1304873 九、發明說明: 【發明所屬之技術領域】 一種以觸控滑動方式控制火力之非金屬檯面爐及其 控制方法,尤指一種設置有觸控滑動單元,而透過觸控滑 動(touch slide)的方式來控制非金屬檯面爐之火力。 【先前技術】 一般產業上均以機械方式來控制瓦斯,機械的控制方 式其可控制的功能較少,而近年來由於電子科技的進步, > 瓦斯爐也由傳統的機械式控制邁入電子控制的領域。市面 上大部份的瓦斯爐其内皆具有一控制電路,控制電路的架 構包括有熱電耗、控制、電磁閥、溫度檢知益、顯不斋、 操作開關及按鍵等組成。使用者可以透過操作開關或按鍵 等介面對瓦斯爐進行控制,並且同時可以透過顯示器得知 瓦斯爐工作情形。 然而,一般市售的瓦斯爐大多採用機械式按鍵來控制 時間設定、溫度設定、電源開啟等相關功能,以及機械式 > 開關來控制火力大小,該等機械式的按鍵或開關大多為外 凸於瓦斯爐殼的設計,而此等設計不僅需長期接收使用者 於烹飪時油腻、濕粘的手,而沾粘污垢於其上,並且對於 油煙甚大的使用環境下,亦因長期油煙的堆積而難以清 洗,而破壞排油煙機面板的清潔。 瓦斯爐一般都使用在油污非常多的環境中,如廚房。 可想而知,瓦斯爐常年使用下來,瓦斯爐本體必定沾滿的 油污,並其作為人機介面的操作開關及按鍵一樣會沾有油 污,而處於操作開關及按鍵之油污在清潔上更為困難。如 5 1304873 此’雖然:操作㈣及按鍵皆讓使用者可錄方便的控制瓦 斯爐的操作,不過當要作瓦斯爐整潔時,這些沾有油污的 地方實在令使用者頭痛。所以,—個既可以讓使用者操作 方便’且同時可以兼顧職潔時的方便性的瓦斯爐,實在 是現在使用者所渴望的。 【發明内容】 有鑑於此,本發明提供一種以觸控滑動方式控制火力 之非金f檯面爐及其控制方法,本發明係將觸控面板與觸 控滑動單7G結合在瓦斯爐上’料使用者操作調整非金屬 檯面爐火力的介面。觸控面板與觸控滑動單元係用來取代 傳統外凸式的操作侧或按鍵,可以提供使用者簡易 作與方便的清潔,實在是現在使用者所渴望的。 Μ 本發明係利用觸控滑動單元來模仿一個滑動電位哭 桑作’其在被_下在其二端會產生電荷遷移訊號的二 以及使用控制晶#來運异電荷遷移訊號,以得到觸 被的位置。本發明將前述的技術應用在 楂面^火力調整上,係讓使用者可以透過平面式的觸摸 滑塊來调整非金屬檯面爐之火力。 、 本發明之以觸控滑動方式控制火力之非金屬檯面 爐,包括一瓦斯爐本體,直内包含右 “ ΐ ΐ::顯示單元與一電磁閥控制電路,以及透 過-火焰換能器_—火焰檢知單 4 乂及透 鋰接於一、、w干7^與透過一溫度換能器 耦接於I度&知早元…觸控面 … 上’係包括有至少—觸摸感測器與 :了早兀 摸感測气係提供使用者—時間設、=J,觸 你、一油,、田-八定i。I 1· BB '、乍、一溫度設定操 作,由㈣又疋始乍、一火力開關操作、—火力閉鎖操作、 上綱873 一上數操作及一下數 號,該接觸換能器輕接於該之‘點觸操作,而產生一感測訊 該感測訊號成為數位之二觸摸感測器,係轉換類比之 凡。一滑動鍵單元,由奉上制訊號,而送到該微處理單 顯示單元上以提供使用者二的線性電阻组成,係覆合在該 據受觸控之位置以產生―:火力調整之觸控滑動操作,根 有二電荷遷移感應通道=遷移訊號。-控制晶片,具 二電荷遷移感應通道分查連接於該微處理單元以及透過 制晶片係接收該電荷遷移=該滑動鍵單元之二端,該控 至該微處理器。 \,以及輸出一火力控制訊號 由於觸控面板與滑 n 一 觸控介面,所以不像傳統外早兀皆為一個平面式的人機 關與開關之間的間隙,而^式的操作開關或按鍵具有開 斯爐的整合,係可简= °因此’觸控面板與瓦 讓使用者在瓦斯爐的清潔==來繼 以下進—,解本發明特徵及技術内容,請參閱 參考“月明與附圖,然而所附圖式僅提供 兄月用並非用來對本發明加以限制。 【實施方式】 參考第—圖,為本發明以觸控滑動方式控制火力之 非t屬,電路方塊示意圖。以觸控滑動方式 之非金屬檯面爐1G包括有—微處理單元UQ户理 凡110搞接於-顯示單元112與一電磁間控制電路处⑽, 以及透過-火焰換能器1G3_—火焰檢知單元 過一溫度換能器105耦接於一溫度檢知單元1〇4。以^控 滑動方式控制火力之非金屬檯面爐1〇還包括有一觸^面 1304873 覆合在該顯示單元112上,係耦 產生-感: 理單元no。 成切輸出一控制訊號S2到該微處 1〇 組成,係覆合在該顯示:⑽”聯的線性電阻 調整之觸控滑域作,丨 提供使用者-火力 置而產生-電荷遷移訊蘩。::丨係根據受觸控之位 遷移感應通道’係連接“微二電荷 荷遷移感應通道分別連接誃 及透過<電 制晶片109係接收該電荷遷移訊號二以及 制訊號S4至該微處理器u〇。 出一火力趁 以觸控軸料控敎力之非 還包括有-電源電路118,該電源電路1 進、炎 單元丄10與該電磁閥控制電路m工作所需電卜 所示其他電路單元之工作電源。 π而电源及苐〜_ 複參考第-圖,火焰檢知單元⑽ 無,以及產生類比之火焰訊號,類比之 =白勺有 焰換能器1_換紐位之火焰訊㈣而駐 ,該電磁閥控制電路116根據該微處: 早兀110輸出的火焰判斷結果,係於有火焰時維持一, 閥117的開啟,以及於無火焰時關閉電磁間117 , 度檢知單元104用以檢知瓦斯爐域水或油炸中,麵复兔 類比溫度。該溫度檢知單元1Q4擷取該鍋具之溫度,二之 過-溫度換能器105將其轉換成數位的溫度信號灯傳^ 1304873 微處理單it 110。微處理單元110將接收到的溫度信號ST 與設定严度進行比較運算,電磁服制電路lle根據該微 處理單it 11G冑出的比較運算結果關閉或開啟電磁闕 117,係於温度信號ST到達設定溫度時關閉電磁閥n7, 以防止煮水時發生的乾燒現象及油炸時過高的溫度。該電 磁閥117設置於瓦斯爐之瓦斯進入管線中。 又 „又♦哼弗—圈......—........〇化王7 一觸犋欵閃 斋1062與一接觸換能器1064。該些觸摸感測器1〇62提供1304873 IX. Description of the invention: [Technical field of the invention] A non-metal tabletop furnace for controlling firepower by touch sliding method and a control method thereof, in particular, a touch sliding unit is provided, and a touch slide is adopted. The way to control the firepower of non-metal countertops. [Prior Art] Generally, the industry controls the gas mechanically, and the mechanical control mode has less controllable functions. In recent years, due to the advancement of electronic technology, the gas stove has also entered the electronic control by traditional mechanical control. The field of control. Most of the gas furnaces in the market have a control circuit. The structure of the control circuit includes heat and power consumption, control, solenoid valve, temperature detection, display, operation switch and button. The user can control the gas furnace through the operation of a switch or a button, and at the same time, the gas stove can be