TWI583897B - Gas combustion apparatus administration system and smart gas combustion apparatus - Google Patents

Description

瓦斯燃燒裝置管理系統及智慧型瓦斯燃燒裝置Gas burner management system and intelligent gas burner

本發明是關於一種瓦斯燃燒裝置管理系統及智慧型瓦斯燃燒裝置，且特別是關於一種具有傳輸模組的瓦斯燃燒裝置管理系統及智慧型瓦斯燃燒裝置。The present invention relates to a gas burner management system and a smart gas combustion device, and more particularly to a gas combustion device management system having a transmission module and a smart gas combustion device.

瓦斯爐是廚房中烹調食物的主要工具，各種煎煮炒炸都必須用到它。然而，若使用瓦斯爐沒有留心注意，瓦斯爐可能將鍋具內的液體燒乾，而發生空燒的危險情況，或者爐火被溢出的液體所掩熄，造成瓦斯外洩。因此，在瓦斯爐安全防護的傳統作法上會使用料理鬧鐘來提醒家中的使用者。舉例來說，在開啟瓦斯爐之前，該使用者先對料理鬧鐘進行時間的設定。當該設定的時間到達時，料理鬧鐘會發出警示聲響信號，以提醒該使用者去關閉瓦斯爐的爐火。然而，若使用者有急事出門或該使用者忘了自己正在使用瓦斯爐烹煮食物時，還是會產生瓦斯爐的爐火沒有被及時關閉的情況，導致鍋具空燒或是瓦斯外洩的憾事發生。此外，當家中瓦斯熱水器內的瓦斯無法關閉時，也會産生持續空燒的情況，危及家庭成員的生命安全。 因此，如何改善上述傳統瓦斯爐及傳統瓦斯熱水器安全防護的各項問題，便是本領域具有通常知識者值得去思量地。The gas stove is the main tool for cooking food in the kitchen, and it must be used in all kinds of cooking and frying. However, if the gas stove is used without paying attention, the gas stove may dry the liquid in the pan, and there is a danger of air burning, or the fire is blocked by the overflowing liquid, causing gas leakage. Therefore, in the traditional practice of gas stove safety protection, a cooking alarm clock will be used to remind users at home. For example, before the gas oven is turned on, the user first sets the time of the cooking alarm clock. When the set time arrives, the cooking alarm will give a warning sound to remind the user to turn off the fire in the gas stove. However, if the user has an emergency or if the user forgets that he is using a gas stove to cook the food, the fire of the gas stove will not be closed in time, resulting in empty cooking or gas leakage. Regrets happen. In addition, when the gas in the gas heater in the home cannot be closed, it will also cause continuous air burning, endangering the safety of family members. Therefore, how to improve the safety of the above-mentioned traditional gas stoves and traditional gas water heaters is a common knowledge in the field worth considering.

