201200725 - 六、發明說明: ^ 【發明所屬之技術領域】 本發明係與風力發電供電裝置有關,尤指一種包括至 少一風力發電裝置、至少一結合座及一供電座,每一風力 發電裝置為一獨立發電之模組,供設於一固定物體或一具 有速度的行動中之物體上,而可直接由供電座對外供電之 技術。 【先前技術】 • 按吾人先前所知,習用之風力發電裝置如台灣專利申 請第090116740號「利用風力發電供電動交通工 具補充電力的方法」專利案,其主要技術特徵係提供有至 少一風力發電單元、至少二個彼此連接通電的電池、一集 風裝置及一個可調整入風氣流大小且設在集風裝置上的 風門。風力發電單元固定在電動車或電動機車或電動自行 車或電動船其中之一的電動交通工具上,並使該風力發電 I 單元的入風口朝向著電動交通工具的迎風面,可在電動交 通工具行進間’蒐集空氣中的氣流以推動運轉風力發電單 元。第一個電池直接供應電流給馬達,第二個電池則接受 風力發電單元所輸入的電流並做儲存,以輔助第一個電池 供應電流給電動交通工具上的馬達,進而以馬達驅動電動 交通工具行進。 但該風力發電補充電力的方法缺失係在於: 1、如其公報之第二圖所示,風力發電單元係設於電 動交通工具上,而僅設於電動交通工具上擴充性即不足。 201200725 2、 請參閲其公報2 1圖所示,該風力發電單元整體 -係呈平面狀,如此該風力發電單元與迎風面間係呈平面 狀,亦即風力發電單元之複數扇葉係與電動交通工具係相 互垂直,雖該風力發電單元發電時係可供電於電動交通工 具,但風力發電單元於電動交通工具行進時,垂直之風力 發電單元係產生不少風阻。 3、 該集風裝置係設有伺服馬達及風門,該集風裝置 係為較多元件之組合,而具較多之成本。 籲 本發明人有鑑於上述該習用風力發電裝置之缺失,乃 積多年之研究經驗’幾經多次之試作經驗,終獲有本發明 提出。 【發明内容】 本發明之主要目的係在於:風力發電供電裝置係設有 複數個風力發電裝置及結合座,每一風力發電裴置與結合 座相組設後係為一獨立模組而設於固定物體或具有速度 φ 的行動中之物體上具供電功效。 具體而言’本發明係關於一種風力發電供電裝置,其 係包括,該風力發電裝置係包括:該底座係設有第一容 槽;該轉動組係包含有:該旋轉座係樞設於底座上;該前 蓋;該轉軸一端係與前蓋相互固定;該複數扇葉係環狀排 列圍繞於旋轉座及前蓋間而圍成一圓錐形狀;該發電模組 係固設於第一容槽内;該連接手段係將轉軸與發電模組相 連接;該集風罩係設有呈喇α八狀之容室,該集風罩與底座 相互固定,該集風罩係設有結合部、容板槽;該電路板係 4 201200725 容設於容板槽内,該電路板係與發電模、缸 線係與電路板相連接;該結合座係固電隹連接’電源 上,該風力讀幽蝴 進中之物體之内部,供電座係與電源線電性相連,供 係包括供電埠。 對照先前技術之功效:該風力發電裝置係固設於結合 座,該結合觸再ϋ設於可行進移動之物體外部,利用行201200725 - VI. Description of the invention: ^ Technical field of the invention The present invention relates to a wind power generation device, and more particularly to an at least one wind power generation device, at least one coupling seat and a power supply seat, and each wind power generation device is A module for independent power generation, which is provided on a fixed object or an object in a speed action, and can be directly powered by the power supply base. [Prior Art] • According to what we have previously known, the wind power generation device of the prior art, such as Taiwan Patent Application No. 090116740, "Method for Replenishing Power by Using Wind Power to Power Vehicles", whose main technical feature is to provide at least one wind power generation. The unit, at least two batteries connected to each other for electrification, a wind collecting device and a damper for adjusting the size of the inlet airflow and disposed on the wind collecting device. The wind power generation unit is fixed on an electric vehicle of one of an electric vehicle or an electric motor vehicle or an electric bicycle or an electric boat, and the air inlet of the wind power generation unit unit faces the windward side of the electric vehicle, and can travel on the electric vehicle. 'to collect airflow from the air to drive the wind power unit. The first battery directly supplies current to the motor, and the second battery receives the current input by the wind power unit and stores it to assist the first battery to supply current to the motor on the electric vehicle, thereby driving the electric vehicle with the motor. Go on. However, the method for supplementing electric power with wind power is missing: 1. As shown in the second diagram of the bulletin, the wind power generation unit is installed on the electric vehicle, and the expansion is insufficient only on the electric vehicle. 201200725 2. Please refer to the bulletin 2 1 of the figure, the wind power unit as a whole is in a planar shape, so that the wind power generation unit and the windward surface are planar, that is, the plurality of fan blades of the wind power generation unit The electric vehicles are perpendicular to each other. Although the wind power generation unit can supply electric power to the electric vehicle when the electric power generation unit generates power, the vertical wind power generation unit generates a lot of wind resistance when the electric power generation unit travels. 