TWI567337B - Intelligent control module,intelligent fan light,intelligent remote controller of the fan light and intelligent fan light control method - Google Patents

Intelligent control module,intelligent fan light,intelligent remote controller of the fan light and intelligent fan light control method Download PDF

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TWI567337B
TWI567337B TW103143265A TW103143265A TWI567337B TW I567337 B TWI567337 B TW I567337B TW 103143265 A TW103143265 A TW 103143265A TW 103143265 A TW103143265 A TW 103143265A TW I567337 B TWI567337 B TW I567337B
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module
lamp control
control module
lamp
smart
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TW103143265A
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TW201621225A (en
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陳仕昀
饒啟瀚
陳俊宏
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陳仕昀
饒啟瀚
陳俊宏
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Description

智慧型控制模組、智慧型燈扇、智慧型燈扇遙控器及智慧型燈扇控制方法 Intelligent control module, intelligent light fan, intelligent light fan remote control and intelligent light fan control method

本創作係與控制模組、燈扇、燈扇遙控器及燈扇控制方法有關,特別有關於智慧型控制模組、智慧型燈扇、智慧型燈扇遙控器及智慧型燈扇控制方法。 The creation department is related to the control module, the lamp fan, the lamp remote controller and the lamp fan control method, and particularly relates to a smart control module, a smart lamp fan, a smart lamp fan remote controller and a smart lamp fan control method.

長久以來,燈扇一直是室內裝潢中最為常見的功能性裝飾。除具有裝飾功能外,燈扇還可同時提供風扇功能及照明功能,而同時兼具美觀性與實用性。並且,由於燈扇設置的高度遠高於一般電扇(如設置於住家的天花板),故燈扇的溫度調節效率高於一般電扇(因為燈扇所產生的自上而下的氣流不易被設置高度較低的大部分家電遮擋,因而空氣循環效率較佳,溫度調節效率亦較佳)。由於上述優點,燈扇的普及率越來越高。 For a long time, the light fan has been the most common functional decoration in interior decoration. In addition to the decorative function, the lamp fan can also provide both fan function and lighting function, while at the same time having both aesthetics and practicality. Moreover, since the height of the lamp fan is much higher than that of a general electric fan (such as a ceiling installed in a home), the temperature adjustment efficiency of the lamp fan is higher than that of a general electric fan (because the top-down airflow generated by the lamp fan is not easily set to a height) Most of the lower appliances are shielded, so air circulation efficiency is better and temperature regulation efficiency is better. Due to the above advantages, the popularity of the lamp fan is getting higher and higher.

然而,習知燈扇皆須使用者手動開啟/關閉,不具備任何自動控制的功能,而造成使用者的使用者體驗不佳。 However, the conventional light fans are required to be manually turned on/off by the user, and do not have any automatic control functions, resulting in a poor user experience for the user.

是以,習知燈扇存在上述問題,而亟待更有效的方案被提出。 Therefore, the conventional lamp fan has the above problems, and a more effective solution is proposed.

本發明之主要目的,係在於提供一種具備自動定時控制功能的智慧型控制模組、智慧型燈扇、智慧型燈扇遙控器及智慧型燈 扇控制方法。 The main object of the present invention is to provide a smart control module with an automatic timing control function, a smart light fan, a smart light fan remote control and a smart light. Fan control method.

為達上述目的,本發明主要係提供一種智慧型控制模組,包括連接一燈扇控制模組的一第一傳輸模組、接收一第一燈扇控制訊號或一定時控制訊號的一控制訊號接收模組、一記憶體、一計時器及電性連接該第一傳輸模組、該控制訊號傳輸模組、該記憶體及該計時器的一處理器。該處理器包括一處理模組及連接該處理模組的定時控制模組。該處理模組經由該第一傳輸模組傳送該第一燈扇控制訊號至該燈扇控制模組以調整電性連接該燈扇控制模組的一照明裝置的亮度或電性連接該燈扇控制模組的一風扇裝置的轉速,或依據該定時控制訊號設定一定時控制設定資料並儲存至該記憶體,其中該定時控制設定資料包括一觸發時間及一定時控制運轉參數。該定時控制模組於該計時器計時該觸發時間經過時,依據該定時控制運轉參數產生並傳送一第二燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 To achieve the above objective, the present invention mainly provides a smart control module, including a first transmission module connected to a lamp control module, a control signal for receiving a first lamp control signal or a timing control signal. a receiving module, a memory, a timer, and a processor electrically connected to the first transmission module, the control signal transmission module, the memory, and the timer. The processor includes a processing module and a timing control module connected to the processing module. The processing module transmits the first lamp control signal to the lamp control module via the first transmission module to adjust the brightness of an illumination device electrically connected to the lamp control module or electrically connect the lamp The speed of a fan device of the control module is controlled, or the setting data is controlled to be stored in the memory according to the timing control signal, wherein the timing control setting data includes a trigger time and a certain time control operation parameter. The timing control module generates and transmits a second lamp control signal to the lamp control module according to the timing control operation parameter to adjust the brightness of the illumination device or the fan. The speed of the device.

承上所述,其中該智慧型控制模組更包括一網路傳輸模組,電性連接該處理器,經由網際網路連接一使用者裝置以取得一使用者位置;該記憶體更儲存一預啟動設定資料,其中該預啟動設定資料包括一燈扇位置、一距離臨界值及一預啟動運轉參數;該處理器更包括一預啟動模組,連接該處理模組,該預啟動模組於該使用者位置及該燈扇位置間的一距離小於該距離臨界值時,依據該預啟動運轉參數產生並傳送一第三燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 As described above, the smart control module further includes a network transmission module electrically connected to the processor and connected to a user device via the Internet to obtain a user location; the memory further stores a memory The pre-activation setting data includes a light fan position, a distance threshold, and a pre-starting operation parameter; the processor further includes a pre-launching module connected to the processing module, the pre-starting module When a distance between the user position and the position of the lamp is less than the threshold value, a third lamp control signal is generated and transmitted according to the pre-start operation parameter to the lamp control module to adjust the illumination device. The brightness or the speed of the fan unit.

承上所述,其中該智慧型控制模組更包括一感測器,電性連接該處理器,取得一環境因子感測值;該記憶體更儲存一環境因子目標值;該處理模組依據該環境因子感測值及該環境因子目標值的一差值計算並傳送一第四燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 According to the above description, the smart control module further includes a sensor electrically connected to the processor to obtain an environmental factor sensing value; the memory further stores an environmental factor target value; A difference between the environmental factor sensing value and the environmental factor target value is calculated and a fourth lamp control signal is transmitted to the lamp control module to adjust the brightness of the lighting device or the rotational speed of the fan device.

承上所述,其中該感測器為溫度感測器或濕度感測器。 As described above, the sensor is a temperature sensor or a humidity sensor.

承上所述,其中該智慧型控制模組更包括一感測器,電性連接該處理器,取得一環境因子感測值;該記憶體更包括一資料庫,儲存複數學習設定資料,其中該複數學習設定資料分別對應至該燈扇控制模組過去於不同的該環境因子感測值下所使用的一運轉參數;該處理器更包括一學習模組,連接該處理模組,依據當前的該環境因子感測值選擇該複數學習設定資料之一,並依據被選擇的該學習設定資料產生並傳送一第五燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 According to the above description, the smart control module further includes a sensor electrically connected to the processor to obtain an environmental factor sensing value; the memory further includes a database for storing the plurality of learning setting materials, wherein The plurality of learning setting data respectively correspond to an operating parameter used by the lamp control module in different environmental factor sensing values; the processor further includes a learning module connected to the processing module, according to the current The environmental factor sensing value selects one of the plurality of learning setting data, and generates and transmits a fifth lamp control signal to the lamp control module according to the selected learning setting data to adjust the brightness of the lighting device. Or the speed of the fan unit.

承上所述,其中該智慧型控制模組更包括一網路傳輸模組,電性連接該處理器,經由網際網路連接一使用者裝置或一雲端伺服器;該處理器更包括一統計模組,連接該處理模組,計算並經由該網路傳輸模組傳送一統計資料至該使用者裝置或該雲端伺服器。 As described above, the smart control module further includes a network transmission module electrically connected to the processor and connected to a user device or a cloud server via the Internet; the processor further includes a statistic The module is connected to the processing module, and calculates and transmits a statistical data to the user device or the cloud server via the network transmission module.

承上所述,其中該統計資料包括於一統計時間範圍中的複數時間點所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。 As described above, the statistical data includes an environmental factor sensing value, an environmental factor target value, or a lamp fan power consumption value respectively recorded at a plurality of time points in a statistical time range.

承上所述,其中該智慧型控制模組更包括一網路傳輸模組,電性連接該處理器,經由網際網路連接一雲端伺服器;該處理器更包括一雲端備份模組,連接該處理模組,該雲端備份模組產生一備份資料,並經由該網路傳輸模組傳送該備份資料至該雲端伺服器以進行資料備份。 As described above, the smart control module further includes a network transmission module electrically connected to the processor and connected to a cloud server via the Internet; the processor further includes a cloud backup module, and the connection The processing module, the cloud backup module generates a backup data, and transmits the backup data to the cloud server via the network transmission module to perform data backup.

承上所述,其中該智慧型控制模組更包括一網路傳輸模組,電性連接該處理器,連接網際網路;該記憶體更儲存一網頁;該處理器更包括一網頁模組,該網頁模組經由該網路傳輸模組提供該網頁的瀏覽服務,並經由該網頁接受一使用者操作,並依據該使用者操作產生該第一燈扇控制訊號或該第二燈扇控制訊號。 As described above, the smart control module further includes a network transmission module electrically connected to the processor and connected to the Internet; the memory further stores a webpage; the processor further includes a webpage module The webpage module provides a browsing service of the webpage via the network transmission module, and receives a user operation via the webpage, and generates the first light fan control signal or the second light fan control according to the user operation. Signal.

本發明進一步提供一種智慧型燈扇,包括如前所述之智慧型控制模組、一風扇裝置、一照明裝置及電性連接該風扇裝置及該 照明裝置的一燈扇控制模組。該燈扇控制模組包括一第二傳輸模組,連接該智慧型控制模組的該第一傳輸模組。 The invention further provides a smart lamp fan, comprising the smart control module, a fan device, a lighting device and the fan device and the electrical device A lamp control module for the lighting device. The lamp control module includes a second transmission module connected to the first transmission module of the smart control module.

本發明進一步提供一種智慧型燈扇遙控器,包括如前所述之智慧型控制模組、及電性連接該智慧型控制模組的一人機介面。該人機介面接受一使用者操作並依據該使用者操作產生該第一燈扇控制訊號或該定時控制訊號。 The invention further provides a smart lamp remote controller, comprising the smart control module as described above, and a human machine interface electrically connected to the smart control module. The human machine interface accepts a user operation and generates the first lamp control signal or the timing control signal according to the user operation.