本發明之目的在於提供一瓦斯燃燒裝置管理系統及智慧型瓦斯燃燒裝置，瓦斯燃燒裝置管理系統及智慧型瓦斯燃燒裝置能幫助使用者在第一時間便收到家中瓦斯爐或瓦斯熱水器正被使用中的訊息。並且，該使用者也能在遠端直接關閉家中的瓦斯爐爐火或瓦斯熱水器。 本發明提供一種瓦斯燃燒裝置管理系統，應用於一瓦斯燃燒裝置上，瓦斯燃燒裝置包括一熱電偶及一電磁閥，瓦斯燃燒裝置管理系統包括一熱電偶感測模組、一控制模組及一傳輸模組。熱電偶感測模組電性連接熱電偶，控制模組串接在該熱電偶及該電磁閥之間，而傳輸模組連接熱電偶感測模組及控制模組。其中，當熱電偶傳送一第一電壓訊號到電磁閥時，熱電偶感測模組同時感應到熱電偶的第一電壓訊號。當熱電偶感測模組感應到該第一電壓訊號時，熱電偶感測模組傳送一高電壓訊號到該傳輸模組。當熱電偶感測模組感應到熱電偶的一第二電壓訊號時，熱電偶感測模組傳送一低電壓訊號到傳輸模組。 在上所述之瓦斯燃燒裝置管理系統，其中高電壓訊號的電壓值不小於0.9V，低電壓訊號的電壓值小於0.9V。 如申請專利範圍第1項所述之瓦斯燃燒裝置管理系統，其中當傳輸模組收到該高電壓訊號時，傳輸模組傳送一爐火使用中訊號至一雲端伺服器；當雲端伺服器收到爐火使用中訊號時，雲端伺服器推播一瓦斯燃燒裝置被開啟訊息至一攜帶型電子裝置。 在上所述之瓦斯燃燒裝置管理系統，其中當傳輸模組收到低電壓訊號時，傳輸模組傳送一爐火已關閉訊號至雲端伺服器；當雲端伺服器收到該爐火已關閉訊號時，雲端伺服器推播一瓦斯燃燒裝置被關閉訊息至攜帶型電子裝置。 在上所述之瓦斯燃燒裝置管理系統，其中攜帶型電子裝置包括一燃燒裝置管理程式，燃燒裝置管理程式包括一爐火控制開關，當爐火控制開關切換至關閉的狀態時，攜帶型電子裝置會發出一遠端關閉訊號至該雲端伺服器，雲端伺服器再將遠端關閉訊號傳送至該傳輸模組。 在上所述之瓦斯燃燒裝置管理系統，其中該傳輸模組接收到遠端關閉訊號時，傳輸模組立即傳送一第三電壓訊號至控制模組；當控制模組接收到該第三電壓訊號時，控制模組阻斷熱電偶傳送第一電壓訊號至電磁閥內。。 本發明提供一種智慧型瓦斯燃燒裝置，智慧型瓦斯燃燒裝置包括一熱電偶、一電磁閥、一熱電偶感測模組、一控制模組及一傳輸模組。電磁閥連接熱電偶，熱電偶感測模組電性連接熱電偶，控制模組串接在熱電偶及電磁閥之間，而傳輸模組連接熱電偶感測模組及控制模組。其中，當熱電偶傳送一第一電壓訊號到該電磁閥時，熱電偶感測模組同時感應到熱電偶的該第一電壓訊號。當熱電偶感測模組感應到該第一電壓訊號時，熱電偶感測模組傳送一高電壓訊號到該傳輸模組；當熱電偶感測模組感應到熱電偶的一第二電壓訊號時，熱電偶感測模組傳送一低電壓訊號到傳輸模組。 在上所述之智慧型瓦斯燃燒裝置，其中當傳輸模組收到該高電壓訊號時，該傳輸模組傳送一爐火使用中訊號至一雲端伺服器，且當雲端伺服器收到爐火使用中訊號時，雲端伺服器推播一瓦斯燃燒裝置被開啟訊息至一攜帶型電子裝置；當該傳輸模組收到低電壓訊號時，傳輸模組傳送一爐火已關閉訊號至雲端伺服器，且當雲端伺服器收到該爐火已關閉訊號時，雲端伺服器推播一瓦斯燃燒裝置被關閉訊息至該攜帶型電子裝置。 在上所述之智慧型瓦斯燃燒裝置，其中該攜帶型電子裝置包括一燃燒裝置管理程式，該燃燒裝置管理程式包括一爐火控制開關，當該爐火控制開關切換至關閉的狀態時，該攜帶型電子裝置會發出一遠端關閉訊號至該雲端伺服器，該雲端伺服器再將該遠端關閉訊號傳送至該傳輸模組。 在上所述之智慧型瓦斯燃燒裝置，其中當傳輸模組接收到遠端關閉訊號時，傳輸模組立即傳送一第三電壓訊號至控制模組；當控制模組接收到第三電壓訊號時，控制模組阻斷熱電偶傳送第一電壓訊號至電磁閥內。 為讓上述特徵和優點能更明顯易懂，下文特舉較佳實施例，並配合所附圖式，作詳細說明如下。The object of the present invention is to provide a gas combustion device management system and a smart gas combustion device. The gas combustion device management system and the intelligent gas combustion device can help the user to receive the gas furnace or gas water heater in the home at the first time. Message in . Moreover, the user can also directly turn off the gas stove fire or gas water heater in the home at the far end. The invention provides a gas combustion device management system, which is applied to a gas combustion device. The gas combustion device comprises a thermocouple and a solenoid valve. The gas combustion device management system comprises a thermocouple sensing module, a control module and a transmission. Module. The thermocouple sensing module is electrically connected to the thermocouple, the control module is connected in series between the thermocouple and the electromagnetic valve, and the transmission module is connected to the thermocouple sensing module and the control module. Wherein, when the thermocouple transmits a first voltage signal to the solenoid valve, the thermocouple sensing module simultaneously senses the first voltage signal of the thermocouple. When the thermocouple sensing module senses the first voltage signal, the thermocouple sensing module transmits a high voltage signal to the transmission module. When the thermocouple sensing module senses a second voltage signal of the thermocouple, the thermocouple sensing module transmits a low voltage signal to the transmission module. In the gas burner management system described above, the voltage value of the high voltage signal is not less than 0.9V, and the voltage value of the low voltage signal is less than 0.9V. The gas burner management system of claim 1, wherein when the transmission module receives the high voltage signal, the transmission module transmits a fire signal to a cloud server; when the cloud server receives When the fire signal is used, the cloud server pushes a gas burner to turn on the message to a portable electronic device. In the gas burner management system described above, when the transmission module receives the low voltage signal, the transmission module transmits a fire to the cloud server; when the cloud server receives the fire, the signal is turned off. At the same time, the cloud server pushes a gas burner to turn off the message to the portable electronic device. In the gas burner management system described above, the portable electronic device includes a combustion device management program, and the combustion device management program includes a fire control switch. When the fire control switch is switched to the off state, the portable electronic device A remote shutdown signal is sent to the cloud server, and the cloud server transmits the remote shutdown signal to the transmission module. In the gas burner management system described above, when the transmission module receives the remote shutdown signal, the transmission module immediately transmits a third voltage signal to the control module; when the control module receives the third voltage signal The control module blocks the thermocouple from transmitting the first voltage signal to the solenoid valve. . The invention provides a smart gas combustion device. The intelligent gas combustion device comprises a thermocouple, a solenoid valve, a thermocouple sensing module, a control module and a transmission module. The solenoid valve is connected to the thermocouple, the thermocouple sensing module is electrically connected to the thermocouple, the control module is connected in series between the thermocouple and the solenoid valve, and the transmission module is connected to the thermocouple sensing module and the control module. Wherein, when the thermocouple transmits a first voltage signal to the solenoid valve, the thermocouple sensing module simultaneously senses the first voltage signal of the thermocouple. When the thermocouple sensing module senses the first voltage signal, the thermocouple sensing module transmits a high voltage signal to the transmission module; when the thermocouple sensing module senses a second voltage signal of the thermocouple, the thermoelectric The even sensing module transmits a low voltage signal to the transmission module. In the above-mentioned smart gas burning device, when the transmission module receives the high voltage signal, the transmission module transmits a fire to the cloud server, and when the cloud server receives the fire When the medium signal is used, the cloud server pushes a gas burner to turn on the message to a portable electronic device; when the transmission module receives the low voltage signal, the transmission module transmits a fire to the cloud server. And when the cloud server receives the fire-off signal, the cloud server pushes a gas burner to turn off the message to the portable electronic device. In the above-described smart gas burner, wherein the portable electronic device includes a combustion device management program, the combustion device management program includes a fire control switch, when the fire control switch is switched to the off state, The portable electronic device sends a remote shutdown signal to the cloud server, and the cloud server transmits the remote shutdown signal to the transmission module. In the above-mentioned smart gas burning device, when the transmission module receives the remote closing signal, the transmission module immediately transmits a third voltage signal to the control module; when the control module receives the third voltage signal The control module blocks the thermocouple from transmitting the first voltage signal to the solenoid valve. In order to make the above features and advantages more apparent, the preferred embodiments are described below, and in conjunction with the accompanying drawings.

