TWM399592U - Wind power generation device of electronic equipment - Google Patents

Wind power generation device of electronic equipment Download PDF

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Publication number
TWM399592U
TWM399592U TW99219359U TW99219359U TWM399592U TW M399592 U TWM399592 U TW M399592U TW 99219359 U TW99219359 U TW 99219359U TW 99219359 U TW99219359 U TW 99219359U TW M399592 U TWM399592 U TW M399592U
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Taiwan
Prior art keywords
power generation
wind power
fan
electronic equipment
module
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TW99219359U
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Chinese (zh)
Inventor
jian-yan Lv
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Asia Vital Components Co Ltd
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Priority to TW99219359U priority Critical patent/TWM399592U/en
Publication of TWM399592U publication Critical patent/TWM399592U/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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Description

M399592 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電子設備風力發電裝置,尤其特別 種藉由-散熱模組、風力發賴組及減模組的結合 …十得有效將該散熱模組之第—縣排出的流體善加利 用或回收,哺換成可使職源(如m應給接收模組 使用或儲存起來,進而有效達到節魏源效果之電子設備 風力發電裝置。 【先前技術】 ▲隨著科技的進步,人們對於各種電子設備的依賴性亦 隨之增加;_,在運作時f子產品(如電腦、筆記型電腦) 内4的7L件會產生高熱量’倘若無法及時將熱量導出電子 產品外,則容易產生過熱的問題,因此一般電子產品常用 的散熱方式有二種方式,讓t子產品能夠維持在—定的操 作範圍下運作; Μ 第一種方式是在電子產品(如電腦機殼)内裝設一風 扇’用以透過前述風扇將其内部產生的廢熱排出至外界, ^達到政熱’第二種方式通常是在—發S元件(如中央處理 器)上加裝一散熱模組,以便將中央處理器在運行過程中產 4生的熱量散發料’該散熱模組主要由—風扇及一散熱器 、’且成,其中風扇鎖在散熱ϋ上,散熱II置於中央處理器上, ^而中央處理器工作時產生的熱量…方面從散熱器散 ’另一方面風顧轉產生的風吹向散熱H,以持續從散 3 熱=走熱量’避免中央處職過熱而降低王作效率。 ,而1知之風赫是引導流騎發熱元件強制散 ;二:1_出去外界,可是卻無法對風扇所 體轉換;彻或回收,例如無法利用前述排出的流 用,以節省=的電能,來供給其他電子元件或風扇使 克服ΙΐΓ 因此’這侧題仍是目前料—直無法 …。以上所述’習知技術中具有下列之缺點: .無法節省能源; 2.無法對風勒㈤的《善加觀或回收。 之副^ ’要如何解決上述制之問職缺失,即為本案 心人與從事此行業之_猶所亟欲研究改善之方向 所在者。 【新型内容】 f此’為有效解決上述之問題,本創作之主要目的在 人二種藉由一散熱模組、風力發電模組及接收模組的結 ° °又°十’以有效制節省能源的電子設備風力發電裝置。 =作之次要目的在提供一種具有善加利用細收該 ^風扇排出的流體,以轉換成可使用能源(如電源)供應 、。收模組制或儲存起來的電子設倾力發钱置。” 為達上述目的,本創作係提出一種電子設備風力發電 义置’該電子設觀力發钱置包括:至少 散熱模吨含-散締具錢數賴剌, =该散熱器的-侧;一風力發電模組對接該散熱器的另 貝,’且相對該第—風扇,以藉由該第—風扇排出的 M399592 推動2運轉發電產生—電源訊號;至少-無模組係電性 連接刖述風力發電模組,且其用以接收前述電源訊號,亦 此藉由本創作之散熱模組、風力發賴組及接收模組的結 合設計’使得㈣第—風扇排出的越善加_或回收, α H (如電源)縣電源給接㈣組使用或 儲存起來’更進而有魏制節省能狀效果者。 本創作另提出-種電子設備風力發電裝置,其包括至 夕一政熱模組'一風力發電模組及至少一接收模組,其中 該散熱模組包含-散熱H,該散熱器具有複數散熱韓片, -第-風扇對接該散熱||的—側,而前述風力發電模組係 包含-風力機組及-發電機组,該風力機組係連接該發電 機組’並相對該散熱器的另—側,以藉由前述第一風扇排 出的流體推動而運轉發電產生-電源訊號,前述接收模組 2性連接該發賴組’並且用轉收前述電源訊號,所以 藉由本創作之散賴組、風力發電模組及接賴組的結合 設計’得有效將第-風騎出的流體善加彻或回收,以 轉換成可使概源(如電源)供應電祕触使用或儲 存起來,進而有效達到節省能源之效果者。 【實施方式】 本創作之上述目的及其結構與功能上的特性,將依據 所附圖式之較佳實施例予以說明。 請一併參閱第卜3、4圖所示,本創作係一種電子設 備風力發钱置’在本創作之第—較佳實施财,係包括 至少-散熱模組卜-風力發電模組2及至少—接收模組 5 M399592 3,其中該散熱模組1包含一散熱器10,該散熱器ι〇具有 複數散熱鳍片101 ’ 一第一風扇11對接該散熱器10的— 侧’而則述風力發電模組2對接該散熱器1〇的另一侧,且 相對5亥第一風扇11,換§之,就是前述第一風扇11及風 力發電模組2分別固設在該散熱器1〇之散熱鳍片ι〇1兩 側,並前述散熱器10恰位於該第一風扇U與風力發電模 組2之間,以使該風力發電模組2藉由該第一風扇丨丨排出 的流體推動而運轉發電產生一電源訊號。 前述接收模組3係電性連接該風力發電模組2,並且 於本較佳實施例該接收模組3係可為以下三種模式: 第一種模式是前述接收模組3係為一第二風扇31,該 第二風扇31係利用接收由該風力發電模組2傳輸的前述電 源訊號,以驅使運轉,即前述風力發電模組2受到該第一 風扇11排出的流體推動後而轉動,並同時在轉動中使其内 部感應激磁發電產生前述電源訊號,贿前述第二風扇31 利用接收電軌號驅使運轉,因此,使得能減輕所述電子 設備在電源供紅額外的負擔,進而纽達卿省能源之 效果者(如參閱第2A圖)。 第二種模式是該接收模組3係為-電子組件32,如光 碟機或電腦週邊電子零件.··等,該電子組件32儀接收由 =風力發電模組2傳輸的前述電源訊號,以驅使運作,即 前述風力發電模組2受_第—風们丨排出的流體推紐 而轉動。朗時在轉動巾使其内戰驗磁發電產生前述 電源訊號,傳輪給該電子組件32跡財效達到節省能 源之效果者(如參閱第2B圖)。 ▲第三種模式是該接收模組3係為-電力儲存單元33, 遠電力儲存單元33具有一充電電路331及一蓄電器咖, 該充電電路331電性連接蓄電器332,並用於儲存接收前 ,風力發賴組2傳輸的前述電源_,即前述電力儲存 單=33接收由雜力發電模組2傳輸的電源訊號後,並經 由该充電電路331將前述電源訊號之電能儲存至該蓄電器 332内’用以供給其他電子元件使用或亦可當作備用電源 使用(如參閱第2C、2D圖)。 