本發明進一步提供一種智慧型燈扇控制方法,包括:a)接收一第一燈扇控制訊號;b)傳送該第一燈扇控制訊號至一燈扇控制模組以調整電性連接該燈扇控制模組的一照明裝置的亮度或電性連接該燈扇控制模組的一風扇裝置的轉速;c)依據一使用者操作設定一定時控制設定資料,其中該定時控制設定資料包括一觸發時間及一定時控制運轉參數;及d)於計時該觸發時間經過時,依據該定時控制運轉參數產生並傳送一第二燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 The invention further provides a smart lamp control method, comprising: a) receiving a first lamp control signal; b) transmitting the first lamp control signal to a lamp control module to adjust the electrical connection of the lamp The brightness of a lighting device of the control module or the speed of a fan device electrically connected to the lamp control module; c) controlling the setting data according to a user operation setting, wherein the timing control setting data includes a triggering time And controlling the operating parameters at a certain time; and d) generating, according to the timing control operating parameter, a second lamp control signal to the lamp control module to adjust the brightness of the lighting device or The speed of the fan unit.

承上所述,其中該智慧型燈扇控制方法更包括下列步驟:e)取得一使用者位置及一預啟動設定資料,其中該預啟動設定資料包括一燈扇位置、一距離臨界值及一預啟動運轉參數;及f)於該使用者位置及該燈扇位置間的一距離小於該距離臨界值時,依據該預啟動運轉參數產生並傳送一第三燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 As described above, the smart lamp control method further includes the following steps: e) obtaining a user position and a pre-activation setting data, wherein the pre-activation setting data includes a lamp position, a distance threshold, and a And pre-starting the operating parameter; and f) generating, according to the pre-starting operating parameter, a third lamp control signal to the lamp control when a distance between the user position and the lamp position is less than the distance threshold a module to adjust the brightness of the lighting device or the speed of the fan device.

承上所述,其中該智慧型燈扇控制方法更包括下列步驟:g)經由一感測器取得當前的一環境因子感測值;h)取得預儲的一環境因子目標值;及i)依據該環境因子感測值及該環境因子目標值的一差值計算並傳送一第四燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 As described above, the smart lamp control method further comprises the steps of: g) obtaining a current environmental factor sensing value via a sensor; h) obtaining a pre-stored environmental factor target value; and i) And calculating and transmitting a fourth lamp control signal to the lamp control module according to the difference between the environmental factor sensing value and the environmental factor target value to adjust the brightness of the lighting device or the rotating speed of the fan device.

承上所述,其中該智慧型燈扇控制方法更包括下列步驟:j)經由一感測器取得當前的一環境因子感測值;k)依據該環境因子自一資料庫選擇預儲的複數學習設定資料之一,其中該複數學習設定資料分別對應至該燈扇控制模組過去於不同的該環境因子 感測值下的所使用的一運轉參數;及l)依據被選擇的該學習設定資料產生並傳送一第五燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 According to the above description, the smart lamp control method further comprises the steps of: j) obtaining a current environmental factor sensing value via a sensor; k) selecting a pre-stored complex number from a database according to the environmental factor; Learning one of the setting data, wherein the plurality of learning setting data respectively correspond to the environmental factor of the lamp control module a running parameter used under the sensed value; and 1) generating and transmitting a fifth lamp control signal to the lamp control module according to the selected learning setting data to adjust the brightness of the lighting device or The speed of the fan unit.

承上所述,其中該智慧型燈扇控制方法更包括下列步驟:m)計算一統計資料;及n)經由網際網路傳送該統計資料至一使用者裝置或一雲端伺服器。 As described above, the smart lamp control method further includes the steps of: m) calculating a statistic; and n) transmitting the statistic to a user device or a cloud server via the Internet.

承上所述,其中該統計資料包括於一統計時間範圍中的複數時間點所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。 As described above, the statistical data includes an environmental factor sensing value, an environmental factor target value, or a lamp fan power consumption value respectively recorded at a plurality of time points in a statistical time range.

承上所述,其中該智慧型燈扇控制方法更包括下列步驟:o)產生一備份資料,其中該備份資料包括該定時控制設定資料;及p)經由網際網路傳送該備份資料至一雲端伺服器以進行備份。 According to the above description, the smart lamp control method further comprises the following steps: o) generating a backup data, wherein the backup data includes the timing control setting data; and p) transmitting the backup data to a cloud via the Internet The server is backed up.

本發明可使燈扇自動定時運轉,不需使用者手動開啟/關閉燈扇,而可提供更佳的使用者體驗。 The invention can automatically operate the lamp fan, and does not require the user to manually turn on/off the lamp fan, thereby providing a better user experience.

1‧‧‧智慧型控制模組 1‧‧‧Smart Control Module

10‧‧‧第一傳輸模組 10‧‧‧First transmission module

12‧‧‧控制訊號接收模組 12‧‧‧Control signal receiving module

14‧‧‧記憶體 14‧‧‧ memory

140‧‧‧定時控制設定資料 140‧‧‧Time control setting data

142‧‧‧預啟動設定資料 142‧‧‧Pre-launch setting data

144‧‧‧環境因子目標值 144‧‧‧Environmental factor target value

146‧‧‧資料庫 146‧‧‧Database

1460‧‧‧學習設定資料 1460‧‧‧ Learning setting information

148‧‧‧統計資料 148‧‧‧Statistics

150‧‧‧備份資料 150‧‧‧Backup data

152‧‧‧網頁 152‧‧‧Webpage

154‧‧‧電腦程式 154‧‧‧ computer program

160‧‧‧計時器 160‧‧‧Timer

162‧‧‧網路傳輸模組 162‧‧‧Network Transmission Module

164‧‧‧感測器 164‧‧‧ sensor

18‧‧‧處理器 18‧‧‧ processor

180‧‧‧處理模組 180‧‧‧Processing module

182‧‧‧定時控制模組 182‧‧‧Timed Control Module

184‧‧‧預啟動模組 184‧‧‧Pre-start module

186‧‧‧學習模組 186‧‧‧ learning module

188‧‧‧統計模組 188‧‧‧Statistical Module

190‧‧‧雲端備份模組 190‧‧‧Cloud Backup Module

192‧‧‧網頁模組 192‧‧‧Web module

2、2’‧‧‧燈扇 2, 2'‧‧‧ lamp fan

20‧‧‧燈扇控制模組 20‧‧‧Lighting fan control module

200‧‧‧第二傳輸模組 200‧‧‧Second transmission module

22‧‧‧照明裝置 22‧‧‧Lighting device

24‧‧‧風扇裝置 24‧‧‧Fan device

30‧‧‧網路 30‧‧‧Network

32‧‧‧使用者裝置 32‧‧‧User device

34‧‧‧雲端伺服器 34‧‧‧Cloud Server

4‧‧‧智慧型燈扇遙控器 4‧‧‧Smart Light Fan Remote Control

40‧‧‧人機介面 40‧‧‧Human Machine Interface

S60-S68‧‧‧第一控制步驟 S60-S68‧‧‧ first control step

S700-S734‧‧‧第二控制步驟 S700-S734‧‧‧Second control steps

圖1為本發明第一具體實施例的智慧型控制模組架構圖。 FIG. 1 is a structural diagram of a smart control module according to a first embodiment of the present invention.

圖2為本發明第一具體實施例的智慧型燈扇架構圖。 2 is a structural diagram of a smart lamp fan according to a first embodiment of the present invention.

圖3為本發明第一具體實施例的智慧型燈扇使用示意圖。 3 is a schematic view showing the use of a smart lamp fan according to a first embodiment of the present invention.

圖4為本發明第一具體實施例的智慧型燈扇遙控器架構圖。 4 is a structural diagram of a smart lamp remote controller according to a first embodiment of the present invention.

圖5為本發明第一具體實施例的智慧型燈扇遙控器使用示意圖。 FIG. 5 is a schematic diagram of the use of the smart lamp remote controller according to the first embodiment of the present invention.

圖6為本發明第一具體實施例的智慧型燈扇控制方法流程圖。 FIG. 6 is a flowchart of a smart lamp control method according to a first embodiment of the present invention.

圖7A為本發明第二具體實施例的智慧型燈扇控制方法第一流程圖。 FIG. 7A is a first flowchart of a smart lamp control method according to a second embodiment of the present invention.

圖7B為本發明第二具體實施例的智慧型燈扇控制方法第二流程圖。 FIG. 7B is a second flowchart of a smart lamp control method according to a second embodiment of the present invention.

茲就本發明之一較佳實施例,配合圖式,詳細說明如後。 DETAILED DESCRIPTION OF THE INVENTION A preferred embodiment of the present invention will be described in detail with reference to the drawings.

首請參閱圖1,為本發明第一具體實施例的智慧型控制模組架 構圖。如圖1所示,本發明的智慧型控制模組1主要包括一第一傳輸模組10、一控制訊號接收模組12、一記憶體14、一計時器160及一處理器18。該處理器18電性連接該第一傳輸模組10、該控制訊號傳輸模組12、該記憶體14及該計時器160。 First, please refer to FIG. 1 , which is a smart control module frame according to a first embodiment of the present invention. Composition. As shown in FIG. 1 , the smart control module 1 of the present invention mainly includes a first transmission module 10 , a control signal receiving module 12 , a memory 14 , a timer 160 , and a processor 18 . The processor 18 is electrically connected to the first transmission module 10, the control signal transmission module 12, the memory 14 and the timer 160.

該第一傳輸模組10連接外部的一燈扇控制模組20。具體而言,該第一傳輸模組10可自該處理器18轉傳一燈扇控制訊號至該燈扇控制模組20,以使該燈扇控制模組20依據該燈扇控制訊號調整電性連接該燈扇控制模組20的一照明裝置(如圖2及圖4所示之照明裝置22)的亮度,或電性連接該燈扇控制模組20的一風扇裝置(如圖2或圖4所示之風扇裝置24)的轉速。 The first transmission module 10 is connected to an external lamp control module 20. Specifically, the first transmission module 10 can transmit a lamp control signal from the processor 18 to the lamp control module 20, so that the lamp control module 20 adjusts the signal according to the lamp control signal. The brightness of a lighting device (such as the lighting device 22 shown in FIG. 2 and FIG. 4) connected to the lamp control module 20 or a fan device electrically connected to the lamp control module 20 (see FIG. 2 or The rotational speed of the fan unit 24) shown in FIG.

值得一提的是,該燈扇控制模組20、該照明裝置22及該風扇裝置24係被共同設置於一燈扇(如圖2所示之燈扇2或圖4所示之燈扇2’)中。 It should be noted that the lamp control module 20, the illumination device 22 and the fan device 24 are commonly disposed on a lamp fan (such as the lamp fan 2 shown in FIG. 2 or the lamp fan 2 shown in FIG. ')in.

較佳地,該第一傳輸模組10係有線連接(如經由乙太網路線(Ethernet cable)、訊號控制線或電力線通訊(Power Line Communication,PLC)連接)該燈扇控制模組20的一第二傳輸模組(如圖2所示之第二傳輸模組200),但不以此為限。 Preferably, the first transmission module 10 is wired (eg, connected via an Ethernet cable, a signal control line, or a Power Line Communication (PLC)). The second transmission module (such as the second transmission module 200 shown in FIG. 2) is not limited thereto.

