200935707 九、發明說明: 【發明所屬之技術領域】 特別疋關於—種可接收多 本發明係關於一種充電裝置 種光源之充電裝置。 【先前技術】 ❹ ❹ 耗電非巧柄聯絡工具,而隨著功能的增加, 增:丄:是目前所配備的跑的電池效能提 = = ,無滿足行動電話待機與通話時間的需求, 所以母貝新的行動電話時,勒兩π^ w M 叮坑必需配備充電器。除了充電 ΐ外,也有制電池供電以充電H騎動電話進行充 。或者是使用太陽能電池對行動電話進行充電,而這些 太陽能電池需在室外接收太陽光照才能進行充電,因此在 使用上非常不方便。日本特許公開2004_222225號專利案是 揭露染料敏化太陽能電池裝置在行動電話上,並利用染料 敏化太陽能電池供應電能到充電電池中,然後經過行動電 話内部的電源管理系統進行供電。 如第一圖所示,該染料敏化太陽能電池包括有一第一 電極100、一第二電極200及位於該第一電極100與該第二 電極200間包括有一奈米層300,該第一電極100包括有一 第一導電玻璃層101、一白金觸媒層102,該第一導電玻璃 層101包括一第一玻璃103與一第一透明傳導氧化物104, 使該白金觸媒層102附著在該第一透明傳導氧化物104。而 該第二電極200包括有一第二導電玻璃層201 ’該第二導電 玻璃層201包括一第二玻璃202與一第二透明傳導氧化物 2〇3 ’該奈米層300包括一光半導體之氧化物301、附著在 200935707 該光半導體之氧化物301上的多數個染料302及一電解液 303。因此,當染料敏化太陽能電池接收到光源後,由染料 分子放出電子,經由光半導體之氧化物傳送到導電玻璃, . 產生電壓源,進而能供應電流。 如第二圖所示,係為行動電話的電源管理系統示意 圖’其中該電池係包括有充電電池,而該充電電池係接受 外部電力,包括電池供電、市電供電等等。 ❹ 請參閱第三圖為傳統行動電話充電示意圖,傳統行動 電話是採用外部充電器對行動電話内部的充電電池進行充 電。 【發明内容】 本發明之主要目的是提供一種在光源的照明下,對行 動電話或電池進行充電之可接收多種光源之充電裝置。 達到上述目的之可接收多種光源之充電裝置,包含一 物體;至少一光電池,設置於該物體上,該光電池係使接 ❹ 收多種光源而產生一電壓源;一充電電路模組,係設置於 該物體内,並與該光電池連接,使該電壓源能升壓;以及 ‘ 一充電座,係設置於該物體上,並使該充電座連接該充電 - 電路模組並提供一特定待充電裝置進行充電。 該光電池為一太陽能電池。該太陽能電池包括一矽晶 太陽能電池或一薄膜太陽能電池或一有機太陽能電池。 該有機太陽能電池包括一染料敏化太陽能電池。該染 料敏化太陽能電池包括有一第一電極、一第二電極及設置 於該第一電極與該第二電極間的奈米層。該第一電極包括 有一第一導電玻璃層、一白金觸媒層,該第一導電玻璃層 200935707 包括一第一玻璃與一第一透明傳導氧化物,使該白金觸媒 層附著在該第一透明傳導氧化物,而該第二電極包括有一 第二導電玻璃層,該第二導電玻璃層包括一第二玻璃與一 第二透明傳導氧化物,該奈米層包括一光半導體之氧化 ' 物、附著在該光半導體之氧化物上的多數個染料分子及一 電解液。 該充電電路模組包括有一升壓電路,使該染料敏化太 Φ 陽能電池的電壓源升壓。 本發明更包括一接頭連接該充電電路模組。該接頭為 一 USB接頭,用以連接行動電話。或該接頭為一直流電源 充電接頭。 本發明物體之第一實施例,該物體包括有一第一板件 與一第二板件,該第一板件與該第二板件係樞接而可轉動 者,使該光電池分別設置於該第一板件與該第二板件上 者。該光電池為至少包括二個該染料敏化太陽能電池形成 電池組,該電池組包括有一第一電池與一第二電池,該第 G —電池與該第二電池間係以一第一導線連接,且該第一電 池位於該第一板件,而該第二電池位於該第二板件上者。 * 該第一板件與該第二板件的相對應側係以一樞軸樞 . 接。該第一板件的樞軸係包括有一第一套軸與一第二套 轴,該第一套軸與該第二套軸係設在該第一板件的一侧 上;該第二板件的樞軸係包括有一第三套軸與一第四套 轴,該第三套軸與該第四套軸係設在該第二板件的一侧 上,且使該第三套軸與該第四套軸分別位於該第一套軸與 該第二套轴的外侧;及該第一套軸與該第三套軸係以一第 200935707 入軸軸與該第四套軸係以-第二軸桿插 作掀開轉:動:件與該第二板件即可使用該梅轴結構而 該第係設置於該第—板件上。或該充電座設置於 該縣電裝£為電域㈣電話。 電路模組,用含―儲電元件’係連接該充電 本發明物體之第U 路模組所提供之電能。 與-錐形體,錄實施例,該物體包括有—錐形座體 塔狀,且該錐形x體二置體上以形成-金字 動者^料電齡概雜形體可轉 該錐染料敏化太陽能電池,使分佈於 % =充電座係設置於該錐形座體的平坦面上者。 子具有月物體之第三實施例,該物體係為一桌子,該桌 誃、桌板及附著於該桌板下的四支桌腳。 板上^光,池包括一染料敏化太陽能電池,使設置於該桌 。或該桌板為一染料敏化太陽能電池。 模缒,^施例進一步包含一儲電元件,係連接該充電電路 電开杜*以儲存該充電電路模組所提供之電能,並使該儲 m千連接該充電座。 【實施方式】 …、本發明將參閱含有本發明較佳實施例之所附圖式 8 200935707 予以充分描述,但在此描诚此 者之人士可修改本文中所瞭解熟悉熟習該項技術 士而士為一磨:多U下之描述對熟悉熟習該項技藝之人 ίί2 ^ ^其内容不在於限制本發明。 ,相,閱第四圖及第五圖係分別顯示本發明可接收多種200935707 IX. Description of the invention: [Technical field to which the invention pertains] In particular, the present invention relates to a charging device for a charging device. [Prior Art] ❹ ❹ Power consumption is not a smart handle contact tool, and with the increase of functions, increase: 丄: It is currently equipped with battery performance = =, does not meet the needs of mobile phone standby and talk time, so When the mother's new mobile phone, Le two π ^ w M 叮 pit must be equipped with a charger. In addition to the charging device, there is also a battery-powered charging device for charging the H-ride phone. Or, the solar cell is used to charge the mobile phone, and these solar cells need to receive sunlight from the outside to be charged, so it is very inconvenient to use. Japanese Patent Publication No. 2004_222225 discloses the use of a dye-sensitized solar cell device on a mobile phone, and supplies the electric energy to the rechargeable battery using a dye-sensitized solar cell, and then