請參閱圖1，圖1所繪示為本實施例之瓦斯燃燒裝置管理系統10與瓦斯燃燒裝置8的方塊圖，瓦斯燃燒裝置管理系統10是應用於一瓦斯燃燒裝置8上，瓦斯燃燒裝置8例如為瓦斯爐或瓦斯熱水器，瓦斯燃燒裝置8包括一熱電偶84及一電磁閥85。瓦斯燃燒裝置管理系統10包括一熱電偶感測模組14、一控制模組15、一傳輸模組11、一雲端伺服器12及一攜帶型電子裝置13，攜帶型電子裝置13例如為智慧型手機、平板電腦或筆記型電腦。其中，熱電偶感測模組14是電性連接瓦斯燃燒裝置8的熱電偶84，控制模組15是串接在熱電偶84與電磁閥85之間，而傳輸模組11連接熱電偶感測模組14及控制模組15。此外，當熱電偶84傳送一第一電壓訊號到電磁閥85時，熱電偶感測模組14同時感應到熱電偶84的第一電壓訊號。接著，當熱電偶感測模組14感應到熱電偶84的第一電壓訊號時，熱電偶感測模組14會傳送一高電壓訊號到傳輸模組11內。詳細來說，當瓦斯燃燒裝置8的爐火被開啟後，熱電偶84會受熱產生一電壓(第一電壓訊號)，熱電偶84利用此電壓將電磁閥85開啟，以使瓦斯流通，保持爐火持續燃燒。之後，當熱電偶感測模組14感應到熱電偶84的第一電壓訊號時，熱電偶感測模組14會傳送一高電壓訊號到傳輸模組11內，該高電壓訊號的電壓值不會小於0.9V。之後，當傳輸模組11收到該高電壓訊號時，傳輸模組11傳送一爐火使用中訊號至雲端伺服器12內。接著，雲端伺服器12會立即推播一瓦斯燃燒裝置被開啟訊息至攜帶型電子裝置13上(請參閱圖2，圖2所繪示為瓦斯燃燒裝置被開啟訊息顯示於攜帶型電子裝置13的示意圖)。如此一來，當家中的瓦斯燃燒裝置8被開啟時，攜帶型電子裝置13的使用者便可在第一時間內獲知。因此，若家中的瓦斯燃燒裝置8在不正常啟動的時間點被開啟時，攜帶型電子裝置13的使用者能有充裕的時間可以立即查明反應。上述中，傳輸模組11是使用無線傳輸的方式(例如：藍芽無線傳輸、WiFi無線傳輸、ZigBee 無線傳輸)或有線傳輸的方式來輸送該爐火使用中訊號。 請再參閱圖1及參閱圖3，圖3所繪示為燃燒裝置管理程式131的示意圖。攜帶型電子裝置13包括一燃燒裝置管理程式131，燃燒裝置管理程式131還包括一爐火控制開關132。其中，當攜帶型電子裝置13的使用者將該爐火控制開關132切換至關閉的狀態時，攜帶型電子裝置13會發出一遠端關閉訊號至雲端伺服器12。接著，雲端伺服器12再將該遠端關閉訊號傳送至傳輸模組11內。之後，當傳輸模組11接收到該遠端關閉訊號時，傳輸模組會立即傳送一第三電壓訊號至控制模組15內。接著，當控制模組15接收到該第三電壓訊號時，控制模組15會阻斷原本熱電偶84供應給電磁閥85的該第一電壓訊號。這樣一來，電磁閥85會同時阻斷瓦斯的流通，瓦斯燃燒裝置8的爐火便自動熄滅。因此，相較於瓦斯爐安全防護的傳統作法，本實施例之瓦斯燃燒裝置管理系統10能幫助位於遠端的攜帶型電子裝置13的使用者直接關閉家中的瓦斯爐爐火或是瓦斯熱水器的爐火，達到主動與安全操控之目的。更詳細來說，若該使用者有急事出門或忘了自己正在使用瓦斯燃燒裝置8烹煮食物時，外出中的該使用者還是能立即關閉瓦斯燃燒裝置8中的爐火，所以不會導致鍋具空燒或是瓦斯外洩的憾事發生。類似的道理，瓦斯燃燒裝置8(瓦斯熱水器)內的瓦斯直接被關閉時，便不會産生持續空燒的情況。 請參閱圖4，圖4所繪示為瓦斯燃燒裝置被關閉訊息顯示於攜帶型電子裝置13的示意圖。當瓦斯燃燒裝置8的爐火關閉後，熱電偶84會冷卻而造成電壓下降(一第二電壓訊號)。接著，當熱電偶感測模組14感應到熱電偶84的一第二電壓訊號時，熱電偶感測模組84傳送一低電壓訊號到傳輸模組11，該低電壓訊號的電壓值會小於0.9V。之後，當傳輸模組11收到該低電壓訊號時，傳輸模組11會立即傳送一爐火已關閉訊號至雲端伺服器12。之後，當雲端伺服器12收到該爐火已關閉訊號時，雲端伺服器12也會立即推播一瓦斯燃燒裝置被關閉訊息至攜帶型電子裝置13上(請再參考圖4)。這樣一來，當家中的瓦斯燃燒裝置8被關閉時(他人關閉瓦斯燃燒裝置或該使用者遠端關閉瓦斯燃燒裝置)，攜帶型電子裝置13的使用者同樣能在第一時間內獲知，所以該使用者更能確認已透過燃燒裝置管理程式131關閉家中瓦斯爐的爐火或是瓦斯熱水器的爐火。上述中，傳輸模組11是使用無線傳輸的方式(例如：藍芽無線傳輸、WiFi無線傳輸、ZigBee 無線傳輸)或有線傳輸的方式來輸送該爐火已關閉訊號。 請參閱圖5，圖5所繪示為本實施例之智慧型瓦斯燃燒裝置50與攜帶型電子裝置13互動運作的方塊圖。智慧型瓦斯燃燒裝置50例如為一智慧型瓦斯爐或一智慧型瓦斯熱水器，智慧型瓦斯燃燒裝置50包括一熱電偶54、一電磁閥55、一熱電偶感測模組52、一控制模組53及一傳輸模組51。其中，熱電偶54是連接電磁閥55及熱電偶感測模組52，控制模組53則是串接在熱電偶54與電磁閥55之間，而傳輸模組51是連接熱電偶感測模組52及控制模組53。此外，當智慧型瓦斯燃燒裝置50的爐火被開啟後，熱電偶54會受熱產生一電壓(第一電壓訊號)。並且，熱電偶54利用此電壓將電磁閥55開啟，以使瓦斯流通，保持智慧型瓦斯燃燒裝置50的爐火持續燃燒。之後，當熱電偶感測模組52感應到熱電偶54的第一電壓訊號時，熱電偶感測模組52會傳送一高電壓訊號到傳輸模組51內，該高電壓訊號的電壓值不會小於0.9V。之後，當傳輸模組51收到該高電壓訊號時，傳輸模組51傳送一爐火使用中訊號至外部的一雲端伺服器12內。接著，雲端伺服器12會立即推播一瓦斯燃燒裝置被開啟訊息至一攜帶型電子裝置13上。如此一來，當智慧型瓦斯燃燒裝置50被開啟時，攜帶型電子裝置13的使用者便可在第一時間內獲知。因此，若智慧型瓦斯燃燒裝置50在不正常啟動的時間點被開啟時，攜帶型電子裝置13的使用者能有充裕的時間可以立即查明反應。上述中，攜帶型電子裝置13例如為智慧型手機、平板電腦或筆記型電腦。並且，傳輸模組51是使用無線傳輸的方式(例如：藍芽無線傳輸、WiFi無線傳輸、ZigBee 無線傳輸)或有線傳輸的方式來輸送該爐火使用中訊號。 請再參閱圖5。攜帶型電子裝置13包括一燃燒裝置管理程式131，燃燒裝置管理程式131還包括一爐火控制開關132。其中，當攜帶型電子裝置13的使用者將該爐火控制開關132切換至關閉的狀態時，攜帶型電子裝置13會發出一遠端關閉訊號至雲端伺服器12。接著，雲端伺服器12再將該遠端關閉訊號傳送至傳輸模組51內。之後，當傳輸模組51接收到該遠端關閉訊號時，傳輸模組會立即傳送一第三電壓訊號至控制模組53內。接著，當控制模組53接收到該第三電壓訊號時，控制模組53會阻斷原本熱電偶54供應給電磁閥55的該第一電壓訊號(電磁閥55不會收到該第一電壓訊號)。這樣一來，電磁閥55會同時阻斷瓦斯的流通，智慧型瓦斯燃燒裝置50的爐火便自動熄滅。因此，相較於瓦斯爐安全防護的傳統作法，本實施例之智慧型瓦斯燃燒裝置50能被位於遠端的攜帶型電子裝置13的使用者直接關閉，達到主動與安全操控之目的。更詳細來說，若該使用者有急事出門或忘了自己正在使用智慧型瓦斯燃燒裝置50烹煮食物時，外出中的該使用者還是能立即關閉智慧型瓦斯燃燒裝置50中的爐火，所以不會導致鍋具空燒或是瓦斯外洩的憾事發生。類似的道理，智慧型瓦斯燃燒裝置50 (智慧型瓦斯熱水器)內的瓦斯直接被關閉時，便不會産生持續空燒的情況。 另外，當智慧型瓦斯燃燒裝置50的爐火關閉後，熱電偶54會冷卻而造成電壓下降(一第二電壓訊號)。接著，當熱電偶感測模組52感應到熱電偶54的一第二電壓訊號時，熱電偶感測模組52傳送一低電壓訊號到傳輸模組51，該低電壓訊號的電壓值會小於0.9V。之後，當傳輸模組51收到該低電壓訊號時，傳輸模組51會立即傳送一爐火已關閉訊號至雲端伺服器12。之後，當雲端伺服器12收到該爐火已關閉訊號時，雲端伺服器12也會立即推播一瓦斯燃燒裝置被關閉訊息至攜帶型電子裝置13上。這樣一來，當家中的智慧型瓦斯燃燒裝置50被關閉時(他人關閉瓦斯爐)，攜帶型電子裝置13的使用者同樣能在第一時間內獲知。上述中，傳輸模組51是使用無線傳輸的方式(例如：藍芽無線傳輸、WiFi無線傳輸、ZigBee 無線傳輸)或有線傳輸的方式來輸送該爐火已關閉訊號。 綜上所述，本實施例之瓦斯燃燒裝置管理系統10及智慧型瓦斯燃燒裝置50能幫助使用者在第一時間便收到家中瓦斯爐或瓦斯熱水器正被啟用的訊息。並且，瓦斯燃燒裝置管理系統10及智慧型瓦斯燃燒裝置50還能讓該使用者在遠端直接關閉家中的瓦斯爐或瓦斯熱水器。這樣一來，便能避免瓦斯外洩或是瓦斯熱水器空燒的情況發生。 雖然本發明已以較佳實施例揭露如上，然其並非用以限定本發明，任何所屬技術領域中具有通常知識者，在不脫離本發明之精神和範圍內，當可作些許之更動與潤飾，因此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。