於本發明之另一實施例中,該第一傳輸模組10亦可無線連接(如經由藍芽(bluetooth)無線通訊、紅外線(infrared,IR)無線通訊、射頻(Radio frequency,RF)無線通訊、紫蜂(ZigBee)無線通訊或Z波(Z-Wave)無線通訊連接)該燈扇控制模組20的該第二傳輸模組200(如圖3所示之該第二傳輸模組200)。 In another embodiment of the present invention, the first transmission module 10 can also be wirelessly connected (eg, via Bluetooth wireless communication, infrared (IR) wireless communication, radio frequency (RF) wireless communication). a ZigBee wireless communication or a Z-Wave wireless communication connection. The second transmission module 200 of the lamp control module 20 (the second transmission module 200 shown in FIG. 3) .

該控制訊號接收模組12連接一人機介面40,並可自該人機介面40接收一第一燈扇控制訊號或一定時控制訊號。具體而言,一使用者可操作該人機介面40(如碰觸觸控螢幕所顯示的虛擬按鍵或按下遙控器的實體按鍵),當該使用者於一手動模式下操作時,該人機介面40可發送該第一燈扇控制訊號至該控制訊號接收模組12;當該使用者於一定時控制模式下操作時,該人機介面40可發送該定時控制訊號至該控制訊號接收模組12。該處理器18依據該控制訊號接收模組12接收的該第一燈扇控制訊號 或該定時控制訊號執行對應處理。 The control signal receiving module 12 is connected to a human interface 40 and can receive a first light control signal or a time control signal from the human interface 40. Specifically, a user can operate the human interface 40 (such as touching a virtual button displayed on the touch screen or pressing a physical button of the remote controller), when the user operates in a manual mode, the person The interface 40 can send the first lamp control signal to the control signal receiving module 12; when the user operates in a certain control mode, the human interface 40 can send the timing control signal to the control signal receiving Module 12. The processor 18 receives the first lamp control signal according to the control signal receiving module 12 Or the timing control signal performs corresponding processing.

較佳地。該控制訊號接收模組12係有線連接(如經由乙太網路線、訊號控制線或電力線通訊連接)該人機介面40,但不以此為限。於本發明之另一實施例中,該控制訊號接收模組12亦可無線連接(如經由藍芽無線通訊、紅外線無線通訊、射頻無線通訊、ZigBee無線通訊或Z-Wave無線通訊連接)該人機介面40。 Preferably. The control signal receiving module 12 is a wired connection (such as via an Ethernet route, a signal control line, or a power line communication connection), but is not limited thereto. In another embodiment of the present invention, the control signal receiving module 12 can also be wirelessly connected (eg, via Bluetooth wireless communication, infrared wireless communication, RF wireless communication, ZigBee wireless communication, or Z-Wave wireless communication connection). Machine interface 40.

該記憶體14用於儲存資料,如用於自動定時控制的一定時控制設定資料140(容後詳述)。較佳地,該記憶體14係磁碟硬碟(Hard Disk Drive)、快閃記憶體(flash memory)、快取記憶體(cache memory)或暫存器(register),但不以此為限。 The memory 14 is used to store data, such as a time control setting data 140 for automatic timing control (detailed later). Preferably, the memory 14 is a Hard Disk Drive, a flash memory, a cache memory or a register, but is not limited thereto. .

該處理器18主要包括一處理模組180。該處理模組180可經由該第一傳輸模組10傳送自該人機介面40接收的該第一燈扇控制訊號至該燈扇控制模組20,以控制該燈扇控制模組20調整該照明裝置22的亮度或該風扇裝置24的轉速。 The processor 18 primarily includes a processing module 180. The processing module 180 can transmit the first lamp control signal received from the human interface 40 to the lamp control module 20 via the first transmission module 10 to control the lamp control module 20 to adjust the The brightness of the lighting device 22 or the rotational speed of the fan unit 24.

此外,該處理模組180可依據自該人機介面40所接收的該定時控制訊號來設定該定時控制設定資料140並儲存至該記憶體14。較佳地,該定時控制設定資料104包括一觸發時間。 In addition, the processing module 180 can set the timing control setting data 140 to the memory 14 according to the timing control signal received from the human interface 40. Preferably, the timing control setting data 104 includes a trigger time.

該計時器160用於計時。該處理器18還包括連接該處理模組180的一定時控制模組182。該定時控制模組182於該計時器160計時該觸發時間經過時,依據該定時控制設定資料140產生並傳送一第二燈扇控制訊號至該燈扇控制模組20,以令該燈扇控制模組20調整該照明裝置22的亮度或該風扇裝置24的轉速。 This timer 160 is used for timing. The processor 18 also includes a timing control module 182 coupled to the processing module 180. When the timer 160 times the trigger time, the timer control module 182 generates and transmits a second lamp control signal to the lamp control module 20 according to the timing control setting data 140, so that the lamp control is performed. The module 20 adjusts the brightness of the illumination device 22 or the rotational speed of the fan device 24.

具體而言,該定時控制設定資料140更包括一定時控制運轉參數(如該照明裝置22的一亮度調整參數或該風扇裝置24的一轉速調整參數)。該定時控制模組182係依據該定時控制運轉參數產生該第二燈扇控制訊號。 Specifically, the timing control setting data 140 further includes controlling the operating parameters (such as a brightness adjusting parameter of the lighting device 22 or a speed adjusting parameter of the fan device 24). The timing control module 182 generates the second lamp control signal according to the timing control operation parameter.

於本發明之另一實施例中,該智慧型控制模組1可進一步包括一預啟動模式。於該預啟動模式下,該智慧型控制模組1可依據本身的所在位置與該使用者所在位置間的一距離為依據,觸 發該燈扇控制模組20自動控制該照明裝置22及/或該風扇裝置24開啟或關閉。 In another embodiment of the present invention, the smart control module 1 may further include a pre-start mode. In the pre-launch mode, the smart control module 1 can be touched according to a distance between the location of the user and the location of the user. The lamp control module 20 automatically controls the lighting device 22 and/or the fan device 24 to be turned on or off.

具體而言,該智慧型控制模組1更包括一網路傳輸模組162,電性連接該處理器18,並經由一網路30連接至外部的一使用者裝置32。該智慧型控制模組1經由該網路傳輸模組162自該使用者裝置32取得一使用者位置。較佳地,該網路30係網際網路,該網路傳輸模組162係經由網際網路與該使用者裝置32建立網路連線。 Specifically, the smart control module 1 further includes a network transmission module 162 electrically connected to the processor 18 and connected to an external user device 32 via a network 30. The smart control module 1 obtains a user location from the user device 32 via the network transmission module 162. Preferably, the network 30 is an internetwork, and the network transmission module 162 establishes a network connection with the user device 32 via the Internet.

該記憶體14更儲存一預啟動設定資料142。較佳地,該預啟動設定資料142包括一燈扇位置、一距離臨界值及一預啟動運轉參數。該處理器18更包括連接該處理模組180的一預啟動模組184。 The memory 14 further stores a pre-boot setting data 142. Preferably, the pre-start setting data 142 includes a lamp position, a distance threshold, and a pre-start operation parameter. The processor 18 further includes a pre-boot module 184 connected to the processing module 180.

該預啟動模組184可於該使用者位置及該燈扇位置間的距離小於該距離臨界值時,依據該預啟動運轉參數(如該照明裝置22的該亮度調整參數或該風扇裝置24的該轉速調整參數)產生一第三燈扇控制訊號,並經由該第一傳輸模組10傳送該第三燈扇控制訊號至該燈扇控制模組20,以令該燈扇控制模組20依據該第三燈扇控制訊號來自動調整該照明裝置22的亮度或該風扇裝置24的轉速。 The pre-activation module 184 can be configured according to the pre-start operation parameter (such as the brightness adjustment parameter of the illumination device 22 or the fan device 24) when the distance between the user position and the position of the lamp is less than the distance threshold. The speed adjustment parameter generates a third lamp control signal, and transmits the third lamp control signal to the lamp control module 20 via the first transmission module 10, so that the lamp control module 20 is based on The third lamp control signal automatically adjusts the brightness of the illumination device 22 or the rotational speed of the fan device 24.

舉例來說,若該智慧型控制模組1係設置於住家,該使用者裝置32係由該使用者隨身攜帶。該預啟動設定資料142係該使用者預先設定或於該智慧型控制模組1出廠前被設定。 For example, if the smart control module 1 is installed in a home, the user device 32 is carried by the user. The pre-activation setting data 142 is preset by the user or set before the smart control module 1 is shipped from the factory.

該使用者裝置32經由該網路30定時發送該使用者位置(如經由該使用者裝置32的一衛星定位模組取得的該使用者裝置32當前的所在位置)至該智慧型控制模組1。 The user device 32 periodically sends the user location (such as the current location of the user device 32 obtained through a satellite positioning module of the user device 32) to the smart control module 1 via the network 30. .

該智慧型控制模組1進入該預啟動模式後,可判斷該使用者位置與住家間的距離是否小於該距離臨界值(如500公尺),並於該距離小於該距離臨界值時,觸發該燈扇控制模組20開啟該照明裝置22及該風扇裝置24。上述該預啟動模式即提供一自動開啟功能。藉此,當該使用者回到住家時,可即刻享受最佳的室 溫及燈光,而獲得如同家人在家等候的使用者體驗。 After entering the pre-start mode, the smart control module 1 can determine whether the distance between the user position and the home is less than the distance threshold (for example, 500 meters), and trigger when the distance is less than the distance threshold. The lamp control module 20 turns on the illumination device 22 and the fan device 24. The pre-start mode described above provides an automatic start function. In this way, when the user returns to his home, he can enjoy the best room immediately. Warm up the light and get a user experience like a family waiting at home.

更進一步地,該智慧型控制模組1可於判斷該使用者位置與住家間的該距離不小於該距離臨界值時,自動觸發該燈扇控制模組20關閉該照明裝置22及該風扇裝置24。上述該預啟動模式即提供一自動關閉功能。藉此,即便該使用者忘記關閉該照明裝置22或該風扇裝置24,本實施例的該智慧型控制模組1亦可於該使用者遠離住家後自動關閉該照明裝置22及該風扇裝置24,而可避免無謂的電力浪費,而達到省電節能的技術功效。 Further, the smart control module 1 can automatically trigger the light fan control module 20 to turn off the lighting device 22 and the fan device when determining that the distance between the user position and the home is not less than the distance threshold. twenty four. The pre-start mode described above provides an auto-shutdown function. Therefore, even if the user forgets to turn off the lighting device 22 or the fan device 24, the smart control module 1 of the embodiment can automatically turn off the lighting device 22 and the fan device 24 after the user is away from home. And can avoid unnecessary power waste, and achieve the technical effect of energy saving and energy saving.

更進一步地,該智慧型控制模組1更可經由該計時器160取得一當前時間,並僅於固定的時段(如該使用者所預先設定的時段)進入該預啟動模式以實現前述功能,如於該使用者的上班期間啟動該自動關閉功能,於該使用者的下班期間啟動該自動開啟功能。藉此,本實施例的該智慧型控制模組1可有效降低誤判該使用者已離家或將返家的機率(如該使用者於上班時間經過住家附近,將不會被判定為該使用者將返家而自動開啟該照明裝置22及/或該風扇裝置24)。 Further, the smart control module 1 can further acquire a current time via the timer 160, and enter the pre-start mode only for a fixed period of time (such as a period preset by the user) to implement the foregoing function. If the automatic shutdown function is activated during the user's work shift, the automatic opening function is activated during the user's off work. Therefore, the smart control module 1 of the embodiment can effectively reduce the probability of misjudged that the user has left home or will return home (if the user passes near the home during working hours, the user will not be judged to be using the user. The lighting device 22 and/or the fan device 24) will be automatically turned on when they return home.

