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TW201118248A - Thin boards type of wind power generating system - Google Patents

Thin boards type of wind power generating system Download PDF

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Publication number
TW201118248A
TW201118248A TW98139909A TW98139909A TW201118248A TW 201118248 A TW201118248 A TW 201118248A TW 98139909 A TW98139909 A TW 98139909A TW 98139909 A TW98139909 A TW 98139909A TW 201118248 A TW201118248 A TW 201118248A
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TW
Taiwan
Prior art keywords
sheet
power generation
pivoting
generation system
units
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Application number
TW98139909A
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Chinese (zh)
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TWI482906B (en
Inventor
Tsung-Chia Chen
Ching-Hua Chiu
Tsui-Er Lee
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Nat Univ Chin Yi Technology
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Priority to TW098139909A priority Critical patent/TWI482906B/en
Publication of TW201118248A publication Critical patent/TW201118248A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy

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Abstract

The present invention provides a thin boards type of wind power generating system. The system comprises two outer linkwork units, a plurality of inner linkwork units spaced at intervals between the two outer linkwork units, a plurality of dynamoelectric apparatus pivoted between those outer, inter linkwork units, and at least one battery electrically connected with those dynamoelectric apparatus. Each dynamoelectric apparatus includes a 1st thin board unit and a 2nd thin board that can separate from or approach to each other. The 1st thin board unit has an induction coil module, and the 2nd thin board unit has a magnetic module. The battery is electrically connected with the induction coil module. With the circulation of an air stream, those 1st and 2nd thin board units between those outer, inter linkwork units will be driven to move far away or near to each other, so as to bring about the variation of the magnetic field and then produce an electric current within the induction coil module. Consequently, the prevent invention indeed performs the function of producing electric power with the circulation of an air stream.

Description

201118248 六、發明說明: 【發明所屬之技術領域】 本發明疋有關於一種發電裝置,特別是指一種薄片式 空氣擾流發電系統。由於本發明相對容易因應微小風力與 空氣擾流而活動並進行發電,而能改善風力利用效率與增 加風力利用範圍,故能達到有效利用自然資源進行無污染 的綠色發電的功效。 【先前技術】 因應能源價格飛漲、全球氣候變遷與環保需求,具有 潔淨、低污染排放且不虞匱乏的再生能源成為未來能源的主 要發展重點。 其中’由於風力能源永不耗竭、無污染的特性,加上 其技術較簡單、設備成本相對較低及風力發電機座佔地不大 ,不影響地面原有用途,使風力發電成為應用最普遍的綠色 能源之一。 風力發電是最主要的風能利用形式,其原理是透過風 力帶動風車葉片轉動,再透過增速機使風車旋轉的速度增加 ,進而促使發電機發電,近來隨著葉片外型設計改善、材料 科技的進展與微電腦自動監控風速、風向等系統的導入,使 風力的發電效益大幅提升,而具有商業應用價值。 雖然風力發電機具有低污染排放、容易施作與不佔地 方等效益,但規劃時仍需受限於設置區域的風性、地理條件 且貫際使用時受限於自然氣候的變化使風力發電相對且有 無法穩定供電的缺點,而成為需搭配傳統發電使用的辅助性 201118248 能源 有鑑於地球的化石燃料蘊藏量有限與能源危機問題, 能符合永續生存需求的再生能源成為未來能源發展趨勢, 由於風力是一種不會產生污染排放的可再生自然能源,因 此’目前仍有持續改善風力發電形式與設備,以提升風力 使用效益與穩定性,進而擴大其使用普遍性的需求。 【發明内容】 因此,本發明的目的,是在提供一種能因應微小風力 或氣流作用產生電力、容易建造,並能改善風力利用效率 與增加其應用普及性的薄片式空氣擾流發電系統。 於是,本發明薄片式空氣擾流發電系統,包含二個相 間隔設置的外連桿單元、多數倘相間隔地設置在該二外連 7元間的内連桿單元、多數個分別樞設在該等外、内連 才干單兀之間的發電機構,及至少一個與該等發電機構電連 接的蓄電單元。 该等發電機構各包括相對應設置並能相靠近與相遠離 的-第-溥片單元及—第二薄片單元,該第一薄片單元具 有—第一薄片主體,及一平行該第一薄片主體的—内平面 ,繞,埋設於該第i片主體㈣感應線圈模組,該第二 薄片單兀具有一與該第一薄片主體同寬且相平行的第二薄 片主體,及—設置於該第二薄片主體,並沿一與該第二薄 片主體的一内平面垂直的一前後方向形成一磁場的磁力模 組0 该蓄電單元是分別與該等發電機構的感應線圈模組相 201118248 對應電連接’以分別收集由該等發電機構的第—薄片單元 產生的電力並輸出。 “本發明的有益效果在於:當空氣擾流時該發電機構能 藉由^該等外、内連桿單凡間的樞接結構,使空氣容易帶 動該等第、第—薄片單元相靠近與相遠離而改變其間距 ,並藉此使感應磁場發生變化而在該感應線圈模組形成電 流,使該發電機構相對容易因應微小風力與空氣擾流而活 動並進行發電,而能改善風力則效率與增加風力利用範 圍’使本發明具有能夠有效利用自然資源進行無污染的綠 色發電的特性。 進一步地,本發明還提供另一種能因應微小風力或氣 流作用產生電力的薄片式空氣擾流發電系統。 於疋,本發明薄片式空氣擾流發電系統,包含二個相 間隔δ又置的外連桿單元'一個樞設在該二外連桿單元之間 的發電機構,及一個與該發電機構電連接的蓄電單元。 該發電機構是分別樞設在該二外連桿單元之間,包括 相對應設置並能相靠近與相遠離的一第一薄片單元及一第 二薄片單元’該第一薄片單元具有一第一薄片主體,及一 設置於該第一薄片主體的感應線圈模組,該第二薄片單元 具有一與該第一薄片主體相平行的第二薄片主體,及一設 置於該第二薄片主體的磁力模組。 該蓄電單元是與該發電機構的感應線圈模組相對應電 速接。 本發明的有益效果在於:當空氣擾流時該發電機構能 201118248 藉由與該二外連桿單元的樞接結構,使空氣容易帶動該等 第一、第二薄片單元相靠近與相遠離,並藉此使感應磁場 發生變化而在該感應線圈模組形成電流,使該發電機構能 因應微小風力與空氣擾流而活動並進行發電,同樣使本發 明具有能夠有效利用自然資源進行無污染的綠色發電的特 性。 本發明還進一步提供另一種能因應微小風力或氣流作 用產生電力的薄片式空氣擾流發電系統。 於是,本發明薄片式空氣擾流發電系統,包含一個支 撑才干 個框没於該支#桿的發電機構,及一個與該發電 機構電連接的蓄電單元。 該發電機構包括一第三薄片單元,該第三薄片單元具 有樞接於該支撐桿的第一連桿組合體、一與該第一連桿 、’且《體相間隔的第二連桿組合體、分別樞接在該第一、第 連杯組合體一相反端之間並會相對該二連桿組合體擺動 而相靠近與相遠離的一感應線圈模組及一磁力模組。 該蓄電單元是與該發電機構之第三薄片單元的感應線 圈模組電連接。 本發明的有益效果在於:當空氣擾流時該發電機構能 藉由與該第三W單元㈣―、第二連桿組合體的插接結 構’ 2空氣容易帶動該感應線圈模組與該磁力模組相靠近 與相退離,並藉此使感應磁場發生變化而在㈣應線圈模 組形成電流’使該第三薄片單元能因應微小風力與空氣擾 流而活動並進行發電,使本發明能達到利用自«源進行 201118248 無污染的綠色發電的功效。 【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數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 明内容中’類似的元件是以相同的編號來表示 參閱圖1、圖2與圖3,為本發明薄片式空氣擾流發電 系統的一第一較佳實施例,包含二個相間隔設置的外連桿 單凡2、多數個相間隔地設置在該二外連桿單元2之間内連 才干單元3、夕數個分別樞設在該等外、内連桿單元2、3之 間的發電機構4〇、多數個分別與該等發電機構4〇電連接的 蓄電單元6、多數個分別設置於該等發電機構40的限位塊 7’及-個與其中—個外連桿單元2她接的支撐桿8。 該二外連桿單元2各包括—個第-插轉組合體21、- 個與該第一框轉組合體21相間隔的第二椹轉組合體22,及 二個相間隔地極接在該第―、第二樞轉組合體2 的連動桿23。 <间 .._ A ^ 调興該外連桿單元2的角201118248 VI. Description of the Invention: [Technical Field] The present invention relates to a power generating device, and more particularly to a sheet type air spoiler power generating system. Since the present invention is relatively easy to operate and generate electricity in response to minute wind and air turbulence, it can improve wind power utilization efficiency and increase wind power utilization range, thereby achieving the effect of effectively utilizing natural resources for pollution-free green power generation. [Prior Art] Reactive energy with clean, low-pollution emissions and scarcity is the main development focus of future energy in response to soaring energy prices, global climate change and environmental protection needs. Among them, because wind energy is never depleted and pollution-free, and its technology is relatively simple, equipment cost is relatively low, and wind turbine generators occupy a small area, which does not affect the original use of the ground, making wind power generation the most common application. One of the green energy sources. Wind power generation is the most important form of wind energy utilization. Its principle is to drive the windmill blades to rotate through the wind, and then increase the speed of the windmill rotation through the speed increaser, which in turn drives the generator to generate electricity. Recently, with the blade shape design improvement, material technology The progress and the introduction of systems such as wind speed and wind direction by the microcomputer automatically increase the power generation efficiency of the wind, and have commercial application value. Although wind turbines have the benefits of low pollution emissions, easy to implement and no place, but the planning still needs to be limited by the wind and geographical conditions of the set area and the continuous use is limited by the changes of natural climate. Relatively, there is a shortcoming that it is impossible to stabilize power supply, and it becomes an auxiliary 201118248 energy that needs to be used with traditional power generation. In view of the limited fossil fuel reserves and energy crisis of the earth, renewable energy that meets the needs of sustainable survival has become a future energy development trend. Since wind power is a renewable natural energy source that does not generate pollution emissions, 'there is still a continuous improvement in wind power generation forms and equipment to enhance the efficiency and stability of wind power use, thereby expanding the demand for universal use. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a sheet-type air spoiler power generation system which is capable of generating electric power in response to a small wind or air current, is easy to construct, and can improve wind power utilization efficiency and increase the popularity of the application. Therefore, the sheet type air spoiler power generation system of the present invention comprises two outer link units which are spaced apart from each other, and a plurality of inner link units which are disposed between the two outer connecting units at intervals, and a plurality of which are respectively pivoted A power generating mechanism between the external and internal interconnecting units and at least one power storage unit electrically connected to the power generating units. The power generating mechanisms each include a first and a second sheet unit that are disposed adjacent to and away from each other, the first sheet unit having a first sheet body and a parallel first sheet body An inner plane, wound around, embedded in the i-th body (four) induction coil module, the second sheet unit has a second sheet body that is the same width and parallel to the first sheet body, and is disposed at the a second sheet body, and a magnetic field module 0 forming a magnetic field along a front-rear direction perpendicular to an inner plane of the second sheet body; the power storage unit is respectively corresponding to the induction coil module phase 201118248 of the power generating mechanisms The connection is connected to separately collect and output the electric power generated by the first sheet unit of the power generation mechanisms. "The beneficial effects of the present invention are: when the air is turbulent, the power generating mechanism can make the air and the first and the sheet units are close to each other by the pivotal structure of the outer and inner connecting rods. The distance is changed away from each other, and the induced magnetic field is changed to form a current in the induction coil module, so that the power generation mechanism is relatively easy to move and generate electricity in response to the small wind and air turbulence, thereby improving the efficiency of the wind power. The invention has the characteristics of being able to effectively utilize natural resources for pollution-free green power generation. Further, the present invention provides another thin-film air spoiler power generation system capable of generating electric power in response to the action of small wind or air current. The present invention relates to a sheet air turbulence power generation system of the present invention comprising two outer-link units spaced apart by δ and a power generating mechanism pivoted between the two outer connecting rod units, and a power generating mechanism Electrically connected storage unit. The power generation mechanism is respectively pivoted between the two outer link units, including correspondingly disposed and can be adjacent to each other a first sheet unit and a second sheet unit having a first sheet body and an induction coil module disposed on the first sheet body, the second sheet unit having a a second sheet body in which the first sheet main body is parallel, and a magnetic module disposed on the second sheet main body. The electric storage unit is electrically connected to the induction coil module of the power generating mechanism. Advantageous Effects of the Invention The utility model is characterized in that: when the air is turbulent, the power generating mechanism can be connected to the two outer link units by using the pivoting structure of the two outer link units, so that the air can easily bring the first and second sheet units closer to and away from each other, thereby making the induction The magnetic field changes to form a current in the induction coil module, so that the power generation mechanism can move and generate electricity in response to the small wind and air turbulence, and the present invention also has the characteristic of being able to effectively utilize natural resources for pollution-free green power generation. The present invention further provides another sheet-type air spoiler power generation system capable of generating electric power in response to the action of minute wind or air current. The slab-type air turbulence power generation system includes a power generation mechanism supporting the frame and not being connected to the branch, and a power storage unit electrically connected to the power generation mechanism. The power generation mechanism includes a third sheet unit, the third The sheet unit has a first link assembly pivotally connected to the support rod, a second link assembly spaced apart from the first link, and the body is respectively pivotally connected to the first and second cups An induction coil module and a magnetic module are disposed between the opposite ends of the assembly and are opposite to the two-link assembly. The storage unit is inductive to the third sheet unit of the power generation mechanism. The coil module is electrically connected. The utility model has the beneficial effects that the power generating mechanism can easily drive the induction by the air connection mechanism of the third W unit (four)-the second link assembly when the air is turbulent. The coil module is adjacent to the magnetic module and retreats therefrom, thereby causing the induced magnetic field to change and (4) forming a current in the coil module to enable the third sheet unit to move in response to small wind and air turbulence. Power line, of the present invention can be achieved by using from «green pollution sources 201,118,248 generation effect. The above and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments. DETAILED DESCRIPTION OF THE INVENTION Before the present invention is described in detail, the like elements are denoted by the same reference numerals. Referring to FIG. 1, FIG. 2 and FIG. 3, a first preferred embodiment of the sheet air turbulence power generation system of the present invention is The outer connecting rods including two spaced-apart arrangements are provided, and the plurality of outer connecting rods are disposed between the two outer connecting rod units 2, and the outer plurality of inner connecting rods are respectively disposed at the outer connecting rods a power generation mechanism 4A between the units 2 and 3, a plurality of power storage units 6 electrically connected to the power generation units 4A, and a plurality of limit blocks 7' and - respectively disposed in the power generation mechanisms 40. a support rod 8 to which the outer link unit 2 is connected. The two outer link units 2 each include a first to-rotate assembly 21, a second torsion assembly 22 spaced apart from the first frame-rotating assembly 21, and two spaced apart poles The interlocking lever 23 of the first and second pivoting assemblies 2. <Between .._ A ^ tuning the angle of the outer link unit 2

