JP2014004989A - Power generation base and large independent float type generator - Google Patents

Power generation base and large independent float type generator Download PDF

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Publication number
JP2014004989A
JP2014004989A JP2012163086A JP2012163086A JP2014004989A JP 2014004989 A JP2014004989 A JP 2014004989A JP 2012163086 A JP2012163086 A JP 2012163086A JP 2012163086 A JP2012163086 A JP 2012163086A JP 2014004989 A JP2014004989 A JP 2014004989A
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independent
diameter
power generation
mother ship
generator
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JP2012163086A
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Japanese (ja)
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Osamu Nagatoshi
修 永利
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Osamu Nagatoshi
修 永利
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Priority to JP2012163086A priority Critical patent/JP2014004989A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/30Energy from the sea, e.g. using wave energy or salinity gradient

Abstract

PROBLEM TO BE SOLVED: To achieve future-oriented power generation from a natural energy source in place of nuclear power generation without using fossil fuel in order to make up for domestic power shortage.SOLUTION: In a future-oriented power generation base and a large independent float type generator generating power using upward and downward motion of a large wave in an ocean, a mother ship which has a cylindrical shape like a submarine with a diameter of 15 m and a length of 60 m is submerged at a depth of 5 m to avoid direct hit by a wave and has hooks at 15 m intervals to anchor the mother ship by tension of ropes extended from independent seabed foundations. A maximum possible number of large stand-alone float type generators are arranged around the mother ship. A submerged section of the large independent float type generator is made of a submerged float 7 having the diameter of 5 m and a height of 10 m. The submerged float 7 has a weight 8 for a buoyancy adjustment at a lower section thereof and a core pole 9 (with the diameter of 1 m and the length of 25 m), which is provided with horizontal grooves for gear wheels, erected at an upper section thereof. The large independent float type generator is anchored in a manner that adjusts a center of the core pole at a mean sea surface height 6 and pulls the lower section of the weight with the rope extended from the independent seabed foundation 14.