supplies power through a power management system inside the mobile phone. As shown in the first figure, the dye-sensitized solar cell includes a first electrode 100, a second electrode 200, and a nano layer 300 between the first electrode 100 and the second electrode 200. The first electrode 100 includes a first conductive glass layer 101 and a platinum catalyst layer 102. The first conductive glass layer 101 includes a first glass 103 and a first transparent conductive oxide 104, and the platinum catalyst layer 102 is attached thereto. The first transparent conductive oxide 104. The second electrode 200 includes a second conductive glass layer 201. The second conductive glass layer 201 includes a second glass 202 and a second transparent conductive oxide 2〇3. The nano layer 300 includes an optical semiconductor. The oxide 301 and a plurality of dyes 302 and an electrolyte 303 adhered to the oxide 301 of the optical semiconductor of 200935707. Therefore, when the dye-sensitized solar cell receives the light source, electrons are emitted from the dye molecules, and are transmitted to the conductive glass via the oxide of the photo-semiconductor, thereby generating a voltage source, thereby supplying current. As shown in the second figure, the power management system is a mobile phone. The battery system includes a rechargeable battery, and the rechargeable battery receives external power, including battery power, utility power, and the like. ❹ Refer to the third figure for a diagram of charging a traditional mobile phone. The traditional mobile phone uses an external charger to charge the rechargeable battery inside the mobile phone. SUMMARY OF THE INVENTION A primary object of the present invention is to provide a charging device that can receive a plurality of light sources by charging a mobile phone or a battery under illumination of a light source. A charging device capable of receiving a plurality of light sources, comprising an object; at least one photovoltaic cell disposed on the object, the photocell is configured to receive a plurality of light sources to generate a voltage source; and a charging circuit module is disposed on the The object is connected to the photocell to enable the voltage source to be boosted; and a charging stand is disposed on the object, and the charging stand is connected to the charging circuit module and provides a specific device to be charged Charge it. The photovoltaic cell is a solar cell. The solar cell comprises a twinned solar cell or a thin film solar cell or an organic solar cell. The organic solar cell includes a dye-sensitized solar cell. The dye-sensitized solar cell includes a first electrode, a second electrode, and a nano layer disposed between the first electrode and the second electrode. The first electrode includes a first conductive glass layer and a platinum catalyst layer. The first conductive glass layer 200935707 includes a first glass and a first transparent conductive oxide, and the platinum catalyst layer is attached to the first electrode. Transparent conductive oxide, and the second electrode comprises a second conductive glass layer, the second conductive glass layer comprises a second glass and a second transparent conductive oxide, and the nano layer comprises an oxidized semiconductor of the optical semiconductor a plurality