::合…於同侧的第三拖 I 第三樞轉組合體3"目間隔且 個一 組合…於同側的第四抱轉組合=单=第二則 地樞接在該第三、第吨轉組體32 ’ 〇數個相❹ ,該等外、内連桿軍元2、3的=:32之間的連動“ 動椁23、33為等長設言j 201118248 離的1發電機構4G各包括相對應設置並能相靠近與相遠 雕的一第一蒲μ Μ 一 4片早兀4及一第二薄片單元5。 …Λ等第一薄片單元4是分別接設在該二外連桿 Hr第—樞轉組合體21及該等内連桿單元3的第三樞 轉組合體31之門,# > „丄 談 曰並各具有一第一薄片主體41,及一平行 ^ 主體41的一内平面41丨捲繞並埋設於該第一薄::He...the third drag I on the same side, the third pivoting assembly 3"the spacing and one combination...the fourth hulk combination on the same side=single=the second is pivotally connected to the third The first ton of the group of 32' 转 个 ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ ❹ 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 Each of the mechanisms 4G includes a first sheet 4 and a second sheet unit 5 which are disposed correspondingly and can be adjacent to each other. The first sheet unit 4 is connected to the first sheet unit 4, respectively. a door of the second outer link Hr first pivoting assembly 21 and the third pivoting assembly 31 of the inner connecting rod unit 3, # gt; 丄 曰 and each having a first sheet main body 41, and a An inner plane 41 of the parallel body 41 is wound and embedded in the first thin

