201014522 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種供氣系統’特別是指一種以風力 驅動的供氣系統。 【先前技術】 在台灣’室外養殖池大部分都使用水車作為打氣設備 ’主要有增氧、攪動水體等兩大功能,都是為了使水中的容 _ 氧量提升’提高生物存活量以增加殖產量,並確保養殖池中 的生物不致因缺氧而死亡。水車大致上分成傳統式水車、推 進吸氣式水車、揚水式水車,及喷水式水車四種,使用種類 最普遍的是傳統式水車。 參閲圖1,習知傳統式水車1包含一浮架11、一驅動裝 置12及一打水裝置13。使用時,以電力驅動該驅動裝置 12再連動該打水裝置13,使該打水裝置13轉動打水來補 充水池中之氧氣。 參 @是傳統式的水車使用時間長,研究顯示,使用-馬 力水車,每天打水十八小時,以電費每度2元計算時,一 台水車:天約需28 5元電費,因此當養殖池中設置水車的 、又提冈時 整個月下來的電費就相當驚人。在電費高 涨及地球能源逐漸枯蝎的今日,如何使用替代能源是現代 社會急需解決的課題。 【發明内容】 因此,本發明Β μ 即在提供一種不需使用電力, 只需要風力就能夠在該水池中打氣之風力驅動供氣系統。 5 201014522 於是,本發明之風力驅動供氣系統,適用於—水池該 風力腰動供氣系統包含一輸氣裝置、至少一連通於該輸氣 裝置之輸氣管,及—轉動裝置。 該轉動裝置包括包括一可轉動地設置於該輸氣裝置上 且驅動該輸氣裝置運轉之轉轴,及複數片間隔環設於該轉轴 上之扇葉,每一扇葉具有一第一葉面及一第二葉面,該第— 葉面是鄰近該相鄰葉面之第二葉面,每一第二葉面之開放端 的側緣形成有一凹槽,以使所述扇葉受風力驅動而往固定方 向轉動並帶動該轉軸也隨之旋轉,進而驅動該輪氣裝置將空 氣經由該輸氣管送入該水池中。 本發明之功效在於:只要有風吹送,不需要使用電力 ,即可讓所述扇葉轉動並帶動該轉轴也隨之旋轉,進而帶 動該輸氣裝置運作而將空氣經由該輸氣管送入該水池中。 【實施方式】 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之四個較佳實施例的詳細說明中,將可 清楚的呈現。 在本發明被詳細描述之前,要注意的是,在以下的說 明中,類似的元件是以相同的編號來表示。 參閱圖2,為本發明風力驅動供氣系統的第一較佳實施 例,該風力驅動供氣系統是設置於一水池邊,並包含一輸氣 裝置2、至少一連通於該輸氣裝置2並延伸至該水池中的輸 氣管3,及一可轉動地設置於該輸氣裝置2的轉動裝置4, 該轉動裝置4包括一可轉動地設置於該輸氣裝置2上,且驅 201014522 動該輸氣裝置2運轉之轉軸5,及 5上之扇葉6,每一扇葉6具 數片間隔環設於該轉軸 _ 乐一葉面61及一筮-接;ε; 62,該第-葉面61是鄰近該相鄰扇葉第一葉面 一第·筆" 之第一葉面62,每 :-葉面62之開放端的侧緣形成 扇葉6受風力驅動而往固定方向轉動,並:動:二使所述 之旋轉,進而驅動該輸氣裝置2將空氣經由該輪5 = ❹ 該水池中,於本實施财,該輸衫置 機^, 浦’而連通於該打氣泵浦的輪氣管3表面更形== …述出氣…設計,也可以增加空=出多= 池中的錢’使得水池内的含氣分佈更為均勾。 參閱圖3及圖4,風行進時,沿著風的方㈣成 力如圖3中箭所·干戈· 〒箭頭所不方向前進,而對所述扇葉6形成一壓力 ,虽該壓力施加於圖3下方扇葉6 *合+ 莱面61時’該壓 散=Γ 之弧狀凸出的形狀而往兩側快速消 :,但該壓力施加於圖3上方扇葉6之第二葉面62時形 =二:面62之凹槽63會使風量集[而減㈣力消 散的速度,使得上方扇葉6所受到的壓力會大於圓3中之下 =扇葉6 ’而讓所述扇葉6如圖3中箭頭所示,依順時針方 向繞該轉軸5之軸線轉動,進而帶動該輸氣裝置以空氣經 由該輸氣管3輸送到水池中;由㈣等凹槽〇均形成於所 述扇葉6之第二葉面62,因此不論風是由那—個方向吹送 皆會使得所述扇葉6如圖3所示之順時針方向轉動。 因此,只要有風吹送,不需要使用電力,即可讓所述 扇葉6轉動並帶動該轉轴5也隨之旋轉,進而帶動該打氣果 7 201014522 浦21運轉以將空氣經由該輸氣管3送入該水池中。 值得一提的是,該轉動裝置4之數量也可以是複數個 ’以提供大型輸氣裝置2運作,並將更大量的空氣打入水池 中,由於在本發明之風力驅動供氣系統中增加該轉動裝置4 之數量的方式’為熟悉相關技藝人士所周知,故於此不再瞽 述。201014522 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD The present invention relates to a gas supply system, particularly to a gas supply system driven by a wind. [Prior Art] In Taiwan, most of the outdoor breeding ponds use waterwheels as air-inducing equipments, which mainly have two functions, such as aeration and agitation of water, all of which are designed to increase the amount of oxygen in the water. Yield and ensure that organisms in the pond do not die from hypoxia. Waterwheels are roughly divided into traditional waterwheels, push-in suction waterwheels, water-lifting waterwheels, and water-jet waterwheels. The most common type of use is the traditional waterwheel. Referring to Fig. 1, a conventional waterwheel 1 includes a float 11, a driving device 12, and a water pumping device 13. In use, the driving device 12 is electrically driven to reconnect the water pumping device 13 to rotate the water pumping device 13 to replenish the oxygen in the pool. Participation @ is a traditional type of waterwheel used for a long time, research shows that the use of - horsepower waterwheel, water for 18 hours a day, electricity costs 2 yuan per degree, a water tank: about 28 yuan electricity costs, so when farming The electricity bill for the entire month when the water tanker is set up in the pool is also amazing. Today, with the rising electricity tariffs and the gradual fading of the earth's energy, how to use alternative energy sources is an urgent issue for modern society. SUMMARY OF THE INVENTION Accordingly, the present invention provides a wind driven gas supply system that can pump air in a pool without using electric power and requiring only wind power. 