3. The wind collecting device is provided with a servo motor and a damper, and the collecting device is a combination of a plurality of components, and has a relatively high cost. The present inventors have come up with the present invention in view of the above-mentioned lack of the conventional wind power generation device and the experience of many years of research experience. SUMMARY OF THE INVENTION The main object of the present invention is that a wind power generation device is provided with a plurality of wind power generation devices and a coupling seat, and each wind power generation device and the coupling seat are assembled as a separate module. Powered by fixed objects or objects in motion with speed φ. Specifically, the present invention relates to a wind power generation device, which includes: the base is provided with a first receiving groove; the rotating group includes: the rotating base is pivoted on the base The front cover; the one end of the rotating shaft is fixed to the front cover; the plurality of fan blades are arranged in an annular shape around the rotating base and the front cover to form a conical shape; the power generating module is fixed in the first capacity In the slot, the connecting means connects the rotating shaft to the power generating module; the collecting hood is provided with a chamber which is in the shape of a la octagon, the collecting hood and the base are fixed to each other, and the collecting hood is provided with a joint portion The circuit board slot 4 201200725 is accommodated in the receiving plate slot, and the circuit board is connected with the power generating die and the cylinder wire system and the circuit board; the combined seat is fixed to the power supply, and the wind power is connected Reading the inside of the object into which the faint butterfly enters, the power supply system is electrically connected to the power line, and the power supply system includes a power supply port. In contrast to the effects of the prior art: the wind power generating device is fixed to the binding seat, and the combined contact is disposed outside the object that can be moved and moved.
進中之流動氣流而使扇葉轉動而產生電能,該風力發電装 置之電源線係與車體内之供電座相連結而具供電之功 效。該物體外部之風力發電裝置所產生之電流係供其物體 内《Ρ之供電座供電使用。當—風力發電裝置受損,該電源 線係可與钱料分離’賴風罩與其㈣之所有元件即 可取下修理。每-風力發電I置係設有電路板及發電裳 置該每一風力發電裝置係獨立模組而與供電座相連結而 更具其效能。The flowing airflow in the middle makes the fan blades rotate to generate electric energy, and the power line of the wind power generating device is connected with the power supply seat in the vehicle body to provide power supply. The current generated by the wind power generator outside the object is used for power supply in the object of the object. When the wind power installation is damaged, the power cord can be separated from the money. All components of the windshield and (4) can be removed for repair. Each of the wind power generation I is provided with a circuit board and a power generation device. Each of the wind power generation devices is a separate module and is connected to the power supply base to be more effective.
>為使鈞局委員及熟習此項技藝人士對本發明之功 效完全瞭解’兹配合圖式及圖號就本發明之結構、組成說 明於後准以下所述者僅為用來解釋本發明之實施例,並 非企圖據以對本發明做任何形式上之限制,是以凡是在本 發明之精神下,所作的任何修飾變 更皆仍應屬於本發明之 保護範圍。 【實施方式】 本發明一實施例’首先請參閱第一圖至第五圖風力發 電供電裝置之分解圖及組合圖所示,本發明之風力發電供 201200725 電裝置,係包括至少一風力發電裝置(i )、至少一結合 座(7 0 )及供電座(8 0 )。該風力發電裝置(丄)係 設於固定物體或具有速度的行動尹之物體之外部,如設於 汽車、火車、大客車、飛機、輪船或機車之外部,該每一 風力發電裝置(1 )係包括底座(1 0)、轉動叙(2 〇 )、 發電模組(30)、連接手段(40)、集風罩(5〇)、 電路板(6 0 )及電源線(6 3 )。各構件詳述如后。 底座(1 0)係為一圓形座體狀,該底座(1 〇)中 央係設有第一容槽(1 1 ),並在第一容槽(i卫)外園 分佈有複數個第一氣流孔(i 4);另設有一軸承件(工 2)以套設於第一容槽(1 1)外周緣,該軸承件(丄2) 係為軸承、滾珠軸承、滾柱軸承、襯套、銅襯套或類似功 能之元件,該第一容槽(i i)一側向外延伸有一第一線 槽(1 3 ),該第一線槽(;L 3 )係與第一容槽(i工) 相通。 轉動組(2 0)係枢設於底座(1 〇)上,其包含有 -旋轉座⑴)、-前蓋(22)、一轉抽(2 = 數個扇葉(2 4 )。其中,旋轉座(2 i )係供樞設於底 座(1 0)上,旋轉座(2 1)係呈圓形座體狀且其直徑 係略大於呈圓形座體狀的底座(1 〇 )之直徑^旋轉座(2 1 )中央設有第二容槽(2 1 ),第二容槽(2 1 1 ) 與第容槽(1 1)相對正,轴承件(工2)係套設於第 令槽(1 1 )外周緣及第二容槽(2 i i )内周緣間, 並在第二容槽(2 1 1 )外圍分佈有複數個第二氣流孔(2 201200725 5 )。前蓋(2 2)係呈錐形狀’用以對氣流進行導流及 . 減少風阻。轉軸(2 3)—端係與前蓋(2 2)相互固定, 該轉轴(2 3 )另端設有結合部(230)。每一扇葉(2 4)設有一具曲面狀之旋轉面,扇葉(2 4)—端固設於 前蓋(2 2)後端’另端配合旋轉座(2 1)周緣相互固 定’每一扇葉(24)與前蓋(2 2)固設的一端之寬度 較與旋轉座(2 1)固設的另一端之寬度為小,亦即每一 扇葉(2 4)係設有一端至另一端由窄至寬之一旋轉面, _ 複數扇葉(2 4)環狀排列圍繞於旋轉座(2 1)及前蓋 (2 2 )間,使旋轉座(2 1 )、前蓋(2 2 )及複數扇 葉(2 4)係合組成一圓錐形狀。前蓋(2 2)係朝向迎 風面,使該轉動組(2 0)具有最低風阻及較佳之旋轉速 度’每兩相鄰扇葉(2 4)間係具有間隔而形成内外呈相 通的氣流通道’扇葉(24)之一端與前蓋(22)間, 若二者均為金屬材質,固設結構係為點焊,若二者均為高 φ 分子材質或複合材料,固設結構係為可固定扇葉之一端與 前蓋及旋轉座間(如黏接或纏繞、卡簧或相當之固設方 式)。