JPH05223054A - Power generator during no-wind period for wind prime mover - Google Patents

Abstract

PURPOSE:To effectively generate power during the breeze or no-wind period by operating an air-driven turbine with the compressed air stored during the operation by wind, and driving a power generator via a power shaft. CONSTITUTION:Wind prime movers l are provided in series, and front and rear propeller shafts 2 are connected to a main power shaft 6 installed under the ground via a transmission system including bevel gear trains 3, 5. The first through third flywheels 8-10 are fitted to the main power shaft 6, and clutches 11, 12 are provided on power shafts between the flywheels 8-10. An air compressor 13 is installed between the flywheels 8, 9 and an air-driven turbine 14 is installed between the flywheels 9, 10 respectively so that power can be transmitted, and a power generator 7 is installed at the end of the main power shaft 6. When the air compressor 13 is driven by wind, the compressed air is stored in a high-pressure tank, and the air-driven turbine 14 is driven by the compressed air extracted from the high-pressure tank to drive the power generator 7 during the no-wind period.

Description

【発明の詳細な説明】Detailed Description of the Invention

【０００１】[0001]

【産業上の利用分野】この発明は、風力原動機において
稼働間合いの無風時においても、本原動機が稼働した動
力を利用して風車からの動力軸を回転し、発電機を運転
してさらに動力を発生することを目的としている。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention uses the motive power of the prime mover to rotate the power shaft from the wind turbine to drive the generator to further increase power even when there is no wind in the wind prime mover. It is intended to occur.

【０００２】[0002]

【従来の技術】従来の風力原動機においては、無風の間
合い（一般にはあまり長い時間ではない）は休止となり
通常非稼働状態になるのはやむを得ない事であった。従
来小型の風車ではプロペラのピッチを変えて風の強さに
応じて効率を上げる方法が行われ、微風でも風車の回転
を落とさない様な技術が進んでいるが、大型の風力原動
機では無風の場合は如何ともし難いことであった。2. Description of the Related Art In a conventional wind power engine, it has been unavoidable that a windless period (generally, not a very long time) is stopped and normally put into a non-operating state. Conventionally, in small wind turbines, a method of increasing the efficiency according to the strength of the wind by changing the pitch of the propeller has been carried out.Technology is underway to prevent the rotation of the wind turbine even in light wind, but in large wind turbines there is no wind. It was difficult in some cases.

【０００３】[0003]

【発明が解決しようとする課題】そこでこの発明は、大
型の風力原動機でも微風時または無風時において、風の
吹くときと同様に動力軸を回転して発電機を運転し有効
な動力を発生させることを目的としている。SUMMARY OF THE INVENTION Therefore, according to the present invention, even in a large wind power engine, when the wind is light or no wind, the power shaft is rotated in the same manner as when the wind blows to operate the generator and generate effective power. The purpose is to

【０００４】[0004]

【課題を解決するための手段】上記の目的を達成するた
めに本発明は、風力方向に回転軸を持ち、且つ回転を調
節制御できる直列の風力原動機を設け、地下に導入した
主動力軸を地下室の奥に装置した発電機まで延長し、そ
の中間に数個のフライホイ−ルを取り付け、フライホイ
−ル間に連結した動力軸には離合自在のクラッチをそれ
ぞれ設け、また第１フライホイ−ルと第２フライホイ−
ルとの間には空気圧縮機を設置して動力軸より動力を伝
達し、第２フライホイ−ルと第３フライホイ−ルとの間
には、空気動力タ−ビンを設置してこのタ−ビンから動
力軸へ動力を伝達するように装置し、別に地下室には数
個の圧縮空気貯蔵タンクを設置して、前記空気圧縮機か
らの圧縮空気を貯蔵するとともに、無風の間合いには圧
縮空気を貯蔵タンクから空気動力タ−ビンへ送り動力軸
を回転して発電機を運転するものである。In order to achieve the above object, the present invention provides a series wind power generator having a rotary shaft in the wind direction and capable of adjusting and controlling the rotation, and installing a main power shaft introduced underground. It extends to the generator installed in the back of the basement, several flywheels are installed in the middle of it, and the power shafts connected between the flywheels are each provided with a detachable clutch and the first flywheel. Second flywheel
An air compressor is installed between the second flywheel and the third flywheel and an air power turbine is installed between the second flywheel and the third flywheel. A device for transmitting power from the bottle to the power shaft, and several compressed air storage tanks are installed separately in the basement to store the compressed air from the air compressor, and to store compressed air in a quiet space. Is sent from the storage tank to the air-powered turbine to rotate the power shaft to operate the generator.