體41内的感應線圈模組42。 該等第二薄片單元5是分別接設在該二外連桿單元2 ^2一樞轉組合體22及該等内連桿單元3的第四樞轉組合 之間,以受該二外連桿單元2與該等内連桿單元3連 :而分別與該等第一薄片單…互靠近與遠離,各具有 第-薄片主體41同寬且相平行的第二薄片主體Μ 個叹置於該第二薄片主體51,並鱼 主體…平…直的一前後方向形;一= 力椒組52。w , lA* /、中,該磁力杈組52可以藉由分別在該第二薄 “體51的内、外平面511、512噴設磁粉而形成,也可以 糟由在該第二薄片主豸51内埋設磁性物質,例如,磁 而形成。 閱圖3與圖4,較佳地,該等外、内連桿單元2、3 的:動# 23、33與該等第一、第二薄片主體41、51是相 配合形成平行四邊形的框接活動結構。藉此,當受氣流擾 動時可分別相對活動並形成不同角度但相同邊長的平行四 邊形,進而能分別改變該等發電機構4〇的第一、第二薄片 201118248 主體41、51間的距離,使位於該第二薄片主體5i内的磁 力模組52與設置於該第_薄片主體41的感應線圈模植42 間的間距改變,進而造成作用於該感應線圈模組42上的磁 力發生變化,而在該感應線圈模組42上形成電流。 參閱圖1、圖2與圖7,該等蓄電單元6是分別與該等 發電機構40的第-薄片單元4的感應線圈模組42相對應 電連接’时別收集該等第-薄片H 4 i生的電力並輸 出其中,每一蓄電單元6各包括一個與該感應線圈模組 42電連接的整流模組61,及一與該整流模組61電連接的 電能儲存模組62,藉此,當空氣擾流或風力分別造成該等 發電機構40的第- '第二薄片單元4、5相對運動而在該 感應線圈模組42引發的電流就能分別被引導到該等蓄電單 元6的整流模組61及該電能儲存模組62,達到將空氣流動 的旎量轉換為機械動能,再透過電磁感應作用轉換為電能 的發電結果。 較佳地’該薄片式空氣擾流發電系統還包含一與該蓄 電單元6的電能儲存模組62電連接的負載9,使儲存於該 電能儲存模組62的電能可再透過該負載9轉換為其他形式 的能量,例如,該負載9可以是一般路燈或LED燈,使空 氣擾動的能量能夠被轉換為光能,另外,也可以在該等第 一、第二薄片主體41、51的外表面設置以預定的圖案排列 的LED燈作為該負載9,藉此,使該發電系統可結合廣告 看板或招牌,利用空氣擾流所產生電力可直接供該等led 燈使用以呈現出明亮的圖案,因此,可透過自給自足的自 10 201118248 然資源發電系統達到照明㈣告的效果。 薄片單元4、5相^上,用以限制該等第一、第二 81,及一個設置於該桿主 21相樞接的第五樞轉組 該支撐桿8包括一個桿主體 體81上’並與該第-樞轉組合體 合體82。The induction coil module 42 in the body 41. The second sheet units 5 are respectively connected between the two outer link units 2^2, a pivot assembly 22 and the fourth pivot combination of the inner link units 3, to be connected by the two outer links. The rod unit 2 is connected to the inner rod unit 3: and is adjacent to and away from the first sheet sheets, respectively, and the second sheet main body having the same width and parallel to the first sheet main body 41 The second sheet main body 51 is formed in a straight front and rear direction shape; a = pepper group 52. w, lA* /, wherein the magnetic force group 52 can be formed by spraying magnetic powder on the inner and outer planes 511, 512 of the second thin body 51, respectively, or can be caused by the second sheet main body. A magnetic substance is embedded in 51, for example, magnetically formed. Referring to Figures 3 and 4, preferably, the outer and inner link units 2, 3: moving #23, 33 and the first and second sheets The main body 41, 51 is a frame-connecting movable structure that cooperates to form a parallelogram. Thereby, when disturbed by the airflow, the parallelograms can be respectively moved to form different angles but the same side length, and the power generating mechanisms can be respectively changed. The distance between the main body 41, 51 of the first and second sheets 201118248 changes the spacing between the magnetic module 52 located in the second sheet main body 5i and the induction coil mold 42 disposed in the first sheet main body 41, Further, the magnetic force acting on the induction coil module 42 is changed, and a current is formed on the induction coil module 42. Referring to Figures 1, 2 and 7, the power storage units 6 are respectively associated with the power generation mechanisms. The induction coil module 42 of the first sheet unit 4 of 40 corresponds to When the connection is connected, the power generated by the first-thin sheets H 4 i is collected and outputted, and each of the power storage units 6 includes a rectifying module 61 electrically connected to the induction coil module 42 , and a rectifying module An electrically connected energy storage module 62 whereby the current induced in the induction coil module 42 by the air turbulence or wind force respectively causing the relative movement of the first-second sheet units 4, 5 of the power generating mechanisms 40 The rectifying module 61 and the electric energy storage module 62 of the electric storage unit 6 can be respectively guided to convert the amount of air flowing into mechanical kinetic energy, and then convert the electric energy into electric energy by electromagnetic induction. The sheet air turbulence power generation system further includes a load 9 electrically connected to the power storage module 62 of the power storage unit 6, so that the power stored in the power storage module 62 can be further converted into other resources through the load 9. The form of energy, for example, the load 9 may be a general street lamp or an LED lamp, so that the energy disturbed by the air can be converted into light energy, and may also be disposed on the outer surfaces of the first and second sheet bodies 41, 51. A predetermined pattern of LED lights is used as the load 9, whereby the power generation system can be combined with an advertising billboard or signboard, and the power generated by the air turbulence can be directly used by the led lights to present a bright pattern. The effect of lighting (4) can be achieved through self-sufficient self-sufficiency from the 10 201118248 resource generation system. The sheet units 4, 5 are connected to limit the first and second 81, and one is disposed on the main pole 21 of the rod The fifth pivoting group of the support rod 8 includes a rod body 81 and is combined with the first-pivoting combination body 82.

