M406875 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電源儲存及再生的可移動裝置 之設計,特別是關於一種可攜式複合供電裝置。 【先前技術】 常見的發電方式包括核能發電、水力發電、火力發 電、風力發電、太陽能發電等。這些各式各樣的發電方 ' 式的供電設備多為諸如太陽能發電站、風力發電塔、及 ^ 諸如此類的固定設施。這類供電設備的供電會經由長距 離的線路輸送至各電力需求區域,再配送至各家各戶。 然而,這類供電設備無法隨需求而自由移動。使用 者僅能在室内享受到電力,一但走至戶外,則往往需要 另外牵出電纜方能使用到電力。若在遠離室内電源之處 ,則將難以獲得電力供應。 如此,無論是當進行登山、涉水等戶外用電時, 巡邏、警衛等長時間移動用電時,以及災後、救難等 臨時用電時,皆無法自固定設施的供電設備獲得電力 W 供應,同時亦難以僅憑著電池之類的電力儲存單元獲 ' 得足夠的電力。 再者,電池的直流供電對於一般適用市電的電器 裝置是不可行的,反之,市電的交流電源亦無法適用 於手電筒之類的採用直流電源的裝置。更者,除了直 流與交流的電源形態差異之外,不同的電器裝置所需 的電壓、電流亦有大小之別。習知的固定式供電設備 是無法滿足這些需求的。 【新型内容】 3 M406875 本創作所欲解決之技術問題 鑒於以上所述,習知供電技術有著無法供電至戶 外、無法長時間移動供電、以及無法提供臨時用電等 技術瓶頸存在。 緣此,本創作之目的即是提供一種可攜式複合供 電裝置’以解決上述技術瓶頸而隨時隨地進行電源供 應。 本創作解決問題之技術手段 本創作為解決習知技術之問題所採用之技術手段 係提供一種可攜式複合供電裝置,包括:一可攜式殼 體;—搖動發電機構,具有一設置在可攜式殼體外側 的一搖動構件,且搖動發電機構具有一發電輸出端; 一風力電源輸入連接構件,設置在可攜式殼體,供一 ,力發電機構連接;一電源控制電路,包括一輸入調 路、一監控開關電路、及一輸出控制電路,輸入 調節電路電性連接搖動發電機構的發電輪出端及風力 ,源巧入連接構件,並調節輸入電力至一直流電源形 =,監=開關電路監測輸入電力之大小而據以控制自 節電路所輸人之輸人電力的導通或切斷,輸出 =相ί路係控制調節輸入電力成為具有直流或交流電 ζ雷預定大小之電壓與電流的一輸出電力;一 雷&夕=早兀,電性連接於監控開關電路與輸出控制 -钤出、Li二以儲存輸入電力’以及釋放儲存電力; ^ w λ,電性連接輸出控制電路,供一外部電 1’輸出電力係經由輸出連接座供應至外部 更句t創,之—實施例中’可攜式複合供電裝置可 操作單元’設置在可攜式殼體,且電 r生運接電源控制電路。 4 M406875 風扇機構,設置在可收折式 設置在可收折式支架上;ϋ支Λ上’風球機構’ 輪出構件’電性連接發電單元。 „一實施例中,可攜式複 體,且電性連接輸入且言式殼 對端而調整移動位置;—^屯板另一知可相 構件的另一端;一太陽 構:置=關節 陽能發電板。 出構件’電性連接太 在本創作之一實施例中,… 更包括-市電電源輸入連接構;攜供電裝置可 體,且電性連接輸入調;;:件§又置在可攜式殼 出控制電路G性逆以電源控制電路之輸 電實施例中,輸出控制電路可包括一 鐵電=本創作之-實施财,t力儲存單元可為一鐘 本創作對照先前技術之功效 經由本創作所採用之技 =動、天災救難、登山、露營、垂從事戶 甽練、及諸如此類之場 居豕、軍事 之可攜式複合供電裝置*獲得電力供i。創作所提供 並且在本創作的實施例中,除^ 加的風力發電機構、太陽能發電機構皆是3式= 5 M406875 計,使得可攜式複合供電裝置整體可直接由人力 帶’而不需額外工具載運。 再者,藉由可攜式複合供電裝置可即時調整輪出 電力為直流或交流電源形態、以及調整至所需的電壓 及電流大小,因此能夠符合多種電器設備之用電特性^ ▲此外,可攜式複合供電裝置採用諸如風力、太陽 能之綠色能源,以及人力而發電。如此,不會產生汙 染,因而符合環保概念。並且,在運作時更隨時對這 些輸入電力進行監控,以確保使用上的安全,而 穩定且正常的供電。 ’ $ 本創作所採用的具體實施例,將藉由以下之 例及附呈圖式作進一步之說明。 【實施方式】 請參閱第1圖至第3圖。第i圖為顯示依據本 作的實施例之立體圖、第2圖為顯示依據本創作的實 ,例之另-視角的立體圖、以及第3圖為顯示依據本 創作的實施例之電路方塊圖。 如圖所示,依據本創作的實施例之一可 供電裝置100主要包括一可趙★奶辨彳 口 椹?夕加士、E二祜τ攜式嫒體卜一搖動發電機 構2、夕1電源輸入連接構件、一電源控制電路4、一 電力儲存單元5、及一輸出連接座61。 可攜式殼體1在此實施例中為一箱體,上 在此可攜式殼體1。較佳地,可攜式殼 構件U’可令使用者能夠更便於攜帶。 -搖具有設置在可攜式殼體1外側的 ^在此貫施例中為一手搖發電機構。透過搖動此搖 動構件2卜可使搖動發電機構2自發電輸出端22輸出 M406875 電力Vh,此電力Vh會被輸送至電源控制電路4。 電源輸入連接構件在此實施例中包括有一風力電 源輸入連接構件31、一太陽能電源輸入連接構件32、 及一市電電源輸入連接構件33,分別用以供風力發電 機構、太陽能發電機構、以及市電電源的連接,以將 來自這些機構及電源的電力輸送至電源控制電路4。當 然,電源輸入連接構件並不限於此,可只提供一種電 源輸入連接構件,例如,風力電源輸入連接構件。並 且,電源輸入連接構件的數量也並無限制,可為一個 或多個。 藉由搖動發電機構2以及各電源輸入連接構件的 提供,在各種環境下皆可以獲得電力。例如,在有市 電供應的場所可以透過市電電源輸入連接構件33連接 市電電源而獲得電力,而在沒有市電供應的場所可以 透過風力電源輸入連接構件31及太陽能電源輸入連接 構件32取得來自發電機構的電力。並且,在沒有上述 電力供應的情況下,更可以透過搖動發電機構2而以 人力產生電力。 由搖動發電機構2所產生的電力Vh、自風力電源 輸入連接構件31所輸入的電力Vw、自太陽能電源輸 入連接構件32所輸入的電力Vs、以及自市電電源輸入 連接構件33所輸入的電力Va,皆會輸送至電源控制電 路4。 電源控制電路4包括一輸入調節電路41、一監控 開關電路42、及一輸出控制電路43。在此實施例中, 這些電路整合至單一電路板中,以節省體積,易於容 置在可攜式殼體1,進而實現可攜帶之效果。 搖動發電機構2的發電輸出端22、風力電源輸入 連接構件31、太陽能電源輸入連接構件32、及市電電 7 M406875 源輸入連接構件33電性連接至輸入調節電路41,由輸 入調節電路41調節輸入的電力。 詳細而言,輸入調節電路41可包括有整流電路 410、整流電路411、穩壓電路412、及整流電路413。 搖動發電機構2所產生之交流電的電力V h經由整流電 路410整流為直流電源形態、自風力電源輸入連接構 件31所輸入之交流電的電力Vw經由整流電路411整 流為直流電源形態、自太陽能電源輸入連接構件32所 輸入之直流電的電力Vs經由穩壓電路412穩定及適 當、以及自市電電源輸入連接構件33所輸入之交流電 的電力Va經由整流電路411整流為直流電源形態。並 然後這些輸入電力會輸送至監控開關電路42。 監控開關電路42與輸入調節電路41電性連接。 監控開關電路42 —般被稱為看門狗(watchdog)電路, 其用以監測輸入電力Vin(電力Vh、Vw、Vs、Va)之大 小而據以控制自輸入調節電路41所輸入之輸入電力 Vin的導通或切斷。 在此實施例中,監控開關電路42包括一比較電路 421、一參考電壓電路422、及一開關電路423。在比 較電路421中,係依據參考電壓電路422所提供之參 考電壓Vref而對輸入電力Vin之大小進行比較。當輸 入電力Vin不符參考電壓Vref的基準時(輸入電力Vin 過大、過小、或其他情況),則電路會於開關電路423 斷開,以將輸入電力Vin切斷。反之,輸入電力Vin 在符合參考電壓Vref的基準下,開關電路423會保持 通路,以使輸入電力Vin導通。參考電壓Vref可依據 可攜式複合供電裝置1〇〇的耐受電壓、内部電容量、 及其他類似條件而設定。換言之,經由監控開關電路 42之監控,在内含電力足夠的情況下可自動斷電,以 8 M406875 避免電力過載及線路損傷。 