扇葉(2 4)之一端與旋轉座(2 1 )亦為相同固 設結構。 發電模組(3 0)係固設於底座(1〇)之第一容槽 (11)内。該發電模組(30)包括有一第一轉件、一 第二轉件及一線圈組件(因其為一般風力發電手段,故未 以圖明示),該第一轉件的軸部(3 i )利用連接手段(4 〇)而與該轉軸(2 3)連接固定,當軸部(31)被驅 201200725 -動而使第一轉件相對第二轉件旋轉時,致使線圈組件產生 電流’其發電模組(3 〇)即可發電。 連接手段(4 0)與連結部(2 3 0 )結合而將轉軸 (2 3)及軸部(3 1)相連接,使該轉動組(2 〇)轉 動而帶動軸部(3 1 )轉動,該發電模組(3 〇)係產生 電流而輸出。 集風罩(5 0 )呈圓筒狀,其前端形成一味|p八狀之開 鲁 口以供收集大量氣流往扇葉(2 4 )處流動,該集風罩(5 〇 )係覆罩底座(1 〇)、轉動組(2 〇)、發電模組(3 〇)及連接手段(4 0)於容室(5 1)内,該集風罩(5 0 )後端係設有容座槽(5 2 ),該容座槽(5 2 )係固 攻於底座(1 〇)外周緣,並在容座槽(5 2)外圍分佈 有複數個第三氣流孔(59);該集風罩(50)外周面 底部設有座體狀之結合部(5 3 ),該結合部(5 3 )後 端設有一容板槽(5 4 )及一第二線槽(5 5 ),該容板 # 槽(54)及容座槽(52)間設有第二線槽(5 5 ), 第二線槽(5 5)係與第一線槽(1 3)位置相對正,該 結合部(5 3 )近底部處係設有二鎖孔(5 6 ),設有一 鎖板(5 7)係蓋合於容板槽(5 4)處且封閉之,設有 一鎖件(5 8)穿設於鎖板(5 7)内而分別螺設於每一 鎖孔(5 6)處。 電路板(6 0 )係容設於集風罩(5 〇 )之容板槽(5 4)内,該電路板(6 〇)係設有電流輸入端(6 1)及 電流輸出端(6 2 ),該電流輸入端(6 1 )係容設於第 201200725 二線槽(5 5)及第一線槽(1 3)内,該電流輸入端(6 1 )係與發電模組(3 0)電性連接,使該電路板(6 0) 係收集發電模組(3 0)之電流。 電源線(6 3) —端係與電路板(6 〇)之電流輸出 端(6 2)相連接以傳輸電能。 鎖板(57)與集風罩(50)間及電源線(6 3) 與鎖板(5 7)間需有防水密封結構,一般係每二者間設 有防水墊圈; 每一該結合座(7 0)係固設於行進中之物體上,每 一風力發電裝置(1)係分別固設於每一結合座(7 〇) 上,或有複數風力發電裝置(1 )同時固設於一結合座(γ 0 )上。 供電座(8 0)係設於固定物體或具有速度的行進中 之物體之内部,該供電座(8 ◦)係與風力發電裝置(1 ) 之電源線(6 3)電性相連,使該物體外部之風力發電裝 置(1)所產生之電流係供其物體内部之供電座(8 〇) 供電使用,該供電座(8 〇)可為儀表板之一部份,該供 電座(80)係包括供電埠(81)及螢幕(82),該 供電淳(8 1 )設置有複數個供電插置槽以供至少一種電 器產品插接而做供電使用,該螢幕(8 2 )係可顯示供電 埠(8 1)之電量狀況。 請繼續參聞第三圖所示,係為本發明風力發電裝置 (1 )之侧視圖,第四圖係第三圖之B_ B處剖視圖,該 底座(1 0 )外周緣係固設於集風罩(5 〇 )之容座槽(5 201200725 2)處,該轉動組(2 0)之旋轉座(2 1)係與底座(工 0)相柩設,該前蓋(2 2)係與轉軸(2 3) —端相互 固定’複數扇葉(2 4)—端係環狀排列固設於前蓋(2 2)後方,該扇葉(24)另端係環狀疊置固設於旋轉座 (2 1)周緣而成圓錐形體狀,該發電模組(3 〇)係固 設於底座(1 0)之第一容槽(1丄)内,該連接手段(4 0 )係連接轉轴(2 3 )及軸部(3 χ )’該電路板(6 〇)係容設於集風罩(5 0)之容板槽(5 4)内,該電 路板(6 0)之電流輸入端(6 1)係容設於第二線槽(5 5)及第-線槽(1 3)内,二鎖件(5 8)係穿設於鎖 板(5 7)内而螺設於鎖孔(5 6)上,該鎖板(5 7) 係將電路板(6 0)封設於容板槽(5 4)内,該電路板 (6 0)之電流輸入端(6丄)係與發電模組(3 〇)電 性連接以收集發電電流,該電流輸出端(6 2)係將電流 傳輸至電源線(6 3)内’電源線(6 3)係傳輸電能至 • 供電座(80)處提供電能。 請繼續參閱第五圓所示,係本發明風力發電供電裝置 實施時之7F意圖,第六圖係實施時之立體圖,該結合座(7 〇)係固設於汽車、火車、大客車、飛機、機車或行進t 之物體(9 0)上’該複數個風力發電裝置(1)之每一 風口係1並橫向排狀而面向同—方位或縱向排列面向同 :方位,該複數個風力發«置(1 )之風π係朝向行進 的迎風:,當行進中,該大量之氣流係經由集風 之备至(51)而集中流進複數扇葉(2 4) 201200725 所圍成之圓錐形空間内,該大量氣流係急速撞擊而推動扇 -葉(2 4)之旋轉面,使該複數扇葉(2 4)受風力之動 力而轉動,該扇葉(24)係連動旋轉座(2 1 )、前蓋 (2 2)及轉軸(2 3)轉動,該轉軸(2 3)係因連接 手段(4 0)而連動轴部(3 1)轉動,該發電模組(3 0 )係產生電流而輸出至電路板(6〇),電路板(6〇) 之電流輸出端(6 2)係將電能傳輸至電源線(6 3 )而 傳輸至供電座(8 0 )之供電埠(8 1 ),使該供電埠(8 1)具供電功效以供電子產品如電腦、手機或各式電器插 入供電埠(81)處而供電使用。再者,一種實施例中, 至少一該風力發電裝置(1 )為複數個,至少一該結合座 (70)為複數個,每一該結合座(γ 〇 )上固設有至少 一該風力發電裝置(1)。 請繼續參閱第七圖所示,係本發明第二實施例供電蜂 (8 1 )之立體圖,該實施例中,該供電埠(81)係為 • 一獨立元件,該供電埠(8 1 )係設有至少一供電插置槽 (83),該供電插置槽(83)係可為各種電器插槽, 如手機電池、USB插槽、可充電之儲能裝置插槽、乾電 池座及一般家庭中二孔式或三孔式電器插槽。 本發明另一實施例,該轉軸(2 3)與軸部(3 1) 係為相連接結構,而此連接結構係為設有連接手段(4 〇 ) 之連接或其它之連接結構,而二者間之連接結構係無法一 詳述,因此有關一者間之連接結構均應屬本發明之保護 範圍。 201200725 - 本發明另一實施例,該複數風力發電裝置(1 )與結 合座(7 0)係相結合結構,該結合方式係為螺鎖、容設 或元件相卡制等組設方式,該二者間之組設結構係不再一 一詳述。 本發明另一實施例,該供電座(8 〇)係設有發光元 件及開關,使用者係可打開該開關,使該發光元件具照明 功效。 該結合座(7 0)係設於固定物體或具有速度的可行 • 進移動之物體上,以利用流動氣流而使扇葉(2 4 )轉動, 該發電模組(3 0)即產生電流而輸出供電使用,如固設 於汽車、機車、自行車、車體、輪船、各式船體· ··等 運輸工具上,或該結合座(7 0 )係固設於滑板、溜冰鞋、 滑翔翼· ··等物體上,該各物體間因其結構之不同,該 結合座(7 0)與各物體間之固設結構即不同,如結合座 (7 0)係設有快拆而扣設於物體上,所有可能之各種固 鲁 設結構並無法--詳述。 此外’為了增加本發明之發電效率,請參看第八圖所 示’本發明之轉軸(2 3)設計成内部中空,並於後端形 成開口並延伸至旋轉座(2 1 )之第二容槽(2 1 1 ), 於開口處内壁設有複數個環繞的内環齒(2 6 ),内環齒 與一間動齒輪(2 7)嚙合,間動齒輪(2 7)再與固定 在轴部(3 1)上的一被動齒輪(3 2)嚙合,當旋轉座 (2 1 )旋轉,經由内環齒(26)、間動齒輪(27) 及被動齒輪(3 2 ),即可使軸部(3 1 )旋轉。當内環 201200725 "齒(2 6)之齒數大於間動齒輪(2 7)之齒數的三倍, 且間動齒輪(2 7)之齒數大於被動齒輪(3 2)之齒數 的一點五倍,則軸部(3 1 )產生了四點五倍的加速效果, 而且旋轉座(2 1 )及轉軸(2 3)相對軸部(3 1)則 有五點五倍的加速效果,若將發電模組的線圈組件設置在 t空轉軸(23)内部(因視角而無法明示於本圖中), 則可發揮更大的發電效能。基於此種設計,請配合參看第 一圖所示,旋轉座(2 i)與底座(丄〇)之間設有軸承 _ 件(1 2 ),因而二者可保持順暢的相對轉動。 本發明結構設計優點係在於: 1、 該風力發電裝置(1 )係固設於結合座(7 〇 ), 該結合座(7 0)係再固設於固定物體或具有速度的可行 進移動之物體上,如固設於汽車或機車上,利用行進中之 流動氣流而使扇葉(2 4)轉動而產生電能量,該風力發 電裝置(1)之電源線(6 3)係與車體内之供電座(8 _ 0)相連結而具供電之功效。 2、 該物體外部之風力發電裝置(1 )所產生之電流 係供其物體内部之供電座(8 〇)供電使用,而具方便使 用之功效。 3、 當一風力發電裝置(1)受損,該電源線(6 3) 係可與集風罩(5 0)相分離,該集風罩(5 0)與其内 部之所有元件即可取下修理。 4、 每一風力發電裝置(1)係設有電路板(6 〇) 及發電模組(3 0 ),該每一風力發電裝置(1 )係獨立 13 201200725 模組而與供電座(8 0)相連結,供電座(8 〇)係更具 其效能。 ' 5、 該集風罩(50)前端開口處係呈喇叭狀,該喇 队狀之開口係可供收集且引導大量之氣流往扇葉(2 4) 處流動使其轉動速度較快,該集風罩(5 〇)係增加風力 之效能。 