201120695 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種運用太陽能模組之輸入裝置, 係特別指藉由太陽能模組產生電流電壓來控制輸入裝置 之作用。 【先前技術】 科技的演進促使行動式電子產品如雨後春筍般的蓬 勃發展,並成為二十一世紀的主流電子商品。而這股趨 勢也衍生了開發筆記型電腦的潮流。近年來筆記型電腦 的開發更進展到了具有觸控式螢幕的功能,此與平板電 腦的使用功能雷同。 一般可觸控式的筆記型電腦,包含有一鍵盤及一與 該鍵盤連結設置並具有可觸控操作模式的顯示面板。因' 此,此種筆記型電腦使用方法是分為兩種:一種是以配 合鍵盤來達成筆記型電腦的功用;另一種是以省略鍵盤 的使用,直接以觸控顯示面板來完成資料處理的手持模 式。 ' 目前,觸控面板大致可區分為電阻式、電容式、紅 外線式及超音波式等觸控面板,其中以電阻式觸控面板 與包谷式觸控面板為最常見的產品。就電容式觸控面板 :言丄可多點觸控的特性提供更人性化的操作模式而使 付電容式觸控面板逐漸受到市場的青睞。 201120695 再者,現在多家廠商也致力於太陽能發電的發展, 且目前太陽能的發電效率也逐漸提升中,使得其運用面 也逐漸廣闊。因此,本案之發明人鑑於可免費取得太陽 能之優勢,且搭配上目前無污染之環保意識逐漸的抬 頭。於是基於多年研究開發與諸多實務經驗,提出一種 運用太陽能模組之輸入裝置,以增添太陽能之使用領域。 【發明内容】 有鑑於上述習知技藝之問題,本發明之其中一目的 就是在提供一種利用太陽能所產生之電流電壓以控制輸 入訊號的產生。 緣是,為達上述目的,依本發明係揭露一種運用太 陽能模組之輸入裝置,其包括有一太陽能模組、一偵測 模組及一輸入模組。該太陽能模組可吸收光源並經轉換 後而產生具有電流電壓之電力,而該偵測模組與該太陽 能模組具有訊號連結,且該偵測模組亦可與該輸入模組 具有訊號連結。其中,該偵測模組可偵測該太陽能模組 之電流電壓值,當該太陽能模組之電流電壓值或電流電 壓值之改變量超過一預設範圍值時,該偵測模組將使該 輸入模組激發而產生一輸入訊號,並將該輸入訊號傳輸 至所搭配之電子裝置上。 根據本發明之另一目的,提出一種可於光線不足下 使用本發明,其主要該太陽能模組可搭配一背光模組, 藉由吸收該背光模組產生之光線而使該太陽能模組可產 201120695 生具有電流電壓之電力,使該輸入裝置之功能可得以進 行。 根據本發明之再一目的,提出一種具有環保無污染 之輸入裝置。 此外,本發明更提出一種可增加太陽能模組使用領 域之設計。 承上所述,依本發明之輸入裝置具有一或多個下述 • 優點: (1) 此輸入裝置具有太陽能模組,藉由該太陽能模 組吸收環境光源所產生之電流電壓之變化量以 控制輸入模組之作用。 (2) 此輸入裝置之太陽能模組可具有一色素層,其 不僅可增添多樣化的色彩,亦可做為不同區域 之劃分。 _ (3)此輸入裝置之太陽能模組可對二次電池進行充 電,或者可直接提供搭配之電子裝置之電力來 源。 (4)此輸入裝置可於自然環境光源不足之下,搭配 使用背光模組,藉由背光模組產生之光源來補 足所需之光源。 茲為使貴審查委員對本發明之技術特徵及所達到 201120695 之功效有更進一步之瞭解與認識,謹佐以較佳之實施例 及配合#平細之說明如後。 【實施方式】 以下將參照相關圖式,說明依本發明較佳實施例之 輸入裝置’為使便於理解,下述實施例中之相同元件係 以相同之符號標示來說明。 請參閱圖1所示,其係為本發明之輪入裝置之較佳 實施例之元件關聯示意圖。圖中,本發明之輸入裝置(ι〇) 主要包含有一太陽能模組(12)、一偵測模組(14)及一 輸入模組(16),且該輸入模組(1〇)亦可與一二次電池 (20)及一電子裝置(3〇)具有電信連結。其中,該輸 入A置(10)可為觸碰式面板或按鍵結構(圖未示),且 按鍵結構更可進-步為單—個體、—維排列或 之態樣。 …該太陽能漁(12)主要可吸收環境的光源,並將 光源轉換成具有電流電壓之電力,以供給該二次電池 (20)進行充電,或者提供該電子裝置(3〇)所需之電 該偵測模組(14)可與該太陽能模組(12)具有气 號連結,且亦可與該輸人模組(16)具有訊號連結,售 =陽能模組接㈣環境光料,經由轉換而形成具有 陽-h二Γ 杈組(14)主要可偵測該太 1W吴、、且(12)所轉換形成電力之電流電壓值。其中, 201120695 該偵測模組可為電流偵測器、電壓偵測器或其他等效之 元件。 當該太陽能模組(12)產生之電流電壓值或電流電 壓值之改變量超過一預設範圍值時,該偵測模組() 將使該輸入模組(16)激發產生一輸入訊號(16〇),並 將該輸入訊號(160)傳遞該所搭配之該電子裝置(3〇) 上。舉例來說,當使用者欲於該電子裝置(3〇)上輸入 訊息時,該使用者可利用手指遮蔽於所對應按鍵之該太 月b模組(12 )上。此時,對應之該太陽能模組(12 ) 因為被使用者之手指完全或者是部分遮蔽,而導致可接 受光源的面積下降,甚至完全阻絕。因此該太陽能模組 (12)產生電力之電流電壓值相對將會下降或無法產生 電力,而該偵測模組(14)則將會使該輸入模組(16) 激發而產生該輸入訊息(160),並將該輸入訊息傳遞至 该電子裝置(30)中,使該電子裝置進行對應該輸入訊 息(160)的功能或作用。其中,該太陽能模組(12)可 搭配一色素層(120)(請參閱圖2所示),其不僅可增添 整體之美觀,更可區分所對應於不同的輸入模組(16) 所可產生輸入訊號(160)。 請參閱圖3所示,其係為本發明之太陽能模組與背 光模組搭配之較佳實施例示意圖。圖中,該太陽能模組 (12 )與一背光模組(18 )結合,本實施例中,該背光 模組(18)主要嵌合於該太陽能模組(12)中。當使用 201120695 者於操作本發明時,若當時的環境光源不夠充足時,使 用者即可啟動該背光模組(18)(如led),藉由該背光 模組(18)提供該太陽能模組(12)所需之光源。然而 該背光模組(18)所產生之光源並非全部會由該太陽能 模組(12)所吸收,其產生光源之部份將會散射至外界。 而當使用者欲想使用該輸入裝置(1〇)時,使用者之手 指於靠近該太陽能模組(12)時,該背光模組之光線將 恥映於使用者之手指上,且照映於該手指上之光線將有 1份會折射回至該太陽能模組(12)上。此時該太陽能 核組(12 )產生電力之電流電壓值或電流電壓值之變化 量超過該偵測模組(14)之預設範圍值,該偵測模組(14) 亦將會使該輸入模組(16)激發而產生該輸入訊息 (160),並將該輸入訊息傳遞至該電子裝置(3〇)中, 使該%子裝置進行對應該輸入訊息()的功能或作用。 »請參閱圖4所示’其係為本發明之太陽能模組與背 光模組搭配之另一較佳實施例示意圖。圖中,該太陽能 =組(12)與一背光模組(18 )結合,本實施例中,該 为光模組(18)主要可分佈設置於該太陽能模組(12) 之上方。當使用者於操作本發明時,若當時的環境光源 不夠充足/寺’使用者即可啟動該背光模組(18)(如 LED),藉由該背光模組(18)提供該太陽能模組(⑵ 所需之光源。然而該背光模組(18)所產生之光源並非 全部會由該太陽能模組(12)所吸收,其產生光源之部 知將會散射至外界。而當使用者欲想使用該輸入裝置 201120695 (10)時,使用者之手指於靠近該太陽能模組(12)時, 該背光模組之光線將照映於使用者之手指上,且照映於 該手指上之光線將有部份會折射回至該太陽能模組(12) 上。此時該太陽能模組(12 )產生電力之電流電壓值或 電流電壓值之變化量超過該偵測模組(14)之預設範圍 值,该偵測模組(14)亦將會使該輸入模組(16)激發 而產生该輸入訊息(160),並將該輸入訊息傳遞至該電 子1置(3〇)中’使該電子裝置進行對應該輸入訊息(16〇) 擎的功能或作用。 以上所述僅為舉例性,而非為限制性者◊任何未脫 離本發明之精神與範疇,而對其進行之等效修改或變 更’均應包含於後附之申請專利範圍中。 【圖式簡單說明】 藝圖1係為本發明之輸入裝置之較佳實施例之元件關聯 不意圖; 圖2係為本發明之太陽能模組與色素層搭配之示意圖; 圖3係為本發明之太陽能模組與背光模組搭配之較佳 實施例示意圖; 圖4係為本發明之太陽能模組與背光模組搭配之另一 較佳實施例示意圖。 