JP2012154187A - Pumping system using wind force and electric motor - Google Patents
Pumping system using wind force and electric motor Download PDFInfo
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- JP2012154187A JP2012154187A JP2011011527A JP2011011527A JP2012154187A JP 2012154187 A JP2012154187 A JP 2012154187A JP 2011011527 A JP2011011527 A JP 2011011527A JP 2011011527 A JP2011011527 A JP 2011011527A JP 2012154187 A JP2012154187 A JP 2012154187A
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/124—Water desalination
- Y02A20/138—Water desalination using renewable energy
- Y02A20/141—Wind power
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/30—Wind power
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Abstract
Description
本発明は、風力ブレード式で同風力の回転軸をクランク型にして、筒状の中にピストンリングが上下する事で、吸入、排気の作動で揚水、同筒状の下部に取り付けてあるパイプを通じ、併設する貯水タンクに揚水する方法〔1〕と、更に同じ揚水クランクの回転軸の回転を増す増速機と発電機を設け発電、これに太陽光発電の電力の両方を併設するバッテリーに充電、この電力を利用して電力型揚水ポンプを稼動して、水を湯水し、併設する貯水タンクに揚水する方法〔2〕とを合算併用する事で、商業電力や、石油、ガスを利用する事なく、自然エネルギーのみで風力と太陽光の利用で、揚水効率を飛躍的に向上できる構造を特徴とする、風力及電気モーター併用型揚水装置に関するものである。 The present invention is a wind blade type with a rotating shaft of the same wind power as a crank type, and a piston ring that moves up and down in the cylinder, so that water is pumped by suction and exhaust operation, and the pipe is attached to the lower part of the cylinder Through the method [1] of pumping water to the storage tank that is installed, and a battery that is equipped with a speed increaser and a generator that further increase the rotation speed of the rotary shaft of the same pumping crank. Charging, using this power to operate a power-type pump, hot water, and pumping it to the water storage tank that is used together [2], combined with commercial power, oil, and gas The present invention relates to a wind pump and an electric motor combined pumping device characterized by a structure that can dramatically improve pumping efficiency by using only wind power and sunlight using only natural energy.
従来から、風車の揚水では、アメリカ式は多翼式風車の利用でG.L(グランドライン)より10m以上へと、高所への揚水向けに、水量は少量でも、高所への揚水が可能で、主に家庭用水の為に使用され、クリーンなエネルギーの利用の代表と位置づけられている。 Conventionally, in the pumping of windmills, the American style is more than 10m from GL (Grand Line) with the use of a multi-blade windmill. Yes, it is used primarily for domestic water and is a representative of clean energy usage.
これに対し、ヨーロッパでは、オランダが主な利用先で、4枚大型風車の揚水方式で、主に水位から3mから4m上への揚水で水量はアメリカ式より多いが高所への揚水型ではなく、主に農業用水として低位置への揚水として利用されている。 On the other hand, in Europe, the Netherlands is the main destination, and the pumping method of four large wind turbines is mainly 3m to 4m above the water level. Rather, it is used mainly as agricultural water for pumping to lower locations.
アメリカ式でもヨーロッパ式でも風力による利用のみで、風がない時には稼動せず、太陽光や風力で発電使用する電力ポンプが併設されておらず、揚水効率は低い。特にヨーロッパ式は大型風車だけにブレードの羽根の面への布張りや、撤去が手間となり、更に、風向への方向変換も自動化されたものは少なく、大型風車の利用は減少しつつあり、自動化が必要である。 In both the American and European styles, it is only used by wind power, it does not operate when there is no wind, and there is no power pump that uses solar power or wind power to generate power, resulting in low pumping efficiency. In particular, European styles require only large windmills to fabricate and remove blade blades, and there are few automated direction changes to wind directions, and the use of large windmills is decreasing. is required.
特に近時は、石油の異常な値上がりと、地球温暖化による、風雨、少雨などの災害の多発が全世界の地域に拡大しており、この異変の解決策として、自然エネルギーの利用向上や、全く別の方法による、大量の揚水の方法開発が望まれる。 In particular, the recent increase in the price of oil and the frequent occurrence of disasters such as wind and rain due to global warming have spread throughout the world. It is desirable to develop a method for pumping a large amount of water by a completely different method.