【０００５】[0005]

【作用】以上のように構成された本発明の装置は、風力
の方向に対して回転軸を持つプロペラ式風力原動機で回
転軸に制動装置を装備して回転を調節制御できる複数直
列の風車である。この前後のプロペラ軸から傘歯車で地
下に導入された動力軸は、さらに地下の傘歯車で地下主
動力軸に動力が伝達される。この主動力軸はそのまま延
長するか、またはもう一度傘歯車で直角に方向を変え
て、地下の奥に装置した発電機まで延長する。この主動
力軸には３個のフライホイ−ルを取り付け、フライホイ
−ル間に連結した動力軸に取り付けたクラッチにより各
フライホイ−ルに動力の伝達と切り離しが自由にでき
る。さらに第１フライホイ−ルと第２フライホイ−ルの
間に設置した空気圧縮機は風車の回転により運転され
て、地下室の数個の圧縮空気貯蔵タンクへ圧縮空気を送
って貯蔵しておく。第２フライホイ−ルと第３フライホ
イ−ルの間に設置した空気動力タ−ビンは風力の落ちた
時には、直ぐに圧縮空気貯蔵タンクからの圧縮空気をタ
−ビンに送り動力軸を回転し、クラッチを入れて発電機
を運転する。このようにして本発明の装置は無風の時で
も発電を継続できるものである。The apparatus of the present invention configured as described above is a propeller-type wind power engine having a rotating shaft with respect to the direction of the wind force, and is equipped with a braking device on the rotating shaft so that the rotation can be adjusted and controlled. is there. The power shaft that is introduced underground from the front and rear propeller shafts by the bevel gear is further transmitted to the underground main power shaft by the underground bevel gear. This main power shaft can be extended as it is, or can be changed to a right angle with a bevel gear again and extended to the generator installed in the underground. Three flywheels are attached to the main power shaft, and transmission and disconnection of power to each flywheel can be freely performed by a clutch attached to the power shaft connected between the flywheels. Further, the air compressor installed between the first flywheel and the second flywheel is driven by the rotation of the wind turbine to send compressed air to several compressed air storage tanks in the basement for storage. The air-powered turbine installed between the second flywheel and the third flywheel immediately sends compressed air from the compressed air storage tank to the turbine to rotate the power shaft when the wind power falls and the clutch is rotated. Turn on the generator. In this way, the device of the present invention can continue power generation even when there is no wind.

【０００６】[0006]

【実施例】実施例について図面を参照して説明すると、
図１において直列の風力原動機１を設け、この前後のプ
ロペラ軸２から傘歯車３で地下に導入された垂直動力軸
４は、さらに地下の傘歯車５で地下の主動力軸６に連結
する。この主動力軸６はさらに地下の奥に装置した発電
機７まで延長する。該主動力軸６には第１、第２、及び
第３の３個のフライホイ−ル８，９，１０を取り付け、
各フライホイ−ル間の動力軸には離合自在のクラッチ１
１および１２をそれぞれ取り付ける。またフライホイ−
ル８と９の間には空気圧縮機１３とその動力伝導装置を
設置し、フライホイ−ル９と１０の間には空気動力タ−
ビン１４とその動力伝導装置を設置する。地下室には別
に５個の圧縮空気貯蔵タンクＴ１〜Ｔ５を設置して前記
空気圧縮機１３及び空気動力タ−ビン１４とそれぞれ連
結空気パイプ１５及び空気出入弁１６を取り付けて成る
装置である。なお図面においてＢ１，Ｂ２，Ｂ３は主動
力軸の軸受である。EXAMPLES Examples will be described with reference to the drawings.
In FIG. 1, a wind turbine motor 1 is provided in series, and a vertical power shaft 4 introduced underground from the front and rear propeller shafts 2 by a bevel gear 3 is further connected to an underground main power shaft 6 by an underground bevel gear 5. This main power shaft 6 further extends to a generator 7 installed in the inner part of the underground. Attached to the main power shaft 6 are three first, second and third flywheels 8, 9 and 10.
A clutch 1 that can be freely engaged and disengaged on the power shaft between each flywheel.
Install 1 and 12, respectively. Fly fly
An air compressor 13 and its power transmission device are installed between the wheels 8 and 9, and an air power turbine is installed between the flywheels 9 and 10.
The bottle 14 and its power transmission device are installed. In the basement, five compressed air storage tanks T1 to T5 are separately installed, and the air compressor 13, the air power turbine 14, the connecting air pipe 15 and the air inlet / outlet valve 16 are attached. In the drawings, B1, B2 and B3 are bearings of the main power shaft.