此外’本創作之前述接收模組3並不舰於上述三種 模式’惟本創作實際實施時,凡需由電能(或電源)驅動的 裝置或元件皆為此所稱的接收模組3,合先陳明。 請復參閱第3、4圖所示,前述風力發電模組2包含一 扇輪21及-框體235,該扇輪21具有一輪穀如、一磁鐵 件232、一線圈組233及一整流電路板234,該線圈組2犯 耗接整流電路板234,且與前述磁鐵件232 一起容置在輪 車又231内,前述輪轂231環設有複數葉片2311,並容設於 該框體235内,以構成所述的風力發電模組2。 此外,前述風力發電模組2與接收模組3間設有一訊 號傳輪線4,遠说號傳輸線4的一端電連接該整流電路板 234 ’其另-端電連接該接收模組3,用於傳輸前述電源訊 號。 所以當前述第一風扇11排出的流體帶動前述輪轂231 其上葉片2311轉動時,令前述磁鐵件232會隨著該輪轂 MJ99592 Γ詩起轉動’且同時與該線圈組233相互感應激磁產生 =賴,並經由該整流電路板234將接收到的前述感應 」整流後轉換成直流電壓(即為前述電源訊號),再透^ 别述峨傳輸線4將前述直流龍傳輸給前賴收模組 使用,因此,俾使有效達觸魏源之效果者。 叫參閱第5、6、7Α圖所示,係本創作之第二較佳實施 例與則述第-較佳實細大致崩,其差異處在於:前述風 力發電模組2包含—風力機組24及-發電機組22,該風 力機、、且24係連接發電機組22,並相對該散熱$ 1〇的另一 側以藉由该第-風扇11排出的流體推動而運轉發電產生 電源訊號。 剞述風力機組24具有一扇葉組241及一傳動軸桿 242 ’ s亥傳動軸桿242 —端係插接該扇葉組241,其另一端 則組接該發電機組22 ;前述發電機組22包含一輪轂231、 磁鐵件232、一線圈組233、一整流電路板234及一框體 235,其中前述線圈組233耦接該整流電路板234,且與磁 鐵件232 —起容設在該輪轂231内,並且該框體235凸設 有一軸筒2351,其係從遠離該框體235之底部凸伸構成, 且該轴筒2351枢接輪轂231。 前述接收模組3係電性連接該發電機組22,用以接收 该發電機組22傳輸的前述電源訊號,並且於本較佳實施例 °亥接收模組3的模式係與前一較佳實施例相同,在此不另 外贅述。 所以當前述第一風扇11排出的流體流向相對前述扇 M399592 葉組24】之複數葉片,以令前述葉片轉動時,使該傳動軸 桿242隨著該扇葉組241轉動並同時帶動連接的前述發電 機組22之輪轂231,而該輪轂231其内的磁鐵件2犯^會 一起跟著轉動’且同一時間與該賴組233相互感應激磁 產生感應電壓’並經由該整流電路板234將接收到的前述 感應電壓整流後轉換成直流電壓(即為前述電源訊號/再 透獅述訊號傳輸線4將前述錢祕傳輸給前述接收模 組3使用,因此’俾使有效達到節魏源之效果者。、 請參閱5、6、7B圖所示,係本創作之第三較佳實施例 係與前述第二較實施例大致相同,其差異處在於:前述風力 機組24更具有-傳動組件243及一連動桿2料,該連動桿 244 —端組接該發電機組22之輪轂231,其另一 該傳動組件243的-端’並且前述傳動軸桿⑽的二端係 插接該扇葉組24卜其另一端則固接該傳動組件243的另 一端。 前述傳動組件243係選擇為-齒輪、—皮帶、—鍵條 及傳動轴其中任一 ’於本較佳實施例,該傳動組件挪 係以二個齒輪2431a、2431b做說明’其中第—個齒輪2術 係與第二齒輪2431b彼此相對緊密喫合,並前述第—個齒 輪2431a相對輪轂231的端面係與該連動桿244另一端相 固接,前述第二個齒輪2431b相對該扇葉組241的端面則 與該傳動軸桿242另一端連接。 因此,藉由本創作之前述散熱模組丨、風力發電模組2 及接收模纟'a 3的結合設計,俾魏㈣-風扇11排出的流 9 M399592 體善加利用或回收,以供應電源給接收模組3使用或儲存 起來,更進而有效能達到節省能源之效果者。 以上所述,本創作係一種電子設備風力發電裝置,其具有 下列之優點: 1. 具有節省能源之效果; 2. 具有善加利用或回收該第一風扇排出的流體,以轉換成 可使用能源(如電源)之效果。 惟以上所述者,僅係本創作之較佳可行之實施例而 已,舉凡_本創作上述之方法、形狀、構造、裝置所為 之變化,皆應包含於本案之權利範圍内。 【圖式簡單說明】 第1圖係本創作之第一較佳實施例之方塊圖; 第2A圖係本創作之第—較佳實施例之第—種模式方塊圖 第2B圖係糊作之較佳實_之第二賴式方塊圖 第2C圖係糊叙第—難實關之第三麵式方 第2D圖係本創作之第一較佳實施例之第三麵式另—方 塊圖, 第3圖係本創作之第一較佳實施例之分解示意圖 第4圖係本創作之第―較佳實施例之組合示意圖 第5圖係本創作之第二、三較佳實施例之方塊圖 第6圖係本崎<第二、三較佳實施例之示意圖, 第7A圖係袖作之第二較佳實施例之發賴組分解示音 M399592 第7B圖係本創作之第三較佳實施例之發電機組分解示意 圖。M399592 V. New description: [New technical field] This is a kind of electronic equipment wind power generation device, especially the combination of heat dissipation module, wind power generation group and reduction module. The fluid discharged from the first to the county of the heat-dissipation module is used or recycled, and is fed into a source of power (such as m should be used or stored by the receiving module, thereby effectively achieving the power generation of the electronic equipment of the Weiyuan effect. Prior Art] ▲ With the advancement of technology, people's dependence on various electronic devices has also increased; _, in the operation of f sub-products (such as computers, notebook computers), 7L of 4 will produce high heat. If the heat cannot be exported to the electronic product in time, it will easily cause overheating. Therefore, there are two ways to dissipate the heat commonly used in electronic products, so that the t subproduct can be operated under the specified operating range; Μ The first way is In the electronic product (such as a computer case), a fan is installed to discharge the waste heat generated inside the electronic product to the outside through the fan. One way is usually to install a heat-dissipating module on the