5 201014522 Thus, the wind driven air supply system of the present invention is suitable for a pool. The wind power supply system comprises a gas delivery device, at least one gas delivery pipe connected to the gas delivery device, and a rotation device. The rotating device includes a rotating shaft rotatably disposed on the gas conveying device and driving the gas conveying device, and a plurality of blades spaced apart from the rotating shaft, each of the blades has a first a leaf surface and a second leaf surface, wherein the first leaf surface is adjacent to the second leaf surface of the adjacent leaf surface, and a side edge of the open end of each second leaf surface is formed with a groove for receiving the leaf blade The wind is driven to rotate in a fixed direction and the rotating shaft is also rotated, thereby driving the wheel device to send air into the pool through the gas pipe. The utility model has the following effects: as long as the wind blows, no need to use electric power, the fan blade can be rotated and the rotating shaft is also rotated, thereby driving the gas conveying device to operate and feeding air through the gas conveying pipe. In the pool. The above and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments of the invention. Before the present invention is described in detail, it is noted that in the following description, like elements are denoted by the same reference numerals. 2 is a first preferred embodiment of a wind driven air supply system according to the present invention, the wind driven air supply system is disposed at a pool side and includes a gas delivery device 2, at least one of which is connected to the gas delivery device 2 And extending to the gas pipe 3 in the pool, and a rotating device 4 rotatably disposed on the gas conveying device 2, the rotating device 4 includes a rotatably disposed on the gas conveying device 2, and drives the 201014522 The rotating shaft 5 of the gas conveying device 2 and the fan blade 6 on the 5th, each of the blades 6 has a plurality of spaced rings arranged on the rotating shaft _Leyi leaf surface 61 and a 筮-joint; ε; 62, the first The leaf surface 61 is a first leaf surface 62 adjacent to the first leaf surface of the adjacent blade, and the side edge of each of the open ends of the leaf surface 62 forms a blade 6 that is driven by the wind to rotate in a fixed direction. And: move: two to rotate the said, and then drive the gas delivery device 2 to pass air through the wheel 5 = ❹ in the pool, in the implementation of the money, the shirt is connected to the machine The surface of the pumped trachea 3 is more shaped == ...the gas is out...the design can also increase the empty =out more =the money in the pool' makes the pool Gas distribution are more hook. Referring to FIG. 3 and FIG. 4, when the wind travels, the force along the side of the wind (four) is advanced in the direction of the arrow of the arrow, and the arrow is formed in the direction of the arrow, and a pressure is applied to the blade 6, although the pressure is applied. In the lower part of Fig. 3, when the fan blade 6 * merges + the surface 61, the shape of the crushing = 弧 arc is convex and disappears to