自然エネルギーの利用による大量の揚水方法が確立できれば、商業電力、石油、ガスなどを利用する事なく、揚水でき、別の利用としては、海水を淡水化し、又、淡水でも汚れた水を浄化して、農業用水として、ハウス野菜工場用水として使用できる独立した装置で応用もでき、全世界の地域での利用が可能である。 If a large-scale pumping method using natural energy can be established, water can be pumped without using commercial power, oil, gas, etc. As another use, seawater can be desalinated, and fresh water can also be purified. In addition, it can be applied as an independent device that can be used as water for agricultural use as water for house vegetable factories, and can be used in regions all over the world.
特に、農業用飲料水として特に農業での麦、トウモロコシ、豆類、野菜などの不足は、今後激化するとみられ、これを解決する為には海水の淡水化が必要である。 In particular, the shortage of wheat, corn, beans, vegetables, etc., especially in agriculture as agricultural drinking water is expected to intensify in the future, and desalination of seawater is necessary to solve this.
その為には、風車による揚水と、自然エネルギー用電力モーターによる揚水の併用による高効率の揚水装置の開発が望まれる。 For this purpose, it is desired to develop a high-efficiency pumping device that combines pumping with a windmill and pumping with an electric power motor for natural energy.
この様な背景の中、理論的にも全く未開発の独立した風力及電気モーター併用型揚水機を利用した蒸留装置の開発は不可欠で、いろいろな農業用水や飲料水に利用できる大量の水を作る方法として自然エネルギーを利用したクリーンな装置が求められ、その中でも、南半球などの地域によるが、風は少なく、太陽光は当る確率は高い為、できれば本願発明の様に風力と太陽光を併用した、高効率の揚水装置の開発が急務である。 Against this background, it is indispensable to develop a distillation device using an independent wind and electric motor-type pump that is completely undeveloped in theory, and a large amount of water that can be used for various agricultural and drinking water. A clean device using natural energy is required as a method of making, and among them, depending on the region such as the Southern Hemisphere, there is little wind and the probability of hitting sunlight is high, so if possible, combined use of wind and sunlight as in the present invention However, there is an urgent need to develop a highly efficient pumping device.
参考文献は次の通りである。
本発明はこの様な従来の方式や構成が有していた問題点を解決しようとするものであり、クリーンで独立的で、場所を限定する事なく利用できる揚水装置を提供する事を目的とするものである。 The present invention is intended to solve the problems of such conventional methods and configurations, and aims to provide a pumping device that is clean and independent and can be used without limiting the location. To do.
解決しようとする問題点
(1)石油、ガス、商業電力を使用する事なく大量の揚水装置を作るにはどうすれば良いか。
(2)風車1基で、揚水と発電が出来る方法はないか。
(3)揚水と電力を風車ブレード部は、風の方向で回転する為、どうしたら下の固定主柱の方へ送ることが出来るか。
(4)揚水した水を発電した電力をどうしたら貯める事ができるか。
以上の様な課題や問題を解決する為に今回の発明はなされたものである。
Problems to be solved (1) How can we make a large amount of pumping equipment without using oil, gas and commercial power?
(2) Is there a method that can pump and generate electricity with one windmill?
(3) Since the wind turbine blade rotates in the direction of the wind, how can we send pumping water and electric power to the lower fixed main column?
(4) How can we store the power generated from the pumped water?
The present invention has been made in order to solve the problems and problems as described above.