S-component (such as the central processing unit), so as to dissipate the heat generated by the central processing unit during the operation. The cooling module is mainly composed of a fan and a heat sink. , and the fan is locked on the heat sink, the heat sink II is placed on the central processor, and the heat generated by the central processor is working from the heat sink. Heat dissipation H, to continue to dissipate 3 heat = heat away 'to avoid the overheating of the central office and reduce the efficiency of Wang Zuo., and 1 knows that the wind is to guide the flow of riding heat elements forced to disperse; 2: 1_ go out to the outside world, but can not The fan body is converted; it is recycled or recycled, for example, the above-mentioned discharged flow cannot be used to save = electric energy to supply other electronic components or fans to overcome the problem. Therefore, the problem is still the current material. 'There are the following shortcomings in the prior art: . Can't save energy; 2. Can't make a good look at or recycle the wind (5). How to solve the lack of service in the above system, that is, the case of the case Engaged In this industry, the company is eager to study the direction of improvement. [New content] f This is to effectively solve the above problems. The main purpose of this creation is to use a cooling module, a wind power module and The receiving module has a temperature of ° ° ° ° ° to effectively save energy in the electronic equipment wind power generation device. = The secondary purpose is to provide a kind of fluid with good use of the fan discharge to convert into usable The supply of energy (such as power supply), the electronic system of the module system or the storage device is set up for money. In order to achieve the above objectives, the author proposes an electronic device for wind power generation. Including: at least the heat-dissipating die contains - the amount of money is scattered, = the side of the radiator; a wind power module docks the other side of the radiator, 'and relative to the first fan, by the first - The M399592 from the fan is driven to generate 2 power generation signals - the power signal; at least - the module is not connected to the wind power module, and is used to receive the power signal, and the heat module and the wind are also created by the present invention. Failing group And the combination design of the receiving module enables the (four) first fan to be discharged more efficiently or recycled, and the α H (such as the power source) county power supply (4) group is used or stored, and further has the effect of saving energy. The present invention further proposes an electronic device wind power generation device, which comprises a wind power generation module and a at least one receiving module, wherein the heat dissipation module includes a heat dissipation H, and the heat sink has a plurality of heat dissipation The Korean film, the first fan is connected to the side of the heat dissipation||, and the wind power generation module includes a wind power unit and a generator set, and the wind power unit is connected to the generator set and is opposite to the heat sink. On the side, the power generating signal is generated by the fluid discharged by the first fan, and the receiving module is connected to the sending group 2 and uses the power signal to be transmitted. The combination design of the