Description

洋上の巨大波の上下運動の力を利用して発電する未来志向の発電基地と独立大型うき式発電機を考案する。      A future-oriented power generation base that generates power using the power of the up and down motion of giant waves on the ocean and an independent large-scale generator are devised.
200海里内の巨大波で発電して国内の電力不足を補う。原発に代わる化石燃料を使わない未来志向の発電を目的としたものです。Electricity is generated by a huge wave within 200 nautical miles to make up for the power shortage in Japan. It is intended for future-oriented power generation that does not use fossil fuels instead of nuclear power plants.
発電基地がイメージしやすいように、仮寸法を入れてみた。
母船は、潜水艦のような形で、直径15m長さ60mの筒形で、波の直撃を避ける為に水深5mに沈んでいる。
中央部に水上へ直径5m高さ15mの連絡通路塔があり、その上には風力発電装置を取り付けることもできる。連絡通路塔は、国旗の白色と赤色で塗装する。
内部には電圧・電量調節設備や非常時の生活スペースがある。
母船は、@15m間隔でフックを付け、海底独立基礎からのロープで引っ張り固定する。
母船には、クレーンやリフトや魚類ソナーやGPS機能や津浪センサーや避雷設備を備え、船舶の追突事故防止放送を流し、光でも合図を送る。
母船の周囲には、独立大型うき式発電機をできるだけ多く設置する。
たとえば、一列に@15mでタテヨコ100基づつ並べると10000基となり、広さは1.5km×1.5kmとなる。
独立大型うき式発電機同士の、追突防止の為、水中部の太くなっている所を、お互いに十文字四方にフックを付けて、10mのロープで引っ張る。
また、独立大型うき式発電機と母船も27.5mのロープで引っ張り、全体を一体化する。
発電基地全体を上空から見れば、母船を中心に、うき式発電機が整然と並んだ巨大風呂敷を海に広げたように見える。
発電した電気は、母船に集め、調節して、海底ケーブルで地上に送電する。
I tried to add temporary dimensions so that the power generation base is easy to imagine.
The mother ship is shaped like a submarine, is a cylinder with a diameter of 15m and a length of 60m, and is sinking to a depth of 5m to avoid a direct hit of the waves.
There is a connecting passage tower with a diameter of 5m and a height of 15m on the water at the center, and a wind power generator can be mounted on it. The connecting passage tower is painted with the national flag white and red.
There are voltage / electricity adjustment facilities and emergency living space inside.
The mother ship will be hooked at intervals of 15m, and fixed with a rope from the submarine independent foundation.
The mother ship is equipped with cranes, lifts, fish sonar, GPS functions, Tsunami sensors and lightning protection equipment, and broadcasts for prevention of rear-end collisions of ships and signals by light.
As many independent large generators as possible will be installed around the mother ship.
For example, if 100 vertical and horizontal 100 lines are arranged in @ 15m, it becomes 10000 units, and the width is 1.5km × 1.5km.
In order to prevent rear-end collision between independent large generators, hook the hooks in the four crosses and pull them with 10m rope.
The independent large generator and the mother ship are also pulled by a 27.5m rope to unify the whole.
If you look at the entire power generation base from above, it looks like a huge furoshiki lined with Uki-style generators spread out to the sea, centering on the mother ship.
The generated electricity is collected in the mother ship, adjusted, and transmitted to the ground with a submarine cable.
独立大型うき式発電機がイメージしやすいように、仮定場所の一年間の平均波上下幅を10mと仮定して、仮寸法を入れてみた。
独立大型うき式発電機の水中部は、直径5m高さ10mの水中うきで、下部に浮力調整オモリがあり、うきの上部に歯車用横溝の付いた芯棒(直径1m長さ約25m)を立て、平均海面高さを芯棒の中央に調節して、海底独立基礎からのロープでオモリ下部を引っ張り固定する。
芯棒に直径5m高さ5mの浮き輪を通し、芯棒の上端にストッパー蓋を取付け、浮き輪が外れないようにする。浮き輪は、国旗の白色と赤色で塗装する。
浮き輪の上部には、直径2mの歯車8枚が縦置きでそれぞれ対角線上にあり、芯棒の横溝に取り付いて、上下運動時に回転し、発電機の直径0.5m歯車に伝え発電する。
浮き輪の上下運動範囲は最大19mとし、それ以上の大波の時は波の中へ沈む。