要注意的是,上述各種電力Vh、Vw、Vs、Va是 可以同時或是不同時的輸送至輸入調節電路41及監控 開關電路42,亦即,輸入電力Vin可以包含單獨一個 電力Vh、Vw、Vs、Va、或是包括任二個或多個電力 的組合。另外,上述的監控開關電路42可以對輸入電 力Vin的總量進行監測、亦可以對每一個電力Vh、 Vw、Vs、Va各自進行監控。 電力儲存單元5電性連接於電源控制電路4的監 控開關電路42與輸出控制電路43之間。在此實施例 中,電力儲存單元5為一鋰鐵電池,鋰鐵電池具有電 容量大、高放電功率、可快速充電且循環壽命長、及 穩定性高等優點。電力儲存單元5用以儲存來自監控 開關電路42的輸入電力Vin,以及釋放儲存電力。較 佳地,由於電力儲存單元5具有各自獨立的輸出電路 與輸入電路,故電力的儲存及釋放可同時或是不同時 進行。 此外,電力儲存單元5更電性連接有一電容量監 控開關電路51。電容量監控開關電路51與上述監控開 關電路42相似,其監測電力儲存單元5之目前電容量 而據以控制輸入電力Vin的導通或切斷,以避免電力 儲存單元5的儲存電力超過負荷。 電力儲存單元5可釋放電力至輸出控制電路43, 以由輸出控制電路43控制調節輸入電力Vin成為具有 直流或交流電源形態以及一預定大小之電壓與電流的 一輸出電力Vout。在此實施例中,輸出控制電路43包 括一輸出控制單元431、一電壓調節電路432、以及電 性連接有一逆變器(inverter)433。電壓調節電路432可 包括有昇壓電路、降壓電路,其在輸出控制單元431 9 M406875 之控制下調節電壓的昇降。逆變哭 為使直流電源轉為交流電源輪出。nvertGr 433則作用 自輸出控制電路43的輪出雷士 _ ϊίίίί 輸出連接座6】用以供-外部電 以f二雷;ΐΐ構形。較佳地,為了通用 置的端子連接,輪出連接ί工可具 種規格的插座的插孔形狀合併而成。圖斤不般為^ ,出控制電路43除了透過輸 力之外’亦可以同時或不同時 丄 父流電的照明燈62、適用直電二n 他電器裝置。在此實施例中, 二 Ϊ接叹置在可攜式殼體卜而達到具有可攜式的效 可攜式複合供電裝置1〇〇 ρ 單元7。外部操作單元7 w匕括有—外部操作M406875 V. New Description: [New Technology Field] This creation is about the design of a mobile device for power storage and regeneration, especially for a portable hybrid power supply. [Prior Art] Common power generation methods include nuclear power generation, hydropower generation, thermal power generation, wind power generation, and solar power generation. These various types of power generation equipment are mostly fixed facilities such as solar power plants, wind power towers, and the like. The power supply of such power supply equipment is transmitted to the power demand areas via long distance lines and distributed to each household. However, such power supply devices are not free to move as needed. The user can only enjoy the power indoors, and once they go outdoors, they often need to pull out the cable to use the power. If you are away from the indoor power source, it will be difficult to obtain power supply. In this way, when outdoor power is used for mountaineering, wading, etc., when patrols, guards, etc. are used for a long period of time, and when temporary power is used after disasters or rescues, power supply to the power supply equipment of the fixed facility cannot be obtained. At the same time, it is difficult to obtain enough power from a power storage unit such as a battery. Furthermore, the DC power supply of the battery is not feasible for electrical appliances that are generally applicable to the commercial power supply. Conversely, the AC power supply of the commercial power supply cannot be applied to a device using a DC power supply such as a flashlight. Moreover, in addition to the difference in power supply form between DC and AC, the voltage and current required by different electrical devices are also different. Conventional fixed power supply equipment cannot meet these needs. [New content] 3 M406875 Technical problems to be solved by this creative work In view of the above, the conventional power supply technology has technical bottlenecks such as the inability to supply power to the outside, the inability to move power for a long time, and the inability to provide temporary power. Therefore, the purpose of the present invention is to provide a portable composite power supply device to solve the above-mentioned technical bottleneck and supply power at any time and any place. The technical means for solving the problem in the present invention provides a portable composite power supply device for solving the problems of the prior art, comprising: a portable housing; a rocking power