wind power module and the connected group can effectively filter or recycle the fluid from the first wind to convert it into a source (such as a power supply) for use or storage. To achieve the effect of saving energy. [Embodiment] The above object of the present invention, as well as its structural and functional features, will be described in accordance with the preferred embodiments of the drawings. Please refer to the figures in Figures 3 and 4 together. This is an electronic device for wind power payment. In the first part of this creation, the best implementation of the system includes at least the heat dissipation module-wind power module 2 and At least the receiving module 5 M399592 3, wherein the heat dissipating module 1 comprises a heat sink 10 having a plurality of heat dissipating fins 101 ′ a first fan 11 abutting the side of the heat sink 10 The wind power generation module 2 is connected to the other side of the heat sink 1 , and is opposite to the 5th first fan 11 , in other words, the first fan 11 and the wind power generation module 2 are respectively fixed to the heat sink 1〇. The heat sink fins ι〇1 are disposed on both sides, and the heat sink 10 is located between the first fan U and the wind power generation module 2, so that the wind power generation module 2 discharges the fluid through the first fan Driving and running to generate electricity generates a power signal. The receiving module 3 is electrically connected to the wind power module 2, and in the preferred embodiment, the receiving module 3 can be in the following three modes: The first mode is that the receiving module 3 is a second a fan 31 for receiving the power signal transmitted by the wind power generation module 2 to drive the operation, that is, the wind power generation module 2 is rotated by the fluid discharged by the first fan 11, and At the same time, during the rotation, the internal induction excitation power generation generates the foregoing power signal, and the second fan 31 is driven to operate by using the receiving track number, thereby making it possible to alleviate the additional burden of the electronic device on the power supply red, and then Newda Qing Energy-saving effects (see Figure 2A). The second mode is that the receiving module 3 is an electronic component 32, such as an optical disk drive or a computer peripheral electronic component. The electronic component 32 receives the power signal transmitted by the wind power generation module 2 to The operation is driven, that is, the wind power generation module 2 is rotated by the fluid push button discharged by the first wind. Langshi is rotating the towel to make the above-mentioned power signal generated by the civil war. The transmission wheel gives the electronic component 32 the energy saving effect (see Figure 2B). ▲ The third mode is that the receiving module 3 is a power storage unit 33. The remote power storage unit 33 has a charging circuit 331 and an electric storage device. The charging circuit 331 is electrically connected to the storage device 332 and is used for storing and receiving. The power source _ transmitted by the wind power generation group 2, that is, the power storage unit=33 receives the power signal transmitted by the power generation module 2, and stores the power of the power signal into the battery 332 via the charging circuit 331 'Used for other electronic components or as a backup