M337628 八、新型說明: 【新型所屬之技術領域】 本創作是有關一種風力發電裝置,尤指一種可接收來自不 同方向之風力,且產生一動力以供發電機發電之風力發電裝 置。 【先前技術】 m 請參閱第7圖,圖中表示為一習用之風力發電機9,該風 力發電機9具有一基座91,且該基座9上設有一發電機單元 9 2,該發電機單元9 2並透過一傳動軸9 3而接設有數扇葉 9 4,各該扇葉9 4係為一呈斜向設置之葉片,以利接收風力 讓該傳動軸9轉動而使該發電機單元9 2產生電力,以供應發 電使用。 然而,上述之風力發電機結構,其扇葉接收風力之方向, 其僅僅只能接收來自同一個方向之風力,若風力方向改變時, , 則無法使扇葉改變方向以朝向迎風面,再者,一般扇葉所能接 • 收之風力只拘限於扇葉轉動時迎風面之面積,而不能有效地全 面接受風力,如此一來,則不能達到使用風力發電機之實質效 力。 因此,為能因應多變的風力方向,且能更有效的應用自然 風力,則為本創作所欲解決之重點所在。 【新型内容】 本創作之首要目的,是在於解決上列的問題而揭示一種風 4 M337628 力發電裝置,藉由各該呈弧狀且軸心平行該傳動軸之葉片,得 以接收來自不同方向之風力,而不需使該葉片組朝向迎風面, 藉以提高風力發電裝置因風向改變時並能繼續保持風力發電 裝置應有之發電效能。 本創作之另一目的,在於各該葉片係軸心平行該傳動軸, •使所需之旋轉半徑較小,但仍能充分接受來自不同方向之風 •力,藉此,能充分接收其旋轉半徑内之風力,以轉換為電力以 供使用’而具有體積小、元件少之優點。 為達前述之目的,本創作其係包括有至少一葉片也, 片組固接有:可傳遞動力之傳動軸,且該傳動轴並接設有一义發 電機’以供受該葉片組轉動而發電; μ該葉片組具有上、下二固定板,且於該二固定板間固 :至少二葉片,各該葉片分別具有—軸心,且於軸心一側形成 ==2迎風面’而於該迎風面背側則為-背風面,各 •該葉片之迎風面係呈相向設置,但各該葉上 、:上,且各該葉片之軸心係與該傳動軸 於該傳動轴,該傳動輛_ 該傳動該:::=該傳動軸遠離該—^ 施例:難::述:選用較佳實 另件上,件之安排上容許有所二== 5 M337628 則於本說明書中,予以詳細說明,並於附圖中展示其構造。 【實施方式】 本案之實施例,請參閱第1圖至第6圖,圖中揭示者均為 本創作所選用之較佳實施例,在此僅供說明之用,於專利申請 上並不拘限於此種結構。 請先參閱第1圖至第2圖,其係為本創作風力發電裝置之 第一實施例,該風力發電裝置具有至少一承接風力的葉片組工 •,且該葉片組1固接有一傳動軸2,該傳動軸2並接設於一發 電機3,如此可使該傳動軸2藉由該葉片組接受之風力以 進行轉動,俾供該發電機3產生電力。 其中,該葉片組1具有上、下二固定板1 2,且於該二固 定板1 2間固設至少二葉片χ卫,於本實施例中,各該葉片工 1分別具有一軸心,且於軸心一侧形成一可承接風力之迎風面 1 1 1,而於該迎風面i工工背側則為一背風面工工2,各該 葉片1 1係呈弧狀,且於各該葉片i 1之迎風面i i i形成二 凹弧狀,而各該葉片i工之迎風面工丄丄係呈相向設置,但各 該葉片1 1之軸心不再同一軸線上,且各該葉片i 與該傳動軸2呈平行。 。亥固疋板1 2概呈圓形,且其中心處並垂直接設於該傳動 軸2 ’如此-來,利用接設於該傳動轴2之葉片組丄,恰可接 收來自各該葉片11因風力吹動而轉動時所產生之動力,使得 該傳動軸2得以轉動。 /亥發電機3係接設於該傳動軸2遠離該葉片組i一端,如 ^设置後/當該傳動軸2上之葉片組i因受風力吹動而旋轉 日、各遠葉片1 1是以該傳動軸2為中心而繞行,使該傳動轴 6 M337628 2可適時接收其所產生之旋轉動力,以傳遞至該 而藉由該發電機3產生電力,以供使用。 X 進 由上述實施例的說明可知,本創作之優點如下: 其一 ··藉由各該呈弧狀且轴心平行該傳動轴之葉片,得以 接收來自不同方向之風力,而不需使該葉片組朝向迎風面,藉 以提尚風力發電裝置因風向改變時並能繼續保持曰 置應有之發電效能。 电衣 其二:由於各該葉片係轴心平行該傳動轴,使所需之旋轉 半徑較小,但亦能達到應有之發電效能,而具有體積小、元件 少之優點。 門笛ΪΪ ’本案仍存在許多例子,其間僅細節上之變化。請參 宁本幻作之第一貝施例,其中,該傳動軸可因應 不冋之萬求而串接數葉片組i A、1B、丄c、丄d,且 f片=A、1B、lc、1D之葉片η與相鄰之葉片組Γ Λ:1 C、1 D之葉片1 1係呈夾角設置,於本實施例 中,係以該傳動軸2為令心,各該葉片組工Α、工β、工C、 1D間之葉片11設置係於同一圓周上等間隔以夾角3〇产 ΓΓ分二呈°度、3 ◦度、60度、9 ◦度設置於該傳ί § ;、、:角度上之设置,並不拘限於此,亦可設置成不 同之角度,同樣能達到上列所揭示之所有功效。 々當然,本案仍存在許多例子,其間僅細節上之變化。請參 閱第4圖至5圖’其係本創作之第三實施例,其中,係設為整 、、且之風力發電裝置,各該發電機3於底部共同結合於一基座4 X基座4係可用以固定並支撐至少一風力發電裝置,進 7 M337628 而使風力發電裝置於 發電機遭受強風致使時’可承受風力之吹拂,並防止風力 二固定板1 2間係固。此外,該葉片組1於該 電機3二底圓其係本上、作之第四實施例,其卜各該發 ^底料㈣合於,料5上,俾供風力發電機可浮於 ’且該浮台5於底部至少連接1碇塊6 ;如此,當設 且之風力發電設置於海面上時,該浮台^因具有浮力而可 =浮於水面,且δ亥錯石疋塊6係可提供一重量,俾供該浮台5可 y於^ 口疋位置’且當該浮台5於海面上遭受強風時,該錨 岐塊6係可使該洋台5不致於隨意漂浮移動,並使其僅能位於 该I苗碗塊6所限制的範圍内浮動 因此,為使風力發電機可得到較佳之使用效率,係可設置 夕數之風力發電機,並藉由各風力發電機係可設置於一基座或 一浮台上’而可使風力發電機更可應用於陸地或遠離岸邊之海 面上。 如上所揭示之實施例是用以說明本創作,而非用以拘限本 創作’故料數值之變更鱗效元狀㈣#仍應隸屬本創作 之範嘴;且由以上詳細說明,可使熟知本·藝者得以明 創作確實可達減述目的’均已符合專利法之規定,爰提出 利申請。 【圖式簡單說明】 第1圖係本創作之立體外觀圖 第2圖係本創作之葉片組剖視圖 第3圖係本創作之多數葉片組分別各呈一角度設置之 8 M337628 示意圖 第4圖係本創作設置於一基座之示意圖 第5圖係本創作葉片組設置三葉片之剖視圖 第6圖係本創作設置於一浮台之示意圖 第7圖係習用風力發電機之立體圖 【主要元件符號說明】 (習用部分) 風力發電機9 基座9 1 發電機單元9 2 傳動軸9 3 扇葉9 4 (本創作部分) 葉片組1 固定板1 1 迎風面111 背風面112 固定板1 2 傳動軸2 發電機3 基座4 浮台5 4苗石定塊6M337628 VIII. New Description: [New Technology Field] This creation is related to a wind power generation device, especially a wind power generation device that can receive wind power from different directions and generate a power for generators to generate electricity. [Prior