請求項1の発明は、独立揚水装置に関するもので、装置は風力ブレード式で同風力の回転軸をクランク型にして、筒状の中にピストンリングが上下する事で、吸入、排気の作動で揚水、同筒状の下部に取り付けてあるパイプを通じ、併設する貯水タンクに揚水する方法〔1〕と、更に同じ揚水クランクの回転軸の先に、この回転軸の回転を増す増速機と発電機を設け発電、これに太陽光発電の電力の両方を併設するバッテリーに充電、この電力を利用して、電力型揚水ポンプを稼動して水を揚水し、併設する、貯水タンクに揚水する方法〔2〕とを合算併用する事で、商業電力や石油、ガスを利用する事なく、自然エネルギーのみで、風力と太陽光の利用で、揚水効率を飛躍的に向上できる構造を特徴とする、風力及電気モーター併用型揚水装置を提供するものである。 The invention of claim 1 relates to an independent pumping device, which is a wind blade type, with the rotating shaft of the wind force as a crank type, and a piston ring that moves up and down in a cylindrical shape. Pumping water, a method of pumping water to the storage tank through the pipe attached to the lower part of the cylinder [1], and a speed increaser and power generator that further increases the rotation of the rotating shaft ahead of the rotating shaft of the same pumping crank A battery is installed on both the power generator and solar power generator, and the electric pump is used to pump water and pump the water to the storage tank. Combined with [2], it is characterized by a structure that can dramatically improve pumping efficiency by using wind power and sunlight, using only natural energy, without using commercial power, oil, or gas. Wind and electric motor combined pumping It is to provide a location.
請求項2の発明は、風車はダウンウインドー式で、風向により、ブレード軸と上部は回転しており、クランクで揚水した水と電気を下部G.Lからの主柱に固定して、併設する貯水タンクや、バッテリーに送る為、同主柱パイプより大きい円形固定部材を置き送水を可能としたその外周に前述の上部回転部との間に大型のベアリング、又は回転ローラーを固定、横揺れを防止、更に貯水タンクも複数置き、バッテリーを設けて、揚水ポンプ稼動効率をあげた作りで、複雑な装置を必要とせず、長期に及んで、部品の点検と交換がしやすく更に上部から下部に送水や送電が可能な構造を特徴とする、請求項1に記載の風力及電気モーター併用型揚水装置を提供するものである。 In the invention of claim 2, the windmill is of a down-window type, the blade shaft and the upper part are rotated by the wind direction, and the water pumped up by the crank and electricity are supplied to the lower G. A large fixed member larger than the main pillar pipe is placed between the upper rotating part and the above-mentioned upper rotating part in order to send it to the water tank or battery that is fixed to the main pillar from L and to be sent to the battery. The bearing or rotating roller is fixed, rolling is prevented, and more than one storage tank is installed, and a battery is provided to increase the operating efficiency of the pump. The wind and electric motor combined pumping device according to claim 1, characterized in that it is easy to check and replace, and further has a structure capable of transmitting and transmitting water from the upper part to the lower part.
上記第一の課題解決手段による作用は次の通りである。上部の風車ブレードの軸は、凸形となったクランク式で筒内のピストンリングを上下させ水を揚水、そのブレード軸と同じ軸をクランクの先に取り付け直軸増速機を介して、発電機を併設して揚水と発電ができる作用が働き、又、ピストンリングの上下と縦長の筒との接点は、ピストンリングの上下と回転運動にも合う作りで、若干のスキ間は、揚水能力に支障なく、上部と下部主柱の回転作用をスムーズにできる。 The operation of the first problem solving means is as follows. The shaft of the upper windmill blade is a convex crank type, and the piston ring in the cylinder is moved up and down to pump water, and the same shaft as the blade shaft is attached to the tip of the crank to generate power via a straight shaft speed increaser. The pump ring is equipped with an action to generate water and generate electricity, and the contact point between the top and bottom of the piston ring and the vertically long cylinder is also suitable for the top and bottom of the piston ring and rotational movement. It is possible to smoothly rotate the upper and lower main pillars without any problem.
上記第2の課題解決効果は、上部風車ブレード回転部とクランクを通じて、ピストンリングを筒内で上下させ、吸入、排気の作動で揚水した水と、更に上部で発電した電力は共に風向きで動く部分で作られ、これらを使用する為には、この水と電力を下部主柱部分に送る必要が生じるが、これら上部と下部固定主柱部にはベアリングがあり回転に支障が生じるが、この固定主柱部分に水と電力を送るパイプより大きい円形輪状の固定部材を置くことで、スムーズに送水、送電ができ、長期において部品の交換や点検もできる作用ができ、更に主柱部分の太陽光の電力もバッテリーに充電して電力ポンプにより揚水できる効果で揚水能力を大幅に改善できる作用が働く。 The second problem solving effect is that the piston ring is moved up and down in the cylinder through the upper wind turbine blade rotating part and the crank, and the water pumped up by the operation of suction and exhaust and the power generated in the upper part move in the wind direction. In order to use these, it is necessary to send this water and electric power to the lower main column part, but these upper and lower fixed main column parts have bearings and cause trouble in rotation. By placing a circular ring-shaped fixing member larger than the pipe that supplies water and power on the main column, water can be transmitted and transmitted smoothly, and parts can be replaced and inspected over the long term. The power can be charged to the battery and pumped by the power pump, which can greatly improve the pumping capacity.