power source (see Figures 2C, 2D). In addition, the aforementioned receiving module 3 of the present invention does not ship in the above three modes. However, in the actual implementation of the creation, any device or component that needs to be driven by electric energy (or power source) is called the receiving module 3, Chen Ming. Please refer to FIGS. 3 and 4 , the wind power generation module 2 includes a fan wheel 21 and a frame body 235 . The fan wheel 21 has a wheel valley, a magnet member 232 , a coil group 233 , and a rectifier circuit . The plate 234, the coil assembly 2 is detached from the rectifying circuit board 234, and is accommodated in the wheeled vehicle 231 together with the magnet member 232. The hub 231 is provided with a plurality of blades 2311 and is received in the frame 235. To constitute the wind power generation module 2 described. In addition, a signal transmission line 4 is disposed between the wind power generation module 2 and the receiving module 3, and one end of the remote transmission line 4 is electrically connected to the rectifier circuit board 234', and the other end is electrically connected to the receiving module 3, The transmission of the aforementioned power signal is transmitted. Therefore, when the fluid discharged by the first fan 11 drives the upper blade 2311 of the hub 231 to rotate, the magnet member 232 rotates along with the hub MJ99592 and simultaneously induces excitation with the coil assembly 233. And converting the received induction to a DC voltage (that is, the power signal) via the rectifier circuit board 234, and transmitting the DC dragon to the front-receiving module through the transmission line 4, Therefore, it is effective to reach the effect of Wei Yuan. Referring to Figures 5, 6, and 7, the second preferred embodiment of the present invention is substantially collapsed from the above-described preferred embodiment, and the difference is that the wind power generation module 2 includes a wind power unit 24 And the generator set 22, the wind turbine, and the 24 series are connected to the generator set 22, and the other side of the heat dissipation $1〇 is driven by the fluid discharged by the first fan 11 to generate power to generate a power signal. The wind turbine unit 24 has a blade group 241 and a transmission shaft 242' s drive shaft 242 - the end is inserted into the blade group 241, and the other end is connected to the generator set 22; the generator set 22 A hub 231, a magnet member 232, a coil assembly 233, a rectifier circuit board 234, and a frame 235, wherein the coil assembly 233 is coupled to the rectifier circuit board 234, and is housed in the hub together with the magnet member 232. A shaft barrel 2351 is protruded from the bottom of the frame body 235, and the shaft barrel 2351 is pivotally connected to the hub 231. The receiving module 3 is electrically connected to the generator set 22 for receiving the power signal transmitted by the generator set 22, and the mode of the receiving module 3 in the preferred embodiment is compared with the previous preferred embodiment. The same, no further details here. Therefore, when the fluid discharged from the first fan 11 flows to the plurality of blades of the fan group 399, in order to rotate the blade, the transmission shaft 242 rotates along with the blade group 241 and simultaneously drives the connection. The hub 231 of the genset 22, and the