generating mechanism having a setting a rocking member outside the portable housing, and the rocking power generating mechanism has a power generating output end; a wind power input connecting member is disposed in the portable housing for connecting with the power generating mechanism; and a power control circuit includes a The input regulating circuit, a monitoring switch circuit, and an output control circuit are electrically connected to the output end of the power generating wheel and the wind power of the rocking power generating mechanism, and the source is connected to the connecting member, and the input power is adjusted to the DC power source shape. = The switch circuit monitors the magnitude of the input power to control the conduction or disconnection of the input power of the input from the self-segment circuit, and the output = phase circuit control adjusts the input power to a voltage having a predetermined magnitude of DC or AC power. An output power of current; a thunder & eve = early 兀, electrically connected to the monitoring switch circuit and output control - output, Li two to save Store input power 'and release stored power; ^ w λ, electrically connect the output control circuit for an external power 1' output power is supplied to the external via the output connector, which is - portable The composite power supply unit operable unit is disposed in the portable housing, and is electrically connected to the power control circuit. 4 M406875 fan mechanism, which is set on the foldable type on the foldable bracket; the upper and lower 'ball mechanism' wheel-out members' are electrically connected to the power generation unit. „In one embodiment, the portable composite body is electrically connected to the input and the opposite end of the speech shell adjusts the moving position; the other end of the 可 屯 知 ; ; ; ;; The power generation board. The electrical connection of the component is too much in one embodiment of the present invention, ... more includes - the mains power input connection structure; the power supply device can be physically connected, and the electrical connection input is adjusted; In the embodiment of the power transmission control circuit of the portable housing control circuit G, the output control circuit may include a ferroelectric=implementation-implementation, and the t-force storage unit may be a clock copy creation prior to the prior art. Efficacy is provided by the technology used in this creation, such as the movement, the natural disaster relief, the mountaineering, the camping, the squatting, and the military portable power supply device*. In the embodiment of the present invention, the wind power generation mechanism and the solar power generation mechanism are all type 3 = 5 M406875, so that the portable composite power supply device can be directly carried by the human power belt without additional tools. By The portable hybrid power supply device can instantly adjust the power of the wheel to a DC or AC power supply, and adjust to the required voltage and current, so that it can meet the electrical characteristics of various electrical devices. ▲ In addition, the portable hybrid power supply device adopts Power generation such as wind power, solar energy, and manpower. So, it does not pollute, so it is in line with the concept of environmental protection. Moreover, these input powers are monitored at any time during operation to ensure safe use, stable and normal. The power supply. '$ The specific embodiment adopted in this creation will be further explained by the following examples and accompanying drawings. [Embodiment] Please refer to Fig. 1 to Fig. 3. The i-th is the basis for display. The perspective view and the second figure of the embodiment of the present invention show a perspective view of another embodiment according to the present invention, and FIG. 3 is a circuit block diagram showing an embodiment according to the present creation. One of the embodiments of the present invention can provide a power supply device 100 mainly including a ★ ★ 奶 奶 奶 奶 夕 夕 夕 夕 夕 夕 夕 夕 夕 、 、 、 、 、 、 、 、 、 、 、 、 、 The electrical mechanism 2, the first power supply input connecting member, a power control circuit 4, a power storage unit 5, and an output connector 61. The portable housing 1 is a box in this embodiment, where Carrying case 1. Preferably, the portable case member U' can be more conveniently carried by the user. - The rocker has a hand-cranked power generation disposed outside the portable housing 1 By shaking the rocking member 2, the rocking power generating mechanism 2 can output M406875 power Vh from the power generating output terminal 22, and the power Vh is sent to the power source control circuit 4. The power input connecting member includes a wind power source in this embodiment. An input connecting member 31, a solar power input connecting member 32, and a mains power input connecting member 33 for respectively connecting the wind power generating mechanism, the solar power generating mechanism, and the commercial power source to transfer power from the mechanism and the power source To the power control circuit 4. Of course, the power input connecting member is not limited thereto, and only one power input connecting member, for example, a wind power input connecting member may be provided. Also, the number of power input connecting members is not limited and may be one or more. By providing the power generating mechanism 2 and the respective power input connecting members, power can be obtained in various environments. For example, in a place where there is a commercial power supply, the commercial power supply connection member 33 can be connected to the commercial power supply to obtain electric power, and in the place where the commercial power supply is not available, the wind power supply input connection member 31 and the solar power input connection member 32 can be used to obtain the power from the power generation mechanism. electric power. Further, in the absence of the above-described power supply, it is possible to generate power by human power by shaking the power generation mechanism 2. The electric power Vh generated by the rocking power generation mechanism 2, the electric power Vw input from the wind power source input connecting member 31, the electric power Vs input from the solar power source input connecting member 32, and the electric power Va input from the commercial electric power source input connecting member 33. , will be sent to the power control circuit 4. The power control circuit 4 includes an input adjustment circuit 41, a monitor switch circuit 42, and an output control circuit 43. In this embodiment, the circuits are integrated into a single circuit board to save space and are easily accommodated in the portable housing 1 to achieve a portable effect. The power generation output terminal 22 of the rocking power generation mechanism 2, the wind power source input connection