201103058 六、發明說明: 【發明所屬之技術領域】 本發明係有關於洗衣機,尤其更有關於洗衣機的開關 裝置。 【先前技術】 適當的衣著是最能夠襯托出人們外在表象的添加物, 而衣服之更換與定期之洗滌更是無比重要,也因此,自從 洗衣機被發明後,發展至今,儼然已成為每個家庭中必要 的成員之一。 如第一圖所示,為一般洗衣機的外觀立體示意圖。傳 統之洗衣機’係藉由複數機械式按鍵來進行洗衣行程之設 定’並可於設定後,由一顯示螢幕上查看所設定之洗衣行 程。然而’傳統的機械式按鍵實具有使用上之缺憾,例如 ’該類按鍵係為機械式結構,故於操作時,定會發出些微 按鍵聲響。也因此’該技術領域中之研發人員,係投入許 多資金研發如台灣專利案號M341887之減音按鍵結構,希 冀將操作該類機械式按鍵時所發出之聲響降到最低。 再者’ s玄類按鍵係為機械式之結構,故每每操作時, 皆會造成元件些微之磨損,故經長時間之使用,易造成按 鍵之故障或毀壞,甚至可能因元件結構之改變,而影響輸 入控制訊號之產生與傳遞。 除了上述缺憾之外’當该類機械式按鍵運用於洗衣機 上時’係更需注意防水性之問題’避免因滲水而造成洗衣 機按鍵之短路。因此,近來洗衣機的市場係投入相當程度 201103058 本’企圖以觸控式按鍵代替傳統機械式之按鍵, 進而改善上述之缺點。 :隹肖目前較常採用觸控式按鍵之電子裝置如 動電洁、電腦螢幕或自動提款機等不同之處,在於洗衣: 所在之環境’較不適合以觸控式按鍵來實現作業。: 控式按鍵主要係透過物體觸發觸控面板後,得到一電位差 =依^位差來·被觸發之位置,或被觸發之按鍵為 2專。然而洗衣機之放置處通常在於溫差變化較大之室外 2間,或是澄氣較重之浴室等,再者,洗衣機本身即 生水漬或積水等問題。而因受到眾多外 :子;按鍵來實現洗衣機之輸入,並不如上= 電子裝置來得容易。 有鑑於此,本發明人係潛心研究,據以研發出一 =衣機之觸控裝置,以及該觸控裝置所使用之誤觸排 I牙、万法。 【發明内容】 本發明之主要目的’在於提供一種洗衣機的觸控裝置 及其使用之關排除方法,係可明控式開 開關,並藉由感應可導電之水潰存在,㈣因環境影響 1 發生之誤觸。 為達上述目的,本發明係依偵測電路之觸發來偵測洗 衣機所在環境之環境因素’藉以更新内部之—環境參數, 调整觸控式開關導通之門檻值’並且,依觸控式開關被觸 發之方式,以及觸發之時間長短,判斷係為正常觸發或為 201103058 誤觸,並於排除誤觸可能之後’確保洗衣機仍能正常運作 【實施方式】 茲就本發明之一較佳實施例,配合圖式,詳細說明如 後。 首請參閱第一圖’為本發明之一較佳具體實施例之具 有觸控裝置之洗衣機外觀示意圖。如圖所示,本發明之觸 控裝置20,係設置於一洗衣機1之上,並且具有複數觸控 按鍵區塊21及複數顯示區塊22。主要係令使用者觸碰該複 數觸控按鍵區塊21藉以觸發開關,並於該顯示區塊22上, 查看透過該複數觸控按鍵區塊21所輸入設定之一洗衣行程 〇 第二圖所示者,為本發明之一較佳具體實施例之觸控 面板示意圖。該觸控裝置20内係具有一觸控面板3〇,該面 板30係由複數觸控開關31所組成,較佳者 容式或電限式之觸控開關31,但不以此為限3 = 說明’將以電容式觸控開,並簡稱該開關31為例,加以 說明。 於該複數開關31之周圍,設置有複數偵測電路32,係 可於水潰覆蓋該複數觸控按鍵區塊21,誘發導電而觸發該 複數開關31時,偵測水潰之存在,藉以防止該複數開關31 被意外觸發。而當該複數開關31經使用者之正常使用而被 觸發時,係透過與§亥複數開關31電性連接之複數觸控資料 線33,將觸發後所產生之電氣訊號,傳送至一微處理器( 201103058 參考第三圖中之34)做進一步之判斷與處理,最後輸出一 、,過處理之數位訊號。其中,若使用上述之電容式觸控開 關時,因由水潰誘發導電所產生之一電容值,係比正常觸 發(例如使用手指)所產生之電容值來得低,且若該觸控 按鍵區塊21被水潰覆蓋,則該複數開關31 。再者,若該複數開_水潰所覆蓋,則溼 會有所改變,進而影響觸發所產生之電容值。因此,該摘 •測電路即可透過該些特性,偵測水潰之存在。 接著請參閱第三圖,於第二圖中所示之該觸控面板3〇 ,係設置於一支撐面板23及一功能提示面板24之間。該支 撐面板23上係設置有該複數觸控按鍵區塊21及該複數顯示 區塊22,而該功能提示面板24上則於對應該複數觸控按鍵 區塊21及該複數顯示區塊22之位置上,設置有提示功能之 文字。例如,於對應該複數觸控按鍵區塊21之位置上設置 ▲有「開啟/暫停」、「洗衣」、「脫水」、「風乾」等功 >能提示文字;而於對應該複數顯示區塊22之位置上,設置 有「三分鐘」、「五分鐘」、「高水位」、「低水位」等 功能提示文字。其中,該功能提示面板24係可為一層具導 電性之玻璃層或壓克力層,主要令該複數開關31不^露於 外,無法直接碰觸,但亦不影響該複數開關31被觸發誘電 而導通。但此僅為一較佳之具體實例,不可以此為限。 s玄觸控面板30,係透過該複數觸控資料線33及該微處 理器34 ’電性連接至-顯示面板25上之複數顯示資料線 251 。係可將該微處理器34處理後所輸出之數位訊號,傳 201103058 送至该顯示面板25上之複數顯示模組4中顯示,令使用者 可透過該支撐面板23上之該複數顯示區塊22,查看該複數 顯示模組4上所顯示之資料是否正確。 如上所述,係為本發明之該觸控裝置2〇的結構特徵, 而下面將依第四圖及第五圓所示之流程圖,說明以該觸控 裝置20進行之使用方法及誤觸之排除方法。首先請參閱第 四圖,為本發明之一較佳具體實施例之流程圖。當該洗衣 機1開機後,該觸控裝置20上之該複數開關31,係等待接 收外部之觸發而輸出控制訊號。當該複數開關31之一被觸 發時(步驟S40),該觸控裝置2〇首先判斷該觸發之動作是 否成功?(步驟S42),若不成功(例如由小動物,或其它導 電性不佳之帶電物體由該觸控裝置2〇上經過而誤觸該複數 觸控按鍵區塊21),則不輸出任何控制訊號。 而若於該步驟S42中判斷觸發動作成功,則接著判斷 该被觸發之開關3卜是否被持續地觸發?(步驟S44)。若否 ^則依該被觸發開關31之功能輸出對應之控制訊號(步驟 你);而若該開關31係被持續觸發(例如被水潰覆蓋誘發 電或有導電性佳之物質放置於該觸控按鍵區塊之上 拉令該開關31持續導通),即視為異常’係於調整該觸控 裝置20之一環境參數(步驟⑽),藉以排除異常之狀況後 ’回到該步驟S40,等待下一次觸發動作。 而依據第四圖之流程圖所做之說明,係更可接著參閱 圖A B、C,做更烊盡之描述,令貴審查委員可更 加清楚地瞭解本發明之技術特徵。 201103058 第五圖A係為本發明之—較佳具體實施例之觸發流程圖。 首先’ 5亥觸控裂置20係先偵測該洗衣機1所在之環境 邱並藉以蚊該環境參數(步驟S5Q)之預設值後,等待外 ;觸發動作。當使用者碰觸該複數觸控按鍵區塊21,導 =亥複數開關31被觸發時(步驟S52),該觸控裝置2〇係分 析该被觸發之開關31上之—φ ,止 “ 電各值(步驟S54),若該開關 、卜導電性較高之物體(例如手指)所觸發,使該電 :值超過-定的門播值,例如該環境參數時,該次觸發即 =視為有效。藉此’用以判斷該開關以否被正常地觸 .步驟S56) ’若分析後判斷並非為正常觸發(被導電性 不佳之物體,例如衣架或洗衣藍所碰觸,因而電容值不足 丄’則該觸控裳置20不做任何動作;而若判斷該開關”係 為正常觸發’則接著進行第五圖B中之步驟。 ,圖B為本發明之一較佳具體實施例之啟動流程圖 行凡上述第五圖A中之該步驟S56後,若判斷該開關 甘係被正常觸發’則繼續進行步驟S6() : #彳斷該洗衣機1 疋否為開機狀態。