仮定場所の一年間の平均波上下幅が5mの場所では、芯棒(直径1m長さ約20m)浮き輪の上下運動範囲は最大14mとなる。
水中うきと芯棒と浮き輪の内部には、発泡材が充填してある。
In order to make it easy to imagine an independent large-sized generator, we assumed a mean wave vertical width of 10 m for one year in the assumed location and put in a temporary dimension.
The underwater part of the independent large generator is underwater with a diameter of 5m and a height of 10m, with a buoyancy adjustment weight at the bottom, and a core rod (diameter 1m length approximately 25m) with a lateral groove for gears at the top. Stand, adjust the average sea level height to the center of the core, and pull and fix the bottom of the weight with a rope from the submarine independent foundation.
A floating ring with a diameter of 5 m and a height of 5 m is passed through the core rod, and a stopper lid is attached to the upper end of the core rod so that the floating ring does not come off. The float is painted with the national flag white and red.
Eight gears with a diameter of 2 m are vertically placed on the upper part of the floating ring, and are diagonally mounted. The gears are attached to the horizontal grooves of the core rod, rotate during vertical movement, and are transmitted to the 0.5 m diameter gear of the generator to generate power.
The range of up and down movement of the buoyancy ring is 19m at maximum, and when it is a big wave beyond that, it sinks into the wave.
In a place where the average wave vertical width of the assumed place for one year is 5 m, the vertical movement range of the core rod (diameter 1 m, length 20 m) is 14 m at maximum.
Foaming material is filled in the underwater, core rod and floating ring.
ロープは、強度と柔軟性があり、腐食しない、目立つ色で長寿命とし、取付部にはヨリモドシを使う。The rope is strong and flexible, does not corrode, has a conspicuous color, has a long life, and uses a twisted attachment.
四六時中、休み無く発電し続ける電気を自然エネルギーとして無限に利用できる。
200海里内に発電基地を数多く造れる。燃料費がいらない。電気料金も格安になる。
国内や世界のエネルギーは全て電気に変わる。CO2が出ないので地球環境にやさしい。
Electricity that continues to generate electricity all day long can be used indefinitely as natural energy.
Many power generation bases can be built within 200 nautical miles. No fuel costs are required. Electricity charges are also cheap.
All domestic and global energy is converted to electricity. Because it does not emit CO2, it is friendly to the global environment.
母船の断面図Cross section of mother ship 独立大型うき式発電機の断面図Cross section of independent large generator
図1母船の断面図においては、1は平均海面 2は電圧・電量調節設備室や非常時の生活スペース 3は水上への連絡通路塔 4は海底独立基礎 5はロープFig. 1 In the cross section of the mother ship, 1 is the average sea level 2 is the voltage / electricity control facility room and emergency living space 3 is the water access passage tower 4 is the submarine foundation 5 is the rope
図2独立大型うき式発電機の断面図においては、6は平均海面 7は水中うき 8は浮力調整オモリ 9は芯棒 10はストッパー蓋 11は浮き輪 12は歯車 13は追突防止ロープ 14は海底独立基礎 15はロープFig. 2 In the sectional view of an independent large generator, 6 is the average sea level 7 is underwater, 8 is a buoyancy adjustment weight, 9 is a core rod, 10 is a stopper lid, 11 is a float ring, 12 is a gear wheel, 13 is a collision prevention rope, and 14 is a seabed Independent foundation 15 is rope