值得一提的是,雖於本實施例中,係由該使用者裝置32傳送該使用者位置至該智慧型控制模組1,但不以此為限。於本發明之另一實施例中,該使用者裝置32儲存有該預啟動資料142的該燈扇位置及該距離臨界值,並可計算該使用者位置與該燈扇位置間的該距離,並於該距離小於該距離臨界值時,傳送一預啟動觸發訊號至該燈扇控制模組1,以觸發該燈扇控制模組1傳送該第三燈扇控制訊號至該燈扇控制模組20以控制該照明裝置22或該風扇裝置24開啟/關閉。 It is to be noted that, in this embodiment, the user device 32 transmits the user position to the smart control module 1, but is not limited thereto. In another embodiment of the present invention, the user device 32 stores the position of the lamp and the distance threshold of the pre-start data 142, and calculates the distance between the user position and the position of the lamp. When the distance is less than the threshold value, a pre-start trigger signal is sent to the lamp control module 1 to trigger the lamp control module 1 to transmit the third lamp control signal to the lamp control module. 20 to control the lighting device 22 or the fan device 24 to be turned on/off.

於本發明之另一實施例中,該智慧型控制模組1更包括電性連接該處理器18的一感測器164。該感測器164用以取得一環境因子感測值。該記憶體14更儲存一環境因子目標值144。該處理模組180依據該環境因子感測值及該環境因子目標值144的一差值計算並傳送一第四燈扇控制訊號至該燈扇控制模組20,以調整該照明裝置22的亮度或該風扇裝置24的轉速。 In another embodiment of the present invention, the smart control module 1 further includes a sensor 164 electrically connected to the processor 18. The sensor 164 is configured to obtain an environmental factor sensing value. The memory 14 further stores an environmental factor target value 144. The processing module 180 calculates and transmits a fourth lamp control signal to the lamp control module 20 according to the difference between the environmental factor sensing value and the environmental factor target value 144 to adjust the brightness of the lighting device 22. Or the rotational speed of the fan unit 24.

較佳地,該感測器164係溫度感測器、濕度感測器或亮度感測器。當該感測器164係溫度感測器時,該環境因子感測值係該智慧型控制模組1所在空間的溫度值;當該感測器164係濕度感測器時,該環境因子感測值係該智慧型控制模組1所在空間的濕度值;當該感測器164係亮度感測器時,該環境因子感測值係該智慧型控制模組1所在空間的照度值,但不以此為限。 Preferably, the sensor 164 is a temperature sensor, a humidity sensor or a brightness sensor. When the sensor 164 is a temperature sensor, the environmental factor sensing value is a temperature value of a space in which the smart control module 1 is located; when the sensor 164 is a humidity sensor, the environmental factor is sensed The measured value is the humidity value of the space in which the smart control module 1 is located; when the sensor 164 is the brightness sensor, the environmental factor sensing value is the illuminance value of the space in which the smart control module 1 is located, but Not limited to this.

舉例來說,若該感測器164為溫度感測器,該環境因子目標值144係攝氏溫度25度。該處理模組180進入一恆溫自動控制模式後,經由該感測器164取得當前的該環境因子感測值(本實施例中該環境因子感測值以攝氏溫度30度為例)。該處理模組180計算該環境因子感測值及該環境因子目標值144的該差值(於本實施例,該差值為攝氏溫度5度),並依據該差值計算並傳送該第四燈扇控制訊號至該燈扇控制模組20,以調整該風扇裝置24的轉速(如調整為第5級風速)。 For example, if the sensor 164 is a temperature sensor, the environmental factor target value 144 is 25 degrees Celsius. After the processing module 180 enters a constant temperature automatic control mode, the current environmental factor sensing value is obtained through the sensor 164 (the environmental factor sensing value in the embodiment is 30 degrees Celsius as an example). The processing module 180 calculates the difference between the environmental factor sensing value and the environmental factor target value 144 (in the embodiment, the difference is 5 degrees Celsius), and calculates and transmits the fourth according to the difference. The lamp control signal is sent to the lamp control module 20 to adjust the rotational speed of the fan unit 24 (e.g., to the fifth stage wind speed).

於另一例子中,若該環境因子感測值下降為攝氏溫度27度,則該處理模組180於進入該恆溫自動控制模式後,可計算該環境因子感測值及該環境因子目標值144的該差值(於本例子,該差值為攝氏溫度2度),並依據該差值計算並傳送該第四燈扇控制訊號至該燈扇控制模組20,以調整該風扇裝置24的轉速(如調整為第2級風速)。藉此,本發明可有效使室內空間維持恆溫、恆濕或固定亮度,而提供該使用者更佳的使用者體驗。 In another example, if the environmental factor sensing value decreases to 27 degrees Celsius, the processing module 180 can calculate the environmental factor sensing value and the environmental factor target value 144 after entering the constant temperature automatic control mode. The difference (in the example, the difference is 2 degrees Celsius), and the fourth lamp control signal is calculated and transmitted according to the difference to the lamp control module 20 to adjust the fan device 24 Speed (if adjusted to level 2 wind speed). Thereby, the present invention can effectively maintain the indoor space at a constant temperature, a constant humidity or a fixed brightness, thereby providing a better user experience for the user.

於本發明之另一實施例中,該智慧型控制模組1可進入一學習模式,並於該學習模式下實現運轉參數的一學習功能。 In another embodiment of the present invention, the smart control module 1 can enter a learning mode and implement a learning function of the operating parameters in the learning mode.

接著說明本發明如何實現該學習功能。於本實施例中,該記憶體14更包括一資料庫146,儲存複數學習設定資料1460。較佳地,該複數學習設定資料1460分別對應至該燈扇控制模組1過去於不同的該環境因子感測值下執行時的所使用的一運轉參數。 Next, how the present invention implements the learning function will be described. In this embodiment, the memory 14 further includes a database 146 for storing the plurality of learning setting materials 1460. Preferably, the plurality of learning setting data 1460 respectively correspond to an operating parameter used when the lamp control module 1 executes under different environmental factor sensing values.

該處理器18更包括一學習模組186。該學習模組186連接該處理模組180,經由該感測器164取得當前的該環境因子感測值, 並依據所取得的該環境因子感測值自該資料庫146中選擇該複數學習設定資料1460之一。接著,該學習模組186依據被選擇的該學習設定資料1460產生並傳送一第五燈扇控制訊號至該燈扇控制模組20,以調整該照明裝置22的亮度或該風扇裝置24的轉速。較佳地,被選擇的該學習設定資料1460係對應當前的該環境因子感測值。 The processor 18 further includes a learning module 186. The learning module 186 is connected to the processing module 180, and the current environmental factor sensing value is obtained through the sensor 164. And selecting one of the plural learning setting materials 1460 from the database 146 according to the obtained environmental factor sensing value. Then, the learning module 186 generates and transmits a fifth lamp control signal to the lamp control module 20 according to the selected learning setting data 1460 to adjust the brightness of the lighting device 22 or the speed of the fan device 24. . Preferably, the selected learning setting material 1460 corresponds to the current environmental factor sensing value.

舉例來說,若該燈扇控制模組1過去於進入該學習模式後,曾於攝氏溫度25度時曾被設定為執行第1級風速,於攝氏溫度26度時被設定為執行第2級風速,並於攝氏溫度27度時被設定為執行第3級風速,則該學習模組186可將前述設定參數(即第1級風速、第2級風速及第3級風速)分別對應至當下的該環境因子感測值(即攝氏溫度25度、攝氏溫度26度及攝氏溫度27度),並做為3筆該學習設定資料1460儲存於該資料庫146中。 For example, if the lamp control module 1 has entered the learning mode in the past, it has been set to perform the first-order wind speed at 25 degrees Celsius, and is set to perform the second level at 26 degrees Celsius. The wind speed is set to perform the third-stage wind speed at a temperature of 27 degrees Celsius, and the learning module 186 can respectively correspond to the set parameters (ie, the first-stage wind speed, the second-stage wind speed, and the third-stage wind speed) to the current moment. The environmental factor sensed value (i.e., 25 degrees Celsius, 26 degrees Celsius, and 27 degrees Celsius) is stored in the database 146 as three learning settings 1460.

當該燈扇控制模組1再度進入該學習模式後,該學習模組186可經由該感測器164取得當前的該環境因子感測值(以攝氏溫度26度為例),並自該資料庫146中選擇對應該環境因子感測值的該學習設定資料1460(本實施例中為第2級風速),並依據所選擇的該學習設定資料1460產生並傳送該第五燈扇控制訊號至該燈扇控制模組20,以調整該風扇裝置24的轉速為第2級風速。藉此,本發明可有效地使該照明裝置22及該風扇裝置24自動依該使用者的使用習慣進行運轉。 After the lamp control module 1 enters the learning mode again, the learning module 186 can obtain the current environmental factor sensing value (for example, 26 degrees Celsius) via the sensor 164, and the data is obtained from the data. The learning setting data 1460 (the second-level wind speed in this embodiment) corresponding to the environmental factor sensing value is selected in the library 146, and the fifth lamp control signal is generated and transmitted according to the selected learning setting data 1460. The lamp control module 20 adjusts the rotational speed of the fan device 24 to a second-order wind speed. Thereby, the present invention can effectively operate the illumination device 22 and the fan device 24 automatically according to the user's usage habits.

於本發明之另一實施例中,該智慧型控制模組1可進入一統計模式。並且,於該統計模式下,該智慧型控制模組1執行一統計功能。 In another embodiment of the present invention, the smart control module 1 can enter a statistical mode. Moreover, in the statistical mode, the smart control module 1 performs a statistical function.

接著說明本發明如何實現該統計功能。於本實施例中,該網路傳輸模組162經由該網路30連接該使用者裝置32或一雲端伺服器34。該處理器18更包括一統計模組188。該統計模組188連接該處理模組180,可計算一統計資料148並儲存於該記憶體14,並於經由該網路傳輸模組162連接至該網路30時,將該統計資料148傳送至該使用者裝置32或該雲端伺服器34。 Next, how the present invention implements the statistical function will be described. In the embodiment, the network transmission module 162 is connected to the user device 32 or a cloud server 34 via the network 30. The processor 18 further includes a statistics module 188. The statistic module 188 is connected to the processing module 180, and can calculate a statistic 148 and store it in the memory 14. When the network transmission module 162 is connected to the network 30, the statistic 148 is transmitted. To the user device 32 or the cloud server 34.

較佳地,該統計資料148可包括於一統計時間範圍(如1個月)中的複數時間點(如每天中午)所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。藉此,本發明的該統計模組188可有效記錄統計該燈扇2的運轉歷程,並提供該燈扇2的該統計資料148給該使用者,以供該使用者知悉該燈扇2的運轉相關資訊。 Preferably, the statistic 148 may include an environmental factor sensed value, an environmental factor target value, or a light recorded separately at a plurality of time points (eg, noon) in a statistical time range (eg, 1 month). The fan consumes power. Therefore, the statistical module 188 of the present invention can effectively record the running history of the lamp 2 and provide the statistic 148 of the lamp 2 to the user for the user to know the lamp 2 Run related information.