Art] m Please refer to FIG. 7, which is shown as a conventional wind power generator 9 having a base 91, and the base 9 is provided with a generator unit 92. The motor unit 92 is connected to a plurality of blades 94 through a transmission shaft 93, and each of the blades 94 is an obliquely disposed blade to receive the wind to rotate the transmission shaft 9 to make the hair unit 9 The motor unit 92 generates electric power for supply power generation use. However, in the above-mentioned wind power generator structure, the blade receives the direction of the wind, and it can only receive the wind from the same direction. If the wind direction changes, the blade cannot be changed to face the windward side, and Generally, the fan blades can be connected. The wind is limited to the area of the windward surface when the blade rotates, and the wind cannot be fully accepted. As a result, the actual effectiveness of using the wind turbine cannot be achieved. Therefore, in order to respond to the ever-changing wind direction and to apply natural wind power more effectively, it is the focus of the creative work. [New content] The primary purpose of this creation is to solve the above problems and to reveal a wind 4 M337628 power generation device, which can receive signals from different directions by means of the blades which are arcuate and whose axes are parallel to the drive shaft. The wind force does not need to face the blade group toward the windward side, thereby improving the power generation performance of the wind power generation device when the wind power generation device changes due to the wind direction. Another object of the present invention is that each of the blade shaft axes is parallel to the transmission shaft, and the required rotation radius is small, but the wind force from different directions can still be fully received, thereby fully receiving the rotation thereof. Wind power within a radius is converted into electricity for use' and has the advantages of small size and few components. For the purpose of the foregoing, the present invention includes at least one blade. The set is fixed with a power transmission shaft, and the drive shaft is coupled with a generator to be rotated by the blade assembly. Power generation; μ The blade group has upper and lower fixed plates, and is fixed between the two fixed plates: at least two blades, each of which has an axis, and forms a ==2 windward side on the axial side On the back side of the windward side, there is a leeward side, and each of the blades has a facing windward surface, but each of the leaves is on the upper side, and the axis of each of the blades is connected to the transmission shaft. The transmission vehicle _ the transmission of the::: = the transmission shaft away from the -^ Example: Difficult:: Description: Select the better real parts, the arrangement of the parts is allowed to have two == 5 M337628 is in this manual It will be described in detail and its construction is shown in the drawings. [Embodiment] For the embodiment of the present invention, please refer to FIG. 1 to FIG. 6 , and the present disclosure is a preferred embodiment selected for the present application, and is for illustrative purposes only, and is not limited to patent applications. This structure. Please refer to FIG. 1 to FIG. 2 , which is a first embodiment of the present wind power generating device, the wind power generating device has at least one blade assembly for receiving wind power, and the blade group 1 is fixed with a transmission shaft. 