwater space part of this application and the workers in the figure It shows the activity diagram in the deep sea space 1 atm.
[FIG. 3] Similarly, an inboard space portion is also installed in the wall portion and the bottom portion of each of the four-side surrounding portions facing the open sea portion in the underwater ship, and mountains and stones, soil, etc. are input therein.
Claims (2)
海中空間の創出の為に強力な浮力が発生する為に、より海中での発電船の安定の為にその浮力の軽減と同時に投入設置される大変に比重の重い山石等の投入設置に依る浮力の大幅な減少による海中での安定が行なわれると同時に海中での想像を走える強力な防圧壁の設置が行なわれる事となり、海中での本擁壁設置方法の発見により、海中発電設置が想像以上に建造出来易くなり、強大で強力な防圧壁の活用が大いに発展する事となる。In order to input and install heavy rocks, etc. with heavy specific gravity in the submarine power generation ship, the interior space part is installed on the inner part of each wall part facing each open sea part including the ship bottom part, and the mountain stones are introduced and installed. .
Because strong buoyancy is generated for the creation of underwater space, buoyancy due to the installation of extremely heavy stones, etc. that are introduced and installed at the same time as reducing the buoyancy to stabilize the power ship in the sea As a result of the drastic decrease in water, stability in the sea will be carried out, and at the same time, a powerful pressure barrier will be installed that can run under the imagination in the sea. It will be easier to build than expected, and the use of powerful and powerful pressure barriers will be greatly developed.
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JP2012066310A JP5408575B2 (en) | 2012-02-14 | 2012-02-14 | Installation of "underwater buoyancy rotating container" in the underwater space |
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JP2012066310A JP5408575B2 (en) | 2012-02-14 | 2012-02-14 | Installation of "underwater buoyancy rotating container" in the underwater space |
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JP2013167238A true JP2013167238A (en) | 2013-08-29 |
JP5408575B2 JP5408575B2 (en) | 2014-02-05 |
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JP5622132B1 (en) * | 2013-12-03 | 2014-11-12 | 晴勇 島 | Rotating fan power generator equipment utilizing two-stage maritime draft line |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH06147098A (en) * | 1992-11-11 | 1994-05-27 | Ikeda Takeshi | Convection type temperature gradient prime mover |
JP2009161032A (en) * | 2007-12-28 | 2009-07-23 | Shinyo Industries Co Ltd | Combined power generation system mounted on ship using natural energy and existing power |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH06147098A (en) * | 1992-11-11 | 1994-05-27 | Ikeda Takeshi | Convection type temperature gradient prime mover |
JP2009161032A (en) * | 2007-12-28 | 2009-07-23 | Shinyo Industries Co Ltd | Combined power generation system mounted on ship using natural energy and existing power |
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