, 該一外連桿單元2的第一樞轉組合體21各具 有一《接在該第—薄片單元4的第—薄片主體Μ的第;; 極接筒21卜及-穿設於該第一柩接筒2ιι與該等連動桿U 的苐才區軸212,該一弟二樞接組合22體各具有一個與該 第一柩接筒211相對應而固接在該第二薄片單元$的第二薄 片主體51的第二樞接筒22丨,及一穿設於該第二樞接筒 221與該等連動桿23的第二樞軸222,該支撐桿8的第五 樞轉組合體82是與第一樞接組合體22相樞接,並具有二 個相間隔地設置於該第一樞接筒211二相反端的第三樞接筒 821,該第一樞轉組合體21的第一樞轴212是延伸至穿設 於該二第三樞接筒821。 該等内連桿單元3的第三枢轉組合體31各具有一個第 四枢接筒311、二個相間隔地設置於該第四枢接筒311二相 反端的第五樞接筒312,該等連動桿33是分別被夾設於該 第四、第五樞接筒311、312之間,該第三樞轉組合體31還 具有一穿設於該第四、該二第五樞接筒311、312及該二連 動桿33的第三樞軸313,及該第四樞接筒311是與二相鄰 201118248 的其中一個第一薄片主體41相固接,該二第五樞接筒312 則與另一個第一薄片主體41相固接。 該等内連桿單元3的第四樞轉組合體32則各具有一個 第六樞接筒321、二個相間隔地設置於該第六樞接筒321二 相反端的第七樞接筒322,該等連動桿33是分別被夾設於 該第/、、第七插接简321、322之間,該第四樞轉組合體32 還具有一穿設於該第六、該二第七樞接筒321、322及該二 連動桿33的第四樞軸323,及該第六樞接筒321是與二相 鄰的其中一個第二薄片主體51相固接,該二第七樞接筒 322則與另一個第二薄片主體51相固接。 在本實施例中,該發電系統除了利用平行四邊形的框 接結構達到容易受空氣擾流而分別活動的效果外,該等發 電機構40的第-、第二薄片主體4卜51、該二外連桿單元 )及該等内連桿單元3較佳是由銘所製成,藉此,使該發電 系統整體重量減輕,而更容易受空氣擾流影響而活動。 值得-提的是’料外、内連桿單元2、3與該等發電 機構4〇及該支樓桿8的配置方式不應受限,,也可以如圖 5等設置多數排分別由該等外、内連桿單與該 ^發電機構形成⑽狀結構體,㈣❹排的旗幟式設 ,=此’可增加所故集的電量。此外,也可以如圖6所 不該支撐桿8呈水平設置,該望 該等發電機構40相招接且呈位;、連桿單元2、3與 型式,同樣能透過空氣擾流或:=:_下側㈣ 捏留-。 風力吹動帶動該等外、内連 杯早以、3及該等發電機構4Q的第―、第二薄片單元4、 12 201118248 5相對運動而達到發電的效果。 參閱圖8’為本發明薄片式空氣擾流發電系統的一第二 較佳實施例,包含二個相間隔設置的外連桿單元2、一個柩 设在該二外連桿單元2之間的發電機構40、一個與該發電 機構4〇電連接的蓄電單元6、一個設置於該發電機構40的 限位塊7、一個與其中一個外連桿單元2相樞接的支撐桿8 ,及一個與該蓄電單元6電連接的負載9。 該發電機構40是分別樞設在該二外連桿單元2之間, 包括相對應設置並能相靠近與相遠離的一第一薄片單元4 及一第二薄片單元5 ’該第-、第二薄片單元4、5的元件 與:構與該第-較佳實施例相同,故不再贅述。該第二較 t k例與該第―較佳實施例的主要差別在於其只具有一 2電機# 40 ’其他元件、結構及其作用與連結關係則與 ΐ檣:較佳實施例相同’在此不再贅述。即使只有-個發 40’該第二較佳實施例仍能藉由空氣擾流使該第一 。二薄片單元4、5間產生相對運動,進而達到發電效果 的〜第閱圖9與圖1Q,為本發明薄片式空氣擾流發電系統 =較佳實施例’包含一個支撐桿8、一個樞設於該支 牙知8的發電機構4〇、一各^ ^ 單 如興透知電機構40電連接的蓄電 ,及—個與該蓄電單元6電連接的負載9。 1 = 1構4G包括依序相插接的—第三薄片單元11、 四'寻片單元12及-第五薄片單元13。 °亥第項片單元11具有"樞接於該切桿8的第一連 Γ Λ 1 13 201118248 桿組合體111、一與該第一連桿組合體丨丨丨相間隔的第二連 方干組合體112、分別樞接在該第一、第二連桿組合體ill ' 112二相反端之間並會相對該二連桿組合體111、112擺動 而相靠近與相遠離的一感應線圈模組113及一磁力模組U4 。其中’該第一、第二連桿組合體1U、112與該感應線圈 模組113、該磁力模組114相配合形成平行四邊形的樞接結 構。 該第四薄片單元12具有一與該第二連桿組合體112相 間隔的第三連桿組合體121、分別枢接在該第二、第三連桿 組合體112、121二相反端之間並隨該二連桿組合體丨丨2、 121的擺動而相靠近與相遠離的一感應線圈模組122及一磁 力模組123。該第二、第三連桿組合體112、12ι與該感應 線圈模組122、該磁力模組123同樣是呈平行四邊形的樞接 結構。 該第五薄片單元13具有一與該第三連桿組合體ι21相 間隔的第四連桿組合體13 1、分別樞接在該第三、第四連桿 組合體121、13 1二相反端之間並隨該二連桿組合體丨21、 131的擺動而相靠近與相遠離的一感應線圈模組丨3 2及一磁 力模組133。該第三、第四連桿組合體ι21、13ι與該感應 線圈模組132、該磁力模組133同樣是相配合形成平行四邊 形的樞接結構。 該蓄電單元6是分別與該發電機構4〇之第三、第四、 第五薄片單元11、12、13的感應線圈模組^3^22^32 電連接。並包括一分別與該等感應線圈模組丨丨3、丨22、132 14 201118248 電連接的整流模組61 ’及一個與該整流模組61電連接的電 能儲存模組62。 較佳地,該發電系統還包含三個分別設置在該第三、 第四、第五薄片單το 1卜12、13的該等感應線圈模組ιΐ3 、122、132與該等磁力模組114、123、133的其中一方上 的限位塊7,以限制該等感應線圈模組113、122、132與該 等磁力模組114、123、133相碰抵。 在本實施例中,同樣能藉由空氣擾流使該發電機構40 的第三'第四、第五薄片單元η、12、13的該等感應線圈 模組113、122、132與該等磁力模組i丨4、丨23、丨33相靠近 與相遠離,使感應磁場發生變化而分別在該等感應線圈模 組113、122、132形成電流,所產生的電流再經由該蓄電單 儿6的整流模組61處理,並匯集到該電能儲存模組62供 進一步㈣,gU匕’同樣能達到以微小風力或氣流發電的 效果。其中,該第三、第四 '第五薄片單元u、12、i3的 鲁 感應線圈模組113、122、132與磁力模組114、123、133並 一定都要位於相同側,例如,該第四薄片單元12的感應線 目模組122可以與該第三、第五薄片單元u、13的感應線 圈杈組113、132位於相反側,透過該整流模組61仍能使分 另1J在該等薄片單元元11、12、13產生的電流以加總的方^ 收集。 工 值知说明的是,本貫施例是以該發電機構4〇具有三個 薄片單7G 11、12、13為例進行說明,但該薄片軍元的數量 不應受限,可依發電需求,隨意增加或減少薄片單元的數 15 201118248 此外該發電機構4〇也可以只設置該 ,同樣能達到發電的效果。 …兀 *、述本發明薄片式空氣擾流發電系統,可庐致 下述的功效及優點,故能達到本發明的目的: ^ —、利用該等發電機構4〇的第-、第二薄片單元4、< 與該等2、^桿單元2、3之間的樞接結構,方便該第」 '第二薄片單元4、5相對運動,再配合選用輕型材質,不 需受:風力強度的限制,即使在非強風區,該第一、第二 薄片早π 4、5仍,然能夠受空氣擾流與徐徐吹動的風力而相 對擺動以改Μ其間距’進而在該感應線圈模組Μ產生電流 ’使微小風力也能獲得有效利用,使本發明相對具有能夠 改善風力利用效率與增加風力利用範圍的特性。。 一本發明每個發電機構40可分別搭配該等外、内連 #單二2、3自成獨力的發電單元,藉此’可依電量需求調 整該等外、内連桿單元2、3與該等發電機構4〇的設置數 量,此外,該等發電機構40的第一、第二薄片本體41、51 的大小也可能依設計而調整,因此,可依使用地點的風力 強度設計不同尺寸或規格的發電機構4〇,使該等發電機構 40的第一、第二薄片單元4、5在不同風力條件下都易於被 驅動而能達到發電效果,並可依發電量的大小與適當的負 載9電連接,使較微小的氣流也能獲得有效利用,使本發 明具有能有效利用自然資源進行無污染的綠色發電的特性 與優點。 二、本發明的風力系統是藉由在該第一、第二薄片主 16 201118248 體41、51内分別設置該感應線圈模組42、磁力模組52形 成該第一、第二薄片單元4、5進而界定出該發電機構4〇, 再利用該等外、内連桿單元2、3與該等發電機構4〇的第 第一薄片單元4、5間的樞接結構達到容易相對運動以 產生電力的目的,使該發電系統具有較容易建造與方便小 型化的特色’而具有可發展為小型家用發電系統而能增加 應用普及性的價值。The first pivoting assembly 21 of the outer link unit 2 has a first portion connected to the first sheet main body of the first sheet unit 4; the pole piece 21 is pierced and worn a splicing cartridge 2 ι ι and an armature shaft 212 of the interlocking lever U, each of the two pivotal combination 22 bodies having a corresponding one of the first splicing cylinders 211 and being fixed to the second splicing unit 211 The second pivoting cylinder 22 of the second sheet main body 51 and a second pivot 222 of the second pivoting cylinder 221 and the interlocking rods 23, the fifth pivoting combination of the supporting rods 8 The body 82 is pivotally connected to the first pivoting assembly 22 and has two third pivoting cylinders 821 disposed at opposite ends of the first pivoting cylinder 211. The first pivoting assembly 21 is The first pivot 212 extends to the second pivoting cylinder 821. The third pivoting assembly 31 of the inner connecting rod unit 3 has a fourth pivoting cylinder 311 and two fifth pivoting cylinders 312 disposed at opposite ends of the fourth pivoting cylinder 311. The interlocking rods 33 are respectively disposed between the fourth and fifth pivoting cylinders 311 and 312. The third pivoting assembly 31 further has a fourth and second pivoting cylinders. The third pivot 313 of the two interlocking rods 311 and 312, and the fourth pivoting cylinder 311 are fixed to one of the first sheet main bodies 41 of the two adjacent 201118248. The two fifth pivoting cylinders 312 Then, it is fixed to the other first sheet main body 41. The fourth pivoting assembly 32 of the inner connecting rod unit 3 has a sixth pivoting cylinder 321 and two seventh pivoting cylinders 322 disposed at opposite ends of the sixth pivoting cylinder 321 . The interlocking rods 33 are respectively disposed between the first and/or seventh plug connectors 321 and 322, and the fourth pivoting assembly 32 further has a sixth and second seventh pivots. The fourth pivot 323 of the connecting rods 321 and 322 and the two interlocking rods 33, and the sixth pivoting cylinder 321 are fixed to two adjacent ones of the second sheet main bodies 51, and the two seventh pivoting cylinders 322 is then fixed to the other second sheet main body 51. In the present embodiment, the power generation system uses the parallelogram-shaped frame structure to achieve the effect of being easily disturbed by air turbulence, and the first and second sheet bodies 4 of the power generation mechanism 40 are 51, the second The link unit) and the inner link unit 3 are preferably made of M, whereby the overall weight of the power generation system is reduced, and it is more susceptible to being affected by air turbulence. It is worth mentioning that the arrangement of the outer material, the inner connecting rod unit 2, 3 and the power generating mechanism 4〇 and the branch rod 8 should not be limited, and the plurality of rows may be arranged as shown in FIG. The outer and inner connecting rods form a (10)-shaped structure with the power generating mechanism, and (4) the flag type of the tandem row, which can increase the amount of electricity of the collected set. In addition, as shown in FIG. 6, the support rods 8 may be horizontally disposed, and the power generating mechanisms 40 may be in a position to be positioned and positioned; and the link units 2, 3 and the type may also be permeable to air or := :_ lower side (four) pinch -. The wind blows the outer and inner cups, and the first and second sheet units 4, 12, 201118248 5 of the power generating units 4Q are relatively moved to achieve power generation. Referring to FIG. 8 is a second preferred embodiment of the sheet air turbulence power generation system of the present invention, comprising two spaced apart outer link units 2 and one disposed between the two outer link units 2 a power generation mechanism 40, a power storage unit 6 electrically connected to the power generation mechanism 4A, a limit block 7 disposed at the power generation mechanism 40, a support rod 8 pivotally connected to one of the outer link units 2, and a support rod A load 9 electrically connected to the power storage unit 6. The power generating mechanism 40 is pivotally disposed between the two outer link units 2, respectively, and includes a first sheet unit 4 and a second sheet unit 5 that are disposed adjacent to each other and are separated from each other. The components of the two sheet units 4, 5 are the same as those of the first preferred embodiment and will not be described again. The main difference between the second comparative tk example and the first preferred embodiment is that it has only one 2 motor # 40 'other components, structures and their roles and connections are the same as the preferred embodiment. No longer. Even if there is only one hair 40', the second preferred embodiment can still make the first by air turbulence. The second sheet unit 4, 5 generates relative motion, thereby achieving the power generation effect. Referring to FIG. 9 and FIG. 1Q, the sheet type air spoiler power generation system of the present invention=the preferred embodiment includes a support rod 8 and a pivoting unit. The power generation mechanism 4 of the tooth 8 is electrically connected to each other, and the load 9 electrically connected to the power storage unit 6 is connected. The 1 = 1 structure 4G includes the third sheet unit 11, the four 'fetch unit 12, and the fifth sheet unit 13 which are sequentially inserted. The first piece unit 11 has a first link 枢 1 13 201118248 that is pivotally connected to the cutting rod 8 , and a second joint with the first link assembly 丨丨丨The dry assembly 112 is pivotally connected between the opposite ends of the first and second link assemblies ill ' 112 and is oscillated relative to the two link assemblies 111 , 112 to be adjacent to an induction coil The module 113 and a magnetic module U4. The first and second link assemblies 1U, 112 cooperate with the induction coil module 113 and the magnetic module 114 to form a parallelogram pivot structure. The fourth sheet unit 12 has a third link assembly 121 spaced apart from the second link assembly 112, and is pivotally connected between opposite ends of the second and third link assemblies 112 and 121, respectively. And the swinging of the two-link assembly 丨丨2, 121 is close to an inductive coil module 122 and a magnetic module 123 that are far apart from each other. The second and third link assemblies 112 and 12i are pivotally connected to the induction coil module 122 and the magnetic module 123 in a parallelogram shape. The fifth sheet unit 13 has a fourth link assembly 13 1 spaced apart from the third link assembly ι 21, and is pivotally connected to the opposite ends of the third and fourth link assemblies 121 and 13 1 respectively. Along with the swing of the two-link assembly 丨21, 131, an induction coil module 丨32 and a magnetic module 133 are separated from each other. The third and fourth link assemblies ι 21 and 13 ι are similarly coupled to the induction coil module 132 and the magnetic module 133 to form a parallelogram. The power storage unit 6 is electrically connected to the induction coil modules 32, 22, 32 of the third, fourth, and fifth sheet units 11, 12, 13 of the power generation mechanism 4, respectively. And comprising a rectifying module 61' electrically connected to the inductive coil modules 丨3, 丨22, 13214 201118248 and an electric energy storage module 62 electrically connected to the rectifying module 61. Preferably, the power generation system further includes three inductive coil modules ιΐ3, 122, 132 and the magnetic module 114 respectively disposed on the third, fourth, and fifth sheet sheets τ1 1 and 12, 13 respectively. The limiting block 7 on one of the 123, 133 limits the inductive coil modules 113, 122, 132 to the magnetic modules 114, 123, 133. In the present embodiment, the inductive coil modules 113, 122, 132 of the third 'fourth and fifth sheet units η, 12, 13 of the power generating mechanism 40 can also be excited by the air to the magnetic force. The modules i丨4, 丨23, and 丨33 are close to each other, and the induced magnetic field changes to form currents in the induction coil modules 113, 122, and 132, respectively, and the generated current passes through the power storage unit 6 again. The rectifier module 61 processes and collects it into the electrical energy storage module 62 for further (4), and the gU匕' can also achieve the effect of generating electricity by a small wind or airflow. The Lu induction coil modules 113, 122, and 132 of the third and fourth 'fifth sheet units u, 12, and i3 and the magnetic modules 114, 123, and 133 must all be located on the same side, for example, the first The sensing line module 122 of the four-sheet unit 12 can be located on the opposite side of the inductive coil unit groups 113 and 132 of the third and fifth sheet units u and 13, and the rectifying module 61 can still be used to The currents generated by the sheet cells 11, 12, 13 are collected in the sum of squares. The work value indicates that the present embodiment is described by taking the three-sheet single 7G 11, 12, and 13 of the power generating mechanism as an example, but the number of the thin-film military elements should not be limited, and the power generation requirement can be met. , arbitrarily increase or decrease the number of sheet units 15 201118248 In addition, the power generation mechanism 4 can also be set only to achieve the same effect of power generation. ... 兀 *, the sheet-type air spoiler power generation system of the present invention can achieve the following functions and advantages, so that the object of the present invention can be achieved: ^ - using the first and second sheets of the power generating mechanism 4 The unit 4, < and the pivotal structure between the two rod units 2, 3 facilitates the relative movement of the second sheet unit 4, 5, and the light material is used in combination with: wind strength The limitation, even in the non-strong wind zone, the first and second sheets are still π 4, 5, but can be oscillated by the air turbulence and the slowly blowing wind to change the spacing 'and further in the induction coil mode The group Μ generates a current' so that the minute wind power can also be effectively utilized, so that the present invention has characteristics that can improve the wind power utilization efficiency and increase the wind power utilization range. . Each of the power generation mechanisms 40 of the present invention can be respectively equipped with the power generation units of the external and internal connection #2, 2, and 3, so that the external and internal link units 2, 3 can be adjusted according to the power demand. The number of the power generating mechanisms 4〇, in addition, the size of the first and second sheet bodies 41, 51 of the power generating mechanisms 40 may also be adjusted according to the design, and therefore, different sizes may be designed according to the wind strength of the place of use or The power generation mechanism of the specification enables the first and second sheet units 4 and 5 of the power generation mechanism 40 to be easily driven under different wind conditions to achieve the power generation effect, and can be based on the amount of power generation and the appropriate load. 9 electrical connection, so that a relatively small airflow can also be effectively utilized, so that the present invention has the characteristics and advantages of being able to effectively utilize natural resources for pollution-free green power generation. The first and second sheet units 4 are formed by the induction coil module 42 and the magnetic module 52 respectively disposed in the first and second sheet main bodies 16 201118248 bodies 41 and 51. 5 further defining the power generating mechanism 4, and using the pivotal structures between the outer and inner link units 2, 3 and the first sheet units 4, 5 of the power generating mechanisms 4, to achieve relative relative motion to generate The purpose of electricity is to make the power generation system easier to construct and to facilitate miniaturization', and to have the value of being able to develop into a small household power generation system and increase the popularity of the application.