【主要元件符號說明】 201120695 10 輸入裝置 12 太陽能模組 120 色素層 14 偵測模組 16 輸入模組 160 輸入訊號 18 背光模組 20 二次電池 30 電子裝置201120695 VI. Description of the Invention: [Technical Field] The present invention relates to an input device using a solar module, and particularly relates to controlling the input device by generating a current and a voltage by a solar module. [Prior Art] The evolution of technology has led to the proliferation of mobile electronic products, which have become the mainstream electronic products of the 21st century. And this trend has also led to the development of notebook computers. In recent years, the development of notebook computers has progressed to the function of a touch screen, which is similar to the function of a tablet computer. A generally touch-enabled notebook computer includes a keyboard and a display panel coupled to the keyboard and having a touchable operation mode. Because of this, there are two ways to use such a notebook computer: one is to use the keyboard to achieve the function of the notebook computer; the other is to use the touch display panel to complete the data processing by omitting the use of the keyboard. Handheld mode. At present, touch panels can be roughly divided into resistive, capacitive, infrared and ultrasonic touch panels. Among them, resistive touch panels and vane touch panels are the most common products. Capacitive touch panels: The multi-touch feature provides a more user-friendly operation mode, and the capacitive touch panel is gradually favored by the market. 201120695 Furthermore, many manufacturers are now committed to the development of solar power generation, and the current power generation efficiency of solar energy is gradually increasing, making its application gradually wider. Therefore, the inventor of this case has gradually raised the advantages of solar energy for free, and with the current environmental awareness of pollution-free. Based on years of research and development and many practical experiences, an input device using solar modules was proposed to increase the use of solar energy. SUMMARY OF THE INVENTION In view of the above-mentioned problems of the prior art, it is an object of the present invention to provide a current and voltage generated by using solar energy to control the generation of an input signal. In order to achieve the above object, an input device using a solar module is disclosed in the present invention, which comprises a solar module, a detecting module and an input module. The solar module can absorb the light source and generate a power with a current and voltage. The detection module and the solar module have a signal connection, and the detection module can also have a signal connection with the input module. . The detection module can detect the current and voltage values of the solar module. When the current voltage value or the current voltage value of the solar module changes by more than a predetermined range, the detection module will enable The input module is activated to generate an input signal and transmit the input signal to the associated electronic device. According to another aspect of the present invention, a present invention is provided that can be used under low light conditions. The solar module can be combined with a backlight module to absorb light generated by the backlight module to make the solar module 201120695 generates electricity with current and voltage, so that the function of the input device can be carried out. According to still another object of the present invention, an input device having environmental protection and pollution is proposed. In addition, the present invention further proposes a design that can increase the use of solar modules. As described above, the input device according to the present invention has one or more of the following advantages: (1) The input device has a solar module, and the solar module absorbs the amount