五、新型說明: 【新型所屬之技術領域】 ’主要是應用於水 本創作係在提供一種水位γ貞測裝置 位的偵測技術上。 【先前技術】 .按’傳統習用的熱水瓶,主要是以浮球顯示水位的高 =,惟其缺點為:未能準確顯示水量正雜置,顯示不清 楚,為其既存尚待克服解決的問題與缺失。 【新型内容】 有鑑於此’本創作人緣是積極投入研究開發與創新改 良之精神,終於絲之摘作,錄提供—種水位侧裝 置。 ▲新型解棚題所朗的技術手段以及龍先前技術的 功效係在於:容II的外部設有複數個_感測器,每一個 Pad感,器係以電容式觸控方式與感應模組互相連接,藉 以偵測谷H内部的水位變化,當導電物體(水)接近_ 感=時,該電容值增加,系統電容值也增加,微小的 、置a加讓感應換組判斷電容值的變化,以便作分析 、水位變化值為大於、無變化或小於設定值時,大於或小 於時即傳遞峨給微處理n,無變化時即稍遞訊號給微 處,器,微處理器收到訊號即發號指令給予控制單元,控 制單元的_很多,例如··通知L E D指示燈熄、滅或亮燈 做為顯不水位高低之用,或是依據水位^嵩、低,遒知 加熱益加熱、*加熱,防止线的情形發^,或是在低水 ^時’通知補水裝置做補柄動作料,具有功效上的增 進’為其主要目的達成者。 上述水位_裝置,其+:還包括微繼可調整複 數個Pad感測器的靈敏度,做為出廉前校正用者。 【實施方式】 為使專精熟悉此項技藝之人仕業者易於深入瞭解本創 的«置内容錢所能達成的雜效益,朗舉—具體實施 例,並配合圖式詳細介紹說明如下: 、 -種水位伽m置,敬請參閱第—圖所示:係本創作 f電路控制流程®。水位_模組包括··電源1、微處理 器2、pad感測器3、感應模組4、微調器5、丄e D指 示燈6 ;主要在於: 該容器10外部設有複數個#上而下直式排列的_ 感測器3 ’每-個Pad_i|3係、以電容式觸控方式與感 應模組4互相連接;感應容器丄〇内部的水位變化,當導 電物體(水)接近pad感測器3 g夺,隨該電容值增加系 統電容值也增加’微小的電容量增加,舰麵組4偵測 電容值變化’以便作分析,柄^錄為纽、無變化或 小於设定值時,大於或小辦即傳遞訊號給微處理器2, 無變化時即不傳遞訊號給微處理器2,微處理器2收到訊 號即發號指令給予控制單元,圖中所示的控制單元為匕E D指示燈6,由微處理器2通知LED指示燈6熄滅或亮 燈,做為顯示水位高低之用,微調器5可調整複數個pad 感測器3的靈敏度’做為出薇前校正用者。 上述本創作所提供的水位偵測裝置,i ^了是LED指示燈6之外,還可以是加締歧補水裝 ,依據水位的南、低,由微處理器2通知加熱器加熱、 不加熱’卩丨止^燒崎形發生,或是在低水位時,由微處 理器2通知補水裝置做補水的動作等等者。 藉由上述各裝置所纟且合而成之本創作,係在提供一種 水位偵測裝置,在實際操作應用上: 敬"月參閱第一、三圖所示:係本創作在水位變化與未 變化之控制流程圖。 一、打開電源開始; 一、系統及I/O初始化; 三、 載入pad出廠校正值; 四、 讀取感應模組信號; 五、 雜訊濾波處理; 六、 轉換值已改變; 七、 是’修正水位高度; 否,輸出水位指示L ED。 敬請參閱第四、五、六圖所示:係本創作在高、中、 低水位狀態示意圖。當pad感測器3感應到水位降低或昇 高時,即傳遞訊號給感應模組4,再由感應模組4判斷數 值是否有改變,再傳遞訊號給微處理器2作指令發號動作 ’再通知L ED指示燈6熄滅或亮燈,做為顯示水位高低 之用者。 綜合上述所陳’本創作係提供一種水位偵測裝置,經V. New description: [New technology field] ‘Mainly applied to water The Department of Creation is providing a detection technology for the water level gamma detection device. [Prior Art] According to the 'traditional hot water bottle, the height of the water level is mainly indicated by the float ball. However, the shortcoming is that the water quantity is not accurately displayed, and the display is unclear, and the existing problems that need to be solved are solved. Missing. [New content] In view of this, the creative personality is actively investing in the spirit of research and development and innovation, and finally the silk is extracted, and the water level side device is provided. ▲The new technical solution of the shed problem and the previous technology of the dragon are: There are a plurality of _ sensors on the outside of the Rong II, each of which has a capacitive touch and a sensor module. Connection, in order to detect the change of the water level inside the valley H. When the conductive object (water) is close to _ sense=, the capacitance value increases, the system capacitance value also increases, and the micro, a plus and the induction change group determine the change of the capacitance value. For analysis, when the water level change value is greater than, no change or less than the set value, when it is greater than or less than, it is transmitted to the micro-processing n, and when there is no change, the signal is slightly sent to the micro-device, and the microprocessor receives the signal. That is, the command is given to the control unit, and the control unit has a lot of _, for example, the LED indicator is turned off, off, or turned on as the level of the water level, or based on the water level, low, and , *heating, to prevent the situation of the wire, or to notify the hydration device to make the stalk action material when the water is