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’即大凡依本發明中請: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-立體示意圖,說明本發明薄片式空氣擾流發 電系統一第一較佳實施例; 々圖2是—局部分解示意圖,說明該第一較佳實施例的 夕數個發電機構與—外一内連桿單⑽合的情形; 圖3是-俯視圖,說明該第一較佳實施例的該等發電 刀別該:卜、内連桿單元呈平^四邊形樞接的情形; 媳堪^ 4疋冑現圖’說明該第"'較佳實施例的該等發電 機構的多數個第一、第― 第一 /專片单疋與外、内連桿單元分別 相對活動的情形; 織二程圖,說明該第-較佳實施例呈多排的旗 圖6是— 示意圖,說明該第_ 較佳實施例呈垂吊式設 ί ?; 17 201118248 計的情形; 圖7是一方塊圖,說明該第一較佳實施例的發電機構 、一蓄電單元及一負載的連接關係; 圖8是一立體示意圖,說明本發明薄片式空氣擾流發 電系統一第二較佳實施例; 圖9是一立體示意圖,說明本發明薄片式空氣擾流發 電系統一第三較佳實施例; 圖10是一方塊圖,說明該第三較佳實施例的一發電機 構、一蓄電單元及一負載的連接關係。 ·However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto. Modifications are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a first preferred embodiment of a sheet air turbulence power generation system of the present invention; FIG. 2 is a partial exploded view showing the eve of the first preferred embodiment FIG. 3 is a plan view showing the power generating blades of the first preferred embodiment: the inner connecting rod unit is pivoted in a quadrilateral shape. In the case of the present invention, the first, first, first, first, and outer link units of the power generating mechanisms of the preferred embodiment are respectively illustrated. Relatively active situation; weaving two-way diagram, illustrating that the first preferred embodiment is in a multi-row flag. Figure 6 is a schematic diagram showing the first preferred embodiment in a hanging configuration; 17 201118248 Figure 7 is a block diagram showing the connection relationship between the power generating mechanism, a power storage unit and a load of the first preferred embodiment; Figure 8 is a perspective view showing the second embodiment of the sheet air turbulence power generation system of the present invention Preferred embodiment; Fig. 9 is a perspective view showing the present Air spoiler sheet out power generation system of a third preferred embodiment; FIG. 10 is a block diagram illustrating a configuration of a generator, a power storage unit, and a connection relationship of the load of the third preferred embodiment. ·

