201233238 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種燈光控制裝置’尤其關於一種觸碰式 燈光控制裝置。 【先前技術】 圖1顯示習知電燈開關裝置的立體圖。如圖1所示,電 燈開關裝置1包含一開關本體1卜一按壓板12及一蓋板15。 蓋板15界定出一開口(opening),按壓板12設於該開口内, 並連接開關本體11。習知的電燈開關裝置1是機械式結構, 按壓板12能夠被切換成開啟狀態或關閉狀態,用以控制開 關本體11 ’且前述開口的面積應大於按壓板12的面積,以 使按壓板12與蓋板15間留有間隙,避免切換過程中按壓板 12被卡住於前述開口内。 一般而言’電燈開關裝置1會被裝設於牆壁中,供使用 者按壓以開啟電燈(未圖示)。在例如旅館、醫院等的公共 空間,常被不同的使用者按壓,因此需要經常地清潔,以避 免細茵的傳染。然而,電燈開關裝置丨之按壓板12與蓋板 b間留有間隙,於清潔時清潔液容易流進間隙内,而損壞開 201233238 關本體11中的電路,而増加清潔電燈開關裝置i的麻煩。 再者,於例如旅館專強調美觀的環境中,電燈開關裝置 I的圖案無法任意地改變,缺乏設計上的彈性,無法融入設 計師的設計中。因此,習知的電燈開關裝置i尚存在有更一 步改善的空間。 【發明内容】 • 本發明一實施例之目的在於提供一種觸碰式燈光控制 裝置及觸碰式燈光控制模組。一實施例之目的在於提供一種 能夠回復前次儲存之電燈亮度值的觸碰式燈光控制裝置及 觸磁式燈光控制模組。一實施例之目的在於提供一種能夠簡 便更換平板之觸碰式燈光控制模組。 依據本發明一實施例,提供一種燈光控制裝置適於控制 一電燈。燈光控制裝置一觸碰感測模組、一指示燈模組、一 電源相位控制電路及一微處理器。 _ 觸碰感測模組包含第-觸碰感測器及第二觸碰感測 益,且第一觸碰感測器及第二觸碰感測器適於感測一觸碰狀 !、並產生一觸碰訊號。指示燈模組包含多數的發光二極體單 疋。電源相位控制電路用以控制電燈的亮度。微處理器包含 暫存器,暫存器齡有—電燈亮度值,且喊理器依據觸 碰魏控制電馳健織路,錄據紐的亮度決定相關 201233238 連之該些發光二極體單元。當第一觸碰感測器及第二觸碰感 測器同時感測到被觸碰時,微處理器指示電源相位控制電路 依據儲存於暫存器的電燈亮度值,開啟電燈並將電燈的亮度 調整至該電燈売度值,指示燈模組依據該電燈亮度值,開啟 相關連之該些發光二極體單元並調整相關連之該些發光二 極體單元的焭度。當僅有第一觸碰感測器感測到被觸碰且觸 碰時間小於-第i定觸碰_時,微處理器控制電源相位 • 控制電路於一第二預定時間内漸序開啟電燈,且微處理器控 制指示燈模組依據電燈之亮度值,開啟相關連之該些發光二 極體單7L並調整相關連之該些發光二極體單元的亮度。當僅 有第二觸碰感測器感測到被觸碰且觸碰時間小於一第三預 定觸碰時間時,微處理器控制電源相位控制電路於一第四預 定時間内漸序關電燈,且微處理!!控偏示燈模組依據電 燈之亮度值,開啟相關連之該些發光二極體單元並調整相關 連之該些發光二極體單元的亮度。 籲 依據本發明一實施例,提供-種燈光控制裝置燈光控制 楱組適於控制一電燈。燈光控制模組包含-前述燈光控制裝 置及—平板,且平板可拆卸地組裝於前述燈光控制裝置上。 平板包含-第-觸碰區、—第二觸碰區及—指示燈區,且第 :觸碰感測器的位置對應第—觸碰區的位置,第二觸碰感測 =。的位置對應第—觸碰區的位置’該些發光二極體單元的位 201233238 置對應指示燈區的位置。 於貫施例中,當僅有第一觸碰感測器感測到被觸碰且 觸碰時間大於或等於該第-預定觸碰時間時,微處理器控制 電源相位控制電路依據觸碰時間調亮電燈的亮度,並且將調 冗後之電燈的亮度儲存於暫存n中作為紐亮度值,且當僅 有第二觸碰感測器感測到被觸碰且觸碰時間大於或等於第 三預定觸辦間時’微處職控财_健路依據觸 碰時間調暗電燈的亮度,並且將調暗後之電燈的亮度儲存於 暫存器中作為電燈亮度值。 於一實施例中,當第一觸碰感測器及第二觸碰感測器於 一延遲期間内皆未感測到被觸碰時,且微處理器控制指示燈 模組以調暗相關連之該些發光二鋪單元的亮度至一省電 模式的亮度值。 本發明的其他目的和優點可峨本發崎揭露的技術 特徵中得到進-步的了解^為讓本發明之上述和其他目的、 特徵和優雜更_紐,下文特舉實施顺配合所附圖 式,作詳細說明如下。 【實施方式】 圖2A顯示將本發明一實施例之燈光控制裝置設置於膽 壁之開口的示意圖。圖2B顯示依據本發明_實施例,組裝 201233238 玻璃平板及燈光控制裝置時的正面示意圖。圖2C顯示依據 本發明一實施例’組裝玻璃平板及燈光控制裝置時的背面示 意圖。 如圖2C所示,依本發明一實施例之燈光控制模組1〇〇 包含一燈光控制裝置200及一玻璃平板300。燈光控制裝置 200包含一外般210及一蓋板220。外殼210設於蓋板220 的背面側,而燈光控制裝置200之部分電子元件(如後述) 設於外殼210内,以保護該些電子元件。 如圖2A所示,要將燈光控制模組1〇〇安裝於牆壁時, 先將燈光控制裝置200置於牆壁所界定出的一開口 11〇内, 並利用多個的螺絲120將燈光控制裝置2〇〇固定於牆壁。 如圖2B所示,隨後將玻璃平板3〇〇可拆卸地安裝於燈 光控制裝置200上。於本實施例中,蓋板220之至少一側邊 設有一第一"N句元件(hook slip element)211。如圖2C所示, 玻璃平板300之背面設有一第二卡鉤元件311。透過第__^ 鉤元件211及第一卡鉤元件311間的嗜合(engagement),能 夠將玻璃平板300固定於燈光控制裝置2〇〇上。當要更換玻 璃平板300時,僅需將拉開(pull)玻璃平板3〇〇,使第二卡 鉤元件311脫離第一-^鉤元件211,即可拆卸掉玻璃平板 3〇〇,並重新安裝新的玻璃平板300。藉由此設計,當前述牆 壁被貼上不同壁紙或變更設計圖案時,僅需簡便地更換新的 201233238 玻璃平板300,而無需更換整個燈光控制模組1〇〇。 再晴參照圖2C,玻璃平板300之背面更界定出一容置 空間313 ’蓋板220設置於容置空間313内^依據上述設計, 由於玻璃平板300具有平整的表面,當要清潔燈光控制模組 100時’清潔液不會侵蝕到燈光控制模組1〇〇内部的電路及 電子元件。 圖3顯示依據本發明一實施例之玻璃平板的示意圖。如 馨圖3所示,玻璃平板300設有一第一觸碰區331、一第二觸 碰區332以及一指示燈區333。於本實施例中,第一觸碰區 331、第一觸碰區332以及指示燈區333的形狀皆以方形作 為示例來加以說明’但本發明不限定於此。玻璃平板的 圖案可以依使用者自行設計,較佳的情況是可以依裝設有燈 光控制模組100之牆壁的圖案、顏色等來設計玻璃平板3〇〇 表面上的圖案。 圖4顯示依據本發明一實施例之燈光控制裝置的功能方 φ 塊圖。如圖4所示,燈光控制裝置200包含有一觸碰感測模 組230、一指示燈模組240、一微處理器250、一電源轉換電 路260、一電源相位控制(power phase control)電路270以 及一光耗合器(photo coupler) 280。蓋板220可以由一塑膠 板設於一印刷電路板上的結構來形成,且上述電子元件皆耦 接於蓋板220上的電路,並透過蓋板220相互耦接,一部分 201233238 電子元件設於蓋板220的前表面上,並且一部分電子元件設 於蓋板220的背面且位於外殼210内。於一實施例中,觸碰 感測模組230設於蓋板220的前表面。本領域具有通常知識 者能夠依產品設計’配置上述電子元件的位置,以下將省略 其配置方式的詳細說明。 電源轉換電路260用以將一外部的交流電源ac轉換為 一直流電源’且搞接於微處理器250,以提供微處理器250 鲁 大約為5v的直流電源DC以及一相位感測訊號(phase sensing signal) Ps。微處理器250耦接於觸碰感測模組23〇, 並依據觸碰感測模組230所感測到的觸碰訊號,輸出一亮度 控制訊號Lcs及一指示控制訊號Ics。 於本實施例中,為了保護微處理器250,使光耦合器280 耦接於微處理器250及電源相位控制電路270之間,微處理 器250透過光耦合器280傳送一亮度控制訊號Lcs至電源相 位控制(power phase control)電路 270。 * 一外部電燈400透過燈光控制裝置200的電源相位控制 (powerphase control)電路270耦接於交流電源AC的火線 (live)及中性線(neutral)。電源相控制電路270接受來自 微處理器250的亮度控制訊號Lcs,並依據亮度控制訊號Lcs 控制電燈400的亮度。指示燈模組240包含多個發光二極體 單元(LED),用以指示使用者目前電燈4〇〇的亮度值狀態。 201233238 指示燈模組240接受來自微處理器250的指示控制訊號ICS, 再依據指示控制訊號Ics開啟相關連(associated)之發光二 極體單元、並且調整相關連之發光二極體單元的亮度。 