both sides: but the pressure is applied to the second leaf of the fan blade 6 in the upper part of Fig. 3 Face 62 when the shape = two: the groove 63 of the face 62 will make the wind volume [and minus (four) force dissipation speed, so that the pressure of the upper blade 6 will be greater than the lower of the circle 3 = the blade 6 ' As shown by the arrow in FIG. 3, the fan blade 6 rotates clockwise around the axis of the rotating shaft 5, thereby driving the air conveying device to transport air into the pool through the gas pipe 3; The second leaf surface 62 of the blade 6, therefore, whether the wind is blown by that direction, causes the blade 6 to rotate in a clockwise direction as shown in FIG. Therefore, as long as there is wind blowing, the fan blade 6 is rotated and the rotating shaft 5 is also rotated as the wind is blown, thereby driving the pumping fruit 7 to operate the pump 21 to pass air through the gas pipe 3 . Feed into the pool. It is worth mentioning that the number of the rotating devices 4 can also be plural 'to provide large gas delivery device 2 operation, and a larger amount of air is pumped into the pool due to the increase in the wind driven air supply system of the present invention. The manner of the number of the rotating devices 4 is well known to those skilled in the art and will not be described again.
參閲圖5,為本發明風力驅動供氣系統的第二較佳實施 例二大致類似於前述第一較佳實施例,不同之處在於:該 輸氣裝置2包括-與該輸氣管3相連接的電力式打氣果浦 21,及一與該打氣泵浦21互相分離設置且供該轉動裝置4 之轉軸5可轉動地設置於其上之承接座22,該電力轉換裝 置8包含一設置於該轉軸5上且與該打氣泵浦η電連接的 轉換單元81 ’及—電連接於該轉換單元81的蓄電單元U ,該轉換單兀81是將該轉轴5轉動時的動能轉換成電能, 以供電給該打氣泵浦21通電運作,該#電單元Μ則用以 儲存該轉換單元81所產生之電力,該電力轉換裝置8用以 將該轉軸5之旋轉能量轉換成電力’來驅動該打氣泵浦21 ,該蓄電單元81可用以儲存該電力轉換裝置8所產生之電 能’而該輸氣管3是連通於該打氣泵浦21上;當風持續吹 送時,所述扇帛6便可持績轉動並經由該電力轉換裝置8 產生更多的電力’此時可將多餘的電力餘存於該蓄電單元 ^中,待無風時再使用該蓄電單元81中的電力來驅動該打 虱泵浦21,經由該輸氣管3進行輸送空氣的動作。 參閱圖6及圖7,為本發明風力驅動供氣系統的第三及 201014522 第四較佳實施例,大致類似於前述第一及第二較佳實施例, 不同之處在於··該風力驅動供氣系統更包含一架設於該水池 中並外露於該池面上之支撐架7,於第三較佳實施例中,該 支撐架7是供該轉動裝置4與輸氣裝置2放置並能外露於該 池面上;於第四較佳實施例中,該支撐架7是供該轉動裝置 4、電力轉換裝置8,與輸氣裝置2放置並能外露於該池面 上’上述二較佳實施例皆可以便於將該輸氣管3往水池的各 〇 個方向延伸且可以縮短該輸氣管3的長度,不但節省成本, 更能提高輸氣的效率。 歸納上述,本發明風力驅動供氣系統不需要使用電力 ’只要有風吹過就能夠使所述扇葉6轉動,進而驅動該打 氣栗浦21將空氣經由該輸氣管3送入該水池中,可以有效 節能並降低費用,所以確實能夠達到本發明之目的。 惟以上所述者,僅為本發明之較佳實施例而已,當不 能以此限定本發明實施之範圍,即大凡依本發明申請專利 • 範圍及發明說明内容所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一側視圖,說明習知水車的結構; 圖2是一侧視圖,說明本發明風力驅動供氣系統之第 一較佳實施例; 圖3是一俯視圖,說明該第一較佳實施例之扇葉的受 風狀態; 圖4是一俯視圖’說明該第一較佳實施例之扇葉的轉 9 201014522 動狀態; 圖5是一側視圖,說明本發明風力驅動供氣系統之第 二較佳實施例; 圖6是一側視圖,說明本發明風力驅動供氣系統之第 三較佳實施例;及 圖7是一側視圖,說明本發明風力驅動供氣系統之第 四較佳實施例。 ❿ 10 201014522 【主要元件符號說明】 2 輸氣裝置 61 第一葉面 21 打氣泵浦 62 第二葉面 22 承接座 63 凹槽 3 輸氣管 7 支撐架 31 出氣孔 8 電力轉換裝置 4 轉動裝置 81 轉換單元 5 轉轴 82 蓄電單元 6 扇葉 參 11Referring to FIG. 5, a second preferred embodiment 2 of the wind driven air supply system of the present invention is substantially similar to the first preferred embodiment described above, except that the gas delivery device 2 includes a phase with the gas delivery tube 3. a connected powered air pump 21, and a socket 22 disposed separately from the air pump 21 and rotatably disposed on the rotating shaft 5 of the rotating device 4, the power converting device 8 includes a The conversion unit 81' on the rotating shaft 5 and electrically connected to the pumping pump η is electrically connected to the power storage unit U of the converting unit 81, and the converting unit 81 converts kinetic energy when the rotating shaft 5 is rotated into electric