6、 該集風罩(5 〇)係覆罩所有元件於容室(5工) 内’衣物、手或其它物品可避免碰觸至轉動中之複數 •(24)。 ^ 7、 該連接手段(4 〇)係連接轉軸(2 3)及軸部 、(3 1 ) ’ 一般而言該發電模組(3 〇 )係較易損壞該 連接手&(4 0)之螺鎖件取下,該發電模組(3 〇)即 可取下更換。 因此本發明之風力發電供電裝置具有產業利用性、新 顆性及進步性且具功效,誠能符合發明專利之申請要件, φ 爰依法提出申請。 201200725 【圖式簡單說明】 第一圖係本發明風力發電供電裝置之立體分解圖。 第二圖係本發明風力發電供電裝置之立體組合圖° 第三圖係本發明風力發電供電裝置之侧視圖。 第四圖係本發明第三圖之B—B處剖視圖。 第五圖係本發明風力發電供電裝置一實施例實施時之示 意圖。 第六圖係本發明風力發電供電裝置一實施例實施時之立 • 體圖。 第七圖係本發明第二實施例供電座之立體圖。 第八圖係本發明轉動組之較佳實施例示意圖。 【主要元件符號說明】 (1 1)第一容槽 (1 3)第一線槽 (2 0)轉動組 (211)第二容槽 (2 3)轉軸 (2 4 )扇葉 (2 6)内環齒 (30)發電模組 (3 2)被動齒輪 (51)容室 (1)風力發電裝置 (1 0)底座 (1 2)軸承件 (14)第一氣流孔 (21)旋轉座 (2 2)前蓋 (2 3 0)連結部 (2 5)第二氣流孔 (2 7)間動齒輪 (3 1)軸部 (4 0)連接手段 (5 0)集風罩 201200725 (5 2)容座槽 、 (5 4)容板槽 (5 6)鎖孔 (5 8)鎖件 (6 0)電路板 (6 2)電流輸出端 (7 0)結合座 (8 1 )供電埠 • (8 3)供電插置槽 (5 3)結合部 (5 5)第二線槽 (5 7)鎖板 (5 9)第三氣流孔 (6 1)電流輸入端 (6 3)電源線 (8 0)供電座 (8 2)螢幕 (9 0)物體<> For the purpose of explaining the present invention, the members and those skilled in the art are fully aware of the effects of the present invention. The structure and composition of the present invention are described below. The examples are not intended to limit the invention in any way, and any modifications made by the invention in the spirit of the invention are still within the scope of the invention. [Embodiment] An embodiment of the present invention is first shown in an exploded view and a combination diagram of the wind power generation device of the first to fifth embodiments. The wind power supply of the present invention is a power supply device for 201200725, which includes at least one wind power generation device. (i) at least one binding base (70) and a power supply base (80). The wind power generation device (丄) is disposed outside a fixed object or an object having a speed of action, such as an automobile, a train, a bus, an airplane, a ship, or a locomotive, and each of the wind power generation devices (1) The system includes a base (10), a rotation (2 〇), a power generation module (30), a connection means (40), a collecting hood (5 〇), a circuit board (60), and a power line (63). The components are detailed as follows. The base (10) is a circular seat shape, and the first base (1 1 ) is disposed in the center of the base (1 〇), and a plurality of first ones are distributed in the outer space of the first receptacle (i) Air flow hole (i 4); another bearing member (work 2) is sleeved on the outer circumference of the first receiving groove (11), and the bearing member (丄2) is a bearing, a ball bearing, a roller bearing, a lining a sleeve, a copper bushing or the like, the first slot (ii) extending outwardly from a first slot (13), the first slot (; L3) and the first slot (i work) the same. The rotating group (20) is pivoted on the base (1 〇), which includes a rotating seat (1), a front cover (22), and a rotary pumping (2 = a plurality of blades (2 4 ). The rotating base (2 i ) is pivoted on the base (10), and the rotating base (2 1) has a circular seat shape and the diameter is slightly larger than the base (1 〇) in the shape of a circular seat. The second hole (2 1 ) is provided in the center of the diameter ^rotating seat (2 1 ), the second receiving groove (2 1 1 ) is opposite to the first receiving groove (11), and the bearing member (work 2) is sleeved on a plurality of second air flow holes (2 201200725 5 ) are disposed between the outer circumference of the first groove (1 1 ) and the inner circumference of the second groove ( 2 ii ) and outside the second groove ( 2 1 1 ). (2 2) is in the shape of a cone 'for guiding the airflow and reducing the wind resistance. The shaft (2 3) - the end system and the front cover (2 2) are fixed to each other, and the rotating shaft (23) is provided at the other end a joint portion (230). Each of the blades (24) is provided with a curved rotating surface, and the fan blade (24) is fixed at the rear end of the front cover (2 2) and the other end is matched with the rotating seat (2) 1) The circumferences are fixed to each other. 