於本實施例中,觸碰感測模組230包含一第一觸碰感測 器231及一第二觸碰感測器232,且前述觸碰感測器可以分 別為一電容式觸碰感測器。並以指示燈模組240包含有5個 發光二極體單元(第一 LED 241〜第五LED 245)作為示例 g 加以說明。當燈光控制裝置2〇〇及玻璃平板300組裝在一起 時’第一觸碰感測器231的位置對應第一觸碰區331的位 置’第二觸碰感測器232的位置對應第二觸碰區332的位 置’而指示燈模組240的位置對應指示燈指區333的位置。 因此’當使用者觸碰第一觸碰區331及第二觸碰區332時, 第—觸碰感測器231及第二觸碰感測器232會分別感測到被 觸碰,並且輸出一觸碰訊號。 圖5顯示依據本發明一實施例之燈光控制方法的流程 • 圖。如圖5所示,微處理器250依據感測模組230所感測到 的觸碰訊號,決定感測模組230的被觸碰狀態。 當第一觸碰感測器231及第二觸碰感測器232同時感測 到被觸碰時’電源相位控制電路270依據儲存於暫存器251 的一已儲存電燈亮度值,開啟電燈400並將電燈400的亮度 調整至前述已儲存電燈亮度值,指示燈模組240依據前述已 201233238 儲存電燈亮度值’開啟相關連之LED並調整相關連之LED 的亮度。 更具體而言,微處理器250依據已儲存電燈亮度值,產 生顯不有已儲存電燈亮度值的一亮度控制訊號Lcs以及一指 示控制訊號Ics ’並決定相關連之LED。電源相位控制電路 270透過光耦合器280接收前述顯示有已儲存電燈亮度值的 壳度控制訊號Lcs ’開啟電燈4〇〇並將電燈4〇〇的亮度調整 # 至前述已儲存電燈亮度值。指示燈模組240依據前述顯示有 已儲存電燈亮度值的指示控制訊號Ics,開啟相關連之LED 並調整相關連之led的亮度。於一實施例中,使該些led 被點焭的顆數與電燈400的亮度成正比,例如關閉電燈400 時開啟第一 LED24卜當電燈400達最大(100%)亮度時開 啟第一 LED241〜第五LED245,當電燈400達60%亮度時 開啟第一LED241〜第三LED243,且第一 LED241的亮度 大於第二LED242的亮度大於第三LED243的亮度,使得該 籲#'LED❾亮度呈現漸層狀態。並且,當第一觸碰感測器231 及第二觸碰感測器232於1〇秒期間内皆未感測到被觸碰 時’調暗該些LED的亮度。 如上述,已詳細說明微處理器250利用亮度控制訊號 Lcs及心示控制机號ics,控制電源相位控制電路270及感測 模組230的方式,因此以下將省略相似步驟的詳細說明。 12 201233238 請再次參照圖5,當僅有第一觸碰感測器231感測到被 觸碰且觸碰時間小於1秒(第一預定觸碰時間)時,微處理 器250指示電源相位控制電路270於2秒(第二預定時間) 内漸序開啟電燈400 ’且要求指示燈模組240依據電燈400 之亮度值開啟相關連之LED並調整相關連之LED的亮度。 於本實施例中’於2秒内逐漸地開啟電燈400可以讓使用者 感受到電燈400之亮度的變化。於另一實施例中,第二預定 時間亦可以設成實質上為零秒。 當僅有第一觸碰感測器231感測到被觸碰且觸碰時間大 於或等於1秒(第一預定觸碰時間)時,微處理器25〇指示 電源相位控制電路270依據觸碰時間調亮電燈4〇〇的亮度。 接著’將調亮後之電燈亮度值儲存於暫存器251中。最後, 微處理器250要求指示燈模組240依據電燈400之亮度值開 啟相關連之LED並調整相關連之LED的亮度。 當僅有第二觸碰感測器232感測到被觸碰且觸碰時間小 於1秒(第三預定觸碰時間)時,微處理器25〇指示電源相 位控制電路270於3秒(第四預定時間)内漸序關閉電燈 400,且要求指示燈模組240依據電燈4〇〇之亮度值開啟相 關連之LED並調整相關連之LED的亮度。更具體而言,此 時’電燈400被關閉狀態’其亮度值為零,因此開啟第—LED 241,用以指示使用者燈光控制模組1〇0的位置。於本實施 201233238 例中,於3秒内逐漸地關閉電燈400可以讓使用者感受到電 燈400之亮度的變化。 當僅有第二觸碰感測器232感測到被觸碰且觸碰時間大 於或等於1秒(第三預定觸碰時間)時,微處理器250指示 電源相位控制電路270依據觸碰時間調暗電燈4〇〇的亮度。 接著,將調暗後之電燈亮度值儲存於暫存器251中。最後, 微處理器250要求指示燈模組240依據電燈400之亮度值開 φ 啟相關連之LED並調整相關連之LED的亮度。 當第一觸碰感測器231及第二觸碰感測器232於10秒 期間(延遲期間)内皆未感測到被觸碰時,微處理器250要 求指示燈模組240調暗相關連之LED的亮度至一省電模式的 亮度值’使指示燈模組240進入省電模式,以簡省電源。 圖6顯示依據本發明一實施例之燈光控制方法的流程 圖。於本實施例,亦可以不進行調光控制而僅進行電燈400 的開關控制’此種實施例中一個觸碰區及觸碰感測器可以控 % 制一個電燈,於下以第一觸碰區331及第一觸碰感測器231 控制電燈400為示例加以說明。 如圖6所示,當第一觸碰感測器231感測到被觸碰時, 微處理器250指示電源相位控制電路270進行撥動開關 (toggle switch)控制,亦即當電燈4〇〇呈關閉狀態時開啟電 燈400,當電燈400呈開啟狀態時關閉電燈4〇〇。 14 201233238 隨後,判斷電燈400是否呈開啟狀態’若呈開啟狀態時 關閉指示燈模組240。若呈關閉狀態時,再判斷是否為從開 啟至關閉的轉變(on/off tansition ),若“是”則在10秒之延 遲期間内的情況下,開啟指示燈模組240 ;且在超過10秒之 延遲期間的情況下調暗指示燈模組240中LED的亮度。 如上所述,依據本發明一實施例之燈光控制模組1〇〇, 能夠簡易地更換玻璃平板300,以配合牆壁的圖案、顏色。 鲁於一實施例中’當要清潔燈光控制模組1〇〇時,清潔液不會 侵姓到蓋板220上的電路及電子元件,減少燈光控制模組1〇〇 的損壞。於一實施例中,燈光控制裝置2〇〇能夠依使用者的 習慣,回復前次儲存之電燈亮度值,簡化使用者開啟電燈4〇〇 的步驟。 雖然本發明已以雛實施峨露如上,然其並非用以限 定本發明,任何熟習此技藝者,在不脫離本發明之精神和範 圍内’當可作麵之更動與_,耻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》另外,本發明的任一 實施例或申請專利範圍不須達成本發明所揭露之全部目的 或優點或特點。此外,摘要部分和標題僅是用來輔助專利文 件搜尋之用’麟絲關本發明之權利範圍。 【圖式簡單說明】 201233238 圖1顯示習知電燈開關裝置的立體圖。 圖2A顯示將本發明一實施例之燈光控制裝置設置於牆 壁之開口的示意圖。 圖2B顯示依據本發明一實施例,組裝玻璃平板及燈光 控制裝置時的正面示意圖。 圖2C顯示依據本發明一實施例,組裝玻璃平板及燈光 控制裝置時的背面示意圖。 Φ 圖3顯示依據本發明一實施例之玻璃平板的示意圖。 圖4顯示依據本發明一實施例之燈光控制裝置的功能方 塊圖。 圖5顯示依據本發明一實施例之燈光控制方法的流程 圖0 圖6顯示依據本發明一實施例之燈光控制方法的流程 圖。 【主要元件符號說明】 1電燈開關裝置 100 燈光控制模組 11 開關本體 n〇 開口 12 按壓板 16 201233238 螺絲 蓋板 燈光控制裝置 外殼 第一卡鉤元件 蓋板 感測模組 第一觸碰感測器 第二觸碰感測器 指示燈模組 第一 LED 第二 LED 第三LED 第四LED 第五LED 微處理器 暫存器 電源轉換電路 電源相位控制電路 光轉合器 玻璃平板 17 201233238 311 第二卡鉤元件 313 容置空間 331 第一觸碰區 332 第二觸碰區 333 指示燈區 400 電燈201233238 VI. Description of the Invention: [Technical Field] The present invention relates to a lighting control device, particularly to a touch-type lighting control device. [Prior Art] Fig. 1 shows a perspective view of a conventional electric light switch device. As shown in FIG. 1, the light switch device 1 includes a switch body 1 and a pressing plate 12 and a cover plate 15. The cover plate 15 defines an opening, and the pressing plate 12 is disposed in the