energy. The power pumping device 21 is configured to energize the air pump 21 for storing the power generated by the converting unit 81, and the power converting device 8 is configured to convert the rotating energy of the rotating shaft 5 into electric power to drive The air pump 21 can be used to store the electric energy generated by the power conversion device 8 and the gas pipe 3 is connected to the air pump 21; when the wind continues to blow, the fan 6 The performance can be rotated and transferred via the power The device 8 generates more power. At this time, excess power can be stored in the power storage unit. When the air is not used, the power in the power storage unit 81 is used to drive the snoring pump 21, and the air pump 3 is driven. Perform the action of conveying air. Referring to FIG. 6 and FIG. 7 , a fourth preferred embodiment of the wind driven air supply system of the present invention and a fourth preferred embodiment of the present invention are substantially similar to the first and second preferred embodiments described above, except that the wind driven The air supply system further includes a support frame 7 disposed in the pool and exposed on the surface of the pool. In the third preferred embodiment, the support frame 7 is provided for the rotating device 4 and the gas delivery device 2 and can Exposed to the surface of the pool; in the fourth preferred embodiment, the support frame 7 is provided for the rotating device 4, the power conversion device 8, and the gas delivery device 2 and can be exposed on the pool surface. The preferred embodiment can facilitate the extension of the gas pipe 3 to each direction of the pool and shorten the length of the gas pipe 3, which not only saves cost, but also improves the efficiency of gas transmission. In summary, the wind driven air supply system of the present invention does not require the use of electric power. 'As long as the wind blows, the fan blade 6 can be rotated, and the air pumping pump 21 is driven to send air into the pool through the gas pipe 3, It is effective to save energy and reduce costs, so it is indeed possible to achieve the object of the present invention. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications made by the scope of the invention and the description of the invention are modified. All remain within the scope of the invention patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view showing the structure of a conventional waterwheel; Fig. 2 is a side view showing a first preferred embodiment of the wind driven gas supply system of the present invention; Fig. 3 is a plan view showing Figure 4 is a top view of the first embodiment of the blade of the first preferred embodiment of the rotation of the blade 9 201014522; Figure 5 is a side view of the wind of the present invention Fig. 6 is a side view showing a third preferred embodiment of the wind driven gas supply system of the present invention; and Fig. 7 is a side view showing the wind driven air supply of the present invention A fourth preferred embodiment of the system. ❿ 10 201014522 [Description of main component symbols] 2 Gas delivery device 61 First leaf surface 21 Air pump 62 Second leaf surface 22 Bearing seat 63 Groove 3 Air pipe 7 Support frame 31 Air outlet 8 Power conversion device 4 Rotating device 81 Conversion unit 5 shaft 82 power storage unit 6 fan leaf 11