'The width of one end of each leaf (24) and the front cover (2 2) is rotated and rotated. (2 1) The width of the other end of the fixing is small, that is, each blade (24) is provided with one end to the other end from a narrow to wide rotating surface, _ a plurality of blades (2 4) The arrangement surrounds the rotating base (2 1) and the front cover (2 2 ), and the rotating base (2 1 ), the front cover (2 2 ) and the plurality of blades (24) are combined to form a conical shape. 2 2) The system faces the windward side, so that the rotating group (20) has the lowest wind resistance and the preferred rotational speed. The gap between each two adjacent blades (24) is formed to form an inner and outer airflow passage. (24) Between one end and the front cover (22), if both are made of metal, the fixed structure is spot welding. If both are high φ molecular materials or composite materials, the fixed structure is a fixed fan. One end of the leaf is between the front cover and the rotating base (such as bonding or winding, circlip or equivalent fixing). One end of the fan blade (24) and the rotating base (2 1) are also the same fixed structure. The group (30) is fixed in the first tank (11) of the base (1). The power module (30) includes a first rotating member, a second rotating member and a coil assembly ( The shaft portion (3 i ) of the first rotating member is connected and fixed to the rotating shaft (23) by a connecting means (4 ,), and the shaft portion (31) is Drive 201200725 - When the first rotating member is rotated relative to the second rotating member, the coil assembly generates a current 'the power generating module (3 〇) can generate electricity. The connecting means (40) and the connecting portion (2 3 0) In combination, the rotating shaft (23) and the shaft portion (3 1) are connected, and the rotating group (2 〇) is rotated to drive the shaft portion (3 1 ) to rotate, and the power generating module (3 〇) generates current and outputs . The collecting hood (50) has a cylindrical shape, and the front end thereof forms a scented ap-shaped opening for collecting a large amount of airflow to flow to the fan blade (24), and the collecting hood (5 〇) is covered with a cover The base (1 〇), the rotating group (2 〇), the power generating module (3 〇), and the connecting means (40) are located in the chamber (5 1), and the rear end of the collecting hood (50) is provided with a capacity a seat groove (52) that is fixed to the outer circumference of the base (1 〇) and has a plurality of third air flow holes (59) distributed around the seat groove (52); The bottom of the outer peripheral surface of the collecting hood (50) is provided with a joint portion (53), and a rear end of the joint portion (53) is provided with a receiving plate groove (54) and a second wire groove (5 5). a second slot (5 5 ) is disposed between the slot (54) and the receptacle slot (52), and the second slot (5 5) is opposite to the position of the first slot (13). The connecting portion (53) is provided with two locking holes (56) near the bottom, and a locking plate (57) is closed at the receiving plate groove (54) and closed, and a locking member is provided ( 5 8) Threaded in the lock plate (57) and screwed into each lock hole (56). The circuit board (60) is housed in a receiving plate slot (5 4) of the windshield (5 〇), and the circuit board (6 〇) is provided with a current input terminal (6 1) and a current output terminal (6). 2), the current input end (6 1 ) is housed in the second line slot (5 5) and the first line slot (13) of the 201200725, and the current input end (6 1 ) is connected to the power generation module (3) 0) Electrical connection, so that the circuit board (60) collects the current of the power generation module (30). Power Cord (6 3) — The end system is connected to the current output (6 2) of the board (6 〇) to transfer power. A waterproof sealing structure is required between the lock plate (57) and the collecting hood (50) and between the power supply line (63) and the lock plate (57). Generally, a waterproof gasket is provided between each of the two; (7 