2, the transmission shaft 2 is connected to a generator 3, so that the transmission shaft 2 can be rotated by the wind received by the blade group, and the generator 3 can generate electric power. The blade set 1 has two upper and lower fixed plates 12, and at least two blade guards are fixed between the two fixed plates 12. In the embodiment, each of the blade workers 1 has an axis. And forming a windward surface 11 1 on the side of the shaft, and a leeward surface 2 on the back side of the windward surface i, each of the blades 11 is curved, and each The windward surface iii of the blade i 1 is formed into a concave arc shape, and the windward surface of each blade is oppositely disposed, but the axis of each of the blades 11 is no longer on the same axis, and each of the blades i is parallel to the drive shaft 2. . The slabs 12 are substantially circular, and are centrally connected and vertically connected to the transmission shaft 2'. Thus, the blade sets connected to the transmission shaft 2 are received, and the blades 11 are received. The power generated when the wind is blown causes the drive shaft 2 to rotate. /Hai generator 3 is connected to the end of the transmission shaft 2 away from the blade group i, such as after the setting / when the blade group i on the transmission shaft 2 is rotated by the wind, the remote blades 1 1 are The drive shaft 2 is centered around, so that the drive shaft 6 M337628 2 can receive the rotational power generated by it so as to be transmitted thereto to generate electric power by the generator 3 for use. According to the description of the above embodiment, the advantages of the present invention are as follows: 1. By the blades of the drive shaft which are arc-shaped and whose axes are parallel, it is possible to receive winds from different directions without The blade group faces the windward side, so as to improve the power generation performance of the wind power generation device when it changes due to the wind direction. Electric clothes Second: Since the shafts of the blades are parallel to the transmission shaft, the required rotation radius is small, but the power generation efficiency can be achieved, and the advantages are small volume and few components. Door flute ’ There are still many examples in this case, only the details change. Please refer to the first example of the illusion of this illusion, in which the drive shaft can be connected in series with several blade sets i A, 1B, 丄c, 丄d, and f slices = A, 1B, according to the unreasonable requirements. The blade η of lc, 1D and the adjacent blade group Γ Λ: 1 C, 1 D of the blade 1 1 are disposed at an angle. In this embodiment, the drive shaft 2 is used as a center, and