of dye molecules attached to the oxide of the photo-semiconductor and an electrolyte. The charging circuit module includes a boosting circuit for boosting the voltage source of the dye sensitized Φ solar battery. The invention further includes a connector for connecting the charging circuit module. The connector is a USB connector for connecting to a mobile phone. Or the connector is a DC power supply connector. In a first embodiment of the object of the present invention, the object includes a first plate member and a second plate member, and the first plate member and the second plate member are pivotally connected to be rotatable, so that the photovoltaic cells are respectively disposed on the object The first plate and the second plate are upper. The photocell is a battery pack comprising at least two dye-sensitized solar cells, the battery pack includes a first battery and a second battery, and the G-cell and the second battery are connected by a first wire. And the first battery is located on the first plate, and the second battery is located on the second plate. * The first plate and the corresponding side of the second plate are hinged by a pivot. The pivotal system of the first plate member includes a first sleeve shaft and a second sleeve shaft, the first sleeve shaft and the second sleeve shaft are disposed on one side of the first plate member; the second plate The pivoting system of the piece includes a third set of shafts and a fourth set of shafts, the third set of shafts and the fourth set of shafts are disposed on one side of the second plate member, and the third set of shafts is coupled to The fourth set of shafts are respectively located outside the first set of shafts and the second set of shafts; and the first set of shafts and the third set of shafts are coupled to a shaft of the 200935707 and the fourth set of shafts - The second shaft is inserted into the opening and closing: the movable member and the second plate can use the plum shaft structure and the first system is disposed on the first plate member. Or the charging stand is set in the county electric equipment for the electric area (four) telephone. The circuit module is connected to the electric energy provided by the U-channel module of the object of the present invention by using a "storage element". And a cone, in the embodiment, the object comprises a cone-shaped tower shape, and the cone-shaped body is formed on the two bodies to form a gold-shaped material. The solar cells are distributed so that the % = charging pedestal is placed on the flat surface of the conical seat. The third embodiment of the moon object is a table, a table, a table top and four legs attached to the table. On the board ^ light, the pool includes a dye-sensitized solar cell that is placed at the table. Or the table is a dye-sensitized solar cell. The module further includes a power storage component connected to the charging circuit to store the electrical energy provided by the charging circuit module, and the m kilometer is connected to the charging socket. [Embodiment] The present invention will be fully described with reference to the accompanying drawings 8 200935707, which contains the preferred embodiments of the present invention, but those skilled in the art can modify the familiarity of the skilled artisan as understood herein. The singer is a grinding: the description of the multi-U is for those who are familiar with the art ίί2 ^ ^ The content is not intended to limit the invention. , phase, read fourth and fifth figures respectively show that the invention can receive a variety of