opening and is connected to the switch body 11. The conventional light switch device 1 is of a mechanical structure, and the pressing plate 12 can be switched to an open state or a closed state for controlling the switch body 11' and the area of the opening should be larger than the area of the pressing plate 12 so that the pressing plate 12 is pressed. A gap is left between the cover plate 15 to prevent the pressing plate 12 from being caught in the opening during the switching. In general, the light switch device 1 is mounted in a wall for the user to press to turn on the light (not shown). In public spaces such as hotels, hospitals, etc., they are often pressed by different users, so they need to be cleaned frequently to avoid infection. However, there is a gap between the pressing plate 12 and the cover plate b of the light switch device, and the cleaning liquid easily flows into the gap during cleaning, thereby damaging the circuit in the body 11 of the 201233238, and the trouble of cleaning the light switch device i . Furthermore, in an environment where the hotel emphasizes aesthetics, for example, the pattern of the light switch device I cannot be arbitrarily changed, lacks design flexibility, and cannot be incorporated into the design of the designer. Therefore, there is still room for further improvement in the conventional light switch device i. SUMMARY OF THE INVENTION An object of an embodiment of the present invention is to provide a touch type light control device and a touch type light control module. It is an object of an embodiment to provide a touch light control device and a magnetic touch light control module capable of returning the brightness value of the previously stored light. It is an object of an embodiment to provide a touch light control module that can easily replace a flat panel. According to an embodiment of the invention, a lighting control device is provided for controlling an electric lamp. The lighting control device touches the sensing module, an indicator module, a power phase control circuit and a microprocessor. The touch sensing module includes a first touch sensor and a second touch sensor, and the first touch sensor and the second touch sensor are adapted to sense a touch! And generate a touch signal. The indicator module contains a large number of LEDs. The power phase control circuit is used to control the brightness of the lamp. The microprocessor includes a temporary register, the storage device has a brightness value of the light, and the processor controls the electric woven road according to the touch, and the brightness of the record is determined by the relevant LEDs of the 201233238. . When the first touch sensor and the second touch sensor simultaneously sense the touch, the microprocessor instructs the power phase control circuit to turn on the light according to the brightness value of the light stored in the register, and turn on the light The brightness is adjusted to the brightness value of the lamp, and the indicator module turns on the associated LED units according to the brightness value of the lamp and adjusts the brightness of the associated LED units. When only the first touch sensor senses being touched and the touch time is less than - the i-th touch, the microprocessor controls the power phase control circuit to turn on the light in a second predetermined time And the microprocessor control indicator module turns on the associated LEDs 7L according to the brightness value of the lamp and adjusts the brightness of the associated LED units. When only the second touch sensor senses the touched and the touch time is less than a third predetermined touch time, the microprocessor controls the power phase control circuit to turn off the lights in a fourth