若該洗衣機】確已開機,則接著進行第 五圖C中之步驟(如下詳述);而若該洗衣機1尚未開機 ,則此時,該觸控裝置20僅接受電源開關之觸發。 於該步驟S60中確認該洗衣機丨尚未開機後,係接著 判斷該被觸發之開關31是否為—電源開關(步驟S62),若 並非為電源開關,則該被觸發之開關31所發出之控制訊號 將不被處理(步驟S68)。而若經判斷後,4定該被觸發之 開關31為電源開關時,則需進一步判斷該開關31是否被持 201103058 續觸發?(步驟S64),即,該觸控按鍵區塊21是否被觸碰著 不放。並且’於3亥開關31被持續觸發一段時間之後,發出 控制訊號,使該洗衣機1執行開機的動作(步驟S66)。而 最後於該步驟S66或該步驟S68結束後,回到上述第五圖 A中之該步驟S52 ,等待下一次的觸發。其中,該步驟 S64之目的係為防止該觸控裝置2〇上之該電源開關,因遭 誤觸而使該洗衣機1意外開機。如此一來,不但耗電,且 若誤觸次數過多,可能令該洗衣機丨之故障率提高。故可 設定該電源開關需被持續觸發兩秒或三秒以上之時間,才 可令該洗衣機1開機或關機,但此僅為一具體之實例,不 應以此為限。 第五圖C則為本發明之一較佳具體實施例之實施流程 圖。當於上面述及之該步驟S6〇中確定該洗衣機ι確已開 機後,即進行第五圖C中之步驟。首先,判斷該開關⑽ 否破持續地觸發?(步驟S7G),若該開關31並沒有被持續地 表不該開關31係被使用者正常之操作(只碰觸該觸 控按鍵區塊21 —下播陥妨叫、 ^ m 錢即放開)。因此,將正常執行該開 s52,等待二能(步請),並於執行後,回到該步驟 —人發。而若該開關31被持續地觸發,表示 SI雜2觸發不正常’係進一步透過判斷該偵測電路32201103058 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a washing machine, and more particularly to a switch device for a washing machine. [Prior Art] Appropriate clothing is the most able to set off the appearance of people's external appearance, and the replacement of clothes and regular washing is even more important. Therefore, since the washing machine was invented, it has become a One of the necessary members of the family. As shown in the first figure, it is a stereoscopic view of the appearance of a general washing machine. The conventional washing machine 'sets the laundry stroke by a plurality of mechanical buttons' and can be set to view the set laundry stroke on a display screen. However, the traditional mechanical buttons have the drawbacks of use. For example, the buttons are mechanical structures, so when the operation is performed, a slight button sound will be emitted. Therefore, the research and development personnel in the technical field have invested a lot of money to develop a sound reduction button structure such as Taiwan Patent No. M341887, and hope to minimize the sound generated when operating such mechanical buttons. Furthermore, the 's metaphysical button system is a mechanical structure, so each time it is operated, it will cause some slight wear and tear of the components. Therefore, after a long time of use, the button may be damaged or destroyed, or even due to changes in the component structure. It affects the generation and transmission of input control signals. In addition to the above-mentioned shortcomings, when this type of mechanical button is applied to a washing machine, it is more important to pay attention to the problem of water repellency to avoid short circuit of the button of the washing machine due to water seepage. Therefore, the market for washing machines has recently been invested in a considerable degree. 201103058 This attempt to replace the traditional mechanical buttons with touch-sensitive buttons, thereby improving the above disadvantages. : The difference between the current electronic devices that use touch buttons, such as power-on, computer screens, or cash dispensers, is that laundry: the environment is less suitable for touch-based buttons. : The control button mainly triggers the touch panel through the object, and obtains a potential difference = the position to be triggered according to the position difference, or