M348154 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種風力發電裝置,尤指一種可移動 之小型風力發電裝置。 【先前技術】 纟於全球原油被大量開採及使用,其存量日益減少、 •價格:斷的向上攀升,且大量使用石油所排放出的二氧化 碳等虱體’更是造成臭氧層破壞及溫室效應的一大主因. ,應氣候變遷與保護環境的考量下,再生能源因為具有潔 淨低恤至氣體排放及自產能源的特性,已逐漸列為未來 =源政㈣慮重點,其中’風力發電—直被列為發展再生 能源的選項之- ’由於無需經由物質的消耗來產生能源, 具有潔淨無π染的特性,且風力來源是取之不盡的自然風 ,力,已成為目前產業界積極開發的替代式能源。 '傳統的風力發電的發電機係裝設於固定場所,旋轉葉 ,片與固^架皆有複雜的安裝程序;然:而,此傳統風力發電 的建造成本較高、佔地大且不易組設,對於落後國家的偏 通地區,或是城市及近郊等地,或是工程施工需要等,有 設置費用太高和場地不足的問題存在;其次,安裝風力發 電的地點經常與使用者有相當的傳輸距離,造成電力輸送 的損失;因此,如何提供一種可移動之風力發電設備又可 降低輪配電力的損失’實為目前虽待解決之課題。 【新型内容】 M348154 本創作之-目的,在提供—種可活動移至用電處所之 移動式風力發電裝置。 本到作之另-目的,在提供一種發電效率高之移動式 風力發電裝置。 為了達成上述之目的,本創作之移動式風力發電裝 1 ’係包括:-箱體,·一風力發電牆,包含一伸縮式支撐 、才干及至少-風力發電模組,該伸縮式支撐捍係設於該箱體 7之底面以連接②風力發電模組,其中,於該伸縮式支撐 桿收縮時,該風力發電模組係收折於箱體内,而於該伸縮 、支撐;f干伸出時,该風力發電模組係可展開以進行風力發 電,以及一儲電單元,設於該箱體内且與該風力發電模組 電連接,以儲存該風力發電模組所產生之電能者。、、 【實施方式】 有關本創作之詳細說明及技術内容,配合圖式說明如 下,然而所附圖式僅提供參考與說明用,並非用來對本創 作加以限制者。 請參照第一及第二圖,係為本創作展開之立體示意圖 及風力發電模組局部之立體分解圖,本創作之移動式風力 發電裝置10,其主要包括一箱體、一風力發電牆洲及一 儲電單元40 ;該箱體2〇設有一蓋板21,於本實施例中,該 箱體20之底部附有活動輪組,實際實施時亦為無附輪之車 櫃’箱體20下方可加設有固定支架,定點時可增其穩定 性’而箱體20之前方設有一供活動拉移至設置點之拉環 M348154 22。 風力發電牆30包含有一伸縮式支撐桿31及至少一風力 發電模組32,該伸縮式支撐桿31設於箱體2〇内並連接風力 發電模組32,其可活動伸出及收縮於箱體2〇之内、外,而 該風力發電模組32則可收折於箱體2()内,或自箱體2〇内取 出並展開於箱體20外,本實施例中,藉由樞軸加活動連 、接三組風力發電模組32,此三組風力發電模組犯及一伸縮 籲式支撐桿31組合成-風力發電牆3〇 ;此 風力發電牆30以增加發電功率,如於箱㈣内設立=縮 式支撐桿3卜各伸縮式支撐桿31可分別支掉數量不等之風 力發電模組32 ’實際實施時可依所需來決定風力發電膽加 之組設方式。 上述結構中,風力發電模組32包括一座體321以及複 數風力土電單元322,座體321連接於伸縮式支撐桿31上 ,且成形有-通孔3211,以供容設複數風力發電單元歡; _又’該風力發電單元322包括一導風罩3221(本實施例中 .係設為圓筒型,實際實施時亦可不設導風罩或設為其他型 t ) 了作為支樓架之轉向樞軸3225、一葉輪3222、一 發電機3223及-兩端分別連接於葉輪微2及發電機微的 轉軸3224,當風力朝向座體奶之通孔·方向吹送時, 將7風力發電單元322之葉輪3222及轉轴3224旋轉,並使 發電機3223產生電能,且導風軍3221亦可藉由該轉向插軸 3225而活動轉向迎風面,進而增加風力發電單元微之發 電效率;最後,此電能將傳送至與風力發電模組32相連接 M348154 之導線34。 該儲電單元4 0係設於箱體2 0内該伸縮式支撐桿31底部 之一侧,於本實施例中該儲電單元40包含一充電器以將風 力發電模組32所產生的電能轉為直流電而充入一蓄電池, 最後再經由一組變頻器(Invertor)以將蓄電池的電轉換為 交流電以輸出至使用端,該儲電單元4〇連接有導線41、 42 ’導線41係與風力發電模組32之導線34電連接,以將該 _風力發電模組32所產生之電能輸入至儲電單元4〇内,而另 一導線42係將電能穩定的供應出去。 請再參第三及第四圖,係為本創作折疊收合時之動作 圖及折疊收合後示意圖;該風力發電牆3〇欲收合於箱體2〇 内時,伸縮式支撐桿31往下收縮於箱體2〇内,另藉由樞軸 33而將活動連接的多組風力發電模組羽相互折疊藉此, 複數風力發電模組32即可多層折疊收納於箱體2〇内,最後 _闔上蓋板21即可活動移至他處。 .如第五及第六圖所不’係為本創作之移動與使用示意 -圖;該移動式風力發電裝龍移動時,將設於箱㈣前方 之拉環22與一車頭!之扣鉤2相連接,另外,當箱體别為 無附輪之車櫃時’則以㈣千斤頂等設備先移至一平台 再移放至車頭1後方之車台而移動,依此,可將本創 作之移動式風力發電裝置1〇活動遷移至所欲設置之處,到 達目的地後,可直接於車台上使用移動式風力 將箱體2G卸至地面後再使用;當開啟箱㈣之蓋 板幻後,將伸縮式支撐桿31拉起伸長,再展開相互活動折 M348154 疊之風力發電模組32,使風力發電模組32開始作用,將產 生之電能輸入至儲電單元4〇内,最後將電能穩定的供應出 去。 請參第七圖,係為本創作之第二實施例;本實施例與 第一實施例大致相同,其不同之處在於該風力發電模組32 内係設有支撐板3212,以間隔每個風力發電單元322並提 供支撐力,因此,每個風力發電單元322在支撐板3212所 |隔出之各別的通孔3211内可藉由轉向樞軸聊而或動轉向 迎風面,另一不同之處在於該伸縮式支撐桿犯係設於座體 3幻之側it,或是該伸縮式支撐桿31係設於相鄰風力發電 模組32之間,當该伸縮式支撐桿31收縮時可使風力發電模 =32降至箱體2〇内之底部,讓箱體加内之空間利用率最 高;此外,該風力發電模組32内設有之支撐板皿並不限 於此實施例之型態,實際實施時可依所需調整。 因此,本創作之移動式風力發電裝置,係於一箱體内 有由複數風力發電模組與伸縮式支撐桿所組成之風力 .’因風力發電模組可收合及展開於箱體之内、外, H由於箱體底部設置可活動之輪組,使風力發電牆可活 動移至所需地區來提#雷六 _ , , ^ 仏電力,增加本創作之便利性與實用 ^外’藉由多個可轉向的風力發電單元, 可设為多組風力發電牆而提高其發電功率。 :上所述僅為本創作之較佳實施例,非用以限定本創 均’其他運用本創作之專利精神之等效變化’ 句應俱屬本創作之專利範圍。 M348154 【圖式簡單說明】 ,為本創作展開之立體示意圖。 卜 系為本創相力發電模組局部之立體分解 $二圖係為本創作折疊收合時之動作圖。 四圖係為本創作折疊收合後之示意圖。 ★五圖係、為本創作之移動示意圖。 第八圖係為本創作之使用示意圖。 第七圖係為本創作之第二實施例。M348154 VIII. New description: [New technical field] This creation relates to a wind power generation device, especially a small portable wind power generation device. [Prior Art] As global crude oil is mined and used in large quantities, its stock is decreasing, • price: rising upwards, and the use of carbon dioxide and other carcasses emitted by oil is a cause of ozone depletion and greenhouse effect. Main reason. Under the consideration of climate change and environmental protection, renewable energy has gradually become the future because of its characteristics of clean low-tie to gas emission and self-produced energy, and it is focused on wind power generation. Listed as an option to develop renewable energy - 'Because there is no need to generate energy through the consumption of materials, it has the characteristics of clean and no π dyeing, and the wind source is an inexhaustible natural wind. The force has become actively developed by the industry. Alternative energy sources. 