18 20111824818 201118248

【主要元件符號說明】 2 ...... •…外連桿單元 5…… •…第二薄片單元 21 ··.·. •…第一樞轉組合體 51 ·.··· •…第二薄片主體 211… •…第一框接筒 511… •…内平面 212… —务 樞轴 512… •…外平面. 22…… •…第二枢轉組合體 52··.·. •…磁力模組 221 ··· 务,一柩接请 6…… •…蓄電單元 222… •…第二樞軸 61 ··.·. •…整流模組 23…… •…連動桿 62·..·· •…電能儲存模組 3 ....... …·内連桿單元 7…… •…限位塊 31…… •…第二樞轉組合體 8…… •…支撐桿 311 ··.. …·第四枢接筒 81 ···.. •…桿主體 312 ··· …·第五枢接筒 82·.··· •…第五樞轉組合體 313 ··.. .···第三枢轴 821… •…第三樞接筒 32…… •…第四枢轉組合體 9 ....... •…負載 321 ··· 弟/、搞接请 11 ····. •…第三薄片單元 322 ··· …第七枢接筒 111… •…第一連桿組合體 323 ·... '…第四樞轴 112… •…第二連桿組合體 33…… —連動杯 113… •…感應線圈模組 40…… …·發電機構 114… •…磁力模組 4 ....... …·第一薄片單元 12·..·· ···.第四薄片單元 41…… …第一薄片主體 121… •…第三連桿組合體 411 ·… …·内平面 122… •…感應線圈模組 42…… …·感應線圈模組 123… •…磁力模組 19 201118248 13…… •…第五薄片單元 132… •…感應線圈模組 131… •…第四連桿組合體 133… •…磁力模組[Description of main component symbols] 2 ... •...Outer link unit 5... •...Second slice unit 21 ·····....First pivot assembly 51 ·.··· •... The second sheet main body 211... • the first frame barrel 511... • the inner plane 212... the pivot axis 512... • the outer plane. 22... • the second pivot assembly 52··. ...magnetic module 221 ··· service, one pick up 6... •...power storage unit 222... •...second pivot 61 ·····.......rectifier module 23...•... linkage rod 62·. .·· •...Electric energy storage module 3 .............Internal link unit 7...•...Restriction block 31...•...Second pivot assembly 8...•...Support rod 311 ··.. .... 4th pivoting cylinder 81 ···.. •...bar body 312 ·····the fifth pivoting cylinder 82·····...the fifth pivoting assembly 313 ··. . . .··············································································· 11·····....the third sheet unit 322···...the seventh pivoting cylinder 111... • The first link assembly 323 .... '...the fourth pivot 112...the second link assembly 33...the linkage cup 113...the...the induction coil module 40...the power generation mechanism 114... •...Magnetic Module 4 . . . ....... First Sheet Unit 12·..····. Fourth Sheet Unit 41... First Sheet Body 121... Rod assembly 411 ·... Inner plane 122... • Induction coil module 42... Inductive coil module 123... • Magnetic module 19 201118248 13... •... Fifth sheet unit 132... Coil module 131... •...four link assembly 133... •...magnetic module

2020

Claims (1)