【０００７】[0007]

【発明の効果】本発明は以上説明したように構成されて
いるので、以下記述のような効果を奏するものである。
従来の風力原動機では無風時においては作動しないた
め、動力機械としては役立たなかった。これに対し本発
明は風力による作動中に蓄積した圧縮空気を利用して空
気動力タ−ビンを運転して動力軸を回転して発電機を運
転し、微風または無風時でも有効な作動をする効果を発
揮する新規なる風力原動機である。Since the present invention is configured as described above, it has the following effects.
Since the conventional wind turbine does not operate when there is no wind, it is not useful as a power machine. On the other hand, the present invention operates the air-powered turbine to rotate the power shaft to operate the generator by utilizing the compressed air accumulated during the operation by the wind power, and operates effectively even in the breeze or no wind. It is a new wind turbine that is effective.

【図面の簡単な説明】[Brief description of drawings]

【図１】本発明装置の一部断面を示す配列正面図であ
る。FIG. 1 is an array front view showing a partial cross section of a device of the present invention.

【図２】本発明装置の地下室に設置した圧縮空気貯蔵タ
ンクの配列図である。FIG. 2 is an array diagram of a compressed air storage tank installed in the basement of the device of the present invention.

【符号の説明】[Explanation of symbols]

１ 風力原動機 ２ プロペラ軸 ３ 風車傘歯車 ４ 垂直動力軸 ５ 地下傘歯車 ６ 主動力軸 ７ 発電機 ８ 第１フライホイ−ル ９ 第２フライホイ−ル １０ 第３フライホイ−ル １１ 第１クラッチ １２ 第２クラッチ １３ 空気圧縮機及び動力伝導装置 １４ 空気動力タ−ビン及び動力伝導装置 １５ 連結空気パイプ １６ 空気出入弁 Ｔ１ 圧縮空気貯蔵タンク Ｔ２ 圧縮空気貯蔵タンク Ｔ３ 圧縮空気貯蔵タンク Ｔ４ 圧縮空気貯蔵タンク Ｔ５ 圧縮空気貯蔵タンク Ｂ１ 主動力軸の軸受 Ｂ２ 主動力軸の軸受 Ｂ３ 主動力軸の軸受 Ｓ 圧縮空気貯蔵タンクの安全弁 Ｇ 圧縮空気貯蔵タンクの圧力計 DESCRIPTION OF SYMBOLS 1 Wind-powered motor 2 Propeller shaft 3 Windmill bevel gear 4 Vertical power shaft 5 Underground bevel gear 6 Main power shaft 7 Generator 8 1st flywheel 9 2nd flywheel 10 3rd flywheel 11 1st clutch 12 2nd Clutch 13 Air compressor and power transmission device 14 Air power turbine and power transmission device 15 Connection air pipe 16 Air inlet / outlet valve T1 Compressed air storage tank T2 Compressed air storage tank T3 Compressed air storage tank T4 Compressed air storage tank T5 Compressed air Storage tank B1 Main power shaft bearing B2 Main power shaft bearing B3 Main power shaft bearing S S Compressed air storage tank safety valve G G Compressed air storage tank pressure gauge

Claims (1)

【特許請求の範囲】[Claims] 【請求項１】 風力方向に対し回転軸を持ち、且つ回動
自在とし、さらに回転を調節制御できる直列の風力原動
機を設け、地下に導入した主動力軸を地下室の奥に装置
した発電機まで延長し、その中間に数個のフライホイ−
ルを取り付け、フライホイ−ル間に連結した動力軸には
離合自在のクラッチをそれぞれ設け、また第１フライホ
イ−ルと第２フライホイ−ルとの間には空気圧縮機を設
置して動力軸より動力を伝達し、第２フライホイ−ルと
第３フライホイ−ルとの間には、空気動力タ−ビンを設
置してこのタ−ビンから動力軸へ動力を伝達するように
装置し、別に地下室には数個の圧縮空気貯蔵タンクを設
置して、前記空気圧縮機からの圧力空気を貯蔵するとと
もに、無風の間合いには圧縮空気を空気動力タ−ビンへ
送り動力軸を回転して発電機を運転することを特徴とす
る風力原動機の無風間合における発電装置。1. A generator having a rotary wind shaft in the direction of the wind force, being rotatable, and further provided with a series wind power generator capable of adjusting and controlling the rotation, and a main power shaft introduced underground is installed in the back of the basement. Extend and several flywheels in the middle
The power shaft connected between the flywheels is provided with a detachable clutch, and an air compressor is installed between the first flywheel and the second flywheel. Power is transmitted and an air power turbine is installed between the second flywheel and the third flywheel to transmit power from this turbine to the power shaft. A plurality of compressed air storage tanks are installed in the storage unit to store the compressed air from the air compressor, and in the absence of wind, the compressed air is sent to the air power turbine to rotate the power shaft to generate a generator. A wind turbine generator in a windless condition, characterized by operating a wind turbine.