'Traditional wind power generators are installed in fixed locations, and rotating blades, sheets and fixtures have complicated installation procedures; however: this traditional wind power generation has high construction cost, large footprint and is not easy to set up. Therefore, for the backward areas of backward countries, or cities and suburbs, or engineering construction needs, there are problems of too high installation costs and insufficient space. Secondly, the location of installing wind power is often comparable to that of users. The transmission distance causes loss of power transmission; therefore, how to provide a movable wind power generation equipment and reduce the loss of the wheel distribution power is a problem to be solved at present. [New Content] M348154 The purpose of this creation is to provide a mobile wind power installation that can be moved to a power-based location. Another purpose of this is to provide a mobile wind power generation device with high power generation efficiency. In order to achieve the above objectives, the mobile wind power installation 1′ of the present invention comprises: a box body, a wind power generation wall, a telescopic support, a talent and at least a wind power generation module, and the telescopic support system The wind power generation module is connected to the bottom of the casing 7 to connect the wind power generation module, wherein when the telescopic support rod is contracted, the wind power generation module is folded in the casing, and the expansion and support are supported; At the outset, the wind power module is expandable for wind power generation, and a power storage unit is disposed in the box and electrically connected to the wind power module to store the electric energy generated by the wind power module. . DETAILED DESCRIPTION OF THE INVENTION The detailed description and technical contents of the present invention are as described below with reference to the drawings, but the drawings are only for reference and explanation, and are not intended to limit the creation. Please refer to the first and second figures, which are a three-dimensional schematic diagram of the creation and a partial exploded view of the wind power generation module. The mobile wind power generation device 10 of the present invention mainly comprises a box body and a wind power generation wall continent. And a storage unit 40; the casing 2 is provided with a cover plate 21, in the embodiment, the movable wheel set is attached to the bottom of the casing 20, and the actual implementation is also a cabinet with no attached wheels. A fixing bracket can be added under the 20, and the stability can be increased when the point is fixed, and the box body 20 is provided with a pull ring M348154 22 for moving the movement to the set point. The wind power wall 30 includes a telescopic support rod 31 and at least one wind power generation module 32. The telescopic support rod 31 is disposed in the box body 2 and is connected to the wind power generation module 32, and is movable and extended