0) is fixed on the moving object, each wind power generator (1) is fixed on each joint (7 〇), or a plurality of wind power generators (1) are fixed at the same time. One is coupled to the seat (γ 0 ). The power supply seat (80) is disposed inside a fixed object or an object having a speed of traveling, and the power supply seat (8 ◦) is electrically connected to the power line (63) of the wind power generator (1), so that the power supply seat (80) The current generated by the wind power generator (1) outside the object is used for power supply of the power supply seat (8 〇) inside the object, and the power supply seat (8 〇) can be a part of the instrument panel, and the power supply seat (80) The utility model comprises a power supply port (81) and a screen (82). The power supply port (8 1 ) is provided with a plurality of power supply insertion slots for powering at least one electrical product, and the screen (8 2 ) can be displayed. The power status of the power supply (8 1). Please continue to see the third figure, which is a side view of the wind power generator (1) of the present invention, and the fourth figure is a cross-sectional view of the B_B of the third figure. The outer periphery of the base (10) is fixed in the set. At the seat cover of the windshield (5 〇) (5 201200725 2), the rotating seat (2 1) of the rotating group (20) is disposed opposite the base (Working 0), and the front cover (2 2) is And the rotating shaft (23) is fixed to each other. The plurality of blades (2 4) are arranged in an endless manner in the rear of the front cover (2 2), and the other ends of the blades (24) are annularly stacked and fixed. The power module (3 〇) is fixed in the first pocket (1 丄) of the base (10), and the connecting means (40) is fixed on the circumference of the rotating base (2 1). Connecting the rotating shaft (2 3 ) and the shaft portion (3 χ )' the circuit board (6 〇) is housed in the receiving plate slot (5 4) of the collecting hood (50), the circuit board (60) The current input end (6 1) is disposed in the second trunking (5 5) and the first-line slot (13), and the two locking members (58) are disposed in the lock plate (57). The screw is disposed on the lock hole (56), and the lock plate (5 7) encapsulates the circuit board (60) in the receiving plate slot (5 4), the circuit board (60) The current input terminal (6丄) is electrically connected to the power generation module (3 〇) to collect the generated current, and the current output terminal (6 2) transmits the current to the power line (63) within the 'power line (6) 3) Power is transmitted to the power supply (80). Please continue to refer to the fifth circle, which is the 7F intention of the implementation of the wind power generation device of the present invention, and the sixth figure is a perspective view of the implementation, the binding seat (7 〇) is fixed in the automobile, the train, the bus, the aircraft. , the locomotive or the object of the traveling t (90), each of the plurality of wind power generating devices (1) is horizontally arranged and oriented in the same direction or in the longitudinal direction to face the same direction: the plurality of wind powers «The wind of the set (1) is toward the wind that travels: when traveling, the large amount of airflow flows through the wind to the (51) and concentrates into the plurality of blades (2 4) In the space, the large amount of airflow rapidly hits and pushes the rotating surface of the fan-blade (24), so that the plurality of blades (24) are rotated by the power of the wind, and the blade (24) is linked to the rotating seat (2) 1), the front cover (2 2) and the rotating shaft (23) rotate, and the rotating shaft (23) rotates the shaft portion (31) by the connecting means (40), and the power generating module (30) is Current is generated and output to the circuit board (6〇), and the current output terminal (6 2) of the circuit board (6〇) transmits power to the power supply. (6 3 ) is transmitted to the power supply port (8 1 ) of the power supply seat (80), so that the power supply port (8 1) has a power supply function for plugging in an electronic product such as a computer, a mobile phone or various appliances (81) It is used for power supply. Furthermore, in one embodiment, at least one of the wind power generating devices (1) is plural, at least one of the binding seats (70) is plural, and at least one of the winds is fixed on each of the binding seats (γ 〇). Power generation unit (1). Please refer to the seventh figure, which is a perspective view of a power supply bee (8 1 ) according to a second embodiment of the present invention. In this embodiment, the power supply port (81) is a separate component, and the power supply port (8 1 ) At least one power supply insertion slot (83) is provided, and the power supply insertion slot (83) can be a variety of electrical sockets, such as a mobile phone battery, a USB socket, a rechargeable energy storage device slot, a dry battery holder, and a general Two-hole or three-hole electrical sockets in the home. In another embodiment of the present invention, the rotating shaft (23) and the shaft portion (3 1) are connected structures, and the connecting structure is a connection or connection structure provided with a connecting means (4 〇), and The connection structure between the two cannot be detailed, and therefore the connection structure between the ones should be within the protection scope of the present invention. 201200725 - According to another embodiment of the present invention, the plurality of wind power generation devices (1) and the coupling base (70) are combined, and the combination manner is a combination manner of a screw lock, a capacity, or a component phase card. The structure of the structure between the two is no longer detailed. In another embodiment of the invention, the power supply base (8 〇) is provided with a light-emitting element and a switch, and the user can turn on the switch to make the light-emitting element have illumination effect. The coupling seat (70) is disposed on a fixed object or a movable object that has a speed to move the blade (24) by using a flowing airflow, and the power generating module (30) generates current. Output power supply, such as fixed on cars, locomotives, bicycles, car bodies, ships, various types of hulls, etc., or the combination seat (70) is fixed on skateboards, skates, hang gliding · ···················································································· On the object, all possible various Lulu structures are not detailed. In addition, in order to increase the power generation efficiency of the present invention, please refer to the eighth figure. The rotating shaft (23) of the present invention is designed to be hollow inside, and forms an opening at the rear end and extends to the second volume of the rotating base (2 1 ). The groove (2 1 1 ) is provided with a plurality of surrounding inner ring teeth (26) on the inner wall of the opening, the inner ring teeth mesh with a moving gear (27), and the moving gear (27) is fixed and fixed A driven gear (32) on the shaft portion (3 1) is engaged, and when the rotating base (2 1 ) rotates, through the inner ring gear (26), the intermediate gear (27) and the driven gear (3 2 ), Rotate the shaft portion (3 1 ). When the number of teeth of the inner ring 201200725 " teeth (26) is more than three times the number of teeth of the intermediate gear (27), and the number of teeth of the intermediate gear (27) is greater than 1.5 of the number of teeth of the driven gear (32) When the angle is increased, the shaft portion (3 1 ) has an acceleration effect of four to five times, and the rotating base (2 1 ) and the rotating shaft (23) have an acceleration effect of five to five times with respect to the shaft portion (3 1). By setting the coil assembly of the power generation module inside the t-spindle shaft (23) (which cannot be clearly shown in the figure due to the angle of view), it is possible to exert greater power generation efficiency. Based on this design, as