1358183 case2 24276twf.doc/006 九、發明說明: 【發明所屬之技術領域】 本發明是有關於-種電力供應系統,且特別是有關於 一種具有伺服光源(servo light source)的電力供應系統。 【先前技術】 一般電子設備大多由外來之交流電源提供電能而進 行運作,但因為地球石油的蘊藏量可能只能再供應約5〇 年就即將枯竭,再加上一氧化碳所造成的溫室效應對地球 環境造成的威脅,例如全球海平面的上升,全球氣候異常 等,使得乾淨能源的運用與發展成為未來必走的趨勢,其 中又以太陽能最受到歡迎與期待,且近年來,太陽能電池 的光電轉換效率也持續而顯著地提昇,生產成本也逐漸降 低’所以漸漸有設備配備太陽能電池裝置的產品出現。然 而’此類產品通常只能在日照或光線充足的地方使用,在 應用上受到一些侷限’同時這些太陽能電池裝置僅單純作 為發電與供電之用’並未對使用者或是管理者帶來其他的 附加價值。 【發明内容】 本發明提供一種具有伺服光源之電力供應系統,其在 曰照或是光線不充足的環境下仍能正常使用。 本發明提供一種電力供應系統,適於供應電能至一設 備’此電力供應系統包括一伺服光源(servo light source)以 5 13581831358183 case2 24276twf.doc/006 IX. Description of the Invention: [Technical Field] The present invention relates to a power supply system, and more particularly to a power supply system having a servo light source. [Prior Art] Most of the general electronic equipment is operated by the external AC power supply, but because the earth's oil reserves may only be supplied for about 5 years, it will be exhausted, plus the greenhouse effect caused by carbon monoxide on the earth. The threats caused by the environment, such as the rise of global sea level and global climate anomalies, make the use and development of clean energy a must-see trend in the future. Among them, solar energy is the most popular and expected, and in recent years, the photoelectric conversion of solar cells The efficiency has also continued to increase significantly, and the production cost has gradually decreased. 'So there are products with equipment equipped with solar cell devices. However, 'such products are usually only used in sunny or well-lit areas, and there are some limitations in application. 'These solar cell devices are only used for power generation and power supply' and do not bring other users or managers. Added value. SUMMARY OF THE INVENTION The present invention provides a power supply system having a servo light source that can still be used normally in an environment where lighting or insufficient light is sufficient. The present invention provides a power supply system adapted to supply electrical energy to a device. The power supply system includes a servo light source to 5 1358183
case2 24276twf.doc/006 及一太陽能電池模組。此太陽能電池模組配置於設備上並 與設備電性連接,且太陽能電池模組位於伺服光源的照明 範圍内’且太陽能電池模組適於接收伺服光源所發出的光 線,並將光線轉換成電能。 在本發明之一實施例中,上述之伺服光源包括一發光 二極體(Light Emitting Diode,LED),其所發出之光線包括 可見光或非可見光,而非可見光包括紫外光或紅外光。 在本發明之一實施例中,上述之伺服光源包括一發光 ,極體以及一與發光二極體電性連接之第一控制器,而太 陽旎電池模組包括一太陽能電池以及一與太陽能電池電性 連接之第二控制器’第—控制器適於致能發光二極體以產 生一通訊光。太陽能電池適於接收通訊光,且第二控制器 適於根據太陽能電池所接收之通訊光來控制設備。 在本,明之-實施例中,上述之太陽能電池模組更包 括一儲能器,其與太陽能電池電性連接。 在士發明之—實施例中’上述之電力供應系統更包括 -感應器,其與第-控制器電性連接,而第—控制器適於 根據感測||之_結果致_服統,以使舰光源產生 述之感應器包括—光感應器、—聲音感應器、 一震動感應③、—動作感難,或是-溫度感廡器。 白實施例中’上述之設備包括—販賣機、 -撒、一電玩機、—電動夾物機、一溫度調節器、 -撒水裝置一顯示裝置、—影像擷取 或是-警報裝置。 6 1358183 case2 24276twf.doc/006 ^在本發明之—實施例中’上述之伺服光源更包括一與 第一控制器電性連接之光學辨識單元,且光學辨識單元用 來It視設備。 本發明之電力供應系統藉由伺服光源及太陽能電池 扠組來提供電力給設備,具有隨時可提供電能給設備 2〇〇’不受天氣及黑夜限制的優點。此外,在部分實施例中 的電力供應系統可藉由伺服光源發出的訊號光及太陽能電 池模組的接收,來遙控設備,具有智慧型控制的優點。 為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂,下文特舉實施例,並配合所附圖式作詳細說明如下。 【實施方式】 【第一實施例】 圖1為本發明第一實施例之電力供應系統的示意圖。 凊參照圖1 ’本實施例之電力供應系統100適於供應電能 至一設備200,且電力供應系統10〇包括一伺服光源n〇 以及一太陽能電池模組120。太陽能電池模組120配置於 設備200上並與設備200電性連接,而太陽能電池模組12〇 位於徇服光源110的照明範圍内,且太陽能電池模組12〇 適於接收伺服光源110所發出的光線15〇,並將光線15〇 轉換成電能。由於本實施例之電力供應系統1〇〇結合了伺 服光源110及太陽能電池模組120,因此,電力供應系統 100隨時可提供電能給設備200,且不受環境光線充足與否 的影響。 7 case2 24276twf.doc/006 上述之伺服光源110包括發光二極體(Light Emi Diode’ LED)’其所發出之光線15G包括可見光或非可見 光,而非可見光包括紫外域紅外光。舉娜說,本實施 例之設備200為一販賣機,其配有太陽能電池模組12〇, 此太陽能電池模組120能接受由伺服光源11〇中的發光二 極體112所發出的光線150,並將光能轉換為電能,以供 電給販賣機。 