M336343 八、新型說明: 【新型所屬之技術領域】 本新型是有關於一種風力發電裝置,特別是指/ 種整體裝設於一框架體,易攜帶運行及方便移位作架 設的風力發電裝置。 【先前技術】 現有的風力發電裝置,如圖1所示,是為一固設 於一台面1的發電裝置5,將其轉軸50呈垂直向上, 该轉軸5 0並套穿組設於一 S形葉片組5 1及一外d形 葉片組52的中心,當風力較小時,可吹動s形葉片組 5 1旋轉,意即帶動轉軸50旋轉,經由發電裝置5利用 磁生電的原理而發電,風力較大時可藉由吹動D形葉 片組52旋轉而發電,此種風力發電裝置,因為發電裝 置5是要固設在台面,體積笨重,且通常顧慮到穩 固度,都是採非常穩固定位的架設,常不易拆除、運 仃位移,再架設於他處,因此,如何構思製造出—種 整體裝設於一框架體,易攜帶運行及方便移位作架設 的風力發電裝置,是一進一步可作改進的課題。 【新型内容】 因此,本新型之主要目的,即在提供一種整體裝 叹於一框架體,易攜帶運行及方便移位作架設的風力 包括有一框架體;— 一發電裝置,設於轉 於是,本新型風力發電裝置 轉軸,垂直向設於框架體中心; M336343 軸的一端及至少一葉片組,轉軸係穿設於各葉片組中 心;藉由一葉片組的受風,帶動轉軸的旋轉,經 電裝置作發電。 x 本新型之功效,整體係裝設於一框架體,易攜帶 運行及方便移位作架設者。 【實施方式】 有關本新型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三實施例的詳細說明中,將 可清楚的明白。 圖2,是本新型風力發電裝置的第一較佳實施例 包括有一框架體1; 一轉軸2,垂直向設於框架體i 中〜10, —發電裝置3,設於轉軸2的一端2〇及至少 一葉片組4,轉軸2係穿設於各葉片組4之中心;藉由 一葉片組4的受風,帶動轉軸2的旋轉,經由發電裝置 3作發電。更詳細說明如后: •該框架體1,在本實施例是一具有適中高度的圓柱 里忙呆體,疋由複數個上下等距排列之圓框架,本實 也例有第一圓框架11、第二圓框架12及第三圓框架13 ,沿著周緣垂直連結有複數隻側壁桿14所形成,在各 =樞架的中心設有軸承座並與圓框架周緣連設有複數 隻架椁,即第一圓框架11設有第一軸承座15與複數隻 第一架桿16、第二圓框架12設有第二軸承座17與複 2又第二架桿18,第三圓框架13設有第三軸承座19 鋅複數隻第三架桿190,各軸承座中心設有軸孔,於此 6 M336343 以第三轴承座19的軸孔191作示意,第一軸承座15 、第二軸承座17之軸孔,因立體圖所以未顯示。 該轉軸2,一般為金屬材質製成之圓桿,係穿設過 第一軸承座軸孔與第二軸承座軸孔,而呈垂直向設於 框架體1中心10,其一端20並向下凸出於第二軸承座 軸孔有一組配段200。 該發電裝置3,為一般的磁生電發電裝置,係組設 於弟一軸承座17之底面,且組配段200是位處於發電 裝置3之中心處並成為該發電裝置3轉子之轉軸,利用 轉軸2的旋轉可使發電裝置3因磁場改變而發電。 該至少一葉片組4,本實施例為兩個葉片組4,一 為S形葉片組41、一為d形葉片組42,上述的轉軸2 係穿設於S形葉片組41及D形葉片組42的中心,並 形成S形葉片組41「虛擬」的被包圍在〇形葉片組42 的内圍内,意即S形葉片組41、D形葉片組42為同一 轉軸2 ’又所稱的「虛擬」是因為兩葉片組實際上沒有 完整的外周面,中間有透空,所以稱為虛擬,當風速 小時,S形葉片組41可受風動而帶動轉軸2旋轉而發 電,當風速大時,D形葉片組42可受風動而帶動轉轴 2旋轉而發電。 上述圖2的第一實施例,其s形葉片組41虛擬的 被包圍在D形葉片組42的内圍内,但也可改成如圖3 的第二較佳實施例,先將轉軸2,延長配設至第三軸承 座19,轉軸2’一端20,的組配段係穿過第三軸承座19 7 M336343 軸孔191 ’而發電裝置3 —樣是設於圖出於組配段(因 是立體圖組配段未能顯示出),將在第-實施例S形葉 片組41虛擬的被包圍在〇形葦 小茶片組42的内圍内的兩 個葉片組,穿没在第二軸承座γη ^ , 干均小A 1 /興第二軸承座19間的 轉轴2 ’段21,另外在第一缸备汁】c t > 「社弟軸承座15與第二軸承座17 間的轉軸2’段22,進一步加穿畸右 u以社u / 乂刀口牙σ又有一 Η形葉片組43,M336343 VIII. New description: [New technical field] The present invention relates to a wind power generation device, in particular to a wind power generation device which is integrally installed in a frame body, which is easy to carry and operate and is easily displaced. [Prior Art] The existing wind power generation device, as shown in FIG. 1 , is a power generating device 5 fixed to a surface 1 , and its rotating shaft 50 is vertically upward, and the rotating shaft 50 is sleeved and assembled in a S The center of the blade group 5 1 and the outer d-shaped blade group 52 can rotate the s-shaped blade group 51 when the wind is small, that is, rotate the rotating shaft 50, and utilize the principle of magnetoelectric generation via the power generating device 5. In the case of generating electricity, when the wind is large, the power can be generated by blowing the D-shaped blade group 52. This type of wind power generator is because the power generating device 5 is to be fixed on the table, is bulky, and usually has stability. The erection of a very stable fixed position is often difficult to dismantle, transport and displace, and then erected elsewhere. Therefore, how to conceive and manufacture a wind power installation that is integrally installed in a frame body, easy to carry and easy to shift and erect Is a subject that can be further improved. [New content] Therefore, the main purpose of the present invention is to provide a frame body with an overall sigh