the button to be triggered is 2 special. However, the place where the washing machine is placed is usually in an outdoor room with a large temperature difference, or a bathroom with a heavy air, and the washing machine itself has problems such as water stains or water accumulation. And because of the many external: sub-button; to achieve the input of the washing machine, not as above = electronic device is easy. In view of this, the present inventors have made intensive research to develop a touch device for a clothing machine, and the mistouching of the tooth device and the method used by the touch device. SUMMARY OF THE INVENTION The main object of the present invention is to provide a touch device for a washing machine and a method for eliminating the same, which can be opened and controlled by an inductively controlled water, and (4) due to environmental influences. Mistakes occurred. In order to achieve the above object, the present invention detects the environmental factors of the environment in which the washing machine is located according to the trigger of the detecting circuit, so as to update the internal environment parameter, adjust the threshold value of the touch switch to be turned on, and according to the touch switch The manner of triggering, and the length of the triggering, the judgment is a normal trigger or a false touch of 201103058, and after the possibility of eliminating the false touch, it is ensured that the washing machine can still operate normally. [Embodiment] In a preferred embodiment of the present invention, With the schema, the details are as follows. Referring first to the first drawing, a schematic view of a washing machine having a touch device according to a preferred embodiment of the present invention is shown. As shown in the figure, the touch control device 20 of the present invention is disposed on a washing machine 1 and has a plurality of touch button blocks 21 and a plurality of display blocks 22. Mainly, the user touches the plurality of touch button blocks 21 to trigger the switch, and on the display block 22, view one of the settings of the laundry stroke input through the plurality of touch button blocks 21, the second figure The present invention is a schematic diagram of a touch panel according to a preferred embodiment of the present invention. The touch device 20 has a touch panel 3, which is composed of a plurality of touch switches 31, preferably a capacitive or electrically limited touch switch 31, but not limited thereto. = Description 'It will be opened with capacitive touch, and the switch 31 will be referred to as an example for illustration. A plurality of detecting circuits 32 are disposed around the plurality of switches 31 to detect the presence of water collapse when the plurality of touch button blocks 21 are covered by the water to induce conduction and trigger the plurality of switches 31. The complex switch 31 is accidentally triggered. When the plurality of switches 31 are triggered by the normal use of the user, the electrical signals generated after the triggering are transmitted to a micro-processing through the plurality of touch data lines 33 electrically connected