member 31, the solar power source input connection member 32, and the mains power source 7 M406875 source input connection member 33 are electrically connected to the input adjustment circuit 41, and the input is adjusted by the input adjustment circuit 41. Electricity. In detail, the input adjustment circuit 41 may include a rectifier circuit 410, a rectifier circuit 411, a voltage stabilization circuit 412, and a rectifier circuit 413. The electric power V h of the alternating current generated by the power generating mechanism 2 is rectified into a direct current power supply via the rectifying circuit 410, and the electric power Vw input from the wind power input connecting member 31 is rectified into a direct current power supply via the rectifying circuit 411, and is input from the solar power source. The DC power Vs input from the connection member 32 is stabilized and appropriately stabilized by the voltage stabilization circuit 412, and the AC power Va input from the commercial power supply input connection member 33 is rectified into a DC power supply configuration via the rectifier circuit 411. These input powers are then delivered to the monitoring switch circuit 42. The monitoring switch circuit 42 is electrically connected to the input adjustment circuit 41. The monitor switch circuit 42 is generally referred to as a watchdog circuit for monitoring the magnitude of the input power Vin (power Vh, Vw, Vs, Va) to control the input power input from the input adjustment circuit 41. Vin is turned on or off. In this embodiment, the monitoring switch circuit 42 includes a comparison circuit 421, a reference voltage circuit 422, and a switch circuit 423. In the comparison circuit 421, the magnitude of the input power Vin is compared in accordance with the reference voltage Vref supplied from the reference voltage circuit 422. When the input power Vin does not conform to the reference of the reference voltage Vref (the input power Vin is too large, too small, or otherwise), the circuit is turned off at the switch circuit 423 to cut off the input power Vin. On the contrary, the input power Vin is maintained in the path of the reference voltage Vref, so that the input power Vin is turned on. The reference voltage Vref can be set according to the withstand voltage, internal capacitance, and the like of the portable hybrid power supply unit 1〇〇. In other words, through the monitoring of the monitoring switch circuit 42, the power can be automatically cut off when the power is sufficient, and 8 M406875 is used to avoid power overload and line damage. It should be noted that the above various powers Vh, Vw, Vs, Va can be simultaneously or not simultaneously delivered to the input adjustment circuit 41 and the monitoring switch circuit 42, that is, the input power Vin can include a single power Vh, Vw, Vs, Va, or a combination comprising any two or more of the power. Further, the above-described monitoring switch circuit 42 can monitor the total amount of the input power Vin, and can also monitor each of the electric powers Vh, Vw, Vs, Va. The power storage unit 5 is electrically connected between the monitoring switch circuit 42 of the power supply control circuit 4 and the output control circuit 43. In this embodiment, the power storage unit 5 is a lithium iron battery, which has the advantages of large capacity, high discharge power, fast charging, long cycle life, and high stability. The power storage unit 5 is for storing the input power