M375976 六、新型說明: 【新型所屬之技術領域】 本案係關於一種電池充電震置,尤指一種攜帶式太陽 能電池背包。 【先前技術】M375976 VI. New Description: [New Technology Field] This case is about a battery charging, especially a portable solar battery backpack. [Prior Art]
由於3C產品的日益普及,許多如手機、數位相機、 電子子典' MP3、PDA等產品皆為可攜式,故内建可更換 之電池乃是必要的條件。然而’為了避免乾電池有礙環保 等問題,故上述產品往往也提供了可重覆使用之充電電 池0 然而,儘管其所提供之電池為可充電者,但使用者仍 須在家將電池純後,方可㈣戶外使用;—旦電池的電 =耗盡時,則必财另行準備之翻電池、或立即提供可Due to the increasing popularity of 3C products, many products such as mobile phones, digital cameras, electronic sub-models, MP3, PDA, etc. are all portable, so the built-in replaceable battery is a necessary condition. However, in order to avoid problems such as environmental protection, the above products often provide rechargeable batteries that can be reused. However, although the battery provided is a rechargeable person, the user still has to clean the battery at home. (4) Outdoor use; if the battery is depleted, the battery must be prepared separately or provided immediately.
充,之設備等。-般而言,備用電池雖然方便,但對於長 ㈣在外遊玩的使用者而言,備用的數量仍是困 較^人之―’因此’可攜式的充電11或充電設備,也就 車乂月b苻合這類使用者的需求。 轉換能3的發展’可利用太陽能電池模組將光能 種报容易就可取得的_,係為一 如何發展-種可改善上述習知;任二額外的化費,因此, 耗盡時不易取得電源的缺失,且,用電池的電力 成所需電能之攜帶式太陽能電池T二,能來轉換 电池月包,貫為目珂迫切需要 3 M375976 解決之問題 【新型内容】 得電源的缺^ 之備用電池的電力耗盡時不易取 組,部分設置於背二至 電能;控制模組,設置於背包=收轉換成 及控制器,— 輸出,Μ及傳輸線’用以使太陽能模組與控制模組 收板^財太陽能接 度可根據太陽光的角度調整體外,且其受光面角 根據本案之構想,其中該控制模电且 接器,其係接收外部電源,用該^^ >、電源轉 電池進行充電。 茨控制杈組内部之充電 根據本案之構想,其中控制模 接器,其係藉由電源線與電子產 八彡一輸出連 電子產品。 °°連接’用以傳送電能至 根據本案之構想’其㈣輪線係為電源線。 4 【實施方式】 體現本案特徵與優點的—些典型實施例將在後段的 說明中詳細敘述。應理解的是本案能夠在不同的態樣上且 有各種的變化’其皆不脫離本朗範圍,且其中的說明及 圖不在本質上係當作說明之用,而非用以限制本案。 請參閱第-圖B,其係為本案攜帶式太陽能電池背包 之完整結構示意圖,如圖所示,本案之攜帶式太陽能電池 月包1可將太陽光能轉換成電能以對電子產品,例如··手 機、數位相機、MP3、MP4等產品,進行充電,本案之攜 帶式太陽能電池背包1至少包含背包主體η、太陽能 組12、控麵組13以及傳輸線14,背包主體u的内部 係具有-谷置空間U1 (如第―圖Α所示),而太陽能模 組12則部分設置於背包主體u的容置空間ηι内,用以 將所吸收的光能轉換成-電能,另外,太陽能模組12更 具有-太陽能接錄121,社陽缺妹121係外露於 背包主體11外(如第三圖A所示),用以接收太陽光能, 且太陽能接收板121的受光面角度可根據太陽光的角度 進行調整(如第三圖B所示)。 請參閱第二圖A並配合第—圖B,本實施例之控制 模組13的組件可設置於—盒體内,主要容置於背包主體 =之容置空間m内(第iB所示),且藉由傳輸線14 將太陽能模組12所產生之電⑽存於其 能輪出至連接之電子產品(去岡w (未圖式),以對電子產品進行 兄電。 /0 至於’傳輸線14可為但不限為一電源線,其一端與 太陽能模組12連接’另-端則與控健組13連接,用以 將太陽能模組12運作所產生之電能傳送至控制模組13。 請參閱第二圖A,其係為本案控制模組之内部結構示 意圖,本實施例之控制模組13至少包含充電電池i3i、 控制器132、切換開㈣3、連接器134、電源轉換器⑼ (adapter)、電源轉接器以及輸出連接$,連接器⑼係 與傳輸線14之連接頭連接’以使太陽能模組12與控制模 =13連,,而充電電池13U系用來儲存電能,控制器 '、將太陽能模組12所產生之電能儲存於充電電池⑶ 内,且當攜帶式太陽能電池背Μ與電子產品連接時,將 内部所儲存之電能輸出至電子產品,以控制 攜π式太%能電池背包丨整體的運作。 請參閱第二圖Β,於本實施例中可包含2組輪 器135、136 ’但不以此為限,可藉由電源線(未圖式) ^電子產品連接,並因應不同的電子產品需求輸出不同電 連接器135可輪出12V之電屋,輪出連 接态136可輸出24V之電壓。 請再參閱第二圖B,於本實施例中可包含2 接器Π7、138,但不以此為限,電源轉接器137=, f充接頭,而電源轉接器138可為—市電充電接頭 房光照射的環境下,也可以利過外部電源提供電源,众; 如:車輛的電源或是市電,並經電源轉換器139處 内置的充電電池131進行充電。 M375976 請參閱第三圖A’其係為使用者使用本案攜帶式太陽 能電池背包之結構示意圖,如圖所示,當使用者2出差、 旅遊、長途乘車船或是處於野外環境時,可隨身背著本案 之攜帶式太陽能電池背包1,以將太陽光能轉換成電能並 對電子產品進行充電’可使電子產品隨時隨地保持運作狀 怨,另外,更可根據太陽光的角度來調整太陽能接收板 121的受光面角度(如第三圖B所示),以接收更多的太 陽光源以轉換獲得充足的電能。 综上所述,本案之攜帶式太陽能電池背包藉由將部分 太陽能模組及控制模組設置於背包主體内部,可在任何有 太陽光的環境下達到隨時將太陽能轉換成電能’以對電子 產品進行充電,使用及攜帶都方便,且使用太陽能源可符 合環保並可節約資源。 本案得由熟知此技術之人士任施匠思而為諸般修 飾’然皆不脫如附申請專利範圍所欲保護者。 M375976 【圖式簡單說明】 第一圖A:其係為本案攜帶式太陽能電池背包之部分結 構示意圖。 第一圖B:其係為本案攜帶式太陽能電池背包之完整結構 示意圖。 第二圖A:其係為第一圖B所示之控制模組之内部結構 示意圖。 第二圖B :其係為第二圖A之部分結構示意圖。 第三圖A:其係為使用者使用本案攜帶式太陽能電池背包 之結構示意圖。 第三圖B :其係為調整第三圖A所示之太陽能接收板受 光面角度之結構示意圖。 【主要元件符號說明】 攜帶式太陽能電池背包:1 背包主體:11 容置空間:111 太陽能模組:12 太陽能接收板:121 控制模組:13 充電電池:131 控制器:132 切換開關:133 連接器:134 輸出連接器:135、136 電源轉接器:137、138 電源轉換器:139 傳輸線:14 使用者:2 8Charge, equipment, etc. In general, although the backup battery is convenient, for the long (four) users who are playing outside, the number of spares is still more difficult than the ones - so the portable charging 11 or charging device, also the rut Month b meets the needs of such users. The development of conversion energy 3 can be achieved by using solar cell modules to easily report light energy. How to develop it