光源之充電裝置1第—實施例之立體圖及方塊圖。在此一 只把例中,本發明可接收多種光源之充電裝置丨包含一物 體2,至少一光電池3,設置於該物體2上,該光電池3係 使接收多種光源而產生一電壓源;一充電電路模組4,係設 置於該物體2内,並與該光電池3連接,使該電壓源能升 壓;以及一充電座5 ’係設置於該物體2上’並使該充電座 5連接該充電電路模組4,該充電座5並提供一特定待充電 裝置進行充電’而該待充電裝置可為一電池或一行動電話。 其中,該光電池3為一太陽能電池,而該太陽能電池 包括一矽晶太陽能電池或一薄膜太陽能電池,或一有機太 陽能電池’該有機太陽能電池包括一染料敏化太陽能電 池。而該染料敏化太陽能電池包括有一第一電極、一第二 電極及設置於該第一電極與該第二電極間的奈米層。該第 一電極包括有一第一導電玻璃層、一白金觸媒層,該第一 導電玻璃層包括一第一玻璃與一第一透明傳導氧化物,使 該白金觸媒層附著在該第一透明傳導氧化物》而該第二電 極包括有一第二導電玻璃層’該第二導電破璃層包括一第 二玻璃與一第二透明傳導氧化物。該奈米層包括一光半導 體之氧化物、附著在該光半導體之氧化物上的多數個染料 分子及一電解液。而該充電電路模組4包括有一升壓電路, 使該染料敏化太陽能電池的電壓源升壓。 9 200935707 請參閱第六圖及第七圖係分別顯示本發明可接收 光,之充電裝置6第二實施例之立體圖及方塊圖。在此一 實施例中’本發明可接收多種光源之充電裝置6包含一物 體 至夕光電池3,設置於該物體2上,該光電池3係 使接收多種光源而產生—電壓源;—充電電路模組4,係設 ’ f於該㈣2内’並與該光電池3連接’使該電壓源能升 壓,一充電座5,係設置於該物體2上,並使該充電座5連 ❹ 接該充電電路模組4’該充電座5並提供—特定待充電裝置 進行充電,而該待充電裝置可為一電池或一行動電話;以 及一接頭7連接該充電電路模組4,其中,該接頭7為一 USB接頭或為一直流電源充電接頭,為供行動電話充電使 用0 請參閱第八圖與第九圖係分別顯示本發明可接收多種 光源之充電裝置8第三實施例之立體圖及分解圖。在此一 實施例中,本發明可接收多種光源之充電裝置8,包含一物 體9 ;至少-光電池10,設置於該物體9上,該光電池係 ❹ 使接收多種光源而產生一電壓源;一充電電路模組(圖未 示),係設置於該物體9内,並與該光電池1〇連接,使該 、 壓源能升壓;一充電座12,係設置於該物體9上,並^該 • 充電座12連接該充電電路模組,該充電座12並提供一特 定待充電裝置進行充電,而該待充電裝置可為一電池 行動電話。 該物體9包括有一第一板件13與一第二板件14,該 -板件13與該第三板件14係轉而可轉動者,使 池ίο分別設置於該第一板件13上與該第二板件14上而 200935707 該充電座12係設置於該第-板件13上。 成電池個該染料敏化太陽能電池形 第:電池與該第二電池間係以-第-導線15匕電 一電池位於該第一缸料^ 守啄!)運接且該第 14上者。 板件13,而該第二電池位於該第二板件 該第一板件13盥哕筮_社灿1λ &上 轴樞接。該第一板件yj::板* 14的相對應侧係以一梅 -第二套軸17,該第―^1樞轴係包括有—第—套軸16與 第一板件13的一;則上一 H16與該第二套轴17係設在該 第三套軸18與一第四套^^=4的樞軸係、包括有一 軸19係設在該第二板 〜第二套軸18與該第四套 與該第四套軸19分別 的該第三套軸18 ❹ 的外侧。該第一套輪&該第一套軸16與該第二套轴17 2〇插入,·該第二套t l7^該第三套輛18係以一第一軸桿 21插入,因此該第—极與該第四套軸19係以-第 二軸捍 樞軸結構而作掀開轉動的動作/。、該第二板件14即可使用該 請參閲第十圖係顯+ 置22第四實施例之立體丨日二可^收多種光源之充電襄 收多種光源之充電裝置二=實施例中’本發明可接 多種光源之充電裝置8帛 ^施例相較於本發明可接收 可接收多種光源之充電裝置一22 不同處在於:本發明 接該充電電路模組(圖未示),談 二=包含一接頭23連 一直流電源充電接頭。 X 為一 USB接頭或為 請參閱第~f—圖係龜- 顯不本發明可接收多種光源之充電 11 200935707 裝置24第五實施例之立體圖。在此一實施例中,本發明可 接收多種光源之充電裝置24包含一物體25;至少一光電池 26 ’設置於該物體2上’該光電池26係使接收多種光源而 產生一電壓源;一充電電路模組(圖未示),係設置於該物體 25内’並與該光電池26連接,使該電壓源能升壓;以及一 充電座27 ’係設置於該物體25上,並使該充電座27連接 該充電電路模組,該充電座27並提供一特定待充電裝置進 ❹ 行充電,而該待充電裝置可為一電池或一行動電話。 該物體25包括有一錐形座體251,而該光電池26包括 多數個染料敏化太陽能電池,使分佈於該錐形座體251的 四個表面上。而該充電座27係設置於該錐形座體251的平 坦面上。 =參閱第十二圖及第十三圖係分別顯示本發明可接收 種,源之充電裝置28第六實施例之立體圖及分解圖。在 ΐ*鉍例中,本發明可接收多種光源之充電裝置28第六 目較ί本發明可接收多種光源之充電裝置24第五實 在於:本發明可接收多種光源之充電裝置28 體29,該錐频29設置㈣錐形座體 係樞接@金子塔狀,且該錐形體29與該錐形座體251 29可轉動者。該錐形座體⑸與該錐 =鏈的相對應側緣係以一樞軸3〇樞接,而該插轴3。係 裝置^參第閱七第實:二圖係㈣ 接收多種先源之充電裝置31包含—物體32 12 200935707 33,設置於該物體32上,該光電池33係使接收多種光源 而產生一電塵源,一充電電路模組(圖未示),係設置於該物 體32内’並與該光電池33連接,使該電壓源能升壓Υ以 及一充電座34 ’係設置於該物體32上,並使該充電座% 連接該充電電路模組’該充電座34並提供一特定待充電裝 置進行充電’而該待充電裝置可為一電池或一行動電話。 該物體32係為一桌子,該桌子具有一桌板及附著於該 桌板下的四支桌腳。該光電池包括一染料敏化太陽能電 池,使設置於該桌板上者。 請參閱第十五圖係顯示本發明可接收多種光源之充電 裝置35第八實施例之立體圖。在此一實施例中,本發明可 接收多種光源之充電裝置35第八實施例相較於本發明可接 收多種光源之充電裝置31第七實施例之不同處在於: 明可接收多種光源之充電裝置35更進一步包含一儲電元件 36,該儲電元件36係連接該充電電路模組,用以儲存該 Hi路模組所提供之電能,並使該儲電元件36連接該充電 第十六圖為本發明可接收多種光源之充電裝置第九 施例之立體圖。本實施例與第七實施例不同處 : 板為一染料敏化太陽能電池。 5 定太2本?明已以較佳實施例揭露如上’然其並非用以限 =内二當可作各種之更動與潤飾,因此本;二= 範圍’ S視後附之申請專利範圍所界定者為準。 13 200935707 【圖式簡單說明】 第一圖為習知染料敏化太陽能電池之原理示意圖。 第二圖為習知行動電話的電源管系統示意圖。 第三圖為傳統行動電話的充電示意圖。 第四圖為本發明可接收多種光源之充電裝置第一實施 例之立體圖。 第五圖為本發明可接收多種光源之充電裝置第一實施 例之方塊圖。 第六圖為本發明可接收多種光源之充電裝置第二實施 例之立體圖。 