於本發明之另一實施例中,該智慧型控制模組1可進入一雲端備份模式。並且,於該雲端備份模式下,該智慧型控制模組1執行一雲端備份功能。 In another embodiment of the present invention, the smart control module 1 can enter a cloud backup mode. Moreover, in the cloud backup mode, the smart control module 1 performs a cloud backup function.

接著說明本發明如何實現該雲端備份功能。於本實施例中,該網路傳輸模組162經由該網路30連接該雲端伺服器34。該處理器18更包括一雲端備份模組190。該雲端備份模組190連接該處理模組180,用以產生一備份資料150並暫存至該記憶體14。當該雲端備份模組190經由該網路傳輸模組162連接至該雲端伺服器34時,可傳送該備份資料150至該雲端伺服器34以進行資料備份。 Next, how the present invention implements the cloud backup function will be described. In this embodiment, the network transmission module 162 is connected to the cloud server 34 via the network 30. The processor 18 further includes a cloud backup module 190. The cloud backup module 190 is connected to the processing module 180 for generating a backup data 150 and temporarily storing it in the memory 14. When the cloud backup module 190 is connected to the cloud server 34 via the network transmission module 162, the backup data 150 can be transmitted to the cloud server 34 for data backup.

較佳地,該備份資料150係包括該智慧型控制模組1的設定資料或該燈扇2的運轉記錄(如該定時控制設定資料140、該預啟動設定資料142、該環境因子目標值144、該複數學習設定資料1460、該統計資料148或上述資料之任意組合),但不以此為限。 Preferably, the backup data 150 includes setting data of the smart control module 1 or an operation record of the light fan 2 (eg, the timing control setting data 140, the pre-start setting data 142, the environmental factor target value 144) The plural learning setting data 1460, the statistical data 148 or any combination of the above materials, but not limited thereto.

藉此,當該使用者更換或添購新的該智慧型控制模組1後,可自該雲端伺服器34下載該備份資料150至新的該智慧型控制模組1,以使新的該智慧型控制模組1可直接依據該備份資料150進行運轉。本發明可有效省卻該使用者手動設定新的該智慧型控制模組1的步驟,而可提供更佳的設置便利性。 Therefore, after the user replaces or purchases the new smart control module 1, the backup data 150 can be downloaded from the cloud server 34 to the new smart control module 1 to make the new one. The smart control module 1 can operate directly according to the backup data 150. The invention can effectively save the step of manually setting the new smart control module 1 by the user, and can provide better setting convenience.

於本發明之另一實施例中,該智慧型控制模組1可提供一網頁操作功能。具體而言,於本實施例中,該網路傳輸模組162連接該網路30。該記憶體14更儲存一網頁152。該處理器18更包括一網頁模組192,經由該網路傳輸模組162提供該網頁152的瀏覽服務,並經由該網頁152接受一使用者操作,並依據該 使用者操作產生控制訊號(如該第一燈扇控制訊號、該第二燈扇控制訊號、該第三燈扇控制訊號、該第四燈扇控制訊號或該第五燈扇控制訊號),以調整該照明裝置22的亮度或該風扇裝置24的轉速。 In another embodiment of the present invention, the smart control module 1 can provide a webpage operation function. Specifically, in this embodiment, the network transmission module 162 is connected to the network 30. The memory 14 further stores a web page 152. The processor 18 further includes a webpage module 192, through which the webpage 152 provides a browsing service for the webpage 152, and receives a user operation via the webpage 152, and according to the The user operates to generate a control signal (such as the first lamp control signal, the second lamp control signal, the third lamp control signal, the fourth lamp control signal, or the fifth lamp control signal) to The brightness of the lighting device 22 or the rotational speed of the fan unit 24 is adjusted.

更進一步地,該網頁模組192可進一步將該燈扇2的運轉相關資訊顯示於該網頁152。藉此,該使用者可經由該網頁152來對該燈扇2進行遠端控制,或自該網頁152取得該燈扇2的當前的運轉資訊。 Further, the webpage module 192 can further display the operation related information of the light fan 2 on the webpage 152. Thereby, the user can remotely control the lamp 2 via the web page 152 or obtain the current operation information of the lamp 2 from the web page 152.

值得一提的是,該處理模組180、該定時控制模組182、該預啟動模組184、該學習模組186、該統計模組188、該雲端備份模組190及該網頁模組192可經由硬體模組方式實現(如電子電路或已燒錄數位電路的積體電路),亦可經由軟體模組方式實現(如程式(program)或應用程式介面(Application Programming Interface,API)),但不以此為限。當前述模組係經由軟體模組方式實現時,前述各模組間的連接係指程式間的鏈結(link)。 It is worth mentioning that the processing module 180, the timing control module 182, the pre-activation module 184, the learning module 186, the statistics module 188, the cloud backup module 190, and the webpage module 192 It can be implemented by hardware module (such as electronic circuit or integrated circuit of programmed digital circuit), or by software module (such as program or application programming interface (API)). , but not limited to this. When the aforementioned modules are implemented via a software module, the connection between the above modules refers to a link between programs.

當該處理模組180、該定時控制模組182、該預啟動模組184、該學習模組186、該統計模組188、該雲端備份模組190及該網頁模組192係經由軟體模組方式實現時,該記憶體14可進一步儲存一電腦程式154,該電腦程式154記錄有用於實現前述各該模組的程式碼或機械碼(machine code)。該處理器18執行該電腦程式154的程式碼或機械碼後,可實現前述各該模組的功能。 The processing module 180, the timing control module 182, the pre-launching module 184, the learning module 186, the statistical module 188, the cloud backup module 190, and the webpage module 192 are via a software module. When the method is implemented, the memory 14 can further store a computer program 154, and the computer program 154 records a code or a machine code for implementing each of the foregoing modules. After the processor 18 executes the program code or mechanical code of the computer program 154, the functions of the foregoing modules can be implemented.

續請參閱圖2,圖2為本發明第一具體實施例的智慧型燈扇架構圖。如圖2所示,該燈扇2包括該智慧型控制模組1、該燈扇控制模組20、該照明裝置22及該風扇裝置24。該燈扇控制模組20電性連接該照明裝置22及該風扇裝置24。該智慧型控制模組1的該第一傳輸模組10有線或無線連接該燈扇控制模組20的該第二傳輸模組200。該智慧型控制模組1係與圖1所示之該智慧型控制模組1相同,於此不再贅述。 Referring to FIG. 2, FIG. 2 is a structural diagram of a smart lamp fan according to a first embodiment of the present invention. As shown in FIG. 2 , the lamp 2 includes the smart control module 1 , the lamp control module 20 , the lighting device 22 , and the fan device 24 . The lamp control module 20 is electrically connected to the lighting device 22 and the fan device 24 . The first transmission module 10 of the smart control module 1 is wired or wirelessly connected to the second transmission module 200 of the lamp control module 20. The smart control module 1 is the same as the smart control module 1 shown in FIG. 1 and will not be described again.

較佳的,該第一傳輸模組10係經由複數金屬腳位(pin)可卸 式地電性連接該第二傳輸模組200,但不以此為限。藉此,該智慧型控制模組1可輕易地安裝至該燈扇2或自該燈扇2移除。 Preferably, the first transmission module 10 is detachable via a plurality of metal pins. The second transmission module 200 is electrically connected to the second transmission module 200, but is not limited thereto. Thereby, the smart control module 1 can be easily mounted to or removed from the lamp 2 .

值得一提的是,該燈扇2係經由於內部設置該智慧型控制模組1而成為智慧型燈扇。換句話說,即便該燈扇2係不具自動控制能力的一般燈扇,亦可經由裝設本發明之該智慧型控制模組1而升級為智慧型燈扇,而可執行前述各項功能(如該定時控制功能、該預啟動功能、該學習功能、該統計功能或該雲端備份功能)。 It is worth mentioning that the lamp fan 2 is a smart lamp fan by providing the smart control module 1 therein. In other words, even if the lamp fan 2 is a general lamp fan that does not have an automatic control capability, it can be upgraded to a smart lamp fan by installing the smart control module 1 of the present invention, and the foregoing functions can be performed ( Such as the timing control function, the pre-launch function, the learning function, the statistics function or the cloud backup function).

續請參閱圖3,圖3為本發明第一具體實施例的智慧型燈扇使用示意圖,用以說明圖2所示的該燈扇2的一使用情境。 Continuing to refer to FIG. 3, FIG. 3 is a schematic diagram of the use of the smart lamp fan according to the first embodiment of the present invention to illustrate a usage scenario of the lamp fan 2 shown in FIG. 2.

如圖3所示,該使用者可經由使用已連接至該網路30的該使用者裝置32來對裝設有該智慧型控制模組1的該燈扇2進行遙控。具體而言,該使用者裝置32係智慧型手機,並於執行一應用程式後,可顯示一圖形使用者介面(Graphical user interface,GUI)。該圖形使用者介面可包括複數虛擬按鍵及至少一顯示區域,該複數按鍵用以接受該使用者操作,該顯示區域用以顯示該燈扇2當前的運轉資訊。 As shown in FIG. 3, the user can remotely control the lamp 2 equipped with the smart control module 1 by using the user device 32 connected to the network 30. Specifically, the user device 32 is a smart phone, and after executing an application, a graphical user interface (GUI) can be displayed. The graphical user interface can include a plurality of virtual keys and at least one display area for accepting operation by the user, the display area for displaying current operation information of the light fan 2.

當該使用者裝置32經由該圖形使用者介面接受該使用者操作(如一開燈操作)後,可產生並傳送對應該使用者操作的控制訊號(如該第一燈扇控制訊號)至該智慧型控制模組1。接著,該智慧型控制模組1傳送該第一燈扇控制訊號至該燈扇控制模組20,以控制該燈扇的該照明裝置22及/或該風扇裝置24(如開啟該照明裝置22)。 After the user device 32 accepts the user operation (such as a light-on operation) via the graphical user interface, a control signal corresponding to the user operation (such as the first light fan control signal) can be generated and transmitted to the smart device. Type control module 1. Then, the smart control module 1 transmits the first lamp control signal to the lamp control module 20 to control the lighting device 22 of the lamp and/or the fan device 24 (if the lighting device 22 is turned on) ).

續請參閱圖4,圖4為本發明第一具體實施例的智慧型燈扇遙控器架構圖。如圖4所示,於本實施例中,智慧型燈扇遙控器4包括該智慧型控制模組1及該人機介面40。該智慧型控制模組1電性連接該人機介面40,並經由該第一傳輸模組10無線連接該燈扇2’的該燈扇控制模組20的該第二傳輸模組200。該智慧型控制模組1係與圖1所示之該智慧型控制模組1相同, 於此不再贅述。 Referring to FIG. 4, FIG. 4 is a structural diagram of a smart lamp remote controller according to a first embodiment of the present invention. As shown in FIG. 4, in the embodiment, the smart lamp remote controller 4 includes the smart control module 1 and the human machine interface 40. The smart control module 1 is electrically connected to the human interface 40, and is wirelessly connected to the second transmission module 200 of the lamp control module 20 of the lamp 2' via the first transmission module 10. The smart control module 1 is the same as the smart control module 1 shown in FIG. This will not be repeated here.