前述した風力及電気モーター併用型揚水装置は、次のような効果を発揮する。 The aforementioned wind and electric motor combined pumping device exhibits the following effects.
(1)石油、ガス、商業電力を使用することなく、若干ブレードの直径を長くすることで風力の高度利用技術の確立ができ、揚水と発電を生み、更に太陽光発電を併用して、自然エネルギーのみの利用で高効率の揚水装置が可能。
(2)従来は、風力ブレード利用は、風力のみの利用で揚水の効果が風がある時のみの稼動に限定されていたが、電力モーター利用により揚水能力を大幅に改善できる。
(3)この揚水装置は、水面やG.Lより10m以上への高所に揚水が可能で、高所への農業用水、家庭用、野菜工場用に送水でき、この装置で、送水ポンプやそれらへの送水用電力が不要。
(4)この揚水装置と海水淡水化の蒸留装置をセットとして、利用が可能で、電力のない地域での農業、飲料などの水が、従来より多く提供できる。
(1) It is possible to establish advanced technology for wind power by slightly increasing the diameter of the blade without using oil, gas, or commercial power, producing pumped water and power generation, and using solar power generation in combination. A highly efficient pumping device is possible by using only energy.
(2) Conventionally, the use of wind blades has been limited to operation only when wind power is used and the effect of pumping is windy, but the pumping capacity can be greatly improved by using an electric motor.
(3) This pumping device can be It is possible to pump water at a height of 10m or more from L, and can feed water for agricultural use, home use, vegetable factories to the high place, and this device does not require a water pump or power for water supply to them.
(4) This pumping device and seawater desalination distillation device can be used as a set, and can provide more water for agriculture, beverages, etc. in areas where there is no electricity.
以上の様ないろいろな効果を出す事ができ、特に、前述の通り海水の淡水化や淡水汚水の浄化に蒸留装置を併用することで、電力のない地区や、送電線の困難な地区での揚水や淡水化の為に大きな効果が発揮できる。 Various effects as described above can be achieved, and in particular, by using a distillation device together with desalination of seawater and purification of freshwater sewage as described above, in areas where there is no electricity or where transmission lines are difficult Great effect for pumping and desalination.
本願発明は、風力及電気モーター併用型揚水装置でダウンウインド型の多翼ブレードを使用し説明、これは強力な力を必要とする為で、ブレード部の軸受け部は回転し、下部の固定主柱部は火の見ヤグラ式でも大型パイプ式でも設置場所に応じて使用するが、今回の説明では大型パイプ式で説明する。 The present invention is explained by using a downwind type multi-blade blade in a wind pump and electric motor combined type pumping device, because this requires a strong force, and the bearing portion of the blade portion rotates and the lower fixed main The pillar part is used depending on the installation place, whether it is a fire-spreading Yagura type or a large pipe type, but in this explanation it will be explained with a large pipe type.
以下、本発明の実施を図1〜図7に基づいて説明する。 Hereinafter, embodiments of the present invention will be described with reference to FIGS.
図1は、本願発明の風力及電気モーター併用型揚水装置を正面から見た外観図で1は、多翼ブレードで2は、ブレードの回転軸を支える回転ケースで3は、太陽光発電器(以下、ソーラーパネルという)を2の回転ケースの壁面と下部の固定主柱パイプにも複数取り付け、電力は5のバッテリーに充電、6は、上部の回転ケース部からの送電パイプである。 FIG. 1 is an external view of a wind pump and an electric motor combined pumping apparatus according to the present invention as viewed from the front, 1 is a multi-blade blade, 2 is a rotating case that supports the rotating shaft of the blade, and 3 is a solar power generator ( A plurality of solar panels (hereinafter referred to as solar panels) are also attached to the wall of the rotating case 2 and the lower fixed main pillar pipe, the electric power is charged to the battery 5, and 6 is a power transmission pipe from the upper rotating case part.