operated through the display. However, most commercially available gas burners use mechanical buttons to control time setting, temperature setting, power-on and other related functions, as well as mechanical > switches to control the amount of fire. These mechanical buttons or switches are mostly convex. The design of the gas furnace shell, which not only needs to receive the greasy and wet sticky hands of the user during cooking, but also stains the dirt on it, and also has a long-term oil smoke accumulation in the environment where the oil smoke is very large. It is difficult to clean and destroys the cleaning of the hood panel. Gas stoves are generally used in environments with a lot of oil, such as kitchens. It can be imagined that the gas stove is used all year round, the gas stove body must be full of oil stains, and its operation switch and button as the human-machine interface will be stained with oil, and the oil in the operation switch and button is more clean. difficult. For example, 5 1304873, although the operation (4) and the buttons allow the user to conveniently control the operation of the gas stove, when the gas stove is clean and tidy, these oily places are a headache for the user. Therefore, a gas burner that can be easily operated by the user and at the same time can be used for convenience at the time of cleaning is really desired by the user. SUMMARY OF THE INVENTION In view of the above, the present invention provides a non-gold f tabletop furnace for controlling firepower by a touch sliding method and a control method thereof. The present invention combines a touch panel and a touch sliding single 7G on a gas stove. The user operates the interface to adjust the firepower of the non-metal tabletop furnace. The touch panel and the touch slide unit are used to replace the traditional convex side operation side or the button, which can provide the user with easy and convenient cleaning, which is what the user desires now. Μ The present invention utilizes a touch sliding unit to mimic a sliding potential crying squid, which generates a charge transfer signal at its two ends and uses a control crystal to transport a different charge transfer signal to obtain a touch. s position. The invention applies the aforementioned technology to the surface heating control, which allows the user to adjust the firepower of the non-metal table top furnace through the flat touch slider. The non-metal tabletop furnace for controlling firepower by touch sliding method comprises a gas furnace body, and the right side comprises a right "ΐ ΐ:: display unit and a solenoid valve control circuit, and a transmission-flame transducer _" The flame detection unit 4 乂 and the lithium is connected to the first, the w dry 7^ and the temperature transducer coupled to the I degree & the early morning ... touch surface... The upper part includes at least - touch sensing And: the early touch sensing system provides users - time setting, = J, touch you, one oil, Tian - eight fixed i. I 1 · BB ', 乍, a temperature setting operation, by (4) The start switch, the fire switch operation, the fire lock operation, the upper 873 one-up operation and the next number, the contact transducer is lightly connected to the 'touch operation, and a sense signal is generated to sense the sense The signal becomes a digital two-touch sensor, which is analogous to analog conversion. A sliding key unit is sent to the micro-processing single display unit by