〃 目前市面上的太陽能電池模組12〇大多能吸收並轉換 可見光、近紫外光及近紅外光。若伺服光源il〇中的發光 二極體為紅外光發光二極體時,因為其所發出的光線150 是非可見光,人眼看不見,所以具有不良意圖的人不易對 a又備200的供電系統進行破壞。由上述可知,若飼服光源 所發出的光線為非可見光’本實施例之電力供應系統1〇〇 便具有相當的隱密性。 本實施例的相關應用很廣,設備200除了可以是販賣 機外’运可以疋自動提款機、自動植員機(Automatic Teller Machine,ATM)、電玩機、電動夾物機、溫度調節器、顯 示裝置、影像擷取裝置、通訊裝置或是警報裝置等等。其 中自動提款機通常僅有提款、查詢及轉帳功能,而自動櫃 員機通常包括提款、查詢、轉帳、存款,甚至收受票據功 能。 【第二實施例】 圖2為本發明第二實施例之電力供應系統100a的示意 1358183 easel 24276twf.doc/006 圖。請參照圖2,本實施例之伺服光源11〇包括一發光二 極體112以及一與發光二極體112電性連 114。太陽能電池模組120包括一太陽能電池122以及一^ 太陽能電池122電性連接之第二控制器124。第一控制^ 114與第二控制器124可以使得伺服光源11〇及太陽能電 池模組120產生智慧型控制的功能。 舉例來說’當電力供應系統1〇〇a應用於庭園造景設施 時,汉備200可為庭園中的多盞照明燈,此時,若要開啟 攻些照明燈(設備200),使用者可藉由觸控式開關、遮 斷式開關或遙控器等方式來啟動第一控制器114,再由第 控制°。114致施發光二極體112發出通訊光150a。當照 明燈(設備200)上的太陽能電池122接受到通訊光15〇a 後,與太陽能電池122電性連接的第二控制器124便會依 據此通訊光15〇a來控制照明燈(設備2〇〇)的點亮狀況。如 此一來,使用者便可同時打開多盞照明燈。 一立圖3為本發明第二實施例之電力供應系統1〇〇b的另一 不忍圖。请參照圖3 ’本實施例之電力供應系統100b還可 。包括一與第一控制器Π4電性連接之感應器116,此感應 器116例如是光感應器,其例如是配置於庭園中,當光感 應益感測到環境光線不足時,例如傍晚天黑,與光感應器 電性連接的第-控制H 114便致能發光二極體112產生通 =光15〇a ’而庭園中的多盞照明燈(即設備200)上的太陽 此電池&122在接受到通訊光150a之後,便由第二控制器 124致旎照明燈(設備200)。換言之,伺服光源11〇不但能 9 case2 24276twf.doc/006 同時打開多盞照明燈,還兼具智慧型自動控制的 、上述之感應H 116除了是域應器之外,還可 音感應器、震域應器、動減測H,或是 ^。 庭園中的照明燈外,還可以是:i ΐ警;顯示裝置、影像操取装置、通訊裝置或 本實施例之庭園中的照明燈中的太陽能電池模植12〇 更可包括-儲能器126 ’此儲能器126與太陽能電池122 =性連接,意即電力供應系統祕可具有儲能的功能。此 m能儲存由太陽能電池122於白天轉換太陽能所 生的電能,所以庭園中的照明燈可具有電力自給的能 力,無需配設額外的電線,故設置較為方便。 本實施例中的通訊光·,可以是以特定的明滅模式 來呈現’如高蝴爍光、低頻_光等’其原理與光纖通 訊相近。此外,通訊光150a可以具有單一的閃爍頻率,也 可以具有多重的閃爍頻率。當然,通訊光150a也可以是以 不同色溫或不同波長來呈現。意即,不同色溫或波長的光 線分別代表不同的通訊光150a,其原理類似應用於光纖通 訊技術中的波長多工器(Wavelength Division Multiplexer 的多波同時傳輸多重訊號的技術。當然,此通訊光 l5〇a可以是可見光,也可以是非可見光(如紫外光或紅外 光)。 本實施例中的電力供應系統l〇〇a更包括一與第一控 制器114電性連接的光學辨識單元118 (例如:監視器), 1358183 case2 24276twf.doc/006 ΐ turn,卿⑽2G_點亮,而此監視 (光子辨識早7L 118)也可具有變焦鏡頭,所以能經一 控制器114來調整焦距,以監視遠距離或近距離的照明燈 (設備200)。換言之,電力供應系統1〇〇&中 元118與設備200之間的便存在雙向的溝通。 5Case2 24276twf.doc/006 and a solar cell module. The solar cell module is disposed on the device and electrically connected to the device, and the solar cell module is located within the illumination range of the servo light source' and the solar cell module is adapted to receive the light emitted by the servo light source and convert the light into electrical energy. . In an embodiment of the invention, the servo light source comprises a light emitting diode (LED), and the light emitted by the light source comprises visible light or non-visible light, and the non-visible light comprises ultraviolet light or infrared light. In an embodiment of the invention, the servo light source comprises a light emitting body, a pole body and a first controller electrically connected to the light emitting diode, and the solar battery module comprises a solar cell and a solar cell. The electrically coupled second controller 'the first controller is adapted to enable the light emitting diode to generate a communication light. The solar cell is adapted to receive communication light and the second controller is adapted to control the device based on communication light received by the solar cell. In the present invention, the solar cell module further includes an energy storage device electrically connected to the solar cell. In the embodiment of the invention, the power supply system further includes an inductor electrically connected to the first controller, and the first controller is adapted to be based on the result of the sensing | The sensor for generating the ship light source includes a light sensor, a sound sensor, a vibration sensor 3, a motion sense, or a temperature sensor. In the white embodiment, the apparatus described above includes a vending machine, a sprinkler, a video game machine, an electric chucking machine, a temperature adjuster, a sprinkler device, a display device, an image capture device, or an alarm device. 