Please refer to FIG. 1. FIG. 1 is a block diagram of a gas combustion apparatus management system 10 and a gas combustion apparatus 8 of the present embodiment. The gas combustion apparatus management system 10 is applied to a gas combustion apparatus 8, and the gas combustion apparatus 8 is applied. For example, a gas burner or a gas water heater, the gas burner 8 includes a thermocouple 84 and a solenoid valve 85. The gas burner management system 10 includes a thermocouple sensing module 14, a control module 15, a transmission module 11, a cloud server 12, and a portable electronic device 13. The portable electronic device 13 is, for example, a smart phone. , tablet or laptop. The thermocouple sensing module 14 is electrically connected to the thermocouple 84 of the gas combustion device 8. The control module 15 is connected in series between the thermocouple 84 and the solenoid valve 85, and the transmission module 11 is connected to the thermocouple sensing module. 14 and control module 15. In addition, when the thermocouple 84 transmits a first voltage signal to the solenoid valve 85, the thermocouple sensing module 14 simultaneously senses the first voltage signal of the thermocouple 84. Then, when the thermocouple sensing module 14 senses the first voltage signal of the thermocouple 84, the thermocouple sensing module 14 transmits a high voltage signal to the transmission module 11. In detail, when the fire of the gas burner 8 is turned on, the thermocouple 84 is heated to generate a voltage (first voltage signal), and the thermocouple 84 uses the voltage to turn on the solenoid valve 85 to circulate the gas and keep the furnace. The fire continues to burn. Then, when the thermocouple sensing module 14 senses the first voltage signal of the thermocouple 84, the thermocouple sensing module 14 transmits a high voltage signal to the transmission module 11, and the voltage value of the high voltage signal is not less than 0.9V. Then, when the transmission module 11 receives the high voltage signal, the transmission module 11 transmits a fire in-use signal to the cloud server 12. Then, the cloud server 12 immediately pushes a gas-burning device to be turned on to the portable electronic device 13 (please refer to FIG. 2, which shows that the gas burning device is turned on and displayed on the portable electronic device 13). schematic diagram). In this way, when the gas burning device 8 in the home is turned on, the user of the portable electronic device 13 can be informed in the first time. Therefore, if the gas burning device 8 in the home is turned on at the time of abnormal startup, the user of the portable electronic device 13 can have sufficient time to immediately ascertain the reaction. In the above, the transmission module 11 transmits the fire in-use signal by means of wireless transmission (for example, Bluetooth wireless transmission, WiFi wireless transmission, ZigBee wireless transmission) or wired transmission. Please refer to FIG. 1 and FIG. 3 again. FIG. 3 is a schematic diagram of the combustion device management program 131. The portable electronic device 13 includes a combustion device management program 131, and the combustion device management program 131 further includes a fire control switch 132. When the user of the portable electronic device 13 switches the fire control switch 132 to the off state, the portable electronic device 13 sends a remote shutdown signal to the cloud server 12. Then, the cloud server 12 transmits the remote shutdown signal to the transmission module 11. Then, when the transmission module 11 receives the remote closing signal, the transmission module immediately transmits a third voltage signal to the control module 15. Then, when the control module 15 receives the third voltage signal, the control module 15 blocks the first voltage signal that the original thermocouple 84 supplies to the solenoid valve 85. In this way, the solenoid valve 85 blocks the circulation of the gas at the same time, and the fire of the gas burner 8 is automatically extinguished. Therefore, compared with the conventional practice of gas stove safety protection, the gas burner management system 10 of the present embodiment can help the user of the remotely located