to the § hai complex switch 31. The device (201103058 refers to 34 in the third figure) for further judgment and processing, and finally outputs a digital signal that has been processed. Wherein, when the capacitive touch switch described above is used, a capacitance value generated by the water-induced conduction is lower than a capacitance generated by a normal trigger (for example, using a finger), and if the touch button block is used 21 is covered by water collapse, then the plurality of switches 31. Furthermore, if the complex open _ water collapse is covered, the wetness will change, which in turn affects the capacitance value generated by the trigger. Therefore, the sampling circuit can detect the existence of water collapse through the characteristics. Referring to the third figure, the touch panel 3A shown in the second figure is disposed between a support panel 23 and a function prompt panel 24. The plurality of touch button blocks 21 and the plurality of display blocks 22 are disposed on the support panel 23, and the function prompting panel 24 is corresponding to the plurality of touch button blocks 21 and the plurality of display blocks 22 In the location, the text with the prompt function is set. For example, in the position corresponding to the plurality of touch button blocks 21, ▲ "open/pause", "laundry", "dehydration", "drying", etc. can be prompted for text; and corresponding to the plurality of display areas At the position of block 22, function prompt characters such as "three minutes", "five minutes", "high water level", and "low water level" are set. The function prompting panel 24 can be a layer of conductive glass or acrylic layer, so that the plurality of switches 31 are not exposed and cannot be directly touched, but the complex switch 31 is not affected. Inducing electricity and turning on. However, this is only a preferred embodiment and cannot be limited thereto. The sinuous touch panel 30 is electrically connected to the plurality of display data lines 251 on the display panel 25 through the plurality of touch data lines 33 and the microprocessor 34'. The digital signal outputted by the microprocessor 34 can be sent to the plurality of display modules 4 on the display panel 25 through the 201103058, so that the user can display the plurality of blocks through the plurality of display panels 23. 22. Check whether the data displayed on the complex display module 4 is correct. As described above, it is a structural feature of the touch device 2 of the present invention, and the method of using the touch device 20 and the false touch will be described below according to the flowcharts shown in the fourth and fifth circles. The method of elimination. First, please refer to FIG. 4, which is a flow chart of a preferred embodiment of the present invention. When the washing machine 1 is turned on, the plurality of switches 31 on the touch device 20 wait for receiving an external trigger to output a control signal. When one of the plurality of switches 31 is triggered (step S40), the touch device 2 first determines whether the triggering action is successful. (Step S42), if it is unsuccessful (for example, by a small