6 1358183 case2 24276twf.doc/006 ^ In the embodiment of the present invention, the servo light source further includes an optical identification unit electrically connected to the first controller, and the optical identification unit is used for the It vision device. The power supply system of the present invention provides power to the device by means of a servo light source and a solar battery fork set, and has the advantage of providing power to the device at any time without being restricted by weather and night. In addition, the power supply system in some embodiments can remotely control the device by receiving the signal light from the servo light source and the solar battery module, and has the advantage of intelligent control. The above and other objects, features, and advantages of the present invention will become more apparent from the understanding of the appended claims. [Embodiment] FIG. 1 is a schematic diagram of a power supply system according to a first embodiment of the present invention. Referring to Figure 1 'the power supply system 100 of the present embodiment is adapted to supply electrical energy to a device 200, and the power supply system 10A includes a servo light source n〇 and a solar battery module 120. The solar cell module 120 is disposed on the device 200 and electrically connected to the device 200, and the solar cell module 12 is located within the illumination range of the service light source 110, and the solar cell module 12 is adapted to receive the servo light source 110. The light is 15 turns and the light 15 turns into electricity. Since the power supply system 1 of the present embodiment combines the servo light source 110 and the solar battery module 120, the power supply system 100 can supply power to the device 200 at any time without being affected by the sufficient or insufficient ambient light. 7 case2 24276twf.doc/006 The above-mentioned servo light source 110 includes a light emitting diode (Light Emi Diode' LED), which emits light 15G including visible light or non-visible light, and non-visible light includes ultraviolet-field infrared light. The device 200 of the present embodiment is a vending machine equipped with a solar cell module 12, which can receive the light 150 emitted by the LEDs 112 in the servo light source 11A. And convert the light energy into electrical energy to supply power to the vending machine. 〃 Most of the solar cell modules currently on the market can absorb and convert visible light, near-ultraviolet light and near-infrared light. If the light-emitting diode in the servo light source il is an infrared light-emitting diode, since the light 150 emitted by the light source is non-visible and invisible to the human eye, it is difficult for a person with a bad intention to perform a power supply system for a 200. damage. As can be seen from the above, if the light emitted from the light source is non-visible, the power supply system 1 of the present embodiment has considerable privacy. The related application of this embodiment is very wide, and the device 200 can be an automatic teller machine, an automatic teller machine (ATM), a video game machine, a motorized loader, a temperature regulator, in addition