portable electronic device 13 to directly turn off the gas stove fire or the gas water heater in the home. The fire is achieved for active and safe control. In more detail, if the user has an emergency or forgets that he is using the gas burning device 8 to cook the food, the user in the outing can immediately turn off the fire in the gas burning device 8, so it does not cause The regret of the empty cooking of the pot or the leakage of gas occurred. Similarly, when the gas in the gas burner 8 (gas water heater) is directly turned off, there is no continuous air burning. Please refer to FIG. 4. FIG. 4 is a schematic diagram showing the gas burning device being turned off and displayed on the portable electronic device 13. When the fire of the gas burner 8 is turned off, the thermocouple 84 is cooled to cause a voltage drop (a second voltage signal). Then, when the thermocouple sensing module 14 senses a second voltage signal of the thermocouple 84, the thermocouple sensing module 84 transmits a low voltage signal to the transmission module 11, and the voltage value of the low voltage signal is less than 0.9V. . Then, when the transmission module 11 receives the low voltage signal, the transmission module 11 immediately transmits a fire-off signal to the cloud server 12. Then, when the cloud server 12 receives the fire-off signal, the cloud server 12 also immediately pushes a gas-burning device off message to the portable electronic device 13 (please refer to FIG. 4). In this way, when the gas burning device 8 in the home is turned off (the other person turns off the gas burning device or the user closes the gas burning device), the user of the portable electronic device 13 can also be informed in the first time, so The user can more confirm that the fire of the gas stove in the home or the fire of the gas water heater has been turned off through the burner management program 131. In the above, the transmission module 11 transmits the fire-off signal by means of wireless transmission (for example, Bluetooth wireless transmission, WiFi wireless transmission, ZigBee wireless transmission) or wired transmission. Please refer to FIG. 5. FIG. 5 is a block diagram showing the interaction between the smart gas combustion device 50 and the portable electronic device 13 of the present embodiment. The intelligent gas burning device 50 is, for example, a smart gas stove or a smart gas water heater. The smart gas burning device 50 includes a thermocouple 54 , a solenoid valve 55 , a thermocouple sensing module 52 , and a control module 53 . And a transmission module 51. The thermocouple 54 is connected to the electromagnetic valve 55 and the thermocouple sensing module 52. The control module 53 is connected in series between the thermocouple 54 and the solenoid valve 55, and the transmission module 51 is connected to the thermocouple sensing module 52. And a control module 53. Further, when the fire of the smart gas burner 50 is turned on, the thermocouple 54 is heated to generate a voltage (first voltage signal). Further, the thermocouple 54 uses this voltage to turn on the solenoid valve 55 to circulate the gas, and keep the fire of the intelligent gas burner 50 continuously burned. Then, when the thermocouple sensing module 52 senses the first voltage signal of the thermocouple 54, the thermocouple sensing module 52 transmits a high voltage signal to the transmission module 51, and the voltage value of the high voltage signal is not less than 0.9V. Then, when the transmission module 51 receives the high voltage signal, the transmission module 51 transmits a fire in-use signal to an external cloud server 12. Then, the cloud server 12 immediately pushes a gas burner to be turned on to the portable electronic device 13. In this way, when the smart gas burner 50 is turned on, the user of the portable electronic device 13 can be informed in the first time. Therefore, if the smart gas burner 50 is turned on at the time of abnormal