animal, or other electrically conductive object with poor conductivity being passed by the touch device 2 and accidentally touching the plurality of touch button blocks 21), no control signal is output. If it is determined in the step S42 that the triggering action is successful, then it is determined whether the triggered switch 3 is continuously triggered. (Step S44). If not, the corresponding control signal is output according to the function of the triggered switch 31 (step you); and if the switch 31 is continuously triggered (for example, a substance that is induced by water collapse or electrically conductive is placed on the touch) Pulling the switch 31 on the button block continuously turns on, that is, the abnormality is determined by adjusting an environmental parameter of the touch device 20 (step (10)), thereby eliminating the abnormal condition and then returning to the step S40, waiting The next action is triggered. The descriptions made in accordance with the flow chart of the fourth figure can be further described with reference to Figures A B and C, so that the reviewer can more clearly understand the technical features of the present invention. 201103058 FIG. 5A is a trigger flow diagram of a preferred embodiment of the present invention. First, the '5-Hai touch splitting 20 system first detects the environment in which the washing machine 1 is located. After the preset value of the environmental parameter (step S5Q), the mosquito waits for the outside; triggers the action. When the user touches the plurality of touch button blocks 21 and the switch = hai complex switch 31 is triggered (step S52), the touch device 2 analyzes the -φ on the triggered switch 31, and stops the "electricity" Each value (step S54), if the switch, the object with high conductivity (such as a finger) is triggered, and the value of the electricity exceeds a predetermined threshold value, for example, the environmental parameter, the trigger is = In order to be effective, it is used to determine whether the switch is normally touched. Step S56) 'If the analysis is judged to be not a normal trigger (the object is touched by a poorly conductive object such as a hanger or a laundry blue, and thus the capacitance value If the switch is "normal triggering", then the steps in the fifth figure B are performed. Figure B is a preferred embodiment of the present invention. After the step S56 in the fifth figure A above, if it is judged that the switch is normally triggered, then proceed to step S6(): #彳断 The washing machine 1 is turned on. If The washing machine is indeed turned on, then proceed to the steps in Figure 5 (Figure 5) If the washing machine 1 has not been turned on, at this time, the touch device 20 only accepts the trigger of the power switch. After confirming that the washing machine has not been turned on in step S60, the switch is subsequently determined. 