Vin from the monitoring switch circuit 42 and releasing the stored power. Preferably, since the power storage unit 5 has independent output circuits and input circuits, the storage and release of power can be performed simultaneously or at different times. In addition, the power storage unit 5 is further electrically connected to a capacitance monitoring switch circuit 51. The capacitance monitoring switch circuit 51 is similar to the above-described monitoring switch circuit 42 in that it monitors the current capacity of the power storage unit 5 to control the conduction or disconnection of the input power Vin to prevent the stored power of the power storage unit 5 from exceeding the load. The power storage unit 5 can discharge power to the output control circuit 43 to be controlled by the output control circuit 43 to adjust the input power Vin to an output power Vout having a DC or AC power source configuration and a predetermined magnitude of voltage and current. In this embodiment, the output control circuit 43 includes an output control unit 431, a voltage regulating circuit 432, and an inverter 433 electrically connected. The voltage regulating circuit 432 can include a boost circuit, a buck circuit that regulates the rise and fall of the voltage under the control of the output control unit 431 9 M406875. Inverting crying To turn the DC power supply into an AC power supply. nvertGr 433 acts from the output control circuit 43 to the NVC _ ϊ ί ί 输出 输出 输出 用以 用以 用以 用以 用以 用以 用以 用以 用以 用以 用以 用以 。 。 。 。 。 。 。 。 外部 。 。 。 。 。 。 Preferably, for a universal terminal connection, the wheel-out connection can be formed by combining jack shapes of a socket of a specification. The figure is not the same as ^, and the control circuit 43 can be used at the same time or at different times, in addition to the transmission power, 父 the parental illuminating lamp 62, and the direct electric device. In this embodiment, the shackle is placed in the portable housing to reach the portable power supply unit 1 〇〇 ρ unit 7. External operating unit 7 w includes external operation
W 接電源控制電路4。透‘部^^:式殼體1且電性連 電源控制電路4進行人為掉呆作早兀7 ’使用者可對 Vref、決定輸出雷Λ v t作,啫如設定參考電壓 之大小、以及可源形態以及電壓與電流 啟與關閉。 s ’、電裝置1 〇〇中的電路之開 在此實施例中,外部操作置_ -照明鍵72、及-轉換鍵^早70 7具有—電源鍵71、 整體電路之開啟盥關„、鍵* 透過電源鍵71可操作 可攜弋扭躺 巧、透過照明鍵72可操作設置在 J檇式咸體1的照明燈62 硬j铞作。又置隹 操作透過輸出連接座明滅、透過轉換鍵73可 形態或交漭雷调艰& 之輸出電力Vout為直流電源 量可視情二曾加%!少另外’這些操作鍵的功能及數 M406875 參閱第4圖,其為顯示依據本創作的實施例之可 攜式風力與太陽能發電機構之示意圖。可攜式複合供 電裝置100可更包括有一可攜式風力發電機構8及一 可攜式太陽能發電機構9。 可攜式風力發電機構8包括一可收折式固定架 81、一風扇機構82、一風球機構83、一發電單元84、 及一風力發電輸出構件85。 在此實施例中,可收折式固定架81具有:一扇葉 架體811,扇葉架體811藉由其上所設置的轉樞而可向 内收折;一伸縮桿架812,其桿體長度可伸縮,以調整 風扇機構82及風球機構83所在高度;一底座813,用 以架置於地面上,並可設有鎖孔以供與地板鎖固結合。 風扇機構82與風球機構83皆設置在可收折式支 架上,可受風力帶動而轉動,此二者轉動時使發電單 元84驅動而發電,並然後經由與發電單元84電性連 接的風力發電輸出構件85將電力輸出。風力發電輸出 構件85在此實施例中為如第4圖所示般的一連接端 子,以連接風力電源輸入連接構件32,以及傳輸發電 單元84所產生的風力電力Vw至電源控制電路4。 可攜式太陽能發電機構9包括一太陽能發電板 91、一可調關節構件92、一固定構件93、及一太陽能 發電輸出構件94。 太陽能發電板91,用以接受光能而發電。可調關 節構件92的一端連接太陽能發電板91,另一端可相對 於連接有太陽能發電板91的一端調整移動位置。藉 此,太陽能發電板91的收光角度可透過可調關節構件 92進行調整。固定構件93設置在可調關節構件92的 另一端,用以固定於一物體上。太陽能發電輸出構件 94電性連接太陽能發電板91,用以連接太陽能電源輸 11 M406875 入連接構件33’以傳輸太陽能發電板91所產生的太陽 能電力V s至電源控制電路4。 因為可攜式風力發電機構8及可攜式太陽能發電 機構9具有小型化及可收折式的結構,並且二者的對 電源進行處理之電路皆統一設在電源控制電路4,減少 了發,機構的體積,故不影響在攜帶上的效果,與可 攜式殼體1同樣便於攜帶。故即使包括有可攜式風力 發電機構8及可攜式太陽能發電機構9,可攜式複合供 電裝置100整體亦具有可直接由人力攜帶,而不需額 ^ 外工具載運之效果。 由以上之實施例可知,本創作所提供之可攜式複 合供電裝置確具產業上之利用價值,故本創作業已符 合於專利之要件。惟以上之敘述僅為本創作之較佳實 施例說明,凡精於此項技藝者當可依據上述之說明而 作其它種種之改良,惟這些改變仍屬於本創作之創作 精神及以下所界定之專利範圍中。 