to the box. The wind power generation module 32 can be folded into the casing 2 ( ) or taken out from the casing 2 and deployed outside the casing 20 , in this embodiment, by The wind power generation module 32 is connected to the three wind power generation modules 32, and the three wind power generation modules are combined with a telescopic support rod 31 to form a wind power generation wall 3; the wind power generation wall 30 is used to increase the power generation. For example, in the box (4), the expansion support rods 3 and the telescopic support rods 31 can respectively support the wind power generation modules 32 of different numbers. In actual implementation, the wind power generation can be determined according to the requirements. In the above structure, the wind power generation module 32 includes a body 321 and a plurality of wind power earth units 322. The seat body 321 is connected to the telescopic support rod 31, and is formed with a through hole 3211 for accommodating a plurality of wind power generation units. The wind power generation unit 322 includes an air hood 3221 (in this embodiment, it is a cylindrical type, and in actual practice, the air hood or other type t may not be provided). The steering pivot 3225, an impeller 3222, a generator 3223, and the two ends are respectively connected to the impeller micro 2 and the microrotor 3224 of the generator. When the wind is blown toward the through hole of the body milk, the wind power generation unit 322 is 7 The impeller 3222 and the rotating shaft 3224 rotate, and the generator 3223 generates electric energy, and the air guiding arm 3221 can also move to the windward side by the steering pin 3225, thereby increasing the power generation efficiency of the wind power generating unit; finally, this The electrical energy is transmitted to the wires 34 of the M348154 that are coupled to the wind power module 32. The power storage unit 40 is disposed on one side of the bottom of the telescopic support rod 31 in the housing 20, and in the embodiment, the power storage unit 40 includes a charger to generate power generated by the wind power generation module 32. It is converted into a DC battery and charged into a battery. Finally, a set of inverters (Invertor) is used to convert the battery power into AC power for output to the user terminal. The power storage unit 4 is connected to the wires 41, 42' The wires 34 of the wind power module 32 are electrically connected to input the electric energy generated by the wind power generation module 32 into the electric storage unit 4, and the other wire 42 supplies the electric energy stably. Please refer to the third and fourth figures, which are the action diagrams of the folding and folding of the creation and the schematic diagram after folding and folding; when the wind power wall 3 is intended to be folded into the box 2, the telescopic support rod 31 The plurality of wind power generation module feathers that are movably connected are folded by the pivot 33, and the plurality of wind power generation modules 32 can be folded and stored in the casing 2〇. Finally, _ 阖 upper cover 21 can move to other places. As shown in the fifth and sixth figures, it is the movement and use of the creation - the figure; when the mobile wind power is loaded, the ring 22 and the front of the box (4) are placed in front of the box! The hooks are connected to each other. In addition, when the cabinet is not a cabinet with no wheels attached, the equipment is moved to a platform and then moved to