第七圖為本發明可接收多種光源之充電裝置第二實施 例之方塊圖。 第八圖為本發明可接收多種光源之充電裝置第三實施 例之立體圖。 第九圖為本發明可接收多種光源之充電裝置第三實施 例之分解圖。 第十圖為本發明可接收多種光源之充電裝置第四實施 例之立體圖。 第十一圖為本發明可接收多種光源之充電裝置第五實 施例之立體圖。 第十二圖為本發明可接收多種光源之充電裝置第六實 施例之立體圖。 第十三圖為本發明可接收多種光源之充電裝置第六實 施例之分解圖。 第十四圖為本發明可接收多種光源之充電裝置第七實 施例之立體圖。 200935707 第十五圖為本發明可接收多種光源之充電裝置第八實 施例之立體圖。 第十六圖為本發明可接收多種光源之充電裝置第九實 施例之立體圖。 【主要元件符號說明】 卜6、8、22、24、28、31、35—可接收多種光源之充電裝置 2、9、25、32-·-物體 ⑩ 3、10、26、33—先電池 4-充電電路模組 5、12、27、34-7、23…接頭 13…第一板件 14…第二板件 15- —第一導線 16- --第一套轴 17- --第二套軸 & 18…第三套軸 19…第四套軸 20…第一轴桿 21…第二軸桿 , 251--錐形座體 29— 錐形體 30— 柩轴 36—儲電兀件 -充電座 15A perspective view and a block diagram of a first embodiment of a charging device for a light source. In one example, the charging device of the present invention can receive a plurality of light sources, and includes an object 2, at least one photocell 3 disposed on the object 2, the photocell 3 is configured to receive a plurality of light sources to generate a voltage source; The charging circuit module 4 is disposed in the object 2 and connected to the photovoltaic cell 3 to enable the voltage source to be boosted; and a charging stand 5' is disposed on the object 2 and connects the charging stand 5 The charging circuit module 4, the charging stand 5 provides a specific device to be charged for charging, and the device to be charged can be a battery or a mobile phone. Wherein, the photovoltaic cell 3 is a solar cell, and the solar cell comprises a twinned solar cell or a thin film solar cell, or an organic solar cell. The organic solar cell comprises a dye-sensitized solar cell. The dye-sensitized solar cell includes a first electrode, a second electrode, and a nano layer disposed between the first electrode and the second electrode. The first electrode includes a first conductive glass layer and a platinum catalyst layer. The first conductive glass layer includes a first glass and a first transparent conductive oxide, and the platinum catalyst layer is adhered to the first transparent layer. Conductive oxide and the second electrode includes a second conductive glass layer. The second conductive frit layer includes a second glass and a second transparent conductive oxide. The nanolayer includes an oxide of a photo-semiconductor, a plurality of dye molecules attached to the oxide of the photo-semiconductor, and an electrolyte. The charging circuit module 4 includes a boosting circuit for boosting the voltage source of the dye-sensitized solar cell. 9 200935707 Please refer to the sixth and seventh figures for a perspective view and a block diagram of a second embodiment of the charging device 6 for receiving light according to the present invention. In this embodiment, the charging device 6 for receiving a plurality of light sources of the present invention comprises an object to the photovoltaic cell 3, which is disposed on the object 2, and the photocell 3 is configured to receive a plurality of light sources to generate a voltage source; The group 4 is set to 'f in the (four) 2' and is connected to the photovoltaic cell 3 to enable the voltage source to be boosted, and a charging stand 5 is disposed on the object 2, and the charging stand 5 is connected to the charging stand 5 The charging circuit module 4' is provided with a charging device 5 for charging a specific device to be charged, and the device to be charged can be a battery or a mobile phone; and