of a frame body, easy to carry and easy to shift for erection; - a power generation device, which is located at the turn, The rotating shaft of the novel wind power generator is vertically disposed at the center of the frame body; one end of the M336343 shaft and at least one blade group, the rotating shaft is disposed at the center of each blade group; and the rotation of the rotating shaft is driven by the wind of a blade group, The electric device is used for power generation. x The new type of effect, the whole system is installed in a frame body, easy to carry and easy to shift for erecting. [Embodiment] The foregoing and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the embodiments of FIG. 2 is a first preferred embodiment of the wind power generator of the present invention comprising a frame body 1; a rotating shaft 2 disposed vertically in the frame body i to 10, a power generating device 3 disposed at one end of the rotating shaft 2; And at least one blade group 4, the rotating shaft 2 is disposed at the center of each of the blade groups 4; the wind of the blade group 4 drives the rotation of the rotating shaft 2 to generate electricity via the power generating device 3. More specifically, as follows: • The frame body 1, in this embodiment, is a cylinder with a moderate height, and is surrounded by a plurality of circular frames arranged up and down, and the first circular frame 11 is also used. The second circular frame 12 and the third circular frame 13 are formed by vertically connecting a plurality of side wall rods 14 along the circumference, and a bearing seat is arranged at the center of each of the pivot frames, and a plurality of frames are arranged on the periphery of the circular frame. The first circular frame 11 is provided with a first bearing block 15 and a plurality of first frame rods 16, and the second circular frame 12 is provided with a second bearing block 17 and a second and second frame rods 18, and a third circular frame 13 The third bearing block 19 is provided with a third plurality of zinc rods 190, and a shaft hole is arranged in the center of each bearing housing. The 6 M336343 is indicated by the shaft hole 191 of the third bearing housing 19, and the first bearing housing 15 and the second The shaft hole of the bearing housing 17 is not shown because of the perspective view. The rotating shaft 2, generally a round rod made of metal material, passes through the shaft hole of the first bearing seat and the shaft hole of the second bearing seat, and is vertically disposed at the center 10 of the frame body 1, and has one end 20 and downward There is a set of mating segments 200 protruding from the second bearing housing shaft bore. The power generating device 3 is a general magnetoelectric power generating device, which is disposed on the bottom surface of the first bearing housing 17, and the assembly section 200 is located at the center of the power generating device 3 and becomes the rotating shaft of the rotor of the power generating device 3. The rotation of the rotating shaft 2 allows the power generating device 3 to generate electricity due to a change in the magnetic field. The at least one blade set 4, in this embodiment, is two blade sets 4, one being an S-shaped blade set 41 and one being a d-shaped