the platform behind the front of the vehicle head 1 by means of (4) jacks and the like. The mobile wind power generator of the present invention moves to the desired place. After reaching the destination, the mobile body can be used to directly unload the box 2G to the ground and then use it; when the box (4) is opened After the board is phantom, the telescopic support rod 31 is pulled up and stretched, and then the wind power generation module 32 of the M348154 stack is activated, so that the wind power generation module 32 starts to function, and the generated electric energy is input into the electric storage unit 4〇. Finally, the power supply is stably supplied. Please refer to the seventh embodiment, which is the second embodiment of the present invention; the present embodiment is substantially the same as the first embodiment, except that the wind power generation module 32 is provided with a support plate 3212 for spacing each. The wind power generation unit 322 also provides a supporting force. Therefore, each wind power generation unit 322 can be turned to the windward side by turning the pivotal dialogue in the respective through holes 3211 of the support plate 3212. The telescopic support bar is disposed on the side of the seat 3, or the telescopic support bar 31 is disposed between the adjacent wind power modules 32. When the telescopic support bar 31 is contracted, The wind power generation die=32 can be reduced to the bottom of the casing 2, and the space utilization rate of the casing is the highest; in addition, the support plate provided in the wind power module 32 is not limited to this embodiment. The type can be adjusted as needed during actual implementation. Therefore, the mobile wind power generation device of the present invention has a wind power composed of a plurality of wind power generation modules and telescopic support rods in a box. 'Because the wind power generation module can be folded and unfolded inside the cabinet In addition, H sets the movable wheel set at the bottom of the box, so that the wind power wall can be moved to the required area to raise the #雷六_ , , ^ 仏 power, increasing the convenience and practicality of the creation. A plurality of steerable wind power generation units can be set as a plurality of wind power generation walls to increase the power generation. The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the patents of the present invention. M348154 [Simple description of the diagram], a three-dimensional diagram of the creation. The system is a three-dimensional decomposition of the local power generation module. The second figure is the action diagram when the creation is folded and folded. The four figures are schematic diagrams after the folding of the creation. ★ Five maps, the mobile diagram of the creation. The eighth picture is a schematic diagram of the use of this creation. The seventh figure is the second embodiment of the present creation.
【主要元件符號說明】 1 車頭 2扣鉤 10 移動式風力發電裝置20 箱體 22 拉環 21蓋板 30 風力發電牆 32 風力發電模組 3211通孔 322 風力發電單元 3222葉輪 3224 轉轴 33 樞軸 40 儲電單元 42 導線 31 伸縮式支擇桿_ 321 座體 3212支撐板 3221導風罩 3223發電機 3225 轉向樞軸 34 導線 41 導線 10[Main component symbol description] 1 Front head 2 clasp 10 Mobile wind power generator 20 Box 22 Pull ring 21 cover 30 Wind power wall 32 Wind power module 3211 through hole 322 Wind power unit 3222 Impeller 3224 Rotary shaft 33 Pivot 40 Power storage unit 42 Conductor 31 Telescopic support rod _ 321 Seat 3212 Support plate 3221 Air hood 3223 Generator 3225 Steering pivot 34 Conductor 41 Conductor 10