a connector 7 is connected to the charging circuit module 4, wherein the connector 7 is a USB connector or a DC power charging connector for charging a mobile phone. Referring to FIG. 8 and FIG. 9 respectively, a perspective view and a decomposition of the charging device 8 of the present invention capable of receiving a plurality of light sources are shown. Figure. In this embodiment, the present invention can receive a plurality of light source charging devices 8, including an object 9; at least - a photovoltaic cell 10 disposed on the object 9, the photocell system receiving a plurality of light sources to generate a voltage source; A charging circuit module (not shown) is disposed in the object 9 and connected to the photocell 1 to enable the voltage source to be boosted; a charging stand 12 is disposed on the object 9, and The charging stand 12 is connected to the charging circuit module, and the charging stand 12 provides a specific charging device to be charged, and the charging device can be a battery mobile phone. The object 9 includes a first plate member 13 and a second plate member 14. The plate member 13 and the third plate member 14 are rotated to be rotatable, so that the pools are respectively disposed on the first plate member 13. The charging plate 12 is disposed on the first plate member 13 and the second plate member 14 and 200935707. Forming the battery as a dye-sensitized solar cell No.: The battery and the second battery are connected with a - lead-wire 15 and a battery is located in the first cylinder ^ 啄! ) shipped and the 14th above. The plate member 13 is located on the second plate member. The first plate member 13 is pivotally connected to the upper shaft. The corresponding side of the first plate yj:: plate * 14 is a plum-second set of shafts 17, and the first "1" pivot system includes a first - a set of shafts 16 and a first plate member 13 The first H16 and the second set of shafts 17 are disposed on the pivot shaft of the third set of shafts 18 and a fourth set of ^^=4, and include a shaft 19 which is disposed on the second plate to the second set The shaft 18 is external to the third sleeve shaft 18 of the fourth sleeve and the fourth sleeve shaft 19, respectively. The first set of wheels & the first set of shafts 16 and the second set of shafts 17 2〇 are inserted, and the second set of frames 18 is inserted by a first shaft 21, so The first pole and the fourth set of axles 19 are pivoted by a second axle pivot structure. The second plate 14 can be used. Please refer to the tenth figure. The second embodiment can be used to charge a plurality of light sources to charge a plurality of light sources. The charging device of the present invention can be connected to a plurality of light sources. The embodiment is different from the charging device capable of receiving a plurality of light sources. The difference is that the charging circuit module (not shown) is connected to the present invention. Two = contains a connector 23 connected to the power supply charging connector. X is a USB connector or for the reference to the ~f-map turtle - it is shown that the invention can receive charging of a plurality of light sources 11 200935707 A perspective view of the fifth embodiment of the device 24. In this embodiment, the charging device 24 of the present