【圖式簡單說明】 • 第1圖係顯示依據本創作的實施例之立體圖; ‘ 第2圖係顯示依據本創作的實施例之另一視角的立體 圖; 第3圖係顯示依據本創作的實施例之電路方塊圖; 第4圖係顯示依據本創作的實施例之可攜式風力與太 陽能發電機構之示意圖。 【主要元件符號說明】 100 可攜式複合供電裝置 1 可攜式殼體 11 手持構件 2 搖動發電機構 12 M406875 21 搖動構件 22 31 32 33 4 41 410 411 4 412 413 42 421 422 423 43 431 432 ^ 433 5 51 61 62 發電輸出端 風力電源輸入連接構件 太陽能電源輸入連接構件 市電電源輸入連接構件 電源控制電路 輸入調節電路 整流電路 整流電路 穩壓電路 整流電路 監控開關電路 比較電路 參考電壓電路 開關電路 輸出控制電路 輸出控制單元 電壓調節電路 逆變器 電力儲存單元 電容量監控開關電路 輸出連接座 照明燈 63 7 71 72 73 LED燈 外部操作單元 電源鍵 照明鍵 轉換鍵 13 M406875 8 可攜式風力發電機構 81 811 812 813 82 83 84 • 85 ‘ 91 92 93 94 Va Vh Vin Vout ^ Vref Vs Vw 可收折式固定架 扇葉架體 伸縮桿架 底座 風扇機構 風球機構 發電單元 風力發電輸出構件 可攜式太陽能發電機構 太陽能發電板 可調關節構件 固定構件 太陽能發電輸出構件 電力 電力 輸入電力 輸出電力 參考電壓 電力 電力 14W is connected to the power control circuit 4. Through the 'parts ^ ^: type housing 1 and electrically connected to the power control circuit 4 to make a sudden drop of 7 'users can Vref, determine the output of the lightning vt, such as setting the size of the reference voltage, and Source form and voltage and current are turned on and off. s ', the opening of the circuit in the electric device 1 在 In this embodiment, the external operation _ - the illumination key 72, and the - conversion key ^ 70 7 has - the power button 71, the opening of the overall circuit „, The key* can be operated through the power button 71, and can be operated by the illumination button 72. The illumination lamp 62 of the J-type salty body 1 can be operated and operated. The key 73 can be in the form or the 漭 调 调 & & amp amp amp amp amp amp amp amp amp amp & & & & & & & & & & & 输出 输出 输出 输出 输出 直流 直流 直流 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾 曾The portable power supply device 100 of the embodiment further includes a portable wind power generation mechanism 8 and a portable solar power generation mechanism 9. The portable wind power generation mechanism 8 includes A collapsible fixing frame 81, a fan mechanism 82, a wind ball mechanism 83, a power generating unit 84, and a wind power output member 85. In this embodiment, the foldable fixing frame 81 has: a fan Leaf frame body 811, fan frame body 811 The pivoting arm provided thereon can be folded inward; a telescopic rod frame 812, the length of the rod body can be expanded and contracted to adjust the height of the fan mechanism 82 and the wind ball mechanism 83; and a base 813 for placing on the ground And a locking hole is provided for locking with the floor. The fan mechanism 82 and the air ball mechanism 83 are all disposed on the foldable bracket, and can be rotated by the wind, and the power generating unit 84 is rotated when the two rotate. The power is generated by driving, and then the electric power is output via the wind power output member 85 electrically connected to the power generating unit 84. The wind power output member 85 is a connection terminal as shown in Fig. 4 in this embodiment to connect the wind The power input connecting member 32 and the wind power Vw generated by the power generating unit 84 are transmitted to the power control circuit 4. The portable solar power generating mechanism 9 includes a solar power generating plate 91, an adjustable joint member 92, a fixing member 93, and a solar power output member 94. The solar power board 91 is configured to receive light energy to generate electricity. One end of the adjustable joint member 92 is connected to the solar power board 91, and the other end is connected to the solar energy. One end of the power generating plate 91 adjusts the moving position. Thereby, the light collecting angle of the solar power generating plate 91 can