to a vending machine. Display device, image capture device, communication device or alarm device, and the like. Among them, ATMs usually only have withdrawal, inquiry and transfer functions, while ATMs usually include withdrawals, inquiries, transfers, deposits, and even receipts. [Second Embodiment] Fig. 2 is a diagram showing the 1358183 easel 24276twf.doc/006 of the power supply system 100a according to the second embodiment of the present invention. Referring to FIG. 2, the servo light source 11A of the present embodiment includes a light emitting diode 112 and an electrical connection 114 with the light emitting diode 112. The solar cell module 120 includes a solar cell 122 and a second controller 124 electrically connected to the solar cell 122. The first control 114 and the second controller 124 can cause the servo light source 11 and the solar battery module 120 to generate a smart control function. For example, when the power supply system 1〇〇a is applied to a garden landscaping facility, the Hanbei 200 can be a multi-lamp in the garden. At this time, if the lighting is to be turned on (the device 200), the user The first controller 114 can be activated by a touch switch, a break switch or a remote controller, and then controlled by the first. The light-emitting diode 112 emits communication light 150a. When the solar cell 122 on the illumination device (device 200) receives the communication light 15〇a, the second controller 124 electrically connected to the solar cell 122 controls the illumination lamp according to the communication light 15〇a (device 2 〇〇) The lighting condition. As a result, the user can turn on multiple lights at the same time. Fig. 3 is another diagram of the power supply system 1b of the second embodiment of the present invention. Referring to Fig. 3, the power supply system 100b of the present embodiment is also available. The sensor 116 is electrically connected to the first controller Π4, and the sensor 116 is, for example, a light sensor, which is configured, for example, in a garden. When the light sensor senses that the ambient light is insufficient, for example, it is dark in the evening. The first control H 114 electrically connected to the light sensor enables the light emitting diode 112 to generate a pass light 15 〇 a 'the sun on the multi-turn illumination lamp (ie device 200) in the garden. After receiving the communication light 150a, the second controller 124 activates the illumination (device 200). In other words, the servo light source 11 can not only turn on multiple lights at the same time, but also intelligently control the above-mentioned sensing H 116 in addition to the domain responder, and can also be a sound sensor, The earthquake domain should be measured, the motion reduction test H, or ^. In addition to the illumination lamps in the garden, the display device, the image manipulation device, the communication device, or the solar cell in the illumination lamp in the garden of the embodiment may further include an energy storage device. 