図2は、左側から見た内部展開斜視図で、8は、風向矢印を示し、2の回転ケースは、8の風向により向きを変えることができ、9は、電力で動く電動ポンプで、10は、海中や淡水池から吸水パイプ(又は、揚水パイプともいう)で、11は4の貯水タンクから水を取り出す排水口(又はノズルともいう)で、ここから、いろいろな所へ水を送水する。図の1、2、3、4、5、7は図1の通りである。 FIG. 2 is an internal development perspective view seen from the left side, 8 is a wind direction arrow, 2 rotation cases can be changed in direction by 8 wind directions, 9 is an electric pump driven by electric power, 10 Is a water absorption pipe (also called a pumping pipe) from the sea or a freshwater pond, and 11 is a drainage port (also called a nozzle) for taking out water from the water storage tank of 4, and from here water is sent to various places. . 1, 2, 3, 4, 5, and 7 are as shown in FIG.
図3は、右側面図で、図2の左側面図とほとんどかわりないが、12は方向従属板で風の方向に向くようにする板で、上部回転ケース全体を吊る金具が13である。 FIG. 3 is a right side view that is almost the same as the left side view of FIG. 2, but 12 is a direction dependent plate that faces the wind direction, and 13 is a metal fitting that suspends the entire upper rotating case.
図4は、背面図で4の貯水タンクは2ケを置き、水量は相互自由送水パイプで連結し、5のバッテリーも2ヶ設け、14はポンプ吸水パイプで、風車用揚水の吸水パイプとは別々になっている。 Fig. 4 is a rear view of the water storage tank 4 with two units, the amount of water is connected by mutual free water pipes, 5 batteries are also provided, 14 is a pump water intake pipe, and the wind pump water intake pipe is It is separate.
図5は、平面図で上から見た図であるが、2の回転ケースは、中心軸からズレている位置にあり、ブレードは必ず風の方向に向く。 FIG. 5 is a plan view seen from above, but the two rotating cases are in a position displaced from the central axis, and the blades are always directed in the direction of the wind.
図6は、左部分断面詳細図で、16はブレード回転軸で、この軸はクランク17に連結し、その先に18の直軸型増速機があり、クランクの上下よりこの増速機で、増速され、19の発電機が発電するもので、21のピストンリングが上下し、22のピストンリング筒の中に下部より水が揚水される。 FIG. 6 is a detailed sectional view of the left partial view. Reference numeral 16 denotes a blade rotation shaft, which is connected to a crank 17 and is provided with 18 straight shaft type speed increasers. The speed is increased, and 19 generators generate electricity. 21 piston rings move up and down, and water is pumped into the 22 piston ring cylinders from below.
図7は、揚水ピストン状態断面拡大図で、図に従って説明すればクランクと連結された28のピストンリングシャフトが上にあがれば、21のピストンリングの上のピストン弁29がふさがり、揚水された水は23の揚水排水パイプへ水は流れ、その時24の筒底の弁は開き、水が10の揚水パイプから水が22のピストン筒にみちびかれるシステムで、23の揚水排水パイプを通じ4の貯水タンクに水は貯まり、電力ポンプからの送水パイプ(小)15からも貯水タンク4にも送水される。 FIG. 7 is an enlarged cross-sectional view of the pumped piston state. If the piston ring shaft of 28 connected to the crank is lifted as described in accordance with the figure, the piston valve 29 on the piston ring of the 21 is blocked and the pumped water is pumped. In this system, water flows into 23 pumping drainage pipes, at which time the cylinder bottom valve opens and water is drawn from 10 pumping pipes to 22 piston cylinders. The water is stored in the water tank and is fed from the water feed pipe (small) 15 from the power pump to the water storage tank 4.