providing a signal to provide a linear resistance component of the user two. In the touch-sensitive position to produce a ": fire-adjusting touch sliding operation, the root has two a charge transfer sensing channel = a migration signal. - a control wafer having a second charge transfer sensing channel connected to the micro processing unit and receiving the charge transfer through the wafer system = the two ends of the sliding key unit, the control to the micro processing \, and output a fire control signal due to the touch panel and sliding n a touch interface, so unlike the traditional outside, the gap between a flat human body and the switch, and the type of operation switch Or the button has the integration of the furnace, the system can be simple = ° so the 'touch panel and tile let the user clean in the gas furnace == to follow the following - to solve the characteristics and technical content of the invention, please refer to the reference "month The drawings and the accompanying drawings are not intended to limit the invention. [Embodiment] Referring to the first drawing, the present invention is a schematic diagram of a circuit block for controlling the fire power by a touch sliding method. The non-metal tabletop furnace 1G in the touch sliding manner comprises a micro processing unit UQ, the household unit 110 is connected to the display unit 112 and an electromagnetic control circuit (10), and the transmission-flame transducer 1G3_-the flame detection The unit through a temperature transducer 105 is coupled to a temperature detecting unit 1〇4. The non-metal tabletop furnace 1 which controls the firepower by the sliding method further includes a touch surface 1304873 which is laminated on the display unit 112, and the coupling generates a sense unit: no. The switch outputs a control signal S2 to the micro-portion 1〇, which is covered in the display: (10)" linear resistance adjustment touch sliding domain, and provides user-fire power generation-charge transfer information The :: 丨 is based on the touch-sensing migration sensing channel 'connected to the micro-charged charge-sensing channel respectively connected to and through the electric wafer 109 to receive the charge-shifting signal two and the signal S4 to the micro Processor u〇. The fire control device also includes a power supply circuit 118, and the power supply circuit 1 and the inflammatory unit 丄10 and the solenoid valve control circuit m operate as required by other circuit units. Working power supply. π and the power supply and 苐~_ complex reference to the figure, the flame detection unit (10) is not, and the analogy of the flame signal, analogy = the flame transducer 1_ change the button of the flame (four) and station The solenoid valve control circuit 116 is based on the flame determination result of the output of the early stage 110, which is maintained when the flame is maintained, the opening of the valve 117, and the electromagnetic chamber 117 is closed when there is no flame, and the detection unit 104 is used for inspection. In the water or frying of the gas field, the rabbit is compared to the temperature. The temperature detecting unit 1Q4 captures the temperature of the pan, and the temperature converter lamp 105 converts it into a digital temperature signal transmitting signal 1304873. The micro processing unit 110 compares the received temperature signal ST with the set severity, and the electromagnetic service circuit lle turns off or turns on the electromagnetic 阙117 according to the comparison operation result of the micro processing unit 11G, and arrives at the temperature signal ST. When the temperature is set, the solenoid valve n7 is closed to prevent dry burning when boiling water and excessive temperature during frying. The solenoid valve 117 is disposed in the gas inlet line of the gas furnace. „又♦哼弗—圈......—........ 〇化王7 One Touch 犋欵 斋 106 1062 and a contact transducer 1064. The touch sensors 1〇 62 offers