start, the user of the portable electronic device 13 can have sufficient time to immediately ascertain the reaction. In the above, the portable electronic device 13 is, for example, a smart phone, a tablet computer or a notebook computer. Moreover, the transmission module 51 transmits the fire in-use signal by means of wireless transmission (for example, Bluetooth wireless transmission, WiFi wireless transmission, ZigBee wireless transmission) or wired transmission. Please refer to Figure 5 again. The portable electronic device 13 includes a combustion device management program 131, and the combustion device management program 131 further includes a fire control switch 132. When the user of the portable electronic device 13 switches the fire control switch 132 to the off state, the portable electronic device 13 sends a remote shutdown signal to the cloud server 12. Then, the cloud server 12 transmits the remote shutdown signal to the transmission module 51. Then, when the transmission module 51 receives the remote closing signal, the transmission module immediately transmits a third voltage signal to the control module 53. Then, when the control module 53 receives the third voltage signal, the control module 53 blocks the first voltage signal that the original thermocouple 54 supplies to the solenoid valve 55 (the solenoid valve 55 does not receive the first voltage). Signal)). In this way, the solenoid valve 55 blocks the circulation of the gas at the same time, and the fire of the intelligent gas burner 50 is automatically extinguished. Therefore, compared with the conventional practice of the gas stove safety protection, the smart gas combustion device 50 of the present embodiment can be directly closed by the user of the remote portable electronic device 13 for active and safe control. In more detail, if the user has an emergency or forgets that he is using the smart gas burner 50 to cook the food, the user in the outing can immediately turn off the fire in the smart gas burner 50. Therefore, it will not lead to the occurrence of empty cooking or gas leakage. Similarly, when the gas in the smart gas burner 50 (smart gas water heater) is directly turned off, there is no continuous air burning. In addition, when the fire of the smart gas burner 50 is turned off, the thermocouple 54 is cooled to cause a voltage drop (a second voltage signal). Then, when the thermocouple sensing module 52 senses a second voltage signal of the thermocouple 54, the thermocouple sensing module 52 transmits a low voltage signal to the transmission module 51, and the voltage value of the low voltage signal is less than 0.9V. . Then, when the transmission module 51 receives the low voltage signal, the transmission module 51 immediately transmits a fire extinguishing signal to the cloud server 12. Thereafter, when the cloud server 12 receives the fire-off signal, the cloud server 12 also immediately pushes a gas-burning device off message to the portable electronic device 13. In this way, when the smart gas burner 50 in the home is turned off (the others turn off the gas stove), the user of the portable electronic device 13 can also be informed in the first time. In the above, the transmission module 51 transmits the fire-off signal by means of wireless transmission (for example, Bluetooth wireless transmission, WiFi wireless transmission, ZigBee wireless transmission) or wired transmission. In summary, the gas burner management system 10 and the smart gas burner 50 of the present embodiment can help the user receive the message that the gas stove or gas water heater in the home is being activated at the first time. Moreover, the gas burner management system 10 and the smart gas burner 50 can also allow the user to directly shut down the gas stove or gas water heater in the home at the remote end. In this way, it is possible to avoid the leakage of gas or the burning of gas water heaters. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims.