201118248 七、申請專利範圍: 1. 一種薄片式空氣擾流發電系統,包含: 二個外連桿單元,是呈相間隔設置; 多數個内連桿單元,是相間隔地設置在該二外連桿 單元之間; 多數個發電機構’是分別樞設在該二外連桿單元及 該等内連桿單元之間’各包括相對應設置並能相靠近與 相遠離的一第一薄片單元及一第二薄片單元,該第一薄 片單70具有一第一薄片主體,及一平行該第一薄片主體 的一内平面捲繞並埋設於該第一薄片主體内的感應線圈 杈組,該第二薄片單元具有一與該第一薄片主體同寬且 相平行的第二薄片主體,及一設置於該第二薄片主體, 並石-與該第二薄片主體的—内平面垂直的一前後方向 形成一磁场的磁力模組;及 至少-個蓄電單元’分別與該等發電機構的感應線 圈模組相對應電連接。 2. 依射請專·圍第1項所述的薄片式空氣擾流發電系 統其中It 一外連桿單元各包括—個第一柩轉組合體 、-個與該第-樞轉組合體相間隔的第二樞轉組合體, 及多數個相間隔地樞接在該第…第二㈣組合體之間 的連動桿。 3. 依據巾請專㈣圍第2項所述的薄片式空氣擾流發電系 、先/、中1¾等内連桿單元各包括—個與該外連桿單元 的第一樞轉組合體位於同側的第三樞轉組合體、一個與 21 201118248 該第三樞轉組合體相 組合體位於同側的第.―、該外連桿單元的第二樞轉 丨j顶』的第四樞轅 樞接在該第三 '第四 ' '' ,及多數個相間隔地 、内連桿單元的連動桿為等長設計。料動才干該等外 4. 依據申請專利範圍第3 統,盆中,兮㈣ 項所相薄片式空氣擾流發電系 几T 逐荨外、内遠坦ig - u ± 電機構的第-、m早70的㈣桿分別與該等發 樞接活動結構。體相配合形成平行四邊形的 5. 依據申請專利範圍第4 ,,,φ ^您 項所述的薄片式空氣擾流發電系 統’其中,該等發電機構的第 該二外連桿單元的第一柄凡疋分別樞接在 ^ 轉、,且合體及該等内連桿單元的 第二枢轉組合體之間。 6 ·依據申請專利範圍第s m,社姥 項所述的薄片式空氣擾流發電系 、-先’八中,該等發電機構 一 哕-外u 旳弟一溥片早兀是分別樞接在 及一外連柃早兀的第二 伽轉、,且口體及該等内連桿單元的 第四枢轉組合體之間。 7.依據申請專利範圍第6馆邮+ & —, 此項所述的溽片式空氣擾流發電系 ”·’還包含多數個分別設置在該等發電機構的第一、第 二薄片主體之間的限位塊,該等限位塊是分別設置在相 對應該等第一、第h 二 第一4片主體的其中一方上,用以限制 «亥等第-、第二薄片單元相碰抵。 8 ’依據申清專利範圍第7箱所,+,从1。』 ^ 項所述的溥片式空氣擾流發電系 統’還包含-個與其__個外連桿單元相框接的支撐桿 22 201118248 9.依據申請專利範圍第8項所 各βi 听迷的溥片式空氣擾流發電系 統,,、中,該支樓桿包括一個桿主 扞王體,及一個設置於該 桿主體上,並與該第一樞轉组人 轉組合體與第二樞轉組合體其 中之一相樞接的第五插轉级合體。 1〇.依據申請專利範圍第9項所述的薄片式空氣擾流發電系 統’其中’該一外連桿單元的第-樞轉組合體各具有一 個固接在該第-薄片單元的第一薄片主體的第一框接筒 ’及:穿⑤於該第-拖接筒與該等連動桿的第一極轴, 該二第二樞接組合體各具有一 1固興該苐一樞接筒相對應 而固接在該第二薄片單元的第二薄片主體的第二樞接筒 ’及一穿設於該第二樞接筒與該等連動桿的第二插軸, 該支撐桿的第五樞轉組合體是與第__組合體相柩接 ’並具有二個相㈣地設置於該第—抱接筒二相反端的 第二樞接筒,該第一樞轉組合體的第-樞轴是延伸至穿 設於該二第三樞接筒。 U•依據中請專利範圍帛1G項所述的薄片式空氣擾流發電系 統,其中’該等内連桿單㈣第三㈣組合體各具有— 個第四極接筒、二個相間隔地設置於該第四植接筒二相 反端的第五樞接筒,該等連動桿是分別被失設於該第四 、第五樞接筒之間,該第三樞轉組合體還具有一穿設於 該第四、該二第五拖接筒及該二連動桿的第三極轴,及 該第四樞接筒是與二相鄰的其中一個第一薄片主體相固 接,該二第五樞接筒則與另—個第—薄片主體相固接。 12.依據申請專利範圍第U項所述的薄片式空氣擾流發電系 23 201118248 統,其中,該等内連桿單元的第四樞轉組合體各具有一 個第六樞接筒、二個相間隔地設置於該第六樞接筒二相 反端的第七樞接筒,該等連動桿是分別被夾設於該第六 、第七樞接筒之間,該第四樞轉組合體還具有一穿設於 該第六、該二第七樞接筒及該二連動桿的第四樞軸,及 該第六㈣筒是與二相鄰的其中一個第二薄片主體相固 接’該二第七樞接筒則與另一個第二薄片主體相固接。 13.依射請專利範圍第1項所述的薄片式空氣擾流發電系 統,還包含一個與該蓄電單元電連接的負載。 1 4·依據申請專利範圍第1項 項所述的薄片式空氣擾流發電系 統’包含多數個分別與該 ,、吻寻發電機構的感應線圈模組相 對應電連接的蓄電單元。 1 5.依據申請專利嚴圍箆丨4 項所述的薄片式空氣擾流發電系 統,該等蓄電單天久 早兀各包括一個與該感應線圈模組電連接 的整流模組,及一個鱼分& 個興遠整流模組電連接的電能儲存模 16. 依據申請專利範圍第1 項所述的薄片式空氣擾流發電系 統,該等發電機構的第二薄片主體、該二外連桿 早兀及該等内連桿單元都是由㈣製成。 17. 依據申請專利範圍第1 . 、所述的薄片式空氣擾流發電系 統,該4發電機構的第〜 ▲ 斗& 、第二薄片主體、該二外連桿 早兀及该等内連桿單元 u、 都是由鋁所製成。 8*種溥片式空氣擾流發電彡& L w电系統,包含: 二個外連桿單元,是〇 &王相間隔設置; 24 201118248 一個發電機構,是分別樞設在該二外連桿單元之間 ,包括相對應设置並能相靠近與相遠離的一第一薄片單 元及一第二薄片單元,該第一薄片單元具有一第一薄片 主體,及一 δ史置於該第一薄片主體的感應線圈模組,該 第二薄片單元具有一與該第—薄片主體相平行的第二薄 片主體,及一設置於該第二薄片主體的磁力模組;及 一個蓄電單元,是與該發電機構的感應線圈模組相 對應電連接。 依據申請專利範圍第18項所述的薄片式空氣擾流發電系 統,還包含一個設置在該發電機構的第一、第二薄片主 體之間的限位塊,該限位塊是設置在相對應該第一、第 二薄片主體的其中一方上,以限制該第一、第二薄片單 元相碰抵。 2〇.依據中請專利範圍第19項所述的薄片式空氣擾流發電系 統,其中’該二外連桿單元分別與該發電機構的第_、 第一薄片主體相配合形成平行四邊形的樞接結構。 &依據中請專㈣圍第20項所述㈣片u氣擾流發電系 、先/、中1¾蓄電單元包括一個與該感應線圈模組電連 接的整流模纟m與該整流餘電連接的電能儲存 模組。 △依據中請專利範圍第20項所述的薄片式空氣擾流發電系 統’其中,還包含一個與該蓄電單元電連接的負載。 23.—種薄片式空氣擾流發電系統,包含: 一個支撐桿; 25 201118248 個發電機構,是樞設於該支撐 薄片單元,呀哲_ 于並包括一第三 一連r组人二薄片單元具有一樞接於該支撐桿的第 于d體、一與該第一連桿組合體 桿組合體、分別樞接在該第一、第_、表仏的第二連 迆夕門廿么 丧隹β弟 第一連桿組合體二相反 端之間並會彳目對該:連桿組合體 離的一咸座始 切句相罪近與相遠 離的感應綠圈模組及一磁力模組;及 疋 -個畜電單元,是與該發電機構 感應線圈模組電連接。 弗一溥片早7〇的 24·依據申請專利笳圍楚,。κ 統,装φ 第項所述的薄片式空氣擾流發電系 、·、中’该發電機構還包括一個與該 二 框接的第四薄片單元,該第四薄單元具… 連桿組合體相間隔 、 固〃、該第一 一、第合體、分㈣接在該第 一第二連桿組合體二相反端之間並隨兮_ ^曰&人础 的擺動而相靠近盘 μ 一連柃組合體 組。 一相遠離的一感應線圈模組及一磁力模 依據申請專利範圍第24 ^ , . 所这的,專片式空氣擾流發電系 :其中’該發電機構還包括一個 拖接的第五薄片單元 弟四厚片早几相 遠;Ρέ日人Μ 第五溥早兀具有一個與該第三 連柃組合體相間隔的第 二、皆± 逑杯組合體 '分別樞接在該第 一 弟四連桿組合體二相反诚夕„ * & ^ 反為之間並隨該二連桿組合體 =擺動而相存近與相遠離的—感應線圈模組及一磁力模 26.依據申請專利範圍第2 % 項所述的薄片式空氣擾流發電系 統其中’該蓄電單元包括一個分別與該第三、第四、 26 201118248 第五薄片單元的感應線圈模組電連接的整流模組,及一 個與該整流模組電連接的電能儲存模組。 27. 依據申凊專利範圍第23項所述的薄片式空氣擾流發電系 統,還包含一個設置在該發電機構的第三薄片單元的限 位塊’該限位塊是位在該感應線圈模組與磁力模組之間 ’且疋°又置在5亥感應線圈換組與該磁力模組的其中一方 上,以限制該感應線圈模組、該磁力模組相碰抵。 28. 依據申請專利範圍第23項所述的薄片式空氣擾流發電系 統,其中,該第三薄片單元的第一、第二連桿組合體與 該感應線圈模組、該磁力模組相配合形成平行四邊形的 框接結構。 29. 依據申請專利範圍第23項所述的薄片式空氣擾流發電系 統’其中,還包含一個與該蓄電單元電連接的負載。201118248 VII. Patent application scope: 1. A thin-film air spoiler power generation system, comprising: two outer link units arranged at intervals; a plurality of inner link units are arranged at intervals in the two outer links Between the rod units; a plurality of power generating mechanisms are respectively pivoted between the two outer link units and the inner link units respectively - each of which includes a first sheet unit that is disposed adjacent to and away from and away from a second sheet unit having a first sheet body and a group of induction coils wound around an inner plane of the first sheet body and embedded in the first sheet body. The two sheet unit has a second sheet body which is the same width and parallel to the first sheet main body, and a front and rear direction which is disposed on the second sheet main body and which is perpendicular to the inner plane of the second sheet main body a magnetic module forming a magnetic field; and at least one of the power storage units 'electrically connected to the induction coil modules of the power generating mechanisms. 2. According to the above-mentioned sheet type air spoiler power generation system, the It-external link unit includes a first twist assembly, and a first pivot assembly. a spaced apart second pivoting assembly, and a plurality of interlocking bars pivotally spaced between the second (four) combination. 3. According to the towel (3), the sheet air turbulence power generation system according to item 2, the first / middle 13⁄4 inner connecting rod unit respectively includes a first pivoting assembly with the outer connecting rod unit. a third pivoting assembly on the same side, a fourth pivoting member on the same side as the combination of 21 201118248 and the third pivoting assembly, and a fourth pivot of the second pivoting jaw of the outer connecting rod unit The 辕 is pivotally connected to the third 'fourth' ′′, and the interlocking rods of the plurality of spaced apart inner connecting rod units are of equal length design. According to the scope of patent application No. 3, in the basin, the 兮(4) item is related to the sheet-type air turbulence power generation system, and the internal gas is 荨 - - u ± The (four) poles of the early 70th are respectively connected to the active structures. 5. The body phase cooperates to form a parallelogram. 5. According to the patent application scope 4,, φ ^ the sheet-type air spoiler power generation system of the item, wherein the first two outer link units of the power generation mechanism are the first The handles are pivotally connected between the second pivot assembly and the second pivot assembly of the inner link units. 6 · According to the scope of application for patent sm, the thin-film air turbulence power generation system described in the social term, the first 'eighth middle, the power generation mechanism 哕 外 外 外 外 外 外 外 外 外 外 外 兀 兀 兀 兀And a second gamma rotation of the outer raft, and between the mouth body and the fourth pivoting assembly of the inner link units. 