200838448 九、發明說明: 【發明所屬之技^标領域】 本發明是有關於一種攜行箱,特別是指一種具有充電 功此的攜行箱。 【先前技術】 ^如圖1所示,以往一種攜行箱1〇〇的設計是用於容納 貴重儀器、電動工具、精密配件等多種器材使用,藉此以 提i、為材的攜帶與保護,並能讓使用者在搬運各式器材時 便利輕鬆,然而當使用者在戶外使用時,如果恰好遇到箱 内的器材電力不足,則往往會因為取得電力不易、器材無 法運作的供電因素,而讓使用者無功而返,以致於既定行 転文到延誤,又該攜行箱100也無法提供補充電力的功能 ’因此對箱内器材的電力補充也不能提供幫助。 【發明内容】 因此,本發明之目的,是在於提供一種能提供内裝器 材所需電力之具有充電功能的攜行箱。 於是,本發明攜行箱包含一箱體、一太陽能供電元件 ,及一充電系統。 該箱體包括一第一箱殼及一第二箱殼,該第二箱殼是 經由樞接蓋合於該第一箱殼並具有一透光部。 该太陽能供電元件是設置於該箱體中、面向該透光部 ’以及輸出由光能轉換的電能。 該充電系統是設置於該箱體中並電連接於該太陽能供 電元件。 200838448 本發明的有益效果在於··當使用者攜帶器材到戶外使 用時,即使位於山區郊外取得電力不易的地方,則同樣能 利用該攜行箱所附的太陽能供電元件以及該充電系統來取 侍電力,並且能在太陽充足時持續充電,以致於能補充箱 内器材的電力不足,同時能延長器材在戶外使用的時間, 突破電力來源的限制。 【實施方式】 、 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之數個較佳實施例的詳細說明中,將可 清楚的呈現。 在本發明被詳細描述之前,要注意的是,以下的說明 内谷中’類似的元件是以相同的編號來表示。 如圖2、3、4所示,本發明攜行箱2〇〇的第一較佳實 %例包含一箱體丨〇、一太陽能供電元件,及一充電系統 30。 、 該相體10主要是由硬式防水材料組成,並包括一第一 箱八又11、一第二箱殼12,及一設置於該第一、二箱殼1 1、 12之間的防水條13,該箱體10的主要材料是選自於由金 屬 塱膠,及玻璃纖維所組成的群組,在本第一較佳實施 例中是採用塑膠材料。 該第一箱殼11具有多數個第一扣件ηι。 士 该第二箱殼12是經由一樞接結構14蓋合於該第一箱 设n上,並具有多數個與該等第一扣件111相配合的第二 扣件121、一透光部122,及一形成於内侧並對應於該透光 6 200838448 部122的安裝槽123,兮笪势 ^ , ^ 一 该等弟一、二箱殼11、12是經由該 第—扣件nl、121的連結而密封連接。 該太陽能供電元件20杲怂呤铲姊1Π + 疋攸該相體10内設置於該安裝 槽123中,並面向該透光 _ . 峰尤邛122,可經由光源的照射輸出由 光能轉換的電能。200838448 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a carrying case, and more particularly to a carrying case having a charging function. [Prior Art] As shown in Fig. 1, the previous design of the carrying case 1是 is used for accommodating a variety of equipment such as valuable instruments, power tools, precision parts, etc., thereby promoting and carrying the i. And it can make the user convenient and convenient when carrying various equipments. However, when the user is using the outdoor equipment, if the equipment in the box is insufficiently charged, it is often because of the power supply factor that the electric power is not easy and the equipment cannot operate. However, the user is unable to return because of the delay, and the carrying case 100 cannot provide the function of supplementing the power. Therefore, the power supply of the equipment in the box cannot be provided. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a carrying case having a charging function capable of providing power required for a built-in device. Thus, the carrying case of the present invention comprises a case, a solar powered component, and a charging system. The box body comprises a first box shell and a second box shell. The second box shell is hinged to the first box shell and has a light transmitting portion. The solar power feeding element is disposed in the casing, faces the light transmitting portion, and outputs electric energy converted by light energy. The charging system is disposed in the housing and electrically connected to the solar power supply element. 200838448 The invention has the beneficial effects that when the user carries the equipment to the outdoor use, even if it is located in a suburb of the mountainous area where the electric power is not easy, the solar power supply component attached to the carrying case and the charging system can also be used to take the service. Electricity, and can continue to charge when the sun is sufficient, so that it can replenish the power of the equipment in the box, and at the same time extend the time of use of the equipment outdoors, breaking through the limits of power sources. The above and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments. Before the present invention is described in detail, it is noted that the following elements in the inner valley are denoted by the same reference numerals. As shown in Figures 2, 3 and 4, the first preferred embodiment of the carrying case 2 of the present invention comprises a case body, a solar power supply element, and a charging system 30. The phase body 10 is mainly composed of a hard waterproof material, and includes a first box eight and eleven, a second box shell 12, and a waterproof strip disposed between the first and second tank shells 1 1 and 12. 