10‧‧‧瓦斯燃燒裝置管理系統10‧‧‧ Gas Burning Device Management System

11、51‧‧‧傳輸模組11, 51‧‧‧ transmission module

12‧‧‧雲端伺服器12‧‧‧Cloud Server

13‧‧‧攜帶型電子裝置13‧‧‧Portable electronic device

131‧‧‧燃燒裝置管理程式131‧‧‧burning device management program

132‧‧‧爐火控制開關132‧‧‧Fire control switch

14、52‧‧‧熱電偶感測模組14, 52‧‧‧ Thermocouple sensing module

15、53‧‧‧控制模組15, 53‧‧‧ control module

8‧‧‧瓦斯燃燒裝置8‧‧‧ gas burner

54、84‧‧‧熱電偶54, 84‧‧‧ thermocouples

55、85‧‧‧電磁閥55, 85‧‧‧ solenoid valve

50‧‧‧智慧型瓦斯燃燒裝置50‧‧‧Smart gas burner

圖1所繪示為本實施例之瓦斯燃燒裝置管理系統10與瓦斯燃燒裝置8的方塊圖。 圖2所繪示為瓦斯燃燒裝置被開啟訊息顯示於攜帶型電子裝置13的示意圖。 圖3所繪示為燃燒裝置管理程式131的示意圖。 圖4所繪示為瓦斯燃燒裝置被關閉訊息顯示於攜帶型電子裝置13的示意圖。 圖5所繪示為本實施例之智慧型瓦斯燃燒裝置50與攜帶型電子裝置13互動運作的方塊圖。1 is a block diagram of a gas burner management system 10 and a gas combustion apparatus 8 of the present embodiment. FIG. 2 is a schematic diagram showing the gas burning device being turned on and displayed on the portable electronic device 13. FIG. 3 is a schematic diagram of the combustion device management program 131. FIG. 4 is a schematic diagram showing the gas burning device being turned off and displayed on the portable electronic device 13. FIG. 5 is a block diagram showing the interaction between the smart gas combustion device 50 and the portable electronic device 13 of the present embodiment.

10‧‧‧瓦斯燃燒裝置管理系統 10‧‧‧ Gas Burning Device Management System

11‧‧‧傳輸模組 11‧‧‧Transmission module

12‧‧‧雲端伺服器 12‧‧‧Cloud Server

13‧‧‧攜帶型電子裝置 13‧‧‧Portable electronic device

131‧‧‧燃燒裝置管理程式 131‧‧‧burning device management program

132‧‧‧爐火控制開關 132‧‧‧Fire control switch

14‧‧‧熱電偶感測模組 14‧‧‧Thermocouple sensing module

15‧‧‧控制模組 15‧‧‧Control Module

8‧‧‧瓦斯燃燒裝置 8‧‧‧ gas burner

84‧‧‧熱電偶 84‧‧‧ thermocouple

85‧‧‧電磁閥 85‧‧‧ solenoid valve

Claims (6)