invention that can receive a plurality of light sources includes an object 25; at least one photocell 26' is disposed on the object 2. The photocell 26 is configured to receive a plurality of light sources to generate a voltage source; A circuit module (not shown) is disposed in the object 25 and connected to the photocell 26 to enable the voltage source to be boosted; and a charging stand 27' is disposed on the object 25 and enables the charging The holder 27 is connected to the charging circuit module, and the charging stand 27 provides a specific charging device to be charged, and the device to be charged can be a battery or a mobile phone. The object 25 includes a conical seat 251, and the photocell 26 includes a plurality of dye-sensitized solar cells distributed over the four surfaces of the conical seat 251. The charging stand 27 is disposed on the flat surface of the conical seat 251. = Fig. 12 and Fig. 13 are perspective and exploded views, respectively, showing a sixth embodiment of the chargeable device 28 of the present invention. In the present invention, the present invention can receive a plurality of light source charging devices. The sixth aspect of the present invention can receive a plurality of light sources. The fifth embodiment of the present invention is: the present invention can receive a plurality of light source charging devices 28, 29 The cone frequency 29 is provided with a (four) conical seat system pivoting @金塔形, and the cone body 29 and the conical seat body 251 29 are rotatable. The conical seat body (5) and the corresponding side edge of the cone=chain are pivotally connected by a pivot 3〇, and the insertion shaft 3 is. The system is configured to receive a plurality of pre-source charging devices 31. The object 32 12 200935707 33 is disposed on the object 32. The photocell 33 is configured to receive a plurality of light sources to generate an electric dust. a charging circuit module (not shown) is disposed in the object 32 and connected to the photocell 33 to enable the voltage source to be boosted and a charging stand 34' to be disposed on the object 32. And the charging stand is connected to the charging circuit module 'the charging stand 34 and provides a specific charging device to be charged' and the charging device can be a battery or a mobile phone. The object 32 is a table having a table top and four legs attached to the table. The photovoltaic cell includes a dye-sensitized solar cell that is placed on the table. Referring to Figure fifteen, a perspective view of an eighth embodiment of a charging device 35 of the present invention that can receive a plurality of light sources is shown. In this embodiment, the present invention can receive a plurality of light source charging devices. The eighth embodiment is different from the charging device 31 of the present invention which can receive a plurality of light sources. The seventh embodiment is different in that: it can receive charging of a plurality of light sources. The device 35 further includes a power storage component 36 connected to the charging circuit module for storing the power provided by the Hi circuit module, and connecting the power storage component 36 to the charging The figure is a perspective view of a ninth embodiment of a charging device capable of receiving a plurality of light sources according to the present invention. This embodiment differs from the seventh embodiment in that the plate is a dye-sensitized solar cell. 5 is too 2 copies? The above description has been made in the preferred embodiment. However, it is not intended to limit the scope of the invention. Therefore, the scope of the patent application is subject to the definition of the patent application. 