值得一提的是,該燈扇2’可為不具自動控制能力(即,不具有該智慧型控制模組1)的一般燈扇,並且,該智慧型燈扇遙控器4可經由該智慧型控制模組1的該第一傳輸模組10傳送相容於一般燈扇的無線控制訊號至該燈扇2’,以令該燈扇2’達成自動控制的功效。 It is worth mentioning that the lamp fan 2' can be a general lamp fan that does not have automatic control capability (ie, does not have the smart control module 1), and the smart lamp fan remote controller 4 can pass the smart type. The first transmission module 10 of the control module 1 transmits a wireless control signal compatible with a general light fan to the light fan 2' to enable the light fan 2' to achieve automatic control.

具體而言,本實施例係將該智慧型控制模組1裝設於該智慧型燈扇遙控器4中,以取代該燈扇2’原本的遙控器。並且,該智慧型燈扇遙控器4經由將各種不同的控制訊號(如該第一燈扇控制訊號、該第二燈扇控制訊號、該第三燈扇控制訊號、該第四燈扇控制訊號或該第五燈扇控制訊號)傳送至該燈扇2’,可實現前述各項功能(如該定時控制功能、該預啟動功能、該學習功能、該統計功能或該雲端備份功能)。 Specifically, in the present embodiment, the smart control module 1 is installed in the smart card remote controller 4 in place of the original remote controller of the lamp 2'. Moreover, the smart card remote controller 4 transmits various control signals (such as the first lamp control signal, the second lamp control signal, the third lamp control signal, and the fourth lamp control signal). Or the fifth lamp control signal is transmitted to the light fan 2', and the foregoing functions (such as the timing control function, the pre-start function, the learning function, the statistical function or the cloud backup function) can be implemented.

藉此,該使用者僅需添購該智慧型燈扇遙控器4,即可使該燈扇2’具備智慧型燈扇的相關功能,而可有效省卻汰換該燈扇2’的成本。 Therefore, the user only needs to purchase the smart lamp remote controller 4, so that the lamp 2' can be equipped with the function of the smart lamp, and the cost of replacing the lamp 2' can be effectively saved.

續請參閱圖5,圖5為本發明第一具體實施例的智慧型燈扇遙控器使用示意圖,用以說明圖4所示的該智慧型燈扇遙控器4的一使用情境。 Referring to FIG. 5, FIG. 5 is a schematic diagram of the use of the smart lamp remote controller according to the first embodiment of the present invention to illustrate a usage scenario of the smart card remote controller 4 shown in FIG.

如圖5所示,該智慧型燈扇遙控器4內部裝設有該智慧型控制模組1,並且表面設置有該人機介面40(本實施例中,該人機介面40為按鍵及顯示器)。 As shown in FIG. 5, the smart type control module 1 is internally provided with the smart control module 1 and the human-machine interface 40 is disposed on the surface. In the embodiment, the human-machine interface 40 is a button and a display. ).

該使用者可經由操作該按鍵(即該人機介面40)來輸入該使用者操作(如該開燈操作)。該智慧型控制模組1經由該人機介面40接受該使用者操作後,可產生對應該使用者操作的控制訊號(如該第一燈扇控制訊號),並將控制訊號以無線方式傳送至該燈扇2’的該燈扇控制模組20,以控制該燈扇2’的該照明裝置22或該風扇裝置24(如開啟該照明裝置22)。 The user can input the user operation (eg, the light-on operation) by operating the button (ie, the human-machine interface 40). After receiving the user operation, the smart control module 1 can generate a control signal (such as the first light fan control signal) corresponding to the user operation, and wirelessly transmit the control signal to the control signal. The lamp control module 20 of the lamp 2' is configured to control the lighting device 22 or the fan device 24 of the lamp 2' (if the lighting device 22 is turned on).

續請參閱圖6,為本發明第一具體實施例的智慧型燈扇控制方法流程圖。本實施例之智慧型燈扇控制方法主要係由圖1所示 之該智慧型控制模組1來加以實現。 Continuing to refer to FIG. 6, which is a flowchart of a smart lamp control method according to a first embodiment of the present invention. The intelligent lamp fan control method of this embodiment is mainly shown in FIG. The intelligent control module 1 is implemented.

步驟S60:接收該第一燈扇控制訊號。具體而言,該智慧型控制模組1經由該控制訊號接收模組12自該人機介面40、經由該網路30自該使用者裝置32或經由該網頁152接收對應該使用者操作的該第一燈扇控制訊號。 Step S60: receiving the first lamp control signal. Specifically, the smart control module 1 receives the corresponding user operation from the human machine interface 40, via the network 30, or via the webpage 152 via the control signal receiving module 12. The first light fan controls the signal.

步驟S62:傳送該第一燈扇控制訊號至該燈扇控制模組20。具體而言,該處理器18傳輸該第一燈扇控制訊號至該燈扇控制模組20,以使該燈扇控制模組20可依據該第一燈扇控制訊號調整該照明裝置22的亮度或該風扇裝置24的轉速。 Step S62: transmitting the first lamp control signal to the lamp control module 20. Specifically, the processor 18 transmits the first lamp control signal to the lamp control module 20, so that the lamp control module 20 can adjust the brightness of the illumination device 22 according to the first lamp control signal. Or the rotational speed of the fan unit 24.

步驟S64:設定該定時控制設定資料140。具體而言,該智慧型控制模組1經由該控制訊號接收模組12自該人機介面40、經由該網路30自該使用者裝置32或經由該網頁152接受另一該使用者操作,並依據該使用者操作設定該定時控制設定資料140。較佳地,該定時控制設定資料140包括該觸發時間及該定時控制運轉參數。 Step S64: The timing control setting data 140 is set. Specifically, the smart control module 1 receives another user operation from the human machine interface 40, via the network 30, or via the webpage 152 via the control signal receiving module 12, The timing control setting data 140 is set according to the user operation. Preferably, the timing control setting data 140 includes the trigger time and the timing control operation parameter.

步驟S66:判斷該觸發時間是否經過。具體而言,該智慧型控制模組1經由該計時器160判斷該定時控制設定資料140的該觸發時間是否經過。若該觸發時間經過,則執行步驟S68;否則重複執行該步驟S66,以持續判斷該觸發時間是否經過。 Step S66: It is judged whether the trigger time has passed. Specifically, the smart control module 1 determines, via the timer 160, whether the trigger time of the timing control setting data 140 has passed. If the trigger time elapses, step S68 is performed; otherwise, step S66 is repeatedly executed to continuously determine whether the trigger time has elapsed.

步驟S68:產生並傳送該第二燈扇控制訊號至該燈扇控制模組20。具體而言,該智慧型控制模組1於經由該計時器160計時該觸發時間經過時,依據該定時控制設定資料140的該定時控制運轉參數產生該第二燈扇控制訊號,並經由該第一傳輸模組10傳送至該燈扇控制模組20,以調整該照明裝置22的亮度或該風扇裝置的轉速24。 Step S68: The second lamp control signal is generated and transmitted to the lamp control module 20. Specifically, the smart control module 1 generates the second lamp control signal according to the timing control operation parameter of the timing control setting data 140 when the trigger time elapses via the timer 160, and the second lamp control signal is generated. A transmission module 10 is transmitted to the lamp control module 20 to adjust the brightness of the illumination device 22 or the rotational speed 24 of the fan device.

值得一提的是,雖於圖6中,該步驟S60-S62係於該步驟S64-S68之前被執行,但不應以此為限,該步驟S60-S62與該步驟S64-S68之間並無順序關係或相依關係,亦可僅執行該步驟S60-S62,不執行該步驟S64-S68,或先執行該步驟S64-S68,再執行該步驟S60-S62。該步驟S60-S62與該步驟S64-S68的執行與否與執行 順序皆可依該使用者需求任意進行調整。 It should be noted that, in FIG. 6, the steps S60-S62 are performed before the steps S64-S68, but should not be limited thereto, and the steps S60-S62 and the steps S64-S68 are Without the order relationship or the dependency relationship, only the steps S60-S62 may be performed, the steps S64-S68 may not be performed, or the steps S64-S68 may be performed first, and then the steps S60-S62 may be performed. The execution and execution of the steps S60-S62 and the steps S64-S68 The order can be adjusted arbitrarily according to the needs of the user.

續請合併參閱圖7A及7B,圖7A為本發明第二具體實施例的智慧型燈扇控制方法第一流程圖,圖7B為本發明第二具體實施例的智慧型燈扇控制方法第二流程圖。本實施例之智慧型燈扇控制方法主要係由圖1所示之該智慧型控制模組1來加以實現。 Referring to FIG. 7A and FIG. 7B, FIG. 7A is a first flowchart of a smart lamp control method according to a second embodiment of the present invention, and FIG. 7B is a second embodiment of the smart lamp control method according to the second embodiment of the present invention. flow chart. The smart lamp control method of the present embodiment is mainly implemented by the smart control module 1 shown in FIG.

步驟S700:接收該第一燈扇控制訊號。 Step S700: Receive the first lamp control signal.

步驟S702:傳送該第一燈扇控制訊號至該燈扇控制模組20。 Step S702: transmitting the first lamp control signal to the lamp control module 20.

步驟S704:設定該定時控制設定資料140。較佳地,該定時控制設定資料140包括該觸發時間及該定時控制運轉參數。 Step S704: setting the timing control setting data 140. Preferably, the timing control setting data 140 includes the trigger time and the timing control operation parameter.

步驟S706:判斷該觸發時間是否經過。若該觸發時間經過,則執行步驟S708;否則重複執行該步驟S706,以持續判斷該觸發時間是否經過。 Step S706: determining whether the trigger time has elapsed. If the trigger time passes, step S708 is performed; otherwise, step S706 is repeatedly performed to continuously determine whether the trigger time has elapsed.

步驟S708:產生並傳送該第二燈扇控制訊號至該燈扇控制模組20。 Step S708: The second lamp control signal is generated and transmitted to the lamp control module 20.

步驟S710:取得該使用者位置及該預啟動設定資料142。具體而言,該智慧型控制模組1可經由該網路30自該使用者裝置32取得該使用者位置,並自該記憶體14取得該預啟動設定資料142。較佳地,該預啟動設定資料142係由該使用者預先設定,並包括該燈扇位置、該距離臨界值及該預啟動運轉參數。 Step S710: Acquire the user location and the pre-activation setting data 142. Specifically, the smart control module 1 can obtain the user location from the user device 32 via the network 30, and obtain the pre-boot setting data 142 from the memory 14. Preferably, the pre-activation setting data 142 is preset by the user, and includes the lamp position, the distance threshold, and the pre-start operation parameter.

步驟S712:與使用者間的距離是否小於該距離臨界值。具體而言,該智慧型控制模組1計算該使用者位置及該燈扇位置間的該距離,並判斷該距離是否小於該距離臨界值。若該距離小於該距離臨界值,則執行步驟S714;否則重複執行該步驟S712以持續偵測。 Step S712: Whether the distance from the user is less than the distance threshold. Specifically, the smart control module 1 calculates the distance between the user position and the position of the lamp, and determines whether the distance is less than the distance threshold. If the distance is less than the distance threshold, step S714 is performed; otherwise, step S712 is repeatedly performed to continuously detect.