一種瓦斯燃燒裝置管理系統，應用於一瓦斯燃燒裝置上，該瓦斯燃燒裝置包括一熱電偶及一電磁閥，該瓦斯燃燒裝置管理系統包括：一攜帶型電子裝置；一熱電偶感測模組，該熱電偶感測模組電性連接該熱電偶；一控制模組，該控制模組串接在該熱電偶及該電磁閥之間；一傳輸模組，該傳輸模組連接該熱電偶感測模組及該控制模組；其中，當該熱電偶傳送一第一電壓訊號到該電磁閥時，該熱電偶感測模組同時感應到該熱電偶的該第一電壓訊號；當該熱電偶感測模組感應到該第一電壓訊號時，該熱電偶感測模組傳送一高電壓訊號到該傳輸模組；當該熱電偶感測模組感應到該熱電偶的一第二電壓訊號時，該熱電偶感測模組傳送一低電壓訊號到該傳輸模組；其中，該攜帶型電子裝置包括一燃燒裝置管理程式，該燃燒裝置管理程式包括一爐火控制開關，當該爐火控制開關切換至關閉的狀態時，該攜帶型電子裝置會發出一遠端關閉訊號至一雲端伺服器，該雲端伺服器再將該遠端關閉訊號傳送至該傳輸模組，且當該傳輸模組接收到該遠端關閉訊號時，該傳輸模組立即傳送一第三電壓訊號至該控制模組；當該控制模組接收到該第三電壓訊號時，該控制模組阻斷該熱電偶傳送該第一電壓訊號至該電磁閥內。 A gas combustion device management system is applied to a gas combustion device, the gas combustion device comprises a thermocouple and a solenoid valve, the gas combustion device management system comprises: a portable electronic device; a thermocouple sensing module, the The thermocouple sensing module is electrically connected to the thermocouple; a control module is connected in series between the thermocouple and the electromagnetic valve; and a transmission module is connected to the thermocouple sensing module And the control module; wherein, when the thermocouple transmits a first voltage signal to the solenoid valve, the thermocouple sensing module simultaneously senses the first voltage signal of the thermocouple; and when the thermocouple sensing module The thermocouple sensing module transmits a high voltage signal to the transmission module when the first voltage signal is sensed; and the thermocouple sensing when the thermocouple sensing module senses a second voltage signal of the thermocouple The module transmits a low voltage signal to the transmission module; wherein the portable electronic device includes a combustion device management program, and the combustion device management program includes a fire control switch When the fire control switch is switched to the off state, the portable electronic device sends a remote shutdown signal to a cloud server, and the cloud server transmits the remote shutdown signal to the transmission module, and when When the transmission module receives the remote shutdown signal, the transmission module immediately transmits a third voltage signal to the control module; when the control module receives the third voltage signal, the control module blocks the The thermocouple transmits the first voltage signal to the solenoid valve. 如申請專利範圍第1項所述之瓦斯燃燒裝置管理系統，其中該高電壓訊號的電壓值不小於0.9V，該低電壓訊號的電壓值小於0.9V。 The gas burner management system of claim 1, wherein the voltage value of the high voltage signal is not less than 0.9V, and the voltage value of the low voltage signal is less than 0.9V. 如申請專利範圍第1項所述之瓦斯燃燒裝置管理系統，其中當該傳輸模組收到該高電壓訊號時，該傳輸模組傳送一爐火使用中訊號至該雲端伺服器；當 該雲端伺服器收到該爐火使用中訊號時，該雲端伺服器推播一瓦斯燃燒裝置被開啟訊息至該攜帶型電子裝置。 The gas burner management system of claim 1, wherein when the transmission module receives the high voltage signal, the transmission module transmits a fire signal to the cloud server; When the cloud server receives the fire in-use signal, the cloud server pushes a gas burner to be turned on to the portable electronic device. 如申請專利範圍第3項所述之瓦斯燃燒裝置管理系統，其中當該傳輸模組收到該低電壓訊號時，該傳輸模組傳送一爐火已關閉訊號至該雲端伺服器；當該雲端伺服器收到該爐火已關閉訊號時，該雲端伺服器推播一瓦斯燃燒裝置被關閉訊息至該攜帶型電子裝置。 The gas burner management system of claim 3, wherein when the transmission module receives the low voltage signal, the transmission module transmits a fire signal to the cloud server; when the cloud When the server receives the fire-off signal, the cloud server pushes a gas burner to turn off the message to the portable electronic device. 一種智慧型瓦斯燃燒裝置，應用於一攜帶型電子裝置上，該智慧型瓦斯燃燒裝置包括：一熱電偶；一電磁閥，該電磁閥連接該熱電偶；一熱電偶感測模組，該熱電偶感測模組電性連接該熱電偶；一控制模組，該控制模組串接在該熱電偶及該電磁閥之間；一傳輸模組，該傳輸模組連接該熱電偶感測模組及該控制模組其中，當該熱電偶傳送一第一電壓訊號到該電磁閥時，該熱電偶感測模組同時感應到該熱電偶的該第一電壓訊號；當熱電偶感測模組感應到該第一電壓訊號時，該熱電偶感測模組傳送一高電壓訊號到該傳輸模組；當該熱電偶感測模組感應到該熱電偶的一第二電壓訊號時，該熱電偶感測模組傳送一低電壓訊號到該傳輸模組；其中該攜帶型電子裝置包括一燃燒裝置管理程式，該燃燒裝置管理程式包括一爐火控制開關，當該爐火控制開關切換至關閉的狀態時，該攜帶型電子裝置會發出一遠端關閉訊號至一雲端伺服器，該雲端伺服器再將該遠端關閉訊號傳送至該傳輸模組；當該傳輸模組接收到該遠端關閉訊號時，該傳輸 模組立即傳送一第三電壓訊號至該控制模組；當該控制模組接收到該第三電壓訊號時，該控制模組阻斷該熱電偶傳送該第一電壓訊號至該電磁閥內。 A smart gas combustion device is applied to a portable electronic device. The smart gas combustion device comprises: a thermocouple; a solenoid valve connected to the thermocouple; a thermocouple sensing module, the thermocouple sense The measuring module is electrically connected to the thermocouple; a control module is connected in series between the thermocouple and the electromagnetic valve; and a transmission module is connected to the thermocouple sensing module and the In the control module, when the thermocouple transmits a first voltage signal to the solenoid valve, the thermocouple sensing module simultaneously senses the first voltage signal of the thermocouple; when the thermocouple sensing module senses the first When the voltage signal is received, the thermocouple sensing module transmits a high voltage signal to the transmission module; when the thermocouple sensing module senses a second voltage signal of the thermocouple, the thermocouple sensing module transmits a a low voltage signal to the transmission module; wherein the portable electronic device includes a combustion device management program, the combustion device management program includes a fire control switch, and when the fire control switch is switched to off In the state, the portable electronic device sends a remote shutdown signal to a cloud server, and the cloud server transmits the remote shutdown signal to the transmission module; when the transmission module receives the remote end The transmission is turned off when the signal is turned off The module immediately transmits a third voltage signal to the control module. When the control module receives the third voltage signal, the control module blocks the thermocouple from transmitting the first voltage signal to the solenoid valve. 如申請專利範圍第5項所述之智慧型瓦斯燃燒裝置，其中當該傳輸模組收到該高電壓訊號時，該傳輸模組傳送一爐火使用中訊號至該雲端伺服器，且當該雲端伺服器收到該爐火使用中訊號時，該雲端伺服器推播一瓦斯燃燒裝置被開啟訊息至該攜帶型電子裝置；當該傳輸模組收到該低電壓訊號時，該傳輸模組傳送一爐火已關閉訊號至該雲端伺服器，且當該雲端伺服器收到該爐火已關閉訊號時，該雲端伺服器推播一瓦斯燃燒裝置被關閉訊息至該攜帶型電子裝置。 The smart gas burning device of claim 5, wherein when the transmitting module receives the high voltage signal, the transmitting module transmits a fire in-use signal to the cloud server, and when When the cloud server receives the fire signal, the cloud server pushes a gas burner to be turned on to the portable electronic device; when the transmission module receives the low voltage signal, the transmission module Sending a fire has turned off the signal to the cloud server, and when the cloud server receives the fire has been turned off, the cloud server pushes a gas burner to turn off the message to the portable electronic device.