blade set 42, and the above-mentioned rotating shaft 2 is passed through the S-shaped blade set 41 and the D-shaped blade. The center of the group 42 and forming the S-shaped blade group 41 "virtual" is enclosed in the inner circumference of the dome-shaped blade group 42, that is, the S-shaped blade group 41 and the D-shaped blade group 42 are the same rotating shaft 2' The "virtual" is because the two blade sets do not actually have a complete outer peripheral surface, and there is a hollow in the middle, so it is called virtual. When the wind speed is small, the S-shaped blade group 41 can be driven by the wind to drive the rotating shaft 2 to generate electricity. When large, the D-shaped blade group 42 can be driven by the wind to drive the rotating shaft 2 to generate electricity. In the first embodiment of FIG. 2 above, the s-shaped blade group 41 is virtually enclosed in the inner circumference of the D-shaped blade group 42, but can also be changed to the second preferred embodiment of FIG. , the extension is assigned to the third bearing housing 19, the end portion 20 of the rotating shaft 2', the assembly section passes through the third bearing housing 19 7 M336343 shaft hole 191 ' and the power generating device 3 is arranged in the figure for the assembly section (Because the stereogram assembly segment is not shown), the two blade groups that are virtually enclosed in the inner circumference of the 〇-shaped 茶 small tea piece group 42 in the S-shaped blade group 41 of the first embodiment are worn. The second bearing seat γη ^ , the dry minimum A 1 / the second bearing housing 19 between the shaft 2 'section 21, in addition to the first cylinder preparation juice ct > "Social bearing housing 15 and the second bearing housing 17 revolving 2' segments 22, further added with a distorted right u to the u / 乂 knife teeth σ and a 叶片 blade group 43,
孩…片組43是在一十字型又架43〇的各架桿端 43i,垂直組設有一板狀葉片432,十字型叉架43〇的 中央交又部位,上下垂直延伸設有一具有垂直中心軸 孔433的套g 434 ’ §亥Η形葉片組43即以套管434的 中〜軸孔433牙设轉軸2在第-軸承座15與第二軸承 座17間的轉軸2,段22,並穿栓435定位,使與§形葉 片組41、D形葉片組42,三者仍是以轉軸2,為同一轉 軸,只是Η形葉片組43與s形葉片組41、D形葉片組 42,疋呈上、下之配置,當風速大時,該η形葉片組 43也可受風動而帶動轉軸2,旋轉。 本案因為將所有的葉片組4、發電裝置3與轉軸2 都是設於一框架體1上,所以整體易攜帶運行及方便移 位作架設。 綜合上述,該至少一葉片組4,為如圖2所述的兩 組葉片組41、42時,是可呈第一葉片組41 (s形葉片 組)虛擬的被包圍在第二葉片組42 ( D形葉片組)的 内圍内,但也可呈上、下配置,於此不再另繪圖解說 ,又當該至少一葉片組4為三組葉片組41、42、43, 8 M336343 如圖3,是可呈第一葉片組41(s形葉片組)虛擬的 被包圍在第二葉片組42 (D形葉片組)的内圍内,第 二葉片組43 ( Η形葉片組)位於兩者的上方,但也可 以是在下方,三者更可呈上、中、下配置,例如Η形 葉片組43 (第三葉片組)在上方,s形葉片組41 (第 一葉片組)在中間、D形葉片組42 (第二葉片組)在 下方,於此也不再另繪圖解說。 如圖4,疋本案的第三較佳實施例,在上述的各 實施例,進一步的在框架體丨的頂部組設有一太陽能板 組5,並電性連接於發電裝置3,可作太陽能式的並聯 發電,更有其廣泛的實用性。 惟以上所述者,僅為本新型之較佳實施例而已, 當不能以此限定本新型實施之範圍,即大凡依本新型 申請專利範圍及新型說明書内容所作之簡單的等效變 化與修飾,皆應仍屬本新型專利涵蓋之範圍内。 M336343 【圖式簡單說明】 圖1是現有風力發電裝置之立體示意圖; 圖2是本新型風力發電裝置第一實施例之部份分 解立體示意圖; 圖3是本新型風力發電裝置第二實施例之立體示 意圖;及 圖4是本新型風力發電裝置第三實施例之立體示 意圖。The child group 43 is a cross-shaped and 43-shaped rod end 43i, and a vertical plate is provided with a plate-shaped blade 432. The cross-shaped fork 43 has a central intersection and a vertical center extending vertically and vertically. The sleeve g 434 of the shaft hole 433 ′ ′ Η Η 叶片 叶片 即 即 即 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 434 And the pin 435 is positioned so that the §-shaped blade group 41 and the D-shaped blade group 42 are still the same rotating shaft as the rotating shaft 