図7の上部より、20のスラスト、ラジアル兼用ベアリングで上からの重量と横ゆれのラジアルをこのベアリングでまかない安定し、上のブレード軸から発電した電力を下部へ送電する為、電力受電スリップリングで6の送電パイプで、この6の送電パイプと23の揚水排水パイプを7の下部固定主柱パイプに取り付けてある26の大型円形固定部材の中を通す事で、大形ベアリング27の回転をスムーズにできる作りで6の送電パイプからの電力は下部の5のバッテリーに充電され、25の揚水吸水弁は、同パイプの揚水が下へ逆戻りをふせぐ効果がある。図の2、7は図1の通りである。 From the top of Fig. 7, 20 thrust and radial combined bearings are used to stabilize the weight and swaying radial from above with this bearing, and the power generated from the upper blade shaft is transmitted to the bottom. By passing the 6 power transmission pipes and the 23 pumping and drainage pipes through the 26 large circular fixing members attached to the lower fixed main pillar pipe, the large bearing 27 can be rotated. The electric power from 6 power transmission pipes can be made smoothly, and the battery of 5 in the lower part is charged. The 25 water intake valve has the effect of pumping back the pipe back to the bottom. Reference numerals 2 and 7 in FIG.
(1)大型の河川が、農業用耕作可能な平地より、かなり低い場所にある所からの揚水、山間地での利用。
(2)送電線のない海岸地区、離島への送水。
中近東、アフリカ地区の海水淡水化装置との併用利用による水提供。
(3)以上の地区への送水、給水する事で農業面積の飛躍的な拡大が可能で、又、レタス工場の新設も可能。
(1) Pumping water from places where large rivers are considerably lower than agricultural cultivated flat land, and use in mountainous areas.
(2) Water supply to coastal areas and remote islands where there is no transmission line.
Provision of water through combined use with seawater desalination equipment in the Middle East and Africa.
(3) By supplying and supplying water to the above areas, the agricultural area can be dramatically expanded, and a lettuce factory can be established.
自然エネルギー利用の揚水、又は、飲料水の産業は地球温暖化防止からも必要で、その上、人口増加と生活変化で淡水湖や淡水河川が近くにあっても工場排水や生活排水、農薬などで汚染がひどく、農業用水、工場用水、飲料水として利用できない水も全世界に相当量あり、これらを再生する必要がある。 The use of natural energy pumping or drinking water is also necessary to prevent global warming. Moreover, even if freshwater lakes and freshwater rivers are nearby due to population growth and lifestyle changes, industrial wastewater, domestic wastewater, agricultural chemicals, etc. There is a considerable amount of water in the world that cannot be used as agricultural water, factory water, or drinking water.
そのような状況下にあって自然エネルギーのみで農業用水やレタス工場及飲料水用への水の提供が可能となり大幅に耕作面積の拡大ができる、本発明の風力及電気モーター併用型揚水装置の開発は不可欠である。 Under such circumstances, it is possible to provide water for agricultural water, lettuce factories and drinking water using only natural energy, and the cultivation area of the wind power and electric motor combined use of the present invention can be greatly expanded. Development is essential.
本願発明品は独立でき、設置場所に限定されない為、河川があり揚水可能なアジア、アフリカ地区での利用で、農業用水やレタス工場等、野菜ハウス工場、魚の陸上による養魚場の整備への水利用で農業や漁業にも大きく貢献でき、海水や淡水の蒸留水は飲料水には、そのままでは向かない点もあるが、飲料水には深海水を少量混ぜたり、無菌海水を少量加えることで飲料水にも十分利用でき、産業上、経済発展と地球環境上からも利用効果が大きく期待できる最も必要な装置である。 Since the invention of the present application can be independent and is not limited to the installation location, it can be used in Asia and Africa where there are rivers and water can be pumped, water for agricultural use, lettuce factories, vegetable house factories, fish farms on land It can make a significant contribution to agriculture and fisheries by using seawater and freshwater distilled water, which may not be suitable for drinking water as it is, but it can be mixed with a small amount of deep seawater or a small amount of sterile seawater. It is the most necessary device that can be used well for drinking water, and can be expected to have a great effect on industrial, economic development and global environment.