can improve the above-mentioned knowledge; any additional cost, so it is not easy to exhaust The lack of power, and the use of battery power into the required energy of the portable solar cell T 2, can be converted to the battery monthly package, the goal is to urgently need 3 M375976 to solve the problem [new content] the lack of power supply ^ When the power of the backup battery is exhausted, it is not easy to take the group, and some of it is set on the back to the electric energy; the control module is set in the backpack = the conversion into the controller, the output, the transmission line and the transmission line are used to make the solar module and the control module The solar panel can be adjusted according to the angle of sunlight, and its receiving surface angle is according to the concept of the present invention. The control module is connected to the external power supply, and the power supply is used. Turn the battery to charge. Charging within the control group According to the concept of the present case, the control module is connected to the electronic product by the power line and the electronic output. The °° connection is used to transmit electrical energy to the concept according to the present invention. The (four) wheel line is a power line. [Embodiment] Some exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the present invention is capable of various modifications and changes in the various aspects of the invention. Please refer to Figure-B, which is a complete structural diagram of the portable solar battery backpack of the present case. As shown in the figure, the portable solar battery monthly package 1 of the present invention can convert solar energy into electrical energy for electronic products, for example. · Mobile phone, digital camera, MP3, MP4 and other products for charging. The portable solar battery backpack 1 of the present case includes at least a backpack body η, a solar group 12, a control panel 13 and a transmission line 14, and the internal body of the backpack body u has a valley. The space U1 is disposed (as shown in FIG. ,), and the solar module 12 is partially disposed in the accommodating space ηι of the backpack body u for converting the absorbed light energy into electric energy. In addition, the solar module 12 has a solar-powered 121, and the social-positive 121-series is exposed outside the main body of the backpack 11 (as shown in FIG. 3A) for receiving solar energy, and the angle of the receiving surface of the solar receiving panel 121 can be determined according to the sun. The angle of the light is adjusted (as shown in Figure B). Referring to FIG. 2A and FIG. B, the components of the control module 13 of the present embodiment can be disposed in the box body, and are mainly accommodated in the housing space m of the backpack body (shown in iB). And the electricity (10) generated by the solar module 12 is stored in the electronic product (to go to the W (not shown)) by the transmission line 14 to carry on the electronic products. /0 As for the transmission line 14 can be, but is not limited to, a power cord, one end of which is connected to the solar module 12, and the other end is connected to the control group 13 for transmitting the power generated by the operation of the solar module 12 to the control module 13. Please refer to FIG. 2A, which is a schematic diagram of the internal structure of the control module of the present embodiment. The control module 13 of the embodiment includes at least a rechargeable battery i3i, a controller 132, a switch open (4) 3, a connector 134, and a power converter (9) ( Adapter), power adapter and output connection $, the connector (9) is connected to the connector