predetermined time. And the micro-processing!! The control light-emitting module activates the associated light-emitting diode units according to the brightness value of the light and adjusts the brightness of the associated light-emitting diode units. According to an embodiment of the invention, a lighting control device lighting control unit is provided for controlling an electric lamp. The lighting control module includes - the aforementioned lighting control device and the flat plate, and the flat plate is detachably assembled to the aforementioned lighting control device. The tablet includes a -first touch area, a second touch area and a light area, and the position of the touch sensor corresponds to the position of the first touch area, and the second touch sense =. The position corresponds to the position of the first touch area. The bits of the light-emitting diode unit 201233238 correspond to the position of the indicator area. In the embodiment, when only the first touch sensor senses the touched and the touch time is greater than or equal to the first-predetermined touch time, the microprocessor controls the power phase control circuit according to the touch time. Brightening the brightness of the electric lamp, and storing the brightness of the tuned electric lamp in the temporary storage n as a new brightness value, and when only the second touch sensor senses being touched and the touch time is greater than or equal to During the third scheduled touch, the micro-service control _ Jian Lu dims the brightness of the electric lamp according to the touch time, and stores the brightness of the dimmed electric lamp in the register as the brightness value of the electric lamp. In an embodiment, when the first touch sensor and the second touch sensor are not sensed to be touched during a delay period, and the microprocessor controls the indicator module to dim the correlation The brightness of the light-emitting two-panel unit is connected to the brightness value of a power-saving mode. Other objects and advantages of the present invention will become apparent from the technical features disclosed by the present disclosure. The above and other objects, features and advantages of the present invention are set forth below. The drawings are described in detail below. [Embodiment] Fig. 2A is a view showing a state in which a light control device according to an embodiment of the present invention is placed in an opening of a bile wall. Figure 2B shows a front elevational view of the assembly of the 201233238 glass panel and light control device in accordance with the present invention. Fig. 2C shows the rear view of the assembly of the glass plate and the light control device in accordance with an embodiment of the present invention. As shown in FIG. 2C, the light control module 1A according to an embodiment of the present invention includes a light control device 200 and a glass plate 300. The light control device 200 includes an outer casing 210 and a cover plate 220. The outer casing 210 is disposed on the back side of the cover 220, and a part of the electronic components (as will be described later) of the light control device 200 are disposed in the outer casing 210 to protect the electronic components. As shown in FIG. 2A, when the light control module 1 is mounted on a wall, the light control device 200 is first placed in an opening 11 defined by the wall, and the plurality of screws 120 are used to control the light control device. 