magnet member 2 in the hub 231 will rotate together 'and simultaneously induce excitation with the lands 233 to generate an induced voltage at the same time' and will be received via the rectifier circuit board 234. The induced voltage is rectified and converted into a DC voltage (that is, the aforementioned power signal/re-transmission lion signal transmission line 4 transmits the aforementioned secret to the receiving module 3, so that 'the effect is effective to achieve the effect of the Wei source. Referring to Figures 5, 6, and 7B, the third preferred embodiment of the present invention is substantially the same as the second embodiment. The difference is that the wind turbine unit 24 further has a transmission assembly 243 and a linkage rod. 2, the linkage rod 244 is assembled at the end of the hub 231 of the genset 22, the other end of the transmission assembly 243 and the two ends of the transmission shaft (10) are inserted into the blade group 24 One end is fixed to the other end of the transmission assembly 243. The transmission assembly 243 is selected as - a gear, a belt, a - a key bar and a transmission shaft. In the preferred embodiment, the transmission assembly is biased into two The gears 2431a and 2431b are described as follows: wherein the first gear 2 and the second gear 2431b are relatively close to each other, and the end surface of the first gear 2431a relative to the hub 231 is fixed to the other end of the linkage rod 244. The end surface of the second gear 2431b opposite to the blade group 241 is connected to the other end of the transmission shaft 242. Therefore, the heat dissipation module 丨, the wind power generation module 2 and the receiving module 'a 3 of the present invention are used. Combined with the design, the flow (9)-fan 11 discharged stream 9 M399592 is used or recycled to supply power to the receiving module 3 for use or storage, and more effectively achieve energy-saving effects. Creation is an electronic equipment wind power generation device, which has the following advantages: 1. It has the effect of saving energy; 2. It has the advantage of utilizing or recycling the fluid discharged by the first fan to be converted into The effect of energy (such as power supply). However, the above-mentioned examples are only preferred embodiments of the present invention. The changes in the methods, shapes, structures and devices described above should be included in the case. BRIEF DESCRIPTION OF THE DRAWINGS [Brief Description of the Drawings] Figure 1 is a block diagram of a first preferred embodiment of the present invention; Figure 2A is a second mode diagram of a first mode of the first preferred embodiment of the present invention. The second embodiment of the first preferred embodiment of the present invention is the second embodiment of the first preferred embodiment of the present invention. 4 is a schematic exploded view of the first preferred embodiment of the present invention. FIG. 4 is a schematic view of the combination of the preferred embodiment of the present invention. FIG. 5 is a second and third preferred embodiment of the present invention. Figure 6 is a block diagram of a second and third preferred embodiment of the present invention, and the seventh preferred embodiment of the second preferred embodiment is a decomposition of the sound M399592. A schematic exploded view of a generator set of a third preferred embodiment.