Claims (1)

  1. 自然エネルギー 洋上の巨大波の上下運動の力を利用して発電する未来志向の発電基地と独立大型うき式発電機を考案する。
    発電基地がイメージしやすいように、仮寸法を入れてみた。
    母船は、潜水艦のような形で、直径15m長さ60mの筒形で、水深5mに沈んでいる。
    中央部に水上へ直径5m高さ15mの連絡通路塔があり、その上には風力発電装置を取り付けることもできる。
    内部には電圧・電量調節設備や非常時の生活スペースがある。
    母船は、@15m間隔でフックを付け、海底独立基礎からのロープで引っ張り固定する。
    母船の周囲には、独立大型うき式発電機をできるだけ多く設置する。
    たとえば、一列に@15mでタテヨコ100基づつ並べると10000基となり、広さは1.5km×1.5kmとなる。
    独立大型うき式発電機同士の、追突防止の為、水中部の太くなっている所を、お互いに十文字四方にフックを付けて、10mのロープで引っ張る。
    また、独立大型うき式発電機と母船も27.5mのロープで引っ張り、全体を一体化する。
    発電基地全体を上空から見れば、母船を中心に、うき式発電機が整然と並んだ巨大風呂敷を海に広げたように見える。
    発電した電気は、母船に集め、調節して、海底ケーブルで地上に送電する。
    独立大型うき式発電機がイメージしやすいように、仮定場所の一年間の平均波上下幅を10mと仮定して、仮寸法を入れてみた。
    独立大型うき式発電機の水中部は、直径5m高さ10mの水中うきで、下部に浮力調整オモリがあり、うきの上部に歯車用横溝の付いた芯棒(直径1m長さ約25m)を立て、平均海面高さを芯棒の中央に調節して、海底独立基礎からのロープでオモリ下部を引っ張り固定する。
    芯棒に直径5m高さ5mの浮き輪を通し、芯棒の上端にストッパー蓋を取付け、浮き輪が外れないようにする。
    浮き輪の上部には、直径2mの歯車8枚が縦にそれぞれ対角線上にあり、芯棒の横溝に取り付いて、上下運動時に回転し、発電機の直径0.5m歯車に伝え発電する。
    浮き輪の上下運動範囲は最大19mとし、それ以上の大波の時は波の中へ沈む。
    仮定場所の一年間の平均波上下幅が5mの場所では、芯棒(直径1m長さ約20m)浮き輪の上下運動範囲は最大14mとなる。
    ロープは、強度と柔軟性があり、腐食しない、目立つ色で長寿命とし、取付部にはヨリモドシを使う。
    Natural energy We will devise a future-oriented power generation base and an independent large-scale generator that generate power using the power of the up and down movement of giant waves off the ocean.
    I tried to add temporary dimensions so that the power generation base is easy to imagine.
    The mother ship is shaped like a submarine, is a cylinder with a diameter of 15m and a length of 60m, and sinks to a depth of 5m.
    There is a connecting passage tower with a diameter of 5m and a height of 15m on the water at the center, and a wind power generator can be mounted on it.
    There are voltage / electricity adjustment facilities and emergency living space inside.
    The mother ship will be hooked at intervals of 15m, and fixed with a rope from the submarine independent foundation.
    As many independent large generators as possible will be installed around the mother ship.
    For example, if 100 vertical and horizontal 100 lines are arranged in @ 15m, it becomes 10000 units, and the width is 1.5km × 1.5km.
    In order to prevent rear-end collision between independent large generators, hook the hooks in the four crosses and pull them with 10m rope.
    The independent large generator and the mother ship are also pulled by a 27.5m rope to unify the whole.
    If you look at the entire power generation base from above, it looks like a huge furoshiki lined with Uki-style generators spread out to the sea, centering on the mother ship.
    The generated electricity is collected in the mother ship, adjusted, and transmitted to the ground with a submarine cable.
    In order to make it easy to imagine an independent large-sized generator, we assumed a mean wave vertical width of 10 m for one year in the assumed location and put in a temporary dimension.
    The underwater part of the independent large generator is underwater with a diameter of 5m and a height of 10m, with a buoyancy adjustment weight at the bottom, and a core rod (diameter 1m length approximately 25m) with a lateral groove for gears at the top. Stand, adjust the average sea level height to the center of the core, and pull and fix the bottom of the weight with a rope from the submarine independent foundation.
    A floating ring with a diameter of 5 m and a height of 5 m is passed through the core rod, and a stopper lid is attached to the upper end of the core rod so that the floating ring does not come off.
    Eight gears with a diameter of 2 m are diagonally above each floating ring, attached to the horizontal groove of the core rod, rotated during vertical movement, and transmitted to the 0.5 m diameter gear of the generator for power generation.
    The range of up and down movement of the buoyancy ring is 19m at maximum, and when it is a big wave beyond that, it sinks into the wave.
    In a place where the average wave vertical width of the assumed place for one year is 5 m, the vertical movement range of the core rod (diameter 1 m, length 20 m) is 14 m at maximum.
    The rope is strong and flexible, does not corrode, has a conspicuous color, has a long life, and uses a twisted attachment.
JP2012163086A 2012-06-25 2012-06-25 Power generation base and large independent float type generator Pending JP2014004989A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105257463A (en) * 2015-10-23 2016-01-20 山东大学(威海) Guide column type balance weight rope take-up floating body rope wheel wave power generation system
CN105775069A (en) * 2016-04-29 2016-07-20 武汉理工大学 Navigation mark capable of generating electricity with wave energy
CN111610527A (en) * 2020-07-14 2020-09-01 汪国建 Ultrasonic distance meter for measuring ocean depth
WO2021204130A1 (en) * 2020-04-06 2021-10-14 曲言明 Floating body queue based power transmission system

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105257463A (en) * 2015-10-23 2016-01-20 山东大学(威海) Guide column type balance weight rope take-up floating body rope wheel wave power generation system
CN105257463B (en) * 2015-10-23 2017-08-08 山东大学(威海) A kind of guide colume type counterweight rope closing float body rope wheel wave electric power system
CN105775069A (en) * 2016-04-29 2016-07-20 武汉理工大学 Navigation mark capable of generating electricity with wave energy
WO2021204130A1 (en) * 2020-04-06 2021-10-14 曲言明 Floating body queue based power transmission system
CN111610527A (en) * 2020-07-14 2020-09-01 汪国建 Ultrasonic distance meter for measuring ocean depth
CN111610527B (en) * 2020-07-14 2021-08-06 玉环震浪超声股份有限公司 Ultrasonic distance meter for measuring ocean depth

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