2〇〇 is fixed to the wall. As shown in Fig. 2B, the glass plate 3 is then detachably mounted on the light control device 200. In the present embodiment, at least one side of the cover 220 is provided with a first "hook slip element 211. As shown in FIG. 2C, a second hook member 311 is disposed on the back surface of the glass plate 300. The glass plate 300 can be fixed to the light control device 2 through the engagement between the __^ hook member 211 and the first hook member 311. When the glass plate 300 is to be replaced, it is only necessary to pull the glass plate 3 〇〇, and the second hook element 311 is detached from the first hook element 211, and the glass plate 3 拆卸 can be removed and re-removed. Install a new glass plate 300. With this design, when the wall is pasted with different wallpapers or changed design patterns, it is only necessary to easily replace the new 201233238 glass plate 300 without replacing the entire lighting control module. Referring to FIG. 2C, the back surface of the glass plate 300 further defines an accommodating space 313. The cover plate 220 is disposed in the accommodating space 313. According to the above design, since the glass plate 300 has a flat surface, when the light control mode is to be cleaned When the group is 100, the cleaning liquid will not erode the circuit and electronic components inside the light control module. Figure 3 shows a schematic view of a glass plate in accordance with an embodiment of the present invention. As shown in FIG. 3, the glass plate 300 is provided with a first touch area 331, a second touch area 332, and an indicator area 333. In the present embodiment, the shapes of the first touch area 331, the first touch area 332, and the indicator area 333 are all illustrated by a square as an example. However, the present invention is not limited thereto. The pattern of the glass plate can be designed by the user. Preferably, the pattern on the surface of the glass plate can be designed according to the pattern, color, etc. of the wall on which the lamp control module 100 is mounted. Figure 4 is a block diagram showing the function of a light control device in accordance with an embodiment of the present invention. As shown in FIG. 4, the lighting control device 200 includes a touch sensing module 230, an indicator module 240, a microprocessor 250, a power conversion circuit 260, and a power phase control circuit 270. And a photo coupler 280. The cover plate 220 can be formed by a structure in which a plastic plate is disposed on a printed circuit board, and the electronic components are coupled to the circuit on the cover plate 220 and coupled to each other through the cover plate 220. A part of the 201233238 electronic component is disposed on the cover plate 220. A front surface of the cover 220 is disposed, and a portion of the electronic component is disposed on the back surface of the cover 220 and located within the outer casing 210. In one embodiment, the touch sensing module 230 is disposed on the front surface of the cover 220. Those skilled in the art can configure the position of the above electronic components according to the product design, and a detailed description of the arrangement thereof will be omitted below. The power conversion circuit 260 is configured to convert an external AC power source ac into a DC power source and is connected to the microprocessor 250 to provide a DC power supply DC of the microprocessor 250 and a phase sensing signal (phase). Sensing signal) Ps. The microprocessor 250 is coupled to the touch sensing module 23A, and outputs a brightness control signal Lcs and an indication control signal Ics according to the touch signal sensed by the touch sensing module 230. In this embodiment, in order to protect the microprocessor 250, the optical coupler 280 is coupled between the microprocessor 250 and the power phase control circuit 270, and the microprocessor 250 transmits a brightness control signal Lcs through the optical coupler 280 to A power phase control circuit 270. * An external electric lamp 400 is coupled to the live and neutral of the AC power source AC through a power phase control circuit 270 of the light control device 200. The power phase control circuit 270 receives the brightness control signal Lcs from the microprocessor 250 and controls the brightness of the lamp 400 in accordance with the brightness control signal Lcs. The indicator module 240 includes a plurality of LED units (LEDs) for indicating the brightness state of the current lamp 4使用者 of the user. 201233238 The indicator module 240 receives the indication control signal ICS from the microprocessor 250, and then turns on the associated LED unit according to the indication control signal Ics and adjusts the brightness of the associated LED unit. In this embodiment, the touch sensing module 230 includes a first touch sensor 231 and a second touch sensor 232, and the touch sensor can be a capacitive touch. Detector. The indicator module 240 includes five light emitting diode units (the first LED 241 to the fifth LED 245) as an example g. When the light control device 2 and the glass plate 300 are assembled together, the position of the first touch sensor 231 corresponds to the position of the first touch region 331. The position of the second touch sensor 232 corresponds to the second touch. The position of the touch zone 332 is 'the position of the indicator module 240 corresponds to the position of the indicator finger zone 333. Therefore, when the user touches the first touch area 331 and the second touch area 332, the first touch sensor 231 and the second touch sensor 232 respectively sense the touched and output. A touch signal. FIG. 5 shows a flow chart of a light control method according to an embodiment of the present invention. As shown in FIG. 5, the microprocessor 250 determines the touched state of the sensing module 230 according to the touch signal sensed by the sensing module 230. When the first touch sensor 231 and the second touch sensor 232 simultaneously sense the touched state, the power phase control circuit 270 turns on the light 400 according to a stored light brightness value stored in the temporary storage 251. The brightness of the lamp 400 is adjusted to the brightness value of the stored lamp, and the indicator module 240 turns on the associated LED according to the aforementioned 201233238 storage lamp brightness value and adjusts the brightness of the associated LED. More specifically, the microprocessor 250 generates a brightness control signal Lcs and a command control signal Ics' indicating the brightness value of the stored lamp based on the stored brightness value of the lamp and determines the associated LED. The power phase control circuit 270 receives the shell control signal Lcs' that displays the stored lamp brightness value through the optical coupler 280 to turn on the lamp 4 and adjusts the brightness of the lamp 4 to the stored lamp brightness value. The indicator module 240 controls the signal Ics according to the indication indicating that the stored lamp brightness value is displayed, turns on the associated LED, and adjusts the brightness of the associated LED. In one embodiment, the number of the led dots is proportional to the brightness of the electric lamp 400. For example, when the electric lamp 400 is turned off, the first LED 24 is turned on. When the electric lamp 400 reaches the maximum (100%) brightness, the first LED 241 is turned on. The fifth LED 245 turns on the first LED 241 to the third LED 243 when the electric lamp 400 reaches 60% brightness, and the brightness of the first LED 241 is greater than the brightness of the second LED 242 is greater than the brightness of the third LED 243, so that the brightness of the # ' LED 呈现 渐 渐status. Moreover, when the first touch sensor 231 and the second touch sensor 232 do not sense that they are touched within 1 second, the brightness of the LEDs is dimmed. As described above, the manner in which the microprocessor 250 controls the power supply phase control circuit 270 and the sensing module 230 using the brightness control signal Lcs and the heart control control unit ics has been described in detail, and thus detailed description of similar steps will be omitted below. 12 201233238 Referring again to FIG. 5, when only the first touch sensor 231 senses that it is touched and the touch time is less than 1 second (the first predetermined touch time), the microprocessor 250 indicates the power phase control. The circuit 270 turns on the light 400' in a stepwise manner within 2 seconds (second predetermined time) and requires the indicator light module 240 to turn on the associated LED and adjust the brightness of the associated LED based on the brightness value of the light 400. In the present embodiment, the gradual opening of the electric lamp 400 within 2 seconds allows the user to feel the change in the brightness of the electric lamp 400. In another embodiment, the second predetermined time may also be set to be substantially zero seconds. When only the first touch sensor 231 senses that it is touched and the touch time is greater than or equal to 1 second (the first predetermined touch time), the microprocessor 25 indicates that the power phase control circuit 270 is in accordance with the touch. Time to brighten the brightness of the lamp 4 。. Then, the brightness value of the highlighted lamp is stored in the register 251. Finally, the microprocessor 250 requires the indicator module 240 to turn on the associated LEDs based on the brightness value of the lamp 400 and adjust the brightness of the associated LEDs. When only the second touch sensor 232 senses that it is touched and the touch time is less than 1 second (the third predetermined touch time), the microprocessor 25 indicates the power phase control circuit 270 for 3 seconds (the first The electric lamp 400 is turned off in sequence for four predetermined times, and the indicator light module 240 is required to turn on the associated LED according to the brightness value of the electric lamp 4 and adjust the brightness of the associated LED. More specifically, at this time, the 'light lamp 400 is turned off', its brightness value is zero, so the first LED 241 is turned on to indicate the position of the user's light control module 1〇0. In the example of the present embodiment 201233238, gradually turning off the electric lamp 400 within 3 seconds allows the user to feel the change in the brightness of the electric lamp 400. When only the second touch sensor 232 senses the touched and the touch time is greater than or equal to 1 second (the third predetermined touch time), the microprocessor 250 instructs the power phase control circuit 270 to follow the touch time. Dim the brightness of the lamp 4 。. Next, the dimmed lamp brightness value is stored in the register 251. Finally, the microprocessor 250 requires the indicator module 240 to turn on the associated LEDs based on the brightness value of the lamp 400 and adjust the brightness of the associated LEDs. When the first touch sensor 231 and the second touch sensor 232 are not touched during the 10 second period (delay period), the microprocessor 250 requests the indicator module 240 to dim the correlation. Connecting the brightness of the LED to the brightness value of a power saving mode makes the indicator module 240 enter the power saving mode to simplify the power supply. Figure 6 is a flow chart showing a lighting control method in accordance with an embodiment of the present invention. In this embodiment, it is also possible to perform only the switching control of the electric lamp 400 without performing the dimming control. In this embodiment, one touch area and the touch sensor can control one electric light, and the first touch The area 331 and the first touch sensor 231 control the electric lamp 400 as an example for explanation. As shown in FIG. 6, when the first touch sensor 231 senses that it is touched, the microprocessor 250 instructs the power phase control circuit 270 to perform a toggle switch control, that is, when the light is turned on. When the light is turned off, the light 400 is turned on, and when the light 400 is turned on, the light is turned off. 14 201233238 Subsequently, it is judged whether or not the electric lamp 400 is in an open state. If it is in the off state, it is judged whether it is a transition from on to off (on/off tansition). If "yes", in the case of a delay of 10 seconds, the indicator module 240 is turned on; and when it exceeds 10 The brightness of the LEDs in the indicator module 240 is dimmed in the case of a delay period of seconds. As described above, according to the light control module 1 of one embodiment of the present invention, the glass plate 300 can be easily replaced to match the pattern and color of the wall. In an embodiment, when the light control module 1 is to be cleaned, the cleaning liquid does not invade the circuit and electronic components on the cover 220, thereby reducing the damage of the light control module 1〇〇. In one embodiment, the light control device 2 can restore the brightness value of the previously stored light according to the user's habit, and simplify the step of the user turning on the light 4〇〇. Although the present invention has been described above in detail, it is not intended to limit the invention, and it is apparent to those skilled in the art that The scope of the invention is defined by the scope of the appended claims. The invention is not intended to be limited by the scope of the invention. In addition, the abstract sections and headings are only used to assist in the search for patent documents. BRIEF DESCRIPTION OF THE DRAWINGS 201233238 FIG. 1 is a perspective view showing a conventional electric light switch device. Fig. 2A is a view showing the arrangement of a light control device according to an embodiment of the present invention to an opening of a wall. 2B is a front elevational view showing the assembly of a glass plate and a light control device in accordance with an embodiment of the present invention. 2C is a schematic rear view showing the assembly of a glass plate and a light control device in accordance with an embodiment of the present invention. Φ Figure 3 shows a schematic view of a glass plate in accordance with an embodiment of the present invention. Fig. 4 is a block diagram showing the function of a light control device in accordance with an embodiment of the present invention. Figure 5 is a flow chart showing a lighting control method according to an embodiment of the present invention. Figure 0 is a flow chart showing a lighting control method according to an embodiment of the present invention. [Main component symbol description] 1 light switch device 100 light control module 11 switch body n〇 opening 12 press plate 16 201233238 screw cover light control device housing first hook component cover sensor module first touch sensing Second touch sensor indicator module first LED second LED third LED fourth LED fifth LED microprocessor register power conversion circuit power phase control circuit light switch glass plate 17 201233238 311 Two hooking elements 313 accommodating space 331 first touch area 332 second touch area 333 indicator area 400
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