13. The main material of the casing 10 is selected from the group consisting of metal silicone and glass fibers. In the first preferred embodiment, a plastic material is used. The first casing 11 has a plurality of first fasteners ηι. The second casing 12 is capped to the first casing n via a pivotal structure 14 and has a plurality of second fasteners 121 and a light transmitting portion that cooperate with the first fasteners 111. 122, and a mounting groove 123 formed on the inner side and corresponding to the light transmitting portion 6 200838448 portion 122, the potential of the first and second casings 11, 12 are via the first fastening member nl, 121 The connection is sealed and sealed. The solar power supply element 20 is disposed in the mounting groove 123 in the phase body 10, and faces the light transmission _. The peak 邛 122 can be converted by light energy through the illumination output of the light source. Electrical energy.
5亥充電系統30是設置於該箱體10令並電連接於該太 陽能供電元件20,該充電系統30包括一蓄電池31、一電 ㈣於該蓄電池31與該太陽能供電元件2G之間的電流調 節開關32、一電連接於該電流調節開關32的充電控制模組 33、一電連接於該充電控制模組33與該太陽能供電元件2〇 之間的電壓監控模組34、一電連接於該蓄電池31與該充電 控制板組33之間的電壓調節模組%,及—電連接於該電壓 巧即核組35與该充電控制模組33之間的電流監控模組% 該充電控制模組33内建有—電壓輸人範圍及—電流保 護範圍,透過該電壓監控模組34可監測該太陽能供電元件 20輸出的電壓疋否達到額定需求,該充電控制模組會在 该電壓監控杈組34的輸出未符合該電壓輸入範圍時關閉該 電流調節開關32,藉此以避免該蓄電池31的漏電,而透過 該電流監控模組36可監測該蓄電池31的充電電流狀態, 藉此以搭配該電流調節開關32的控制,使得充電電流的大 小能配合不同蓄電池的充電曲線要求,並對過大的充電電 流值做保護,也就是當該電流監控模組36的輸出未符合該 電流保護範圍時則關閉該電流調節開關32。 7 200838448 藉此’當使用者攜帶器材到戶外使用時,即使位於山 區郊外取得電力不易的地方,則同樣能利用該攜行箱之⑽ 所附的太陽能供電元件20以及該充電系統30來取得電力 ,並且能在太陽充足時持續充電,以致於能補充箱内器材 的電力不足,同時能延長器材在戶外使用的時間,突破電 力來源的限制。 如圖5所示,以下將更進一步說明本發明攜行箱2〇〇 的第二較佳實施例,該第二較佳實施例與上述該第一較佳 實施例大致相同,其不同處在於該第二箱殼12還具有一向 外開放的插座124可電連接該太陽能供電元件2〇,該太陽 能供電元件20包括一配合該插座124的插頭21,並經由該 插頭21與該插座124的連結,可脫離地設置於該攜行箱 200外部,藉此以達到可收納替換該太陽能供電元件的 功用。 一惟以上所述者,僅為本發明之數個較佳實施例而已, 當不能以此限定本發明實施之範圍,即大凡依本發明申請 專利範圍及說明書内容所作之簡單的等效變化與修飾,皆 仍屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一立體圖,說明以往攜行箱的結構; 圖2是一立體圖,說明本發明攜行箱的第一較佳實施 例; 圖3疋一沿圖2中之線3 — 3的剖視圖,說明上述該第 -較佳實施例中’ 一箱體、一太陽能供電元件,及—充電 200838448 系統的連結狀態; 圖4是一電路圖,說明上述該第一較佳實施例中,該 充電糸統的電路架構,及 圖5是一立體分解圖,說明本發明攜行箱的第二較佳 實施例 200838448 【主要元件符號說明】 200 ·… •…攜行箱 20···. •…·太陽能供電元 10…·· •…箱體 件 11 · •… •…第一箱殼 21 ···. ••…插頭 m… …·第一扣件 30…·· .....充糸統 12···… •…第二箱殼 31…· •…·蓄電池 m… •…第二扣件 32···· ••…電流調節開關 122… •…透光部 33•… ........充電控制模組 123… •…安裝槽 34··" •…·電壓監控模組 124… •…插座 35···· ……電壓調節模組 13…… •…防水條 36···· ……電流監控模組 14····· •…樞接結構 10The 5H charging system 30 is disposed in the box 10 and electrically connected to the solar power supply component 20, the charging system 30 includes a battery 31, an electric (four) current adjustment between the battery 31 and the solar power supply component 2G a switch 32, a charging control module 33 electrically connected to the current regulating switch 32, a voltage monitoring module 34 electrically connected between the charging control module 33 and the solar power transmitting component 2, and an electrical connection a voltage regulating module % between the battery 31 and the charging control board group 33, and a current monitoring module between the voltage group 35 and the charging control module 33. The charging control module The built-in voltage range and the