使用者點麟作而產生域_號81,使财之點觸操作 ^括有-時間設定操作、—溫度設定操作、—油溫設定操 乍、二火力開關操作、—火力閉鎖操作、—上數操作及一 lit作。接觸換能$1Q64減於該些觸摸感測器1062, 之f感測訊號S1成為數位之該控制訊號 # # G運算處理馳制職S2後,係輪出 相對應的溫度顯示訊自志主弓 112。心或寸間頦不訊息到該顯示單元 ^问時,该镟處理單元11〇跟根 以執行溫細間的選擇與溫度或時間的言^ 予 施之d:,’該滑動鍵單元可由-電阻性厚膜層實 =或由一銦錫乳化物薄膜實施之,貝 112上以提供使用者 錢5在_不早凡 觸控之位置以產生電 Μ正之觸控滑動操作,根據受 該電荷遷移訊號S3, 】 = 竭“曰曰片⑽接收 該滑動鍵單元108被觸:°置、:遷3訊號S3 ’以確定 S4至該m 置,進而輪出火力控制訊號 火力控顿處理1 m會根據所接收到的 k似號S4,而控制 進入管線㈣量,火力調ί啟閉,遽瓦斯 9 1304873 此外’瓦斯爐故障、無電或過熱時,該微處理單元 應的故障顯示訊息、無電顯示訊息或職顯示訊 故障!時,該微處理單元n°也會根據 磁閥m 熱减_行安全的保護措施,如關閉電 控介ΐ參板广為-個平面式的人機觸 不㈣/、吏料式觸控面板或電容式觸控面板,所以 間η而=式的操作開關或按鍵具有開關與開關之間的 二-=;。而該顯示單元m為-液晶顯示“ 面i的人滑動鍵單元m同樣可為-個平 ^觸控"面’係由_電阻性厚 :=考;上與;檯-二== ,中觸控面板106覆合在該顯示單元 時間設定操叙闕操作包括有— ::關,、一火力閉鎖操作、一上數操作及一下數摔作。 具有時間顯示 '溫度顯示、故障、叙電、 過熱寺狀恶顯示及煮水顯示部分, : 的操作及狀態。滑動鍵單元⑽同樣^ 2 作以提供使用者執行非金屬檯面爐火力調 。月參考第二圖’為本發明以觸控滑動方式控制火力之 10 !3〇4873 非,屬檯面爐電路示意圖。觸摸感測器1062係由電阻哭 =、RSNS卜R48與電容器CS1 f元件組成。接觸換能= 064為一型號QT—ISS的積體電路诎,微處理單元 2 一型號HT48R30A的積體電路U5,顯示單元119 & ’、、、 體Q2'Q4...及其他元件組成。 U2係由電晶 請參考第四圖,為本發明之滑動鍵單元與 電路示意圖。滑動鍵單元i08由串聯的線性電^曰曰片之 控制晶片109係為Quantum公司的晶片Q 、、,,,而 置資料。 处平π U0發送位 動,:亡本Γ月係利用觸控滑動單元來模仿-個滑 喊的特性’錢制H片來運算.2何遷移 以得到觸摸滑塊被觸的位置 b ^移成途, 術應用在非金屬檯面爐之上 =:r觸摸滑塊來調整非金屬檯面=::: ^蝴關或按鍵具有開關與開關之間的間隙 惟’以上所述,僅為本發明最 詳細說明與圖式,任何熟悉 、:體貫施例之 w及之變化或修飾皆可她下本案工 【圖式簡單說明】 第=為本發明以觸控滑動方式控制火力 面爐電路方塊示意圖; 金屬檯 11 1304873 第二圖為本發明以觸控滑動方式控制火力之非金屬檯 面爐外觀示意圖; 第二A圖為本發明第二圖之部份放大圖; 第三圖為本發明以觸控滑動方式控制火力之非金屬檯 面爐電路示意圖;及 第四圖為本發明之滑動鍵單元與控制晶片之電路示意The user clicks on the field to generate the domain _ number 81, so that the touch operation of the money includes - time setting operation, - temperature setting operation, - oil temperature setting operation, two fire switch operation, - fire blocking operation, - on Number operation and a lit operation. The contact transduction $1Q64 is reduced to the touch sensors 1062, and the f sensing signal S1 becomes the digital control signal ## G operation processing, after the S2 is performed, the corresponding temperature display is displayed. Bow 112. When the heart or the inch does not send a message to the display unit, the 镟 processing unit 11 〇 follows the root to perform the selection of the temperature and the temperature or time of the d:, 'the sliding key unit can be - The resistive thick film layer is implemented by a thin film of indium tin emulsion, which is provided on the shell 112 to provide the user with the money 5 at the position of the touch to generate a positive touch sliding operation, according to the charge The migration signal S3, 】 = exhausted "chip" (10) receives the sliding button unit 108 is touched: ° set,: move 3 signal S3 ' to determine S4 to the m, and then turn off the fire control signal fire control 1 m According to the received k-like number S4, the control enters the pipeline (four) quantity, the firepower is turned on and off, and the gas is 9 1304873. In addition, when the gas furnace is faulty, without electricity or overheating, the microprocessor unit should display the fault message and no electricity. When the message or job display error is displayed, the