be adjusted through the adjustable joint member 92. The fixing member 93 is disposed at the other end of the adjustable joint member 92 for fixing to an object. The solar power output member 94 is electrically connected to the solar power generating board 91 for connecting the solar power source 11 M406875 into the connecting member 33' to transmit the solar power Vs generated by the solar power board 91 to the power control circuit 4. Because of the portability The wind power generation mechanism 8 and the portable solar power generation mechanism 9 have a miniaturized and foldable structure, and the circuits for processing the power supply are uniformly disposed in the power supply control circuit 4, which reduces the volume of the hair and the mechanism. Therefore, the effect on the carrying is not affected, and the portable housing 1 is also easy to carry. Therefore, even if the portable wind power generation mechanism 8 and the portable solar power generation mechanism 9 are included, the portable composite power supply device 100 as a whole can be directly carried by a human being, without the effect of carrying an external tool. It can be seen from the above embodiments that the portable hybrid power supply device provided by the present invention has industrial utilization value, so the original operation has been in conformity with the requirements of the patent. However, the above description is only for the preferred embodiment of the present invention, and those skilled in the art may make other improvements according to the above description, but these changes still belong to the creative spirit of the creation and the following definitions. In the scope of patents. BRIEF DESCRIPTION OF THE DRAWINGS: Fig. 1 is a perspective view showing an embodiment according to the present creation; 'Fig. 2 is a perspective view showing another perspective of the embodiment according to the present creation; Fig. 3 is a view showing implementation according to the present creation Example circuit block diagram; Figure 4 is a schematic diagram showing a portable wind power and solar power generation mechanism in accordance with an embodiment of the present invention. [Main component symbol description] 100 Portable hybrid power supply device 1 Portable housing 11 Hand-held component 2 Shaking power generating mechanism 12 M406875 21 Rocking member 22 31 32 33 4 41 410 411 4 412 413 42 421 422 423 43 431 432 ^ 433 5 51 61 62 Power output output wind power input connection component solar power input connection component mains power input connection component power supply control circuit input adjustment circuit rectifier circuit rectifier circuit voltage regulator circuit rectifier circuit monitoring switch circuit comparison circuit reference voltage circuit switch circuit output control Circuit Output Control Unit Voltage Regulation Circuit Inverter Power Storage Unit Capacitance Monitoring Switch Circuit Output Connector Light 63 7 71 72 73 LED Light External Operation Unit Power Button Lighting Key Switch 13 M406875 8 Portable Wind Power 81 81 812 813 82 83 84 • 85 ' 91 92 93 94 Va Vh Vin Vout ^ Vref Vs Vw Retractable fixed frame fan frame telescopic rod base fan mechanism wind ball mechanism power generation unit wind power output component portable solar power generation Institutional solar panels can be adjusted Member fixing member for solar power generation output power means the output power reference voltage input power 14 Power Power