126 'This energy storage device 126 is sexually connected to the solar cell 122, meaning that the power supply system has the function of storing energy. This m can store the electric energy generated by the solar cell 122 during the day to convert the solar energy, so the illumination lamp in the garden can have the power self-sufficiency, and it is not necessary to provide additional wires, so the setting is convenient. The communication light in this embodiment can be presented in a specific ambiguous mode, such as high-bright light, low-frequency ray, etc., and the principle is similar to that of optical fiber communication. Further, the communication light 150a may have a single flicker frequency or multiple flicker frequencies. Of course, the communication light 150a can also be presented at different color temperatures or different wavelengths. That is to say, light of different color temperature or wavelength respectively represents different communication light 150a, and the principle is similar to that applied to a wavelength multiplexer in the optical fiber communication technology (Wavelength Division Multiplexer multi-wave simultaneous transmission of multiple signals. Of course, this communication light The power supply system 10a in this embodiment further includes an optical identification unit 118 electrically connected to the first controller 114 ( For example: monitor), 1358183 case2 24276twf.doc/006 ΐ turn, Qing (10) 2G_ light, and this monitoring (photon identification 7L 118) can also have a zoom lens, so the focus can be adjusted by a controller 114 Monitoring of long-range or close-range lights (device 200). In other words, there is a two-way communication between the power supply system 1 & medium 118 and the device 200.
…综上所述’本發明所提供之電力供應系統可藉由飼服 光源及太陽能電池模組,來隨時提供電能給設備不受環 境光線充足與糾影響。本發明之電力供應祕也能夠藉 由祠服錢發$的賴光及太陽能電池的接收,來控 制設備,可配備儲能器,儲存太陽能電_ ϋ㈣‘ 延長太陽能電池的供電_ ’並且還可結合多種感應器的 自動感測功能,來達到具有智慧型自動控制的優點。In summary, the power supply system provided by the present invention can provide power to the device at any time by the feeding light source and the solar battery module to protect the device from ambient light. The power supply secret of the present invention can also control the device by accepting the payment of the money and the reception of the solar battery, and can be equipped with an energy storage device to store the solar energy _ ϋ (4) 'extend the power supply of the solar battery _ 'and Combine the automatic sensing function of a variety of sensors to achieve the advantages of intelligent automatic control.
雖然本發明已以實施例揭露如上,然其並非用以限定 本發明,任何所屬技術領域中具有通常知識者,在不脫離 本I明之精神和範圍内,當可作些許之更動與潤飾,故本 發明之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1為本發明第一實施例之電力供應系統的示意圖。 圖2為本發明第二實施例之電力供應系統的示意圖。 圖3為本發明第二實施例之電力供應系統的另一示意 圖0 【主要元件符號說明】 11 1358183 case2 24276twf.doc/006 100、100a、100b :電力供應系統 110 :伺服光源 112 :發光二極體 114 :第一控制器 116 :感應器 118 :光學辨識單元 120 :太陽能電池模組 122 :太陽能電池 124 :第二控制器 126 :儲能器 150 :光線 150a :通訊光 200 :設備The present invention has been disclosed in the above embodiments, and is not intended to limit the present invention. Any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the present invention. The scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a power supply system according to a first embodiment of the present invention. 2 is a schematic diagram of a power supply system according to a second embodiment of the present invention. 3 is another schematic diagram of a power supply system according to a second embodiment of the present invention. [Main component symbol description] 11 1358183 case2 24276twf.doc/006 100, 100a, 100b: power supply system 110: servo light source 112: light emitting diode Body 114: first controller 116: sensor 118: optical identification unit 120: solar battery module 122: solar battery 124: second controller 126: energy storage 150: light 150a: communication light 200: equipment
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