the blade assembly is completed. The blades 11 between the Α, the work β, the work C, and the 1D are arranged on the same circumference at equal intervals at an angle of 3 〇. The 〇 is divided into two degrees, 3 degrees, 60 degrees, and 9 degrees. , , : Angle setting, not limited to this, can also be set to different angles, can also achieve all the effects disclosed above. Of course, there are still many examples in this case, only the details change. Please refer to FIG. 4 to FIG. 5 for a third embodiment of the present invention, wherein the wind power generation device is set as a whole, and the generators 3 are collectively coupled to a base 4 X base at the bottom. The 4 series can be used to fix and support at least one wind power generation device, and 7 M337628 is used to make the wind power generation device to withstand wind blowing when the generator is subjected to strong wind, and to prevent the wind two fixed plates from being fastened. In addition, the blade set 1 is formed on the bottom of the motor 3, and the fourth embodiment is made. The bottom material (4) is combined with the material 5, and the wind power generator can float on the ' And the floating platform 5 is connected to at least one block 6 at the bottom; thus, when the wind power generation is set on the sea surface, the floating platform can float on the water surface due to buoyancy, and the δ海石石疋6 The weight of the pontoon 5 can be provided for the pontoon 5, and when the pontoon 5 is subjected to strong wind on the sea surface, the anchor block 6 can prevent the pontoon 5 from floating freely. And it can only be floated within the range limited by the I seedling bowl 6. Therefore, in order to obtain better use efficiency of the wind power generator, the wind power generator can be set up by the wind turbines, and each wind power generator It can be placed on a pedestal or a floating platform to make the wind turbine more applicable to the land or far from the shore. The embodiment disclosed above is used to illustrate the creation, and is not intended to limit the creation of the 'defective value of the scale factor (4) # still should be attached to the scope of the creation; and from the above detailed description, It is well known that the artist can clearly achieve the purpose of the reduction and the purpose of the patent has been met. [Simplified illustration of the drawing] Figure 1 is a three-dimensional appearance of the creation. Figure 2 is a cross-sectional view of the blade set of the present creation. Figure 3 is a set of the majority of the blade sets of the creation. 8 M337628 The schematic diagram of the present invention is set on a pedestal. Fig. 5 is a cross-sectional view of the blade set of the present invention. Fig. 6 is a schematic view of the creation of a floating platform. Fig. 7 is a perspective view of a conventional wind turbine. 】 (Conventional part) Wind turbine 9 Base 9 1 Generator unit 9 2 Drive shaft 9 3 Blade 9 4 (this part) Blade set 1 Fixing plate 1 1 Windward side 111 Windward side 112 Fixed plate 1 2 Drive shaft 2 Generator 3 Base 4 Floating Table 5 4 Miao Shi Block 6