【主要元件符號說明】 散熱模組 … 1 風力機組 … 24 散熱器 … 10 扇葉組 … 241 散熱鳍片 … 101 傳動轴桿 … 242 第一風扇 … 11 傳動組件 … 243 風力發電模組… 2 齒輪 …2431a 、 2431b 扇輪 … 21 連動桿 … 244 發電機組 … 22 接收模組 … 3 輪穀 … 231 第二風扇 … 31 葉片 … 2311 電子組件 … 32 磁鐵件 … 232 電力儲存單元 … 33 線圈組 … 233 充電電路 … 331 整流電路板 … 234 蓄電器 … 332 框體 … 235 訊號傳輸線 • · · 4 軸筒 … 2351[Main component symbol description] Thermal module... 1 Wind turbine... 24 Radiator... 10 Fan blade... 241 Heat sink fin... 101 Drive shaft... 242 First fan... 11 Drive assembly... 243 Wind power module... 2 Gear ...2431a, 2431b Fan wheel... 21 Linkage bar... 244 Generator set... 22 Receiver module... 3 Valley of the valley... 231 Second fan... 31 Blade... 2311 Electronic components... 32 Magnets... 232 Power storage unit... 33 Coil set... 233 Charging circuit... 331 Rectifier board... 234 Battery pack... 332 Frame... 235 Signal transmission line • · · 4 shaft tube... 2351

Claims (1)

M399592 六、申請專利範圍: 1. 一種電子設備風力發電裝置,包括. 至=一散熱模組’包含-具有複數散熱鰭片之散熱器, 一第一風扇對接該散熱器的一側; -風力發賴組’其對接該散熱器的另—側,且相對該 第一風扇’以藉由該第-顯排出的流體推動而運轉發 電產生一電源訊號;及 至少一接收模組,係電性連接該風力發電模組,並接收 前述電源訊號。 2. =申請專利範圍第丨項所述之電子設備風力發電裝置, 二中舰力發電模組包含—扇輪及—框體,該扇輪具有 -輪轂、-磁鐵件、一線圈組及一整流電路板,該線圈 組_該整流電路板,且與該磁鐵件-起容置在該輪穀 内4輪她妓複數葉#,並容設_框體内。 如申:專利細第2項所述之電子設備風力發電裝置, 、中親力發電模組與該接收模組間設有—訊號傳輸 線,Ifl雜輸線連接該整流電路板及雜收模組,用 於傳輸前述電源訊號。 如申叫專利$(L圍第1項所述之電子設備風力發電裝置, 、中該接收模組係為—第二風扇並藉由前述電源訊號驅 使運轉。 5.如申料利酬第丨項所述之電子設備風力發電裝置, 中β接__為—電子組件並藉由前述電源訊號驅 使運作。 12 M399592 6·如申π專她圍第丨項所述之電子設備風力發電裝置, 其中該接收,係為—電力儲存單元,其具有一充電電 路及-蓄’該充電電路電性連接該蓄電器,並用於 儲存接收前述電源訊號。 7. -種電子設備風力發電襄置,包括: 至f 一散麵組,係包含-散熱ϋ具有複數散熱錄片, 一第一風扇對接該散熱器的一側; -風力發賴組’係包含—風力機組及—發電機組,該M399592 VI. Patent application scope: 1. An electronic equipment wind power generation device, comprising: to = a heat dissipation module comprising: a heat sink having a plurality of heat dissipation fins, a side of the first fan docking the heat sink; And the at least one receiving module is electrically connected to the first fan and is operated by the first-displayed fluid to generate power; Connecting the wind power module and receiving the power signal. 2. The application for the electronic equipment wind power generation device according to the scope of the invention, the second medium power generation module comprises a fan wheel and a frame body, the fan wheel has a hub, a magnet member, a coil group and a a rectifying circuit board, the coil unit _ the rectifying circuit board, and the magnet piece - is accommodated in the trough within 4 rounds of the plurality of leaves, and is accommodated in the _ frame. For example, the electronic equipment wind power generation device described in the second paragraph of the patent, the medium-frequency power generation module and the receiving module are provided with a signal transmission line, and the Ifl hybrid transmission line is connected to the rectifier circuit board and the hybrid module. For transmitting the aforementioned power signal. For example, the electronic device wind power generation device according to item 1 of the above-mentioned item, wherein the receiving module is a second fan, is driven by the power signal. 5. The electronic equipment wind power generation device of the present invention, wherein the β is connected to the electronic component and is driven by the power signal. 12 M399592 6·, for example, the electronic equipment wind power generation device according to the above-mentioned item The receiving device is a power storage unit having a charging circuit and a charging circuit electrically connected to the power storage device and configured to store and receive the power signal. 