1.多翼ブレード
2.回転ケース
3.太陽光発電器(又はソーラーパネル)
4.貯水タンク
5.バッテリー
6.送電パイプ
7.固定主柱パイプ
8.風向矢印
9.電動ポンプ
10.揚水パイプ(吸水パイプともいう)
11.排水口(又はノズル)
12.方向従属板
13.つり金具
14.ポンプ吸水パイプ
15.送水パイプ(小)
16.ブレード回転軸
17.クランク
18. 増速機(直軸型)
19.発電機
20.スラスト、ラジアル兼用ベアリング
21.ピストンリング
22.ピストン筒
23.揚水排水パイプ
24.筒底
25.揚水吸水弁
26.大型円形固定部材
27.大型ベアリング
28.ピストンリングシャフト
29.ピストン弁
30.電力受電スリップリング
1. Multi-blade blade2. Rotating case 3. Solar power generator (or solar panel)
4). 4. Water storage tank Battery 6. Transmission pipe 7. Fixed main pillar pipe8. Wind direction arrow 9. Electric pump 10. Pumping pipe (also called water absorption pipe)
11. Drainage port (or nozzle)
12 Direction dependent plate 13. Hanging bracket 14. Pump water absorption pipe
15. Water pipe (small)
16. Blade rotation shaft 17. Crank 18. Gearbox (straight shaft type)
19. Generator
20. Thrust and radial bearings
21. Piston ring 22. Piston cylinder
23. Pumped drain pipe
24. Tube bottom
25. Pumped water intake valve
26. Large circular fixing member
27. Large bearing
28. Piston ring shaft 29. Piston valve 30. Power receiving slip ring
Claims (2)
The windmill is a down-window type, and the blade shaft and upper part are rotated by the wind direction. In order to send it to the storage tank or battery that is fixed to the main pillar from L, a circular fixing member that is larger than the main pillar pipe is placed and water can be sent. Fixing bearings or rotating rollers, preventing rolling, and installing multiple water storage tanks, providing a battery to increase the operating efficiency of the pump, eliminating the need for complicated equipment and checking parts over a long period of time The wind pump and electric motor combined pumping device according to claim 1, wherein the pumping device is easy to exchange and has a structure capable of transmitting and transmitting water from the upper part to the lower part.
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JP2011011527A JP2012154187A (en) | 2011-01-24 | 2011-01-24 | Pumping system using wind force and electric motor |
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JP2011011527A JP2012154187A (en) | 2011-01-24 | 2011-01-24 | Pumping system using wind force and electric motor |
Publications (1)
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JP2012154187A true JP2012154187A (en) | 2012-08-16 |
Family
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103174621A (en) * | 2013-03-14 | 2013-06-26 | 福建农林大学 | Wind and solar energy complementary type air compression device used for pumping up water |
CN105201800A (en) * | 2015-09-01 | 2015-12-30 | 曹西京 | Micro water drawing device adopting wind power |
CN113586346A (en) * | 2021-09-13 | 2021-11-02 | 陕西辰玛风力发电有限公司 | Vertical axis wind power water injection system, control method and application |
CN113586345A (en) * | 2021-09-13 | 2021-11-02 | 陕西辰玛风力发电有限公司 | Vertical axis wind power water injection system for oil field, transmission method and application |
CN114738227A (en) * | 2022-04-29 | 2022-07-12 | 华北水利水电大学 | Wind power canal water lifting device for farmland irrigation |
-
2011
- 2011-01-24 JP JP2011011527A patent/JP2012154187A/en active Pending
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103174621A (en) * | 2013-03-14 | 2013-06-26 | 福建农林大学 | Wind and solar energy complementary type air compression device used for pumping up water |
CN105201800A (en) * | 2015-09-01 | 2015-12-30 | 曹西京 | Micro water drawing device adopting wind power |
CN113586346A (en) * | 2021-09-13 | 2021-11-02 | 陕西辰玛风力发电有限公司 | Vertical axis wind power water injection system, control method and application |
CN113586345A (en) * | 2021-09-13 | 2021-11-02 | 陕西辰玛风力发电有限公司 | Vertical axis wind power water injection system for oil field, transmission method and application |
CN114738227A (en) * | 2022-04-29 | 2022-07-12 | 华北水利水电大学 | Wind power canal water lifting device for farmland irrigation |
CN114738227B (en) * | 2022-04-29 | 2024-03-26 | 华北水利水电大学 | Wind power canal water lifting device for farmland irrigation |
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