of change in current and voltage generated by the ambient light source. Control the role of the input module. (2) The solar module of this input device can have a pigment layer, which can not only add a variety of colors, but also divide into different regions. _ (3) The solar module of the input device can charge the secondary battery or directly supply the power source of the electronic device. (4) The input device can be used with a backlight module to supplement the required light source by using a backlight module in a natural environment. In order to give your reviewers a better understanding of the technical features of the present invention and the efficacy of the 201120695, please refer to the preferred embodiment and the description of the #平细. [Embodiment] Hereinafter, the same components in the following embodiments will be described with the same reference numerals in order to facilitate understanding. Referring to Figure 1, there is shown a schematic diagram of the components associated with a preferred embodiment of the wheeling device of the present invention. The input device (1) of the present invention mainly includes a solar module (12), a detection module (14) and an input module (16), and the input module (1) can also be used. It has a telecommunications connection with a secondary battery (20) and an electronic device (3〇). Wherein, the input A (10) can be a touch panel or a button structure (not shown), and the button structure can be further step-by-individual, - dimensional arrangement or aspect. ...the solar fishing (12) mainly absorbs the light source of the environment, and converts the light source into electric power with current and voltage to supply the secondary battery (20) for charging, or provide the electric power required for the electronic device (3〇) The detection module (14) can be connected to the solar module (12) by an air number, and can also be connected to the input module (16) by a signal connection, and the solar energy module can be connected to the (4) ambient light material. The current-voltage value formed by the conversion is formed by the group of positive-h diodes (14) which can mainly detect the power generated by the conversion of the 1W, and (12). Among them, 201120695, the detection module can be a current detector, a voltage detector or other equivalent components. When the current voltage value or the current voltage value generated by the solar module (12) exceeds a predetermined range value, the detecting module () will cause the input module (16) to generate an input signal ( 16〇), and the input signal (160) is transmitted to the electronic device (3〇) to which it is paired. For example, when the user wants to input a message on the electronic device (3〇), the user can use a finger to shield the corresponding month b module (12) of the corresponding button. At this time, the corresponding solar module (12) is completely or partially shielded by the user's finger, so that the area of the light source that can be accepted is reduced or even completely blocked. Therefore, the current voltage value of the power generated by the solar module (12) will be relatively low or the power cannot be generated, and the detecting module (14) will activate the input module (16) to generate the input message ( 160) and transmitting the input message to the electronic device (30) to cause the electronic device to perform a function or function corresponding to the input message (160). The solar module (12) can be combined with a pigment layer (120) (see FIG. 2), which not only adds an overall aesthetic, but also distinguishes between different input modules (16). An input signal (160) is generated. Please