low, and the improvement in efficacy is the main purpose. The above water level_device, the +: further includes the sensitivity of the plurality of Pad sensors that can be adjusted as a pre-cleaner. [Embodiment] In order to make the professionals who are familiar with the technology familiar with the technology, it is easy to deeply understand the miscellaneous benefits that can be achieved by the creation of the content, and the specific examples, together with the drawings, are described as follows: - The water level is set to gamma, please refer to the figure - figure: This is the circuit control flow of the creation. The water level_module includes: power supply 1, microprocessor 2, pad sensor 3, sensing module 4, trimmer 5, 丄e D indicator 6; mainly in: the container 10 is provided with a plurality of # on the outside And the lower-arranged _ sensor 3' each-Pad_i|3 system is connected to the sensing module 4 by a capacitive touch method; the water level inside the sensing container 变化 changes when the conductive object (water) is close to The pad sensor is 3 g. As the capacitance increases, the system capacitance value also increases 'small capacitance increase, and the ship group 4 detects the capacitance value change' for analysis. The handle is recorded as a button, no change or less than When the value is set, the signal is sent to the microprocessor 2 when it is greater than or small, and the signal is not transmitted to the microprocessor 2 when there is no change. The microprocessor 2 receives the signal and sends a command to the control unit, as shown in the figure. The control unit is the 匕ED indicator lamp 6. The microprocessor 2 notifies the LED indicator 6 to be turned off or on, as the display of the water level, the trimmer 5 can adjust the sensitivity of the plurality of pad sensors 3 as a Wei before the correction user. The water level detecting device provided by the above-mentioned creation is, besides the LED indicator 6, can also be a supplemental water supply device, and the microprocessor 2 notifies the heater to heat or not according to the south and low of the water level. '卩丨止^烧崎形 occurs, or when the water level is low, the microprocessor 2 notifies the hydration device to do the hydration action. The creation of the above-mentioned devices is based on the creation of a water level detecting device, which is used in practical applications: respects "months refer to the first and third figures: the creation of the water level changes Unchanged control flow chart. 1. Start the power supply; 1. Initialize the system and I/O; 3. Load the factory calibration value of the pad; 4. Read the signal of the sensing module; 5. Filter the noise; 6. Change the value; 'Correct water level height; No, the output water level indicates L ED. Please refer to the fourth, fifth and sixth figures: a schematic diagram of the creation of high, medium and low water levels. When the pad sensor 3 senses that the water level is lowered or raised, the signal is sent to the sensing module 4, and then the sensing module 4 determines whether the value has changed, and then transmits the signal to the microprocessor 2 for commanding the numbering action' Then inform the L ED indicator 6 to turn off or turn on, as the user who displays the water level. In view of the above, the creation department provides a water level detecting device.