2, but only the 叶片-shaped blade group 43 and the s-shaped blade group 41 and the D-shaped blade group 42. The 疋 is arranged in the upper and lower directions. When the wind speed is large, the n-shaped blade group 43 can also be driven by the wind to rotate the rotating shaft 2 and rotate. In this case, since all the blade groups 4, the power generating device 3 and the rotating shaft 2 are disposed on a frame body 1, the whole is easy to carry and operate and is easily moved for erection. In summary, the at least one blade set 4, when the two sets of blade sets 41, 42 are as shown in FIG. 2, may be surrounded by the second blade set 42 in a first blade set 41 (s-shaped blade set). (D-shaped blade group) in the inner circumference, but can also be arranged in upper and lower, no further drawing here, and when the at least one blade group 4 is three sets of blade sets 41, 42, 43, 8 M336343 3, the first blade group 41 (s-shaped blade group) can be virtually enclosed in the inner circumference of the second blade group 42 (D-shaped blade group), and the second blade group 43 (the blade group) is located. Above the two, but it can also be below, the three can be arranged in upper, middle and lower, for example, the scorpion blade group 43 (third blade group) is above, the s-shaped blade group 41 (first blade group) In the middle, the D-shaped blade set 42 (second blade set) is below, and will not be further illustrated herein. As shown in FIG. 4, in the third preferred embodiment of the present invention, in the above embodiments, a solar panel 5 is further disposed on the top of the frame body, and is electrically connected to the power generating device 3, and can be used for solar energy. The parallel power generation has more extensive practicality. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto, that is, the simple equivalent change and modification made by the novel patent application scope and the novel specification content, All should remain within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a conventional wind power generator; FIG. 2 is a partially exploded perspective view of a first embodiment of the wind power generator of the present invention; FIG. 3 is a second embodiment of the wind power generator of the present invention. FIG. 4 is a perspective view of a third embodiment of the wind power generator of the present invention.
10 M336343 【主要元件符號說明】10 M336343 [Main component symbol description]
1 框架體 42 D形葉片組 10 框架體 43 Η形葉片組 11 第一圓框架 430 十字型叉架 12 第二圓框架 431 中心架桿端 13 第三圓框架 432 板狀葉片 14 側壁桿 433 中心軸孔 15 第一軸承座 434 套管 16 第一架桿 435 栓 17 第二軸承座 5 太陽能板組 18 第二架桿 19 第三軸承座 190 第三架桿 191 軸孔 1、V 轉軸 20 轉軸一端 20” 轉軸一端 200 組配段 21 轉軸段 22 轉軸段 3 發電裝置 4 葉片組 41 S形葉片組 111 frame body 42 D-shaped blade set 10 frame body 43 Η-shaped blade set 11 first circular frame 430 cross-shaped yoke 12 second circular frame 431 center frame rod end 13 third circular frame 432 slab blade 14 side wall 433 center Shaft hole 15 First bearing seat 434 Bushing 16 First rod 435 Bolt 17 Second bearing block 5 Solar panel 18 Second rod 19 Third bearing housing 190 Third rod 191 Shaft hole 1, V Shaft 20 Rotary shaft One end 20" One end of the shaft 200 Group of sections 21 Rotary shaft section 22 Rotary shaft section 3 Power generation unit 4 Blade set 41 S-shaped blade set 11