7. According to the scope of the patent application No. 6 + & -, the sputum air turbulence power generation system "·" also includes a plurality of first and second sheet bodies respectively disposed in the power generating mechanisms Between the limit blocks, which are respectively disposed on one of the first and second first main bodies of the first and the second, for limiting the collision between the first and second sheets 8 'According to the 7th box of Shen Qing patent scope, +, the slap-type air turbulence power generation system described in 1. ^ ^ also contains a support connected to its __ outer link unit frame Rod 22 201118248 9. According to the patented scope item 8 of the βi listener's slap-type air spoiler power generation system, wherein, the branch pole includes a pole main body, and one is disposed on the pole body And a fifth plug-in stage that is pivotally connected to one of the first pivoting group and the second pivoting assembly. The sheet type according to claim 9 Air spoiler power generation system 'where' the first pivot assembly of the outer link unit Each of the first frame barrels having a first sheet body fixed to the first sheet unit and the first pole shaft of the first tow barrel and the linkage rods Each of the joint assemblies has a first pivoting cylinder corresponding to the first pivoting cylinder and is fixed to the second foil body of the second foil unit, and a second pivoting cylinder is disposed through the second pivoting cylinder a second plunging shaft of the connecting rod, the fifth pivoting assembly of the supporting rod is coupled to the __combined body and has two phases (four) disposed at opposite ends of the first splicing cylinder a pivoting cylinder, the first pivot of the first pivoting assembly extends to the second pivoting cylinder. U. According to the patent scope 帛1G, the sheet air turbulence power generation a system, wherein 'the inner link single (four) third (four) assemblies each have a fourth pole barrel and two fifth pivot barrels spaced apart from each other at opposite ends of the fourth planting barrel, such The linkage rods are respectively disposed between the fourth and fifth pivoting cylinders, and the third pivoting assembly further has a fourth and second The fifth dragging cylinder and the third pole shaft of the two linkage rods, and the fourth pivoting cylinder are fixed to one of the two adjacent first sheet main bodies, and the two fifth pivoting cylinders are connected to the other The sheet-shaped air spoiler power generation system according to claim U, wherein the fourth pivoting assembly of the inner link units each has a a sixth pivoting cylinder, two seventh pivoting cylinders disposed at opposite ends of the sixth pivoting cylinder, and the linkage rods are respectively sandwiched between the sixth and seventh pivoting cylinders. The fourth pivoting assembly further has a fourth pivot shaft extending through the sixth and second seventh pivoting cylinders and the two linkage rods, and the sixth (four) cylinder is one of the two adjacent to the second The two sheets of the main body are fixed to each other. The two seventh pivoting cylinders are fixed to the other second sheet main body. 13. The sheet type air turbulence power generation system according to the first aspect of the invention, further comprising a load electrically connected to the power storage unit. The sheet-type air spoiler power generation system according to the first aspect of the patent application includes a plurality of power storage units respectively electrically connected to the induction coil modules of the kiss generator mechanism. 1 5. According to the thin-film air spoiler power generation system described in the application for patents, the power storage system includes a rectifying module electrically connected to the induction coil module and a fish branch. & a power storage module electrically connected to the Xingyuan rectifier module. The sheet type air spoiler power generation system according to claim 1, wherein the second sheet body of the power generation mechanism and the two outer links are early Both the inner link units and the inner link units are made of (4). 17. The sheet air turbulence power generation system according to claim 1, wherein the first power generating mechanism has a first ▲ bucket & a second sheet body; the second outer link is early and the interconnect The rod units u are all made of aluminum. 8* type slab air spoiler 彡 & L w electric system, including: two outer link units, which are 〇 & king phase interval; 24 201118248 A power generation mechanism, which is respectively pivoted on the two Between the link units, including a first sheet unit and a second sheet unit which are disposed adjacent to each other and are away from each other, the first sheet unit has a first sheet body, and a δ history is placed on the first sheet unit An inductive coil module of a sheet main body, the second sheet unit having a second sheet main body parallel to the first sheet main body, and a magnetic module disposed on the second sheet main body; and an electric storage unit Corresponding to the induction coil module of the power generation mechanism is electrically connected. The sheet air turbulence power generation system according to claim 18, further comprising a limiting block disposed between the first and second sheet bodies of the power generating mechanism, the limiting block being disposed correspondingly One of the first and second sheet main bodies restricts the first and second sheet units from colliding. The sheet type air spoiler power generation system according to claim 19, wherein the two outer link units respectively cooperate with the first and first sheet main bodies of the power generating mechanism to form a parallelogram pivot Connected structure. According to the 20th item (4), the gas-turbine power generation system, the first/, middle 13⁄4 power storage unit includes a rectifying module 电m electrically connected to the induction coil module and the rectifying residual current. Electrical energy storage module. The sheet type air spoiler power generation system according to claim 20, further comprising a load electrically connected to the power storage unit. 23. A flake-type air spoiler power generation system comprising: a support rod; 25 201118248 power generation mechanisms pivotally mounted on the support sheet unit, and a third and a third group of people The second body of the first body, the first body, and the first link body assembly body respectively pivotally connected to the first link body and the first link body Between the opposite ends of the first link assembly of the 隹β brother, it will be noticed: the sin of the connecting rod assembly is close to and away from the sensing green circle module and a magnetic module. ; and 疋 - a livestock unit, is electrically connected to the induction coil module of the power generation mechanism. Fu Yi's film is 7 years old. κ 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The phase spacing, the solid body, the first one, the first body, and the minute (four) are connected between the opposite ends of the first second link assembly body and are adjacent to the disk μ with the swing of the 兮 曰 曰 amp柃 combination group. An inductive coil module and a magnetic mold that are far away from each other are in accordance with the patent application scope 24^, the special air-type spoiler power generation system: wherein the power generating mechanism further includes a towed fifth sheet unit The four thick tablets are a few far apart; the next day, the fifth 溥 兀 has a second, ± cup combination separated from the third 柃 柃 ' 枢 枢 枢 枢The connecting rod assembly 2 is opposite to the original „ * & ^ inversely and with the two-link assembly = swing and the phase is close and distant - the induction coil module and a magnetic mold 26. According to the patent application scope The sheet type air spoiler power generation system according to Item 2, wherein the power storage unit includes a rectifying module electrically connected to the induction coil modules of the third, fourth, and 26201118248 fifth sheet units, respectively, and a An electric energy storage module electrically connected to the rectifying module. 27. The sheet air turbulence power generating system according to claim 23, further comprising a limit of a third sheet unit disposed in the power generating mechanism Block 'the limit block The device is disposed between the induction coil module and the magnetic module and is disposed on one of the 5-inch induction coils and the magnetic module to limit the induction coil module and the magnetic module. The sheet type air spoiler power generation system according to claim 23, wherein the first and second link assemblies of the third sheet unit and the induction coil module, the magnetic mold The splicing structure of the parallelepiped is formed by the combination of the slabs of the slabs of the slabs. 2727
TW098139909A 2009-11-24 2009-11-24 Thin boards type of wind power generating system TWI482906B (en)

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