of the transmission line 14 to connect the solar module 12 with the control module = 13, and the rechargeable battery 13U is used to store electrical energy, the controller ', storing the electrical energy generated by the solar module 12 In the battery (3), when the portable solar battery back is connected to the electronic product, the internal stored energy is output to the electronic product to control the overall operation of the battery pack with the π type too much energy. Please refer to the second figure. In this embodiment, the two sets of wheel 135, 136' may be included, but not limited thereto, and may be connected by an electric power cable (not shown), and output different electrical connections according to different electronic product requirements. The device 135 can take out the 12V electric house, and the wheel connection state 136 can output the voltage of 24V. Please refer to the second figure B, which can include the 2 connector Π7, 138 in this embodiment, but not limited thereto. The power adapter 137=, f is filled, and the power adapter 138 can be used in the environment where the mains charging connector is exposed to light, and can also be supplied by the external power source; for example, the power supply or the mains of the vehicle. It is charged by the rechargeable battery 131 built in the power converter 139. M375976 Please refer to the third figure A', which is a schematic diagram of the user's use of the portable solar battery backpack of the present case, as shown in the figure, when the user 2 is on a business trip, Travel, long distance ride When the vehicle or the ship is in the wild, you can carry the portable solar battery backpack 1 in this case to convert the solar energy into electrical energy and charge the electronic products, so that the electronic products can keep operating and complaining anytime and anywhere. In addition, The angle of the light receiving surface of the solar receiving panel 121 can be adjusted according to the angle of the sunlight (as shown in FIG. 3B) to receive more solar light sources to convert and obtain sufficient electric energy. In summary, the portable solar energy of the present case By placing some solar modules and control modules inside the main body of the backpack, the battery pack can convert solar energy into electric energy at any time in any environment with sunlight' to charge the electronic products, and it is convenient to use and carry. Using solar energy sources is environmentally friendly and saves resources. This case has to be modified by people who are familiar with the technology, and it is not intended to be protected by the scope of the patent application. M375976 [Simple description of the diagram] Figure A: This is a schematic diagram of the structure of the portable solar battery backpack of this case. Figure B: This is a complete schematic diagram of the portable solar cell backpack of this case. Figure 2A is a schematic diagram showing the internal structure of the control module shown in Figure B. Second figure B: It is a partial structural diagram of the second figure A. Figure A: This is a schematic diagram of the structure of the portable solar battery backpack used by the user. Figure 3B is a schematic view showing the structure of adjusting the angle of the receiving surface of the solar receiving panel shown in Figure 3A. [Main component symbol description] Portable solar battery backpack: 1 Backpack body: 11 Housing space: 111 Solar module: 12 Solar receiver board: 121 Control module: 13 Rechargeable battery: 131 Controller: 132 Switch: 133 Connection Device: 134 Output Connector: 135, 136 Power Adapter: 137, 138 Power Converter: 139 Transmission Line: 14 User: 2 8