步驟S714:產生並傳送該第三燈扇控制訊號至該燈扇控制模組20。具體而言,該智慧型控制模組1依據該預啟動設定資料142的該預啟動運轉參數產生該第三燈扇控制訊號,並經由該第一傳輸模組10傳送至該燈扇控制模組20,以調整該照明裝置24的亮度或該風扇裝置22的轉速。 Step S714: The third lamp control signal is generated and transmitted to the lamp control module 20. Specifically, the smart control module 1 generates the third lamp control signal according to the pre-start operation parameter of the pre-activation setting data 142, and transmits the third lamp control signal to the lamp control module via the first transmission module 10. 20 to adjust the brightness of the lighting device 24 or the rotational speed of the fan unit 22.

步驟S716:取得該環境因子感測值。具體而言,該智慧型控制模組1經由該感測器164取得該感測器164周圍環境當前的該環境因子感測值。較佳地,該環境因子感測值係溫度值、濕度值或照度值,但不以此為限。 Step S716: Acquire the environmental factor sensing value. Specifically, the smart control module 1 obtains the current environmental sensed value of the environment around the sensor 164 via the sensor 164. Preferably, the environmental factor sensing value is a temperature value, a humidity value or an illuminance value, but is not limited thereto.

步驟S718:取得該環境因子目標值144。具體而言,該智慧型控制模組1自該記憶體14取得該環境因子目標值144。較佳地,該環境因子目標值144係由該使用者預先設定並儲存於該記憶體14。 Step S718: The environmental factor target value 144 is obtained. Specifically, the smart control module 1 acquires the environmental factor target value 144 from the memory 14 . Preferably, the environmental factor target value 144 is preset by the user and stored in the memory 14.

步驟S720:產生並傳送該第四燈扇控制訊號至該燈扇控制模組20。具體而言,該智慧型控制模組1計算依據該環境因子感測值及該環境因子目標值144的該差值來計算該第四燈扇控制訊號,並經由該第一傳輸模組10傳送至該燈扇控制模組20,以調整該照明裝置22的亮度或該風扇裝置24的轉速。 Step S720: Generate and transmit the fourth lamp control signal to the lamp control module 20. Specifically, the smart control module 1 calculates the fourth lamp control signal according to the difference between the environmental factor sensing value and the environmental factor target value 144, and transmits the fourth lamp control signal through the first transmission module 10 The lamp control module 20 is adjusted to adjust the brightness of the illumination device 22 or the rotational speed of the fan device 24.

步驟S722:取得當前的該環境因子感測值。具體而言,該智慧型控制模組1經由該感測器164取得該感測器164周圍環境當前的該環境因子感測值。 Step S722: Acquire the current environmental factor sensing value. Specifically, the smart control module 1 obtains the current environmental sensed value of the environment around the sensor 164 via the sensor 164.

步驟S724:自該資料庫146選擇該複數學習設定資料1460之一。具體而言,該智慧型控制模組1自該資料庫146所儲存的該複數學習設定資料1460中選擇對應當前的該環境因子感測值的該學習設定資料1460。較佳地,該複數學習設定資料1460分別對應至該燈扇控制模組1過去於不同的該環境因子感測值下執行時的所使用的該運轉參數。 Step S724: Select one of the plural learning setting materials 1460 from the database 146. Specifically, the smart control module 1 selects the learning setting data 1460 corresponding to the current environmental factor sensing value from the complex learning setting data 1460 stored in the database 146. Preferably, the plurality of learning setting materials 1460 respectively correspond to the operating parameters used when the lamp control module 1 executes under different environmental factor sensing values.

步驟S726:產生並傳送該第五燈扇控制訊號至該燈扇控制模組20。具體而言,該智慧型控制模組1依據被選擇的該學習設定資料1460產生該第五燈扇控制訊號,並經由該第一傳輸模組10傳送至該燈扇控制模組20,以調整該照明裝置22的亮度或該風扇裝置24的轉速。 Step S726: The fifth lamp control signal is generated and transmitted to the lamp control module 20. Specifically, the smart control module 1 generates the fifth lamp control signal according to the selected learning setting data 1460, and transmits the control signal to the lamp control module 20 via the first transmission module 10 to adjust The brightness of the illuminating device 22 or the rotational speed of the fan unit 24.

步驟S728:計算該統計資料148。具體而言,該智慧型控制模組1可計算該統計資料148並儲存於該記憶體14。較佳地,該統計資料148可包括於該統計時間範圍(如1週)中的複數時 間點(如每天晚上8點)所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。 Step S728: Calculate the statistic 148. Specifically, the smart control module 1 can calculate the statistic 148 and store it in the memory 14. Preferably, the statistics 148 may be included in the plural in the statistical time range (eg, 1 week) An environmental factor sensed value, an environmental factor target value, or a lamp fan power consumption value recorded separately between points (eg, 8:00 every night).

步驟S730:傳送該統計資料148至該使用者裝置32或該雲端伺服器34。具體而言,該智慧型控制模組1經由該網路傳輸模組162將該統計資料148傳送至該使用者裝置32或該雲端伺服器34。 Step S730: The statistic 148 is transmitted to the user device 32 or the cloud server 34. Specifically, the smart control module 1 transmits the statistics 148 to the user device 32 or the cloud server 34 via the network transmission module 162.

步驟S732:產生該備份資料150。具體而言,該智慧型控制模組1產生該備份資料150並暫存至該記憶體14。較佳地,該備份資料150包括該智慧型控制模組1的設定資料或該燈扇2、2’的運轉記錄(如該定時控制設定資料140、該預啟動設定資料142、該環境因子目標值144、該複數學習設定資料1460、該統計資料148或上述資料之任意組合),但不以此為限。 Step S732: The backup data 150 is generated. Specifically, the smart control module 1 generates the backup data 150 and temporarily stores it in the memory 14 . Preferably, the backup data 150 includes setting data of the smart control module 1 or an operation record of the light fan 2, 2' (such as the timing control setting data 140, the pre-activation setting data 142, the environmental factor target) The value 144, the plural learning setting data 1460, the statistic 148 or any combination of the above materials, but not limited thereto.

步驟S734:傳送該備份資料150至該雲端伺服器34。具體而言,該智慧型控制模組1經由該網路傳輸模組162連接至該雲端伺服器34,並傳送該備份資料150至該雲端伺服器34以進行資料備份。 Step S734: The backup data 150 is transmitted to the cloud server 34. Specifically, the smart control module 1 is connected to the cloud server 34 via the network transmission module 162, and transmits the backup data 150 to the cloud server 34 for data backup.

值得一提的是,於圖7A及7B中,該步驟S700-S702、該步驟S704-S708、該步驟S710-S714、該步驟S716-S720、該步驟S722-S726、該步驟S728-S730與該步驟S732-S734之間並無順序關係或相依關係。該步驟S700-S702、該步驟S704-S708、該步驟S710-S714、該步驟S716-S720、該步驟S722-S726、該步驟S728-S730與該步驟S732-S734的執行與否與執行順序皆可依該使用者需求任意進行調整。 It is worth mentioning that, in FIGS. 7A and 7B, the steps S700-S702, the steps S704-S708, the steps S710-S714, the steps S716-S720, the steps S722-S726, the steps S728-S730 and the There is no order relationship or dependency relationship between steps S732-S734. The steps S700-S702, the steps S704-S708, the steps S710-S714, the steps S716-S720, the steps S722-S726, the steps S728-S730 and the steps S732-S734 can be performed or not. Adjust according to the needs of the user.

本發明可使燈扇自動定時運轉,而不需使用者手動開啟/關閉燈扇,而可提供更佳的使用者體驗。 The invention can automatically operate the lamp fan without the need for the user to manually turn on/off the lamp fan, thereby providing a better user experience.

本發明經由依據環境因子感測值及環境因子目標值來自動控制燈扇,可有效使室內空間維持恆溫、恆濕或固定亮度,而提供使用者更佳的使用者體驗。 The invention automatically controls the lamp fan according to the environmental factor sensing value and the environmental factor target value, and can effectively maintain the indoor space to maintain constant temperature, constant humidity or fixed brightness, thereby providing a better user experience for the user.

本發明經由選擇對應當前環境的學習設定資料來控制燈扇,可有效地使燈扇自動依使用者的使用習慣進行運轉。 The invention controls the lamp fan by selecting the learning setting data corresponding to the current environment, and can effectively make the lamp fan automatically operate according to the user's usage habits.

本發明可有效記錄統計燈扇的運轉歷程,並提供燈扇的統計資料給使用者,以供使用者知悉燈扇的運轉相關資訊。 The invention can effectively record the running history of the statistical lamp fan, and provide the statistics of the lamp fan to the user, so that the user can know the operation related information of the lamp fan.

本發明的雲端備份功能可有效省卻使用者手動設定新的智慧型控制模組的步驟,而可提供更佳的設置便利性。 The cloud backup function of the invention can effectively eliminate the steps for the user to manually set a new smart control module, and can provide better setting convenience.

以上所述僅為本發明之較佳具體實例,非因此即侷限本發明之專利範圍,故舉凡運用本發明內容所為之等效變化,均同理皆包含於本發明之範圍內,合予陳明。 The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, equivalent changes to the scope of the present invention are included in the scope of the present invention. Bright.

S60-S68‧‧‧第一控制步驟 S60-S68‧‧‧ first control step

Claims (16)