7. An electronic device wind power generating device, comprising: To the f-floating group, comprising: a heat sink having a plurality of heat-dissipating recording sheets, a first fan docking the side of the heat sink; the wind-fighting group comprising: a wind turbine and a generator set, 風力機ί且係連接該發電機組,並相對該散熱器的另- 側以藉由„亥第-風扇排出的流體推動而運轉發電產生 一電源訊號;及 至少一接收模組 電源訊號。 係電性連接該發電機組,並接收前述 ㈣7酬叙電子設備風力發電裝置, 其中姐力她具有—_缺― 桿-端係插接扇葉組。 fThe wind turbine is connected to the generator set, and operates to generate a power signal by driving the fluid discharged by the hood-fan from the other side of the heat sink; and at least one receiving module power signal. Sexually connected to the generator set, and receiving the aforementioned (4) 7 reciprocal electronic equipment wind power generation device, wherein the sister force she has - _ lack of rod - end system plug fan blade group. =申請專纖圍¥8項所述之電子設備風力發電 其中該風力機缺財—軸时及 , ==::組,其另-_接:二 二並且—動•的另一端則固接該傳動組二 10·如申請專利範圍第9 置’其中該傳動組件係 及一傳動軸其中任—。 項所述之電子設備風力發電裝 選擇為-齒輪、-皮帶、—鏈條 13 申。月專利範圍第8或9項所述之電子設備風力發電裝 中°亥發電機組包含一輪轂、一磁鐵件、一線圈組、 整流電路板及一框體,該賴組搞接該整流電路板, 且與》亥磁鐵件_起容設在該輪穀内,並且該框體凸設有 一軸筒樞接該輪轂。 12.如申請專姆圍第11項所述之電子設備風力發電裝 置其中該風力發電模組與該接收模組間設有一訊號傳 輸線’ 4峨傳輸線連接該整流電路板及該接收模組, 用於傳輸前述電源訊號。 如申明專利範圍第7項所述之電子設備風力發電裝 f其中雜賊_為—第二風扇並藉由前述電源訊 號驅使運轉。 14罢如申料7韻狀f子設賴力發電裝 /、中雜她喊為—電子崎並藉㈣述電源訊 唬驅使運作。 15·如申^纖_7销狀好設舰力發電裝 f,其中該接收模组係為—電力儲存單元,其具有-充 =電路及-蓄電器,該充電電路紐連接财電器並 用於儲存接收前述電源訊號。= Apply for the wind power generation of the electronic equipment described in item 8 of which the wind turbine is short of money - the axis is and the ==:: group, the other -_ is connected: the other end of the second and the second is fixed The transmission group 2 10 is as claimed in the ninth aspect of the invention, wherein the transmission component is a transmission shaft. The electronic equipment wind power generation equipment described in the item is selected as - gear, - belt, - chain 13 application. The electronic equipment wind power generation device according to the eighth or the ninth aspect of the patent includes a hub, a magnet member, a coil assembly, a rectifier circuit board and a frame, and the slab is connected to the rectifier circuit board. And the "Heel magnet piece" is provided in the wheel valley, and the frame body is convexly provided with a shaft cylinder pivotally connected to the wheel hub. 12. The application of the electronic equipment wind power generation device according to Item 11 of the specification, wherein the wind power generation module and the receiving module are provided with a signal transmission line '4峨 transmission line connecting the rectifier circuit board and the receiving module, The transmission of the aforementioned power signal is transmitted. For example, the electronic equipment wind power generation device described in claim 7 is wherein the thief _ is a second fan and is driven by the power signal. 14 罢 申 申 7 7 7 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵 韵15·If the Shen _ fiber _7 pin-shaped good ship power generation equipment f, the receiving module is a power storage unit, which has a - charge = circuit and - storage device, the charging circuit is connected to the financial device and used for storage Receiving the aforementioned power signal.
TW99219359U 2010-10-07 2010-10-07 Wind power generation device of electronic equipment TWM399592U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI832088B (en) * 2021-09-13 2024-02-11 伍隆國際有限公司 fluid device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI832088B (en) * 2021-09-13 2024-02-11 伍隆國際有限公司 fluid device

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