13 200935707 [Simple description of the diagram] The first figure is a schematic diagram of the principle of a conventional dye-sensitized solar cell. The second figure is a schematic diagram of the power supply system of the conventional mobile phone. The third picture shows the charging diagram of the traditional mobile phone. The fourth figure is a perspective view of a first embodiment of a charging device capable of receiving a plurality of light sources according to the present invention. Figure 5 is a block diagram of a first embodiment of a charging device that can receive a plurality of light sources in accordance with the present invention. Figure 6 is a perspective view of a second embodiment of a charging device that can receive a plurality of light sources in accordance with the present invention. Figure 7 is a block diagram of a second embodiment of a charging device that can receive a plurality of light sources in accordance with the present invention. Figure 8 is a perspective view of a third embodiment of a charging device capable of receiving a plurality of light sources in accordance with the present invention. Figure 9 is an exploded view of a third embodiment of a charging device capable of receiving a plurality of light sources in accordance with the present invention. Figure 11 is a perspective view of a fourth embodiment of a charging device capable of receiving a plurality of light sources according to the present invention. Fig. 11 is a perspective view showing a fifth embodiment of a charging apparatus which can receive a plurality of light sources according to the present invention. Fig. 12 is a perspective view showing a sixth embodiment of a charging apparatus capable of receiving a plurality of light sources of the present invention. Fig. 13 is an exploded view of the sixth embodiment of the charging apparatus which can receive a plurality of light sources of the present invention. Fig. 14 is a perspective view showing a seventh embodiment of a charging apparatus capable of receiving a plurality of light sources of the present invention. 200935707 The fifteenth diagram is a perspective view of an eighth embodiment of a charging apparatus capable of receiving a plurality of light sources. Fig. 16 is a perspective view showing a ninth embodiment of a charging apparatus which can receive a plurality of light sources according to the present invention. [Main component symbol description] Bu 6, 8, 22, 24, 28, 31, 35 - charging device 2, 9, 25, 32---object 10 3, 10, 26, 33 capable of receiving multiple light sources - first battery 4-Charging circuit module 5, 12, 27, 34-7, 23... Connector 13... First board 14... Second board 15 - First lead 16 - First set of shaft 17 - - Two sets of shafts & 18...third set of shafts 19...fourth set of shafts 20...first shafts 21...second shafts, 251--conical seat body 29-conical body 30-shafts 36-electric storage Piece - charging stand 15