refer to FIG. 3, which is a schematic diagram of a preferred embodiment of the solar module and the backlight module of the present invention. In the figure, the solar module (12) is combined with a backlight module (18). In this embodiment, the backlight module (18) is mainly embedded in the solar module (12). When using the 201120695 to operate the present invention, if the ambient light source at that time is insufficient, the user can activate the backlight module (18) (such as led), and the solar module is provided by the backlight module (18). (12) The required light source. However, not all of the light sources generated by the backlight module (18) are absorbed by the solar module (12), and portions of the light source that are generated will be scattered to the outside. When the user wants to use the input device (1〇), when the user's finger approaches the solar module (12), the light of the backlight module will be shameful on the user's finger and illuminated. One of the light rays on the finger will be refracted back onto the solar module (12). At this time, the current voltage value or the current voltage value of the power generated by the solar core group (12) exceeds the preset range value of the detection module (14), and the detection module (14) will also make the The input module (16) is activated to generate the input message (160), and the input message is transmitted to the electronic device (3A), so that the % sub-device performs the function or function corresponding to the input message (). Please refer to FIG. 4 for a preferred embodiment of the solar module and the backlight module of the present invention. In the figure, the solar panel (12) is combined with a backlight module (18). In this embodiment, the optical module (18) is mainly disposed above the solar module (12). When the user operates the present invention, if the ambient light source is insufficient, the temple module user can activate the backlight module (18) (such as an LED), and the solar module is provided by the backlight module (18). ((2) The required light source. However, not all of the light source generated by the backlight module (18) will be absorbed by the solar module (12), and the part that generates the light source will be scattered to the outside world. When the input device 201120695 (10) is used, when the user's finger approaches the solar module (12), the light of the backlight module will be illuminated on the user's finger and illuminated on the finger. A portion of the light will be refracted back to the solar module (12). At this time, the current voltage value or current voltage value generated by the solar module (12) exceeds the detection module (14). The detection module (14) will also activate the input module (16) to generate the input message (160) and transmit the input message to the electronic 1 (3〇). 'Make the electronic device perform the function or work corresponding to the input message (16〇) The above description is intended to be illustrative, and not restrictive, and any equivalents and modifications may be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a schematic diagram of the components of the preferred embodiment of the input device of the present invention; FIG. 2 is a schematic view of the solar module of the present invention in combination with the pigment layer; FIG. 4 is a schematic diagram of another preferred embodiment of the solar module and the backlight module of the present invention. [Main component symbol description] 201120695 10 Input device 12 Solar module 120 pigment layer 14 detection module 16 input module 160 input signal 18 backlight module 20 secondary battery 30 electronic device