current protection range can be monitored by the voltage monitoring module 34 to monitor whether the voltage outputted by the solar power supply component 20 reaches the rated demand, and the charging control module is in the voltage monitoring group. When the output of 34 does not meet the voltage input range, the current adjustment switch 32 is turned off, thereby avoiding leakage of the battery 31, and the current monitoring module 36 can monitor the charging current of the battery 31. With the control of the current regulating switch 32, the charging current can be matched with the charging curve requirements of different batteries, and the excessive charging current value is protected, that is, when the output of the current monitoring module 36 is not When the current protection range is met, the current adjustment switch 32 is turned off. 7 200838448 By the way, when the user carries the equipment to the outdoor use, even if it is located in a suburb of the mountain where the power is not easy to obtain, the solar power supply element 20 attached to the carrying case (10) and the charging system 30 can also be used to obtain power. And it can continue to charge when the sun is sufficient, so that it can replenish the power of the equipment in the box, and at the same time, it can extend the time of the equipment for outdoor use and break through the limitation of power source. As shown in FIG. 5, a second preferred embodiment of the carrying case 2 of the present invention will be further described below. The second preferred embodiment is substantially the same as the first preferred embodiment described above, and the difference is that The second casing 12 further has an outwardly open socket 124 electrically connected to the solar power supply component 2, the solar power supply component 20 includes a plug 21 that cooperates with the socket 124, and is connected to the socket 124 via the plug 21. The detachable ground can be disposed outside the carrying case 200, thereby achieving the function of accommodating and replacing the solar power transmitting component. The above is only a few preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes made by the scope of the present invention and the contents of the specification are Modifications are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the structure of a conventional carrying case; Fig. 2 is a perspective view showing a first preferred embodiment of the carrying case of the present invention; Fig. 3 is a line along the line of Fig. 2. 3 - 3 is a cross-sectional view showing the connection state of a case, a solar power supply element, and a charging 200838448 system in the above-described preferred embodiment; FIG. 4 is a circuit diagram illustrating the first preferred embodiment The circuit architecture of the charging system, and FIG. 5 is an exploded perspective view showing the second preferred embodiment of the carrying case of the present invention 200838448. [Main component symbol description] 200 ·... •... Carrying box 20·· ·····Solar power supply unit 10...··•...box part 11 · •... •...first case 21 ···. ••...plug m...·first fastener 30...·· .. ...充糸12···... •...Second box 31...·•...·Battery m... •...Second fastener 32···· ••... Current adjustment switch 122... •...Transmission unit 33•.....................Charging control module 123... •...Installation slot 34··" •...·Voltage monitoring module 124... •... Socket 35···· ...... Voltage adjustment module 13... •...Waterproof strip 36···· ...... Current monitoring module 14·····•...Pivot structure 10