shown in the first figure, there is a bearing _ piece (1 2 ) between the rotating base (2 i) and the base (丄〇), so that the two can maintain a smooth relative rotation. The structural design advantages of the present invention are as follows: 1. The wind power generating device (1) is fixed to a joint (7 〇), and the joint (70) is re-fixed to a fixed object or has a speed of travelable movement. On the object, if it is fixed on a car or a locomotive, the fan blade (24) is rotated by the flowing airflow in progress to generate electric energy, and the power line (63) of the wind power generator (1) is connected to the vehicle body. The power supply seat (8 _ 0) inside is connected to provide power supply. 2. The current generated by the wind power generator (1) outside the object is used for power supply of the power supply seat (8 〇) inside the object, and has the effect of convenient use. 3. When a wind power generator (1) is damaged, the power cord (6 3) can be separated from the windshield (50), and the windshield (50) and all components inside can be removed for repair. . 4. Each wind power generation device (1) is provided with a circuit board (6 〇) and a power generation module (30), and each of the wind power generation devices (1) is an independent 13 201200725 module and a power supply seat (80) ) Connected, the power supply (8 〇) is more efficient. 5. The front end opening of the collecting hood (50) is flared, and the opening of the racquet is available for collecting and guiding a large amount of airflow to the blade (24) to make it rotate faster. The windshield (5 〇) increases the effectiveness of the wind. 6. The windshield (5 〇) covers all the components in the chamber (5 work). Clothing, hands or other items can avoid touching the multiples in rotation (24). ^ 7. The connection means (4 〇) is connected to the rotating shaft (2 3) and the shaft part, (3 1 ) ' In general, the power generating module (3 〇) is more susceptible to damage to the connecting hand & (4 0) The screw lock is removed, and the power module (3 〇) can be removed and replaced. Therefore, the wind power generation and power supply device of the invention has industrial utilization, newness and progress, and has the effect, and can meet the application requirements of the invention patent, and φ 提出 apply according to law. 201200725 [Simplified description of the drawings] The first figure is an exploded perspective view of the wind power generation device of the present invention. The second drawing is a perspective view of a wind power generation device of the present invention. The third figure is a side view of the wind power generation device of the present invention. The fourth drawing is a cross-sectional view taken at B-B of the third drawing of the present invention. The fifth drawing is an illustration of an embodiment of the wind power generation device of the present invention. Figure 6 is a perspective view of an embodiment of the wind power generation device of the present invention. Figure 7 is a perspective view of a power supply seat of a second embodiment of the present invention. The eighth figure is a schematic view of a preferred embodiment of the rotating set of the present invention. [Description of main component symbols] (1 1) First pocket (1 3) First trunking (20) Rotating group (211) Second pocket (2 3) Shaft (2 4 ) Fan blade (2 6) Inner ring gear (30) power generation module (32) passive gear (51) chamber (1) wind power generator (10) base (1 2) bearing member (14) first air flow hole (21) rotating seat ( 2 2) Front cover (2 3 0) connecting part (2 5) Second air flow hole (2 7) Moving gear (3 1) Shaft part (4 0) Connecting means (50) Wind collecting cover 201200725 (5 2 ) Seat slot, (5 4) Cap slot (5 6) Lock hole (5 8) Lock (6 0) Circuit board (6 2) Current output (7 0) Powered by the base (8 1) • (8 3) Power supply slot (5 3) Joint (5 5) Second slot (5 7) Lock plate (5 9) Third air flow hole (6 1) Current input terminal (6 3) Power cable ( 8 0) Power supply (8 2) screen (90) object