31 is a power switch (step S62), if it is not a power switch, the control signal sent by the triggered switch 31 will not be processed (step S68), and if judged, 4 is triggered. When the switch 31 is a power switch, it is further determined whether the switch 31 is continuously triggered by the 201103058 (step S64), that is, whether the touch button block 21 is touched or not. After being triggered for a period of time, the control signal is sent to cause the washing machine 1 to perform the power-on action (step S66), and finally, after the step S66 or the step S68 is finished, the step S52 in the fifth figure A is returned. Waiting for the next trigger. The purpose of the step S64 is to prevent the power switch of the touch device 2 from being accidentally turned on due to the accidental touch. Thus, not only power consumption, but also If the number of accidental touches is too high, the failure rate of the washing machine may increase. Therefore, the power switch may be continuously triggered for two or more seconds to enable the washing machine 1 to be turned on or off, but this is only a specific The example of the present invention is not limited thereto. The fifth embodiment C is a flowchart of the implementation of a preferred embodiment of the present invention. When it is determined in the step S6 上面 described above that the washing machine has been turned on, That is, the steps in the fifth figure C are performed. First, it is judged whether the switch (10) is continuously triggered? (step S7G), if the switch 31 is not continuously indicated that the switch 31 is normally operated by the user (only touch Touch the touch button block 21 - the next broadcast will be called, ^ m money will be released). Therefore, the opening s52 will be executed normally, waiting for the second energy (step request), and after execution, returning to the step - human hair. If the switch 31 is continuously triggered, it indicates that the SI miscellaneous 2 trigger is not normal, and the detection circuit 32 is further determined by the detection.
Li ^係為何種情況T之觸發不正常(步驟S74)。 μ開關31之不正常觸發, 六圖A及第六圖以要具有兩種狀況,係如第 測電路32是否被 若。^该步驟S74係匈斷該損 务右否’則表示如第六圓A t所示, 201103058 進行正常觸發之媒介(例如圖中之手掌)持續地放 =複數觸控按鍵區塊21上,因而觸發該複數開關31持 而因該媒介係可進行正常之觸發,故觸發該複數 开、彳所產生之電容值係與正常觸發時所產生之電容值 近故不會觸發戎偵測電路32,該偵測電路W判斷並非 貝覆蓋如此一來,該被持續觸發之開關所發出之 :制訊號’將不被執行(步驟S76),並接著回到該步驟 _ 2 ,等待下一次的觸發。 而若㈣步驟S74 + ’判斷該偵測電路&已被觸發, 即表示該開關3!觸發不正常之原因,為第六圖b+所示者 係由水潰覆蓋於該複數觸控按鍵區塊21上,因而導雷# =該複數開一來,即需重新摘測該洗衣機、: 在之環境’並藉以重新設定該環境參數(步驟哪。主 =將該些水潰當作環境时之—部份,“改變該複數 ㈣31被觸發時,電容值所需通過之該門播值 且於該步驟S78後’該些水潰不會觸發該複數開關31,: ▲不會影響使用者觸發其它功能之該開關31。而最後,於 »亥步驟S78執行完畢後,再回到該步驟S52,等待下一欠 觸發動作之發生,直至該洗衣機!闕機為止。 久 以上所述僅為本發明之較佳具體實例’非因此即揭限 本發明之專利範圍,故舉凡運用本發明内容所為之等效變 匕,均同理皆包含於本發明之範圍内,合予陳明。In the case of Li ^, the triggering of T is not normal (step S74). The abnormal switch of the μ switch 31, the six figures A and the sixth figure are to have two conditions, such as whether the first circuit 32 is used. ^ This step S74 is to stop the loss of the right or not, then it means that as shown in the sixth circle A t, the medium that is normally triggered (for example, the palm of the figure) is continuously placed = the plurality of touch button blocks 21, Therefore, the multi-function switch 31 is triggered and the medium system can perform normal triggering. Therefore, the capacitance value generated by the triggering of the plurality of turns and turns is close to the capacitance value generated during the normal triggering, so that the detecting circuit 32 