micro-processing unit n° will also be based on the magnetic valve m heat-reduction _ line safety protection measures, such as turning off the electronic control system, the plate is widely used - a flat human-machine touch (4) /, touch panel or capacitive touch panel, so η The operation switch or button of the type has a two-= between the switch and the switch. The display unit m is - the liquid crystal display "the person sliding key unit m of the face i can also be a flat touch" surface. By _ resistive thickness: = test; upper and; Taiwan - two ==, the middle touch panel 106 is overlaid on the display unit time setting operation 包括 operation includes - :: off, a fire blocking operation, one The number of operations and the number of falls. With the time display 'temperature display, fault, power, overheated temple-like display and boiled water display part, : operation and status. The sliding key unit (10) is also provided to provide the user with a non-metal tabletop firepower adjustment. Referring to the second figure of the present invention, the control of the firepower by the touch sliding method is 10!3〇4873, which is a schematic diagram of the circuit of the tabletop furnace. The touch sensor 1062 is composed of a resistor crying =, RSNS R48 and a capacitor CS1 f component. Contact Transducer = 064 is a type of QT-ISS integrated circuit 诎, micro-processing unit 2 is a type HT48R30A integrated circuit U5, display unit 119 & ',, body Q2'Q4... and other components . U2 is made of electro- crystal. Please refer to the fourth figure for a schematic diagram of the sliding key unit and circuit of the present invention. The slide key unit i08 is composed of a series of linear control wafers 109 which are Quantum wafers Q, , , and . The flat π U0 sends the position, the death of the month is the use of the touch slide unit to imitate - a slick feature 'money H piece to calculate. 2 how to migrate to get the touch slider touched position b ^ shift On the way, the application is applied on the non-metal table top furnace =: r touch the slider to adjust the non-metal table top =::: ^ butterfly off or the button has the gap between the switch and the switch only 'above, only the invention The most detailed description and drawings, any familiar, body-changing examples of w and changes or modifications can be her work [simplified description] The first = the touch sliding method to control the fire surface furnace circuit block Schematic diagram of the second embodiment of the present invention A schematic diagram of a non-metal tabletop furnace circuit for controlling the firepower by a touch sliding method; and a fourth diagram showing the circuit of the sliding key unit and the control chip of the present invention
圖。 【主要元件符號說明】 非金屬檯面爐10 火焰檢知單元102 火焰換能器103 溫度檢知單元104 溫度換能器105 觸控面板106 觸摸感測器1062 接觸換能器1064 滑動鍵單元108 控制晶片109 微處理單元110 顯示單元112 電磁闕控制電路116 電磁閥117 電源電路118 感測訊號S1 控制訊號S2 電荷遷移訊號S3 火力控制訊號S4 溫度信號ST 火焰訊號SF 12Figure. [Main Component Symbol Description] Non-Metal Countertop Furnace 10 Flame Detection Unit 102 Flame Transducer 103 Temperature Detection Unit 104 Temperature Transducer 105 Touch Panel 106 Touch Sensor 1062 Contact Transducer 1064 Slide Key Unit 108 Control Wafer 109 Microprocessing unit 110 Display unit 112 Electromagnetic 阙 control circuit 116 Solenoid valve 117 Power circuit 118 Sensing signal S1 Control signal S2 Charge transfer signal S3 Fire control signal S4 Temperature signal ST Flame signal SF 12