一種智慧型控制模組,包括:一第一傳輸模組,連接一燈扇控制模組;一控制訊號接收模組,接收一第一燈扇控制訊號或一定時控制訊號;一記憶體,儲存一預啟動設定資料,其中該預啟動設定資料包括一燈扇位置、一距離臨界值及一預啟動運轉參數;一計時器;一網路傳輸模組,經由網際網路連接一使用者裝置以取得一使用者位置;及一處理器,電性連接該網路傳輸模組、該第一傳輸模組、該控制訊號傳輸模組、該記憶體及該計時器,包括:一處理模組,經由該第一傳輸模組傳送該第一燈扇控制訊號至該燈扇控制模組以調整電性連接該燈扇控制模組的一照明裝置的亮度或電性連接該燈扇控制模組的一風扇裝置的轉速,或依據該定時控制訊號設定一定時控制設定資料並儲存至該記憶體,其中該定時控制設定資料包括一觸發時間及一定時控制運轉參數;一定時控制模組,連接該處理模組,於該計時器計時該觸發時間經過時,依據該定時控制運轉參數產生並傳送一第二燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速;及一預啟動模組,連接該處理模組,該預啟動模組經由該計時器取得一當前時間,並於該當前時間符合預先設定的一第一時段且該使用者位置及該燈扇位置間的一距離小於該距離臨界值時,依據該預啟動運轉參數產生並傳送一第三燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速,並於該當前時間符合預先設定的一第二時段且該使用者位置及該燈扇位置間的該距離不小於該距離臨界值時,自動關閉該照明裝置及該風扇裝置。 A smart control module includes: a first transmission module connected to a lamp control module; a control signal receiving module, receiving a first lamp control signal or a time control signal; a memory, storing a pre-activation setting data, wherein the pre-activation setting data includes a lamp position, a distance threshold, and a pre-starting operation parameter; a timer; a network transmission module, connecting a user device via the Internet to Obtaining a user location; and a processor electrically connecting the network transmission module, the first transmission module, the control signal transmission module, the memory, and the timer, comprising: a processing module, Transmitting the first lamp control signal to the lamp control module via the first transmission module to adjust brightness of an illumination device electrically connected to the lamp control module or electrically connecting the lamp control module The speed of a fan device, or according to the timing control signal setting, the setting data is controlled and stored in the memory, wherein the timing control setting data includes a trigger time and a certain time control operation parameter The control module is connected to the processing module, and when the trigger time expires, the second lamp control signal is generated and transmitted to the lamp control module according to the timing control operation parameter to adjust a brightness of the lighting device or a speed of the fan device; and a pre-activation module connected to the processing module, the pre-activation module obtaining a current time via the timer, and meeting the preset one at the current time And when a distance between the user position and the position of the lamp is less than the distance threshold, generating and transmitting a third lamp control signal to the lamp control module according to the pre-start operation parameter to adjust the The brightness of the illumination device or the rotation speed of the fan device, and automatically turns off the illumination when the current time meets a preset second time period and the distance between the user position and the lamp position is not less than the distance threshold Device and the fan device. 如請求項1所述之智慧型控制模組,其中更包括一感測器,電性連接該處理器,取得一環境因子感測值;該記憶體更儲存一環境因子目標值;該處理模組依據該環境因子感測值及該環境因子目標值的 一差值計算並傳送一第四燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 The smart control module of claim 1, further comprising a sensor electrically connected to the processor to obtain an environmental factor sensing value; the memory further storing an environmental factor target value; the processing module The group is based on the environmental factor sensing value and the environmental factor target value A difference calculation calculates and transmits a fourth lamp control signal to the lamp control module to adjust the brightness of the illumination device or the rotational speed of the fan device. 如請求項2所述之智慧型控制模組,其中該感測器為溫度感測器或濕度感測器。 The smart control module of claim 2, wherein the sensor is a temperature sensor or a humidity sensor. 如請求項1所述之智慧型控制模組,其中更包括一感測器,電性連接該處理器,取得一環境因子感測值;該記憶體更包括一資料庫,儲存複數學習設定資料,其中該複數學習設定資料分別對應至該燈扇控制模組過去於不同的該環境因子感測值下所使用的一運轉參數;該處理器更包括一學習模組,連接該處理模組,依據當前的該環境因子感測值選擇該複數學習設定資料之一,並依據被選擇的該學習設定資料產生並傳送一第五燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 The smart control module of claim 1, further comprising a sensor electrically connected to the processor to obtain an environmental factor sensing value; the memory further comprising a database for storing the plurality of learning setting data The plurality of learning setting data respectively correspond to an operating parameter used by the lamp control module in the different environmental factor sensing values; the processor further includes a learning module connected to the processing module, Selecting one of the plurality of learning setting data according to the current environmental factor sensing value, and generating and transmitting a fifth lamp control signal to the lamp control module according to the selected learning setting data, to adjust the lighting device The brightness or the speed of the fan unit. 如請求項1所述之智慧型控制模組,其中更包括一網路傳輸模組,電性連接該處理器,經由網際網路連接一使用者裝置或一雲端伺服器;該處理器更包括一統計模組,連接該處理模組,計算並經由該網路傳輸模組傳送一統計資料至該使用者裝置或該雲端伺服器。 The smart control module of claim 1, further comprising a network transmission module electrically connected to the processor and connected to a user device or a cloud server via the Internet; the processor further includes A statistic module is connected to the processing module, and calculates and transmits a statistic to the user device or the cloud server via the network transmission module. 如請求項5所述之智慧型控制模組,其中該統計資料包括於一統計時間範圍中的複數時間點所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。 The smart control module of claim 5, wherein the statistical data includes an environmental factor sensing value, an environmental factor target value, or a lamp fan power consumption respectively recorded at a plurality of time points in a statistical time range. value. 如請求項1所述之智慧型控制模組,其中更包括一網路傳輸模組,電性連接該處理器,經由網際網路連接一雲端伺服器;該處理器更包括一雲端備份模組,連接該處理模組,該雲端備份模組產生一備份資料,並經由該網路傳輸模組傳送該備份資料至該雲端伺服器以進行資料備份。 The smart control module of claim 1, further comprising a network transmission module electrically connected to the processor and connected to a cloud server via the Internet; the processor further comprising a cloud backup module And connecting the processing module, the cloud backup module generates a backup data, and transmits the backup data to the cloud server via the network transmission module to perform data backup. 如請求項1所述之智慧型控制模組,其中更包括一網路傳輸模組,電性連接該處理器,連接網際網路;該記憶體更儲存一網頁;該處理器更包括一網頁模組,該網頁模組經由該網路傳輸模組提供該網頁的瀏覽服務,並經由該網頁接受一使用者操作,並依據該使用者操作產生該第一燈扇控制訊號或該第二燈扇控制訊號。 The smart control module of claim 1, further comprising a network transmission module electrically connected to the processor and connected to the Internet; the memory further storing a webpage; the processor further comprising a webpage a module, the webpage module provides a browsing service of the webpage via the network transmission module, and receives a user operation via the webpage, and generates the first light fan control signal or the second light according to the user operation Fan control signal. 一種智慧型燈扇,包括: 如請求項1、2、3、4、5、6、7或8所述之智慧型控制模組;一風扇裝置;一照明裝置;及一燈扇控制模組,電性連接該風扇裝置及該照明裝置,並包括一第二傳輸模組,連接該智慧型控制模組的該第一傳輸模組。 A smart light fan, including: The smart control module of claim 1, 2, 3, 4, 5, 6, 7, or 8; a fan device; a lighting device; and a lamp control module electrically connected to the fan device The lighting device includes a second transmission module connected to the first transmission module of the smart control module. 一種智慧型燈扇遙控器,包括:如請求項1、2、3、4、5、6、7或8所述之智慧型控制模組;及一人機介面,電性連接該智慧型控制模組,接受一使用者操作並依據該使用者操作產生該第一燈扇控制訊號或該定時控制訊號。 A smart lamp remote controller comprising: a smart control module as claimed in claims 1, 2, 3, 4, 5, 6, 7, or 8; and a human machine interface electrically connected to the smart control module The group receives a user operation and generates the first lamp control signal or the timing control signal according to the user operation. 一種智慧型燈扇控制方法,包括:a)接收一第一燈扇控制訊號;b)傳送該第一燈扇控制訊號至一燈扇控制模組以調整電性連接該燈扇控制模組的一照明裝置的亮度或電性連接該燈扇控制模組的一風扇裝置的轉速;c)依據一使用者操作設定一定時控制設定資料,其中該定時控制設定資料包括一觸發時間及一定時控制運轉參數;d)於計時該觸發時間經過時,依據該定時控制運轉參數產生並傳送一第二燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速;及e)取得一當前時間、一使用者位置及一預啟動設定資料,其中該預啟動設定資料包括一燈扇位置、一距離臨界值及一預啟動運轉參數;f)於該當前時間符合預先設定的一第一時段且該使用者位置及該燈扇位置間的一距離小於該距離臨界值時,依據該預啟動運轉參數產生並傳送一第三燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速;及g)於該當前時間符合預先設定的一第二時段且該使用者位置及該燈扇位置間的該距離不小於該距離臨界值時,自動關閉該照明裝置及該風扇裝置。 A smart lamp control method includes: a) receiving a first lamp control signal; b) transmitting the first lamp control signal to a lamp control module to adjust electrical connection of the lamp control module The brightness of a lighting device or the speed of a fan device electrically connected to the lamp control module; c) controlling the setting data according to a user operation setting, wherein the timing control setting data includes a trigger time and a certain time control The operation parameter; d) generating, according to the timing control operation parameter, a second lamp control signal to the lamp control module to adjust the brightness of the illumination device or the rotation speed of the fan device. And e) obtaining a current time, a user location, and a pre-activation setting data, wherein the pre-activation setting data includes a lamp position, a distance threshold, and a pre-starting operation parameter; f) conforming to the current time a preset first time period and a distance between the user position and the lamp position is less than the distance threshold, generating and transmitting a first according to the pre-start operation parameter a lamp control signal to the lamp control module to adjust a brightness of the illumination device or a rotation speed of the fan device; and g) a predetermined second time period corresponding to the current time and the user position and the light fan When the distance between the positions is not less than the distance threshold, the lighting device and the fan device are automatically turned off. 如請求項11所述之智慧型燈扇控制方法,其中更包括下列步驟: h)經由一感測器取得當前的一環境因子感測值;i)取得預儲的一環境因子目標值;及j)依據該環境因子感測值及該環境因子目標值的一差值計算並傳送一第四燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 The smart lamp control method as claimed in claim 11, further comprising the following steps: h) obtaining a current environmental factor sensing value via a sensor; i) obtaining a pre-stored environmental factor target value; and j) calculating a difference value according to the environmental factor sensing value and the environmental factor target value And transmitting a fourth lamp control signal to the lamp control module to adjust the brightness of the illumination device or the rotation speed of the fan device. 如請求項11所述之智慧型燈扇控制方法,其中更包括下列步驟:k)經由一感測器取得當前的一環境因子感測值;l)依據該環境因子自一資料庫選擇預儲的複數學習設定資料之一,其中該複數學習設定資料分別對應至該燈扇控制模組過去於不同的該環境因子感測值下的所使用的一運轉參數;及m)依據被選擇的該學習設定資料產生並傳送一第五燈扇控制訊號至該燈扇控制模組,以調整該照明裝置的亮度或該風扇裝置的轉速。 The smart lamp control method of claim 11, further comprising the steps of: k) obtaining a current environmental factor sensing value via a sensor; and l) selecting a pre-storage from a database according to the environmental factor; One of the plural learning setting data, wherein the plurality of learning setting data respectively correspond to an operating parameter used by the lamp control module under different environmental factor sensing values; and m) according to the selected one Learning setting data generates and transmits a fifth lamp control signal to the lamp control module to adjust the brightness of the lighting device or the speed of the fan device. 如請求項11所述之智慧型燈扇控制方法,其中更包括下列步驟:n)計算一統計資料;及o)經由網際網路傳送該統計資料至一使用者裝置或一雲端伺服器。 The smart lamp control method of claim 11, further comprising the steps of: n) calculating a statistic; and o) transmitting the statistic to a user device or a cloud server via the Internet. 如請求項14所述之智慧型燈扇控制方法,其中該統計資料包括於一統計時間範圍中的複數時間點所分別記錄的一環境因子感測值、一環境因子目標值或一燈扇消耗功率值。 The smart lamp control method according to claim 14, wherein the statistical data includes an environmental factor sensing value, an environmental factor target value, or a lamp fan consumption respectively recorded at a plurality of time points in a statistical time range. Power value. 如請求項11所述之智慧型燈扇控制方法,其中更包括下列步驟:p)產生一備份資料,其中該備份資料包括該定時控制設定資料;及q)經由網際網路傳送該備份資料至一雲端伺服器以進行備份。 The smart lamp control method of claim 11, further comprising the steps of: p) generating a backup data, wherein the backup data includes the timing control setting data; and q) transmitting the backup data to the Internet via the Internet to A cloud server for backup.
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