is not triggered. The detecting circuit W judges that the cover is not covered, and the switch that is continuously triggered is issued: the signal 'will not be executed (step S76), and then returns to the step _ 2 to wait for the next trigger . If (4) step S74 + 'determines that the detection circuit & has been triggered, it means that the switch 3! triggers the abnormal reason, and the figure shown in the sixth figure b+ is covered by the water to the complex touch button area. On block 21, and thus the lead ##, the plural is opened, that is, the washing machine needs to be re-examined, and the environmental parameters are re-set in the environment (steps. Main = when the water is used as the environment) Partially, "When the change of the complex number (4) 31 is triggered, the gate value of the capacitance value is required to pass and after the step S78, the water collapse does not trigger the complex switch 31, : ▲ does not affect the user The switch 31 for triggering other functions is finally turned on. Finally, after the execution of the step S78 is completed, the process returns to the step S52, and waits for the next under-trigger action to occur until the washing machine is down! The preferred embodiments of the present invention are not intended to limit the scope of the present invention, and the equivalents of the present invention are all included in the scope of the present invention.
【圖式簡單說明J 第―圖.係本發明之-較佳具體實施例之具有觸控裝置之 201103058 洗衣機外觀示意圖。 第二圖係本發明之-較佳具體實施例之觸控面板示意圖 第三圖係、本發明之-較佳具體實施例之觸控裝置結構示 意圖。 第四®係本發明之一較佳具體實施例之流程圖。 第五圖A係本發明之-較佳具體實施例之觸發流程圖。 第五圖B係本發明之—較佳具體實施例之啟動流程圖。 第五圖C係本發明之一較佳具體實施例之實施流程圖。· 第六圖A係本發明之-較佳具體實施例之誤觸示意圖。 第六圖B係本發明之另—較佳具體實施例之誤觸示意圖。 【主要元件符號說明】 1…洗衣機 22…顯示區塊 25…顯示面板 32…偵測電路BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a washing machine having a touch device according to a preferred embodiment of the present invention. The second drawing is a schematic view of a touch panel of a preferred embodiment of the present invention. The third drawing is a schematic view of a touch device according to a preferred embodiment of the present invention. The fourth® is a flow chart of a preferred embodiment of the present invention. Figure 5A is a trigger flow diagram of a preferred embodiment of the present invention. Figure 5B is a startup flow diagram of a preferred embodiment of the present invention. Figure 5 is a flow chart showing an implementation of a preferred embodiment of the present invention. • Figure 6 is a schematic representation of the mis-touch of the preferred embodiment of the present invention. Figure 6B is a schematic illustration of a misunderstanding of another preferred embodiment of the present invention. [Description of main component symbols] 1...Washing machine 22...Display block 25...Display panel 32...Detection circuit
20…觸控裝置21…觸控按鍵區塊 23…支撐面板24…功能提示面板 251…顯示資料線 3〇…觸控面板31…觸控開關 33…觸控資料線 34…微處理器 4…顯示模組 S40〜S48、S50〜S58、S60〜S68、S70〜S78 …步騍 1220...touch device 21...touch button block 23...support panel 24...function prompt panel 251...display